CN214444918U - Processing feeder - Google Patents

Abstract

The utility model discloses a processing feeder relates to the technical field of feeders, and is provided with a vibration conveying device, a lifting conveying device and an inclination conveying device, wherein a metal piece is conveyed by the vibration conveying device, the lifting conveying device and the inclination conveying device in sequence; the arrangement of the lifting conveying device and the inclination angle conveying device enables the metal pieces to be conveyed into each accommodating interval in a one-to-one correspondence mode, the interval between every two adjacent metal pieces can be always kept constant, the trouble of manually placing the metal pieces one by one is avoided, and the machining efficiency of the cylindrical metal pieces is effectively improved; the setting of arc anticreep lid has avoided the cylinder metalwork directly to deviate from when conveying on sharp material rail, has guaranteed the material loading continuation and the conveying reliability of cylinder metalwork.

Description

Processing feeder

Technical Field

The utility model relates to a feeder field especially relates to a processing feeder.

Background

The processing feeder is used for conveying materials, so that the materials can be conveyed at a preset moving speed and a preset placing position, the trouble of manual one-by-one feeding is avoided, and the processing efficiency is effectively improved.

However, the existing processing and feeding machine often encounters the following technical problems in the process of conveying materials:

1. for cylindrical metal pieces, the existing processing and feeding machine generally cannot convey the cylindrical metal pieces orderly, the cylindrical metal pieces still need to be manually placed on a conveying belt one by one according to a preset direction for conveying, and in order to ensure that the interval between two adjacent cylindrical metal pieces is not too large, the cylindrical metal pieces are usually positioned and placed by means of a jig, so that the processing rate of the cylindrical metal pieces is greatly reduced due to extremely complex operation;

2. in addition, there is some machining pay-off chances to use the vibration dish to vibrate the pay-off to the cylinder metalwork, however, because the surface of cylinder metalwork is comparatively smooth, therefore at the in-process of vibration pay-off, the cylinder metalwork rolls off from the material rail directly very easily, can't obtain predetermined pay-off effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, provide a processing feeder, should not only solve and need artifically carry out the technical problem who puts the conveying one by one to the cylinder metalwork, can solve the cylinder metalwork moreover and roll the technical problem who deviates from the material roller easily.

The purpose of the utility model is realized through the following technical scheme:

a converting feeder, comprising:

the vibration conveying device comprises a vibration disc, a linear material rail, an arc-shaped anti-falling cover, a limiting cylinder and a profiling push plate, wherein the vibration disc is used for feeding metal pieces onto the linear material rail in a vibration mode, the arc-shaped anti-falling cover is arranged on the linear material rail, a blanking hole is formed in the bottom of the linear material rail, the limiting cylinder is used for driving the profiling push plate to slide relative to the linear material rail, and the profiling push plate is used for mutually supporting the metal pieces;

the lifting conveying device comprises a fixing frame, a guide rail, a lifting seat, a profiling supporting plate, a screw rod and a lifting motor, wherein the guide rail is arranged on the fixing frame, the lifting seat is used for moving towards the direction close to or far away from the blanking hole along the guide rail, the profiling supporting plate is arranged on the lifting seat and is used for accommodating metal pieces, the screw rod is in threaded connection with the lifting seat, and a rotating shaft of the lifting motor is connected with the screw rod; and

the dip angle conveying device comprises a dip angle support, a dip angle conveying belt, a transposition air cylinder, a transposition push rod and a plurality of right-angle baffle plates, wherein the dip angle conveying belt is rotatably arranged on the dip angle support, the right-angle baffle plates are respectively arranged on the dip angle conveying belt, an accommodating interval is arranged between every two adjacent right-angle baffle plates, the transposition air cylinder is in driving connection with the transposition push rod, and the transposition push rod is used for propping a metal piece on the profiling supporting plate to move to one of the accommodating intervals.

In one embodiment, the processing and feeding machine further comprises a belt conveying device, the belt conveying device comprises an unloading slide way, an unloading protrusion part, a transverse conveying frame and a transverse conveying belt, the unloading slide way is provided with an unloading avoiding groove, the unloading protrusion part is arranged on a groove wall of the unloading avoiding groove, the unloading slide way is connected with the transverse conveying frame, and the transverse conveying belt is rotatably arranged on the transverse conveying frame.

