CN214391864U - Conveying device for metal part machining - Google Patents

Abstract

The utility model provides a conveyor for metalwork processing, including feed mechanism and discharge mechanism that communicate each other, feed mechanism links up with the feeding equipment, and discharge mechanism links up with storage equipment, carries the lath of metal waiting to process to feed equipment by feeding equipment to carry to discharge mechanism by feed mechanism, carry the fashioned finished product to storage equipment by discharge mechanism at last; wherein, feed mechanism includes feeding supporting component, feeding linking up subassembly and feeding direction subassembly, and discharge mechanism includes ejection of compact supporting component, ejection of compact bearing subassembly, die-cut shaping subassembly and ejection of compact direction subassembly. This conveyor adopts feed mechanism and discharge mechanism to combine, is favorable to reducing the trouble, promotes product quality to avoid die-cut finished product adhesion to cause the export to block up on the direction flitch, be favorable to promoting work efficiency, reduce the trouble.

Description

Conveying device for metal part machining

Technical Field

The utility model relates to a metalworking equipment especially relates to a conveyor for metalworking.

Background

In the processing process of a metal piece, a blank adopted by the metal piece is a metal strip, the metal strip needs to be conveyed to processing equipment from a feeding device, a certain distance exists between the feeding device and the processing equipment, a suspended part of the metal strip can droop to form an included angle with an inlet of the processing equipment, and the bottom surface of the metal strip is rubbed with the equipment to cause damage to the surface of the metal strip. Simultaneously, in order to reduce die-cut resistance, the metal lath need coat lubricated liquid before carrying out die-cut, and die-cut completion back, the lubricated liquid that die-cut finished product surface carried has certain stickness for die-cut finished product easily adheres in ejection of compact structure, blocks up discharging channel, is unfavorable for going on smoothly of production. Therefore, there is a need to design a conveying device to overcome the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a conveyor for metalwork processing to carry the die-cut finished product of lath machine.

The utility model discloses a solve the technical scheme that its technical problem adopted and be:

the utility model provides a conveyor for metalwork processing, includes feed mechanism and discharge mechanism that communicates each other, and feed mechanism links up with feeding equipment, and discharge mechanism links up with storage equipment, carries to wait to process the lath strip to feeding equipment by feeding equipment to carry the lath strip to discharge mechanism by feed mechanism, carry fashioned finished product to storage equipment by discharge mechanism at last, wherein, feed mechanism includes:

the feeding support assembly is arranged at the inlet of the discharging mechanism through a detachable connecting structure;

the feeding connection component is arranged on the feeding support component through an adjustable connection structure and corresponds to the position of a discharge hole of the feeding equipment, and a metal plate strip in the feeding equipment can enter the processing equipment through the feeding connection component and the feeding support component;

the feeding guide assembly is arranged on the feeding joining assembly and guides the metal strip on the feeding joining assembly;

the discharge mechanism comprises:

the discharging support component is arranged in the rack;

the discharging supporting component is arranged in the discharging supporting component, and a space for placing a metal lath to be punched is formed in the discharging supporting component;