In one embodiment, the belt conveyer further comprises a limiting baffle, a guiding baffle rod and an in-line baffle which are sequentially connected, the limiting baffle is arranged on the transverse conveying frame, and the limiting baffle, the guiding baffle rod and the in-line baffle are all used for mutually propping against a metal piece.

In one embodiment, the belt conveyer further comprises a transverse driving motor, the transverse driving motor is mounted on the transverse conveying frame, and the transverse driving motor is in driving connection with the transverse conveying belt.

In one embodiment, the arc-shaped anti-dropping cover and the linear material rail are of an integrally formed structure.

In one embodiment, the contoured push plate has a circular cross-section.

In one embodiment, the tilt angle transmission device further comprises a tilt angle driving motor, and a driving shaft of the tilt angle driving motor is connected with the tilt angle transmission belt.

In one embodiment, a circular push plate is arranged on the transposition push rod and used for mutually propping against a metal piece.

In one embodiment, the arc-shaped anti-dropping cover is provided with a contact arc surface.

In one embodiment, a rounded portion is disposed on the right-angle striker plate.

Compared with the prior art, the utility model discloses advantage and beneficial effect below having at least:

the utility model discloses a processing feeder relates to the technical field of feeders, and is provided with a vibration conveying device, a lifting conveying device and an inclination conveying device, wherein a metal piece is conveyed by the vibration conveying device, the lifting conveying device and the inclination conveying device in sequence; the arrangement of the lifting conveying device and the inclination angle conveying device enables the metal pieces to be conveyed into each accommodating interval in a one-to-one correspondence mode, the interval between every two adjacent metal pieces can be always kept constant, the trouble of manually placing the metal pieces one by one is avoided, and the machining efficiency of the cylindrical metal pieces is effectively improved; the setting of arc anticreep lid has avoided the cylinder metalwork directly to deviate from when conveying on sharp material rail, has guaranteed the material loading continuation and the conveying reliability of cylinder metalwork.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a processing and feeding machine according to an embodiment of the present invention;

fig. 2 is a schematic view of a part of the structure of a processing and feeding machine according to an embodiment of the present invention;

fig. 3 is a schematic structural view of another angle of the processing and feeding machine according to an embodiment of the present invention;

fig. 4 is an enlarged schematic view at a of fig. 2.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, the machining feeder 10 includes a vibration conveyer 100, a lifting conveyer 200, and an inclined conveyer 300, and the metal pieces are sequentially conveyed by the vibration conveyer, the lifting conveyer, and the inclined conveyer.

The machining feeder 10 is used for conveying cylindrical metal pieces; the vibration conveying device 100 is used for performing vibration conveying on the metal pieces, so that the metal pieces can be conveyed one by one along a straight line; the lifting conveying device 200 is used for lifting and conveying metal pieces; the inclined conveyor 300 is used for conveying metal pieces at a certain angle.

Referring to fig. 1 and 2, the vibration conveying device 100 includes a vibration disc 110, a linear material rail 120, an arc-shaped anti-falling cover 130, a limiting cylinder 140 and a profiling push plate 150, wherein the vibration disc 110 is used for vibrating and feeding the metal piece onto the linear material rail 120, the arc-shaped anti-falling cover 130 is disposed on the linear material rail 120, a blanking hole 160 is formed in the bottom of the linear material rail 120, the limiting cylinder 140 is used for driving the profiling push plate 150 to slide relative to the linear material rail 120, and the profiling push plate 150 is used for supporting the metal piece.

It should be noted that the vibrating disk 110 is used for vibrating and feeding the metal piece onto the linear material rail 120; the linear material rail 120 is used for guiding the metal pieces to be conveyed along a straight line; the arc-shaped anti-falling cover 130 is used for preventing the metal pieces in the linear material rail 120 from falling off, so that the metal pieces can be smoothly conveyed, and the metal piece conveying reliability of the equipment is improved; after moving to a predetermined position, the metal parts on the linear material rail 120 fall onto the lifting and conveying device 200 through the material dropping hole 160, and then the lifting and conveying device 200 continues to convey the metal parts.

It should be added that, in order to ensure that the metal parts can be dropped onto the lifting and conveying device 200 one by one without being dropped onto the outside of the equipment from the material dropping hole 160 accidentally, after a single metal part is dropped onto the lifting and conveying device 200, the limiting cylinder 140 drives the profiling push plate 150 to move to a predetermined position on the linear material rail 120, so that the rest metal parts cannot move to the material dropping hole 160 along the linear material rail 120 to continue dropping.

Referring to fig. 2 and 3, the lifting and conveying device 200 includes a fixing frame 210, a guide rail 220, a lifting seat 230, a profile supporting plate 240, a screw rod 250 and a lifting motor 260, wherein the guide rail 220 is disposed on the fixing frame 210, the lifting seat 230 is configured to move along the guide rail 220 toward or away from the blanking hole 160, the profile supporting plate 240 is disposed on the lifting seat 230, the profile supporting plate 240 is configured to receive metal parts, the screw rod 250 is screwed with the lifting seat 230, and a rotation shaft of the lifting motor 260 is connected with the screw rod 250.

It should be noted that the fixing frame 210 plays a role of supporting and fixing the guide rail 220; the guide rail 220 plays a role of guiding the lifting base 230 to slide along a predetermined track; the lifting seat 230 is used for driving the profiling supporting plate 240 to move synchronously; the profiling supporting plate 240 is used for bearing and positioning the metal piece blanked from the blanking hole 160, so that the metal piece can move to a preset position in a lifting manner; the screw 250 is used for transmitting the power of the lifting motor 260 to the lifting base 230 so that the lifting base 230 can slide along the guide rail 220; the lifting motor 260 is used for driving the screw 250 to pivot.

Referring to fig. 2 and 3, the inclination angle conveying device 300 includes an inclination angle bracket 310, an inclination angle conveyor belt 320, a transposition cylinder 330, a transposition push rod 340 and a plurality of right-angle striker plates 350, the inclination angle conveyor belt 320 is rotatably disposed on the inclination angle bracket 310, each right-angle striker plate 350 is respectively disposed on the inclination angle conveyor belt 320, an accommodation space 360 is disposed between two adjacent right-angle striker plates 350, the transposition cylinder 330 is in driving connection with the transposition push rod 340, and the transposition push rod 340 is used for supporting a metal piece on the profiling supporting plate 240 to move into one of the accommodation spaces 360.

It should be noted that the tilt bracket 310 functions to support the rotation of the tilt belt 320; the inclination angle conveyor belt 320 is used for driving each right-angle striker plate 350 to synchronously rotate; the receiving space 360 is used for receiving the metal member.

In the practical application process, after the lifting seat 230 drives the metal piece to lift and slide to a predetermined position through the profiling supporting plate 240, the transposition air cylinder 330 inserts the metal piece which is pushed against the profiling supporting plate 240 by driving the transposition push rod 340 into one of the accommodating intervals 360, and then the lifting seat 230 drives the profiling supporting plate 240 to reset so as to convey the rest of the metal pieces on the linear material rail 120; meanwhile, the rotation of the inclined conveyor belt 320 drives the metal pieces in the accommodating spaces 360 to move together, so as to achieve the purpose of conveying the metal pieces.

Referring to fig. 2 and 4, in one embodiment, the processing and feeding machine 10 further includes a belt conveyer 400, the belt conveyer 400 includes a discharge chute 410, a discharge protrusion 420, a transverse conveying frame 430, and a transverse conveying belt 440, the discharge chute 410 is provided with a discharge avoiding groove 450, the discharge protrusion 420 is disposed on a wall of the discharge avoiding groove 450, the discharge chute 410 is connected to the transverse conveying frame 430, and the transverse conveying belt 440 is rotatably disposed on the transverse conveying frame 430.

In practical application, when the inclined conveyor belt 320 rotates, each of the right-angle striker plates 350 is configured to pass through the discharge avoiding groove 450 one by one, and the discharge protrusion 420 is configured to support the metal member in the accommodating space 360, so that the metal member in the accommodating space 360 slides into the discharge chute 410.

Note that the belt conveying device 400 is used for conveying metal members; the discharge chute 410 is used for guiding the metal piece to slide along a preset direction; the discharge avoiding groove 450 provides a moving space for the right-angle striker plate 350, and when the right-angle striker plate 350 passes through the discharge avoiding groove 450, the discharge boss 420 is supported against a part of the metal piece, so that the metal piece cannot be continuously conveyed along the inclined-angle conveyor belt 320; the discharge protrusion 420 is used for supporting the metal pieces in the accommodating space 360, so as to discharge the material from the inclined conveyor belt 320; the transverse conveying frame 430 is used for supporting the transverse conveying belt 440 to rotate; the transverse conveyor belt 440 is used to convey metal pieces that slide off the discharge chute 410.

Referring to fig. 2, in one embodiment, the belt conveyor 400 further includes a limit baffle 460, a guide baffle 470 and an in-line baffle 480 connected in sequence, the limit baffle 460 is disposed on the transverse conveyor 430, and the limit baffle 460, the guide baffle 470 and the in-line baffle 480 are all used for supporting the metal members.

It should be noted that the limiting baffle 460, the guiding baffle 470 and the straight baffle 480 are all used for guiding the metal pieces sliding into the transverse conveyor belt 440 to be conveyed along a predetermined track; in practical application, the metal pieces falling onto the transverse conveying belt 440 gradually approach to the predetermined direction under the limit of the limit baffle 460, then the limit baffle 460 gradually swings the guide metal pieces to the predetermined placing direction, and then the in-line baffle 480 guides the metal pieces already placed in the predetermined direction to be continuously conveyed to the subsequent station.

Referring to fig. 2, in one embodiment, the belt conveyor 400 further includes a transverse driving motor 490, the transverse driving motor 490 is mounted on the transverse conveying frame 430, and the transverse driving motor 490 is drivingly connected to the transverse conveying belt 440.

It should be noted that the transverse driving motor 490 is used for driving the transverse conveying belt 440 to rotate, so as to achieve the purpose of conveying metal pieces.

Referring to fig. 1, in one embodiment, the arc-shaped anti-slip cover 130 and the linear material rail 120 are integrally formed.

It should be noted that, integrated into one piece makes arc anticreep lid 130 and sharp material rail 120 jointly, can prevent to cross the separation of fracture because of joint strength is low excessively to appear between arc anticreep lid 130 and the sharp material rail 120, the fit clearance has been avoided appearing between arc anticreep lid 130 and the sharp material rail 120, arc anticreep lid 130 has been prevented to receive external force vibration and constantly takes place the striking with sharp material rail 120, the damage of each other between sharp material rail 120 and the arc anticreep lid 130 has been avoided, the durability has been improved.

Referring to FIG. 2, in one embodiment, the contoured push plate 150 has a circular cross-section.

It should be noted that the profiling push plate 150 is in a pie shape, and the pie-shaped profiling push plate 150 can be more attached to the cylindrical metal part, so that the profiling push plate 150 can be more stable when pushing the metal part to move.

Referring to fig. 2, in one embodiment, the tilt angle transferring apparatus 300 further includes a tilt angle driving motor 370, and a driving shaft of the tilt angle driving motor 370 is connected to the tilt angle transferring belt 320.

It should be noted that the tilt driving motor 370 is used to provide power to the tilt belt 320, so that the tilt belt 320 can drive the metal member to be conveyed.

Referring to fig. 2, in one embodiment, a circular push plate 380 is disposed on the index push rod 340, and the circular push plate 380 is used for supporting the metal member.

It should be noted that the circular pusher plate 380 is used to hold the metal piece in motion.

Referring to fig. 2, in one embodiment, the arc-shaped anti-slip cover 130 is provided with a contact arc surface 131.

It should be noted that, the contact arc surface 131 is arranged to avoid surface damage caused by stress concentration during collision between the metal member conveyed by vibration and the arc-shaped anti-falling cover 130.

Referring to fig. 4, in one embodiment, a rounded portion 351 is formed on the right-angle striker plate 350.

It should be noted that, the round corner portions 351 are arranged, so that the right-angle striker plate 350 can be attached to the cylindrical metal part more, and the cylindrical metal part can be more stable when moving along with the right-angle striker plate 350.

Compared with the prior art, the utility model discloses advantage and beneficial effect below having at least:

the utility model discloses a processing feeder relates to the technical field of feeders, and is provided with a vibration conveying device, a lifting conveying device and an inclination conveying device, wherein a metal piece is conveyed by the vibration conveying device, the lifting conveying device and the inclination conveying device in sequence; the arrangement of the lifting conveying device and the inclination angle conveying device enables the metal pieces to be conveyed into each accommodating interval in a one-to-one correspondence mode, the interval between every two adjacent metal pieces can be always kept constant, the trouble of manually placing the metal pieces one by one is avoided, and the machining efficiency of the cylindrical metal pieces is effectively improved; the setting of arc anticreep lid has avoided the cylinder metalwork directly to deviate from when conveying on sharp material rail, has guaranteed the material loading continuation and the conveying reliability of cylinder metalwork.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A tooling feeder, comprising:

the vibration conveying device comprises a vibration disc, a linear material rail, an arc-shaped anti-falling cover, a limiting cylinder and a profiling push plate, wherein the vibration disc is used for feeding metal pieces onto the linear material rail in a vibration mode, the arc-shaped anti-falling cover is arranged on the linear material rail, a blanking hole is formed in the bottom of the linear material rail, the limiting cylinder is used for driving the profiling push plate to slide relative to the linear material rail, and the profiling push plate is used for mutually supporting the metal pieces;

the lifting conveying device comprises a fixing frame, a guide rail, a lifting seat, a profiling supporting plate, a screw rod and a lifting motor, wherein the guide rail is arranged on the fixing frame, the lifting seat is used for moving towards the direction close to or far away from the blanking hole along the guide rail, the profiling supporting plate is arranged on the lifting seat and is used for accommodating metal pieces, the screw rod is in threaded connection with the lifting seat, and a rotating shaft of the lifting motor is connected with the screw rod; and

the dip angle conveying device comprises a dip angle support, a dip angle conveying belt, a transposition air cylinder, a transposition push rod and a plurality of right-angle baffle plates, wherein the dip angle conveying belt is rotatably arranged on the dip angle support, the right-angle baffle plates are respectively arranged on the dip angle conveying belt, an accommodating interval is arranged between every two adjacent right-angle baffle plates, the transposition air cylinder is in driving connection with the transposition push rod, and the transposition push rod is used for propping a metal piece on the profiling supporting plate to move to one of the accommodating intervals.

2. The machine of claim 1, further comprising a belt conveyor, wherein the belt conveyor comprises an unloading chute, an unloading protrusion, a transverse conveyor frame, and a transverse conveyor belt, the unloading chute is provided with an unloading avoiding groove, the unloading protrusion is arranged on a wall of the unloading avoiding groove, the unloading chute is connected with the transverse conveyor frame, and the transverse conveyor belt is rotatably arranged on the transverse conveyor frame.

3. The machine of claim 2, wherein the belt conveyor further comprises a limit baffle, a guide baffle and an in-line baffle, which are connected in sequence, the limit baffle is arranged on the transverse conveyor frame, and the limit baffle, the guide baffle and the in-line baffle are all used for mutually propping against metal pieces.

4. The machine of claim 2, wherein the belt conveyor further comprises a transverse drive motor mounted to the transverse conveyor frame, the transverse drive motor being drivingly connected to the transverse conveyor belt.

5. The machine of claim 1, wherein the arc-shaped anti-slip cover and the linear material rail are integrally formed.

6. The machine of claim 1, wherein the contoured push plate has a circular cross-section.

7. The machine of claim 1, wherein the pitch angle conveyor further comprises a pitch angle drive motor having a drive shaft coupled to the pitch angle conveyor.

8. The machine-tool feeding machine of claim 1, wherein the index push rod is provided with a circular push plate, and the circular push plate is used for mutually propping against a metal piece.

9. The machine-readable storage medium of claim 1, wherein the arc-shaped retaining cover is provided with a contact arc surface.

10. The machine of claim 1, wherein the right-angle striker plate is provided with a rounded corner.

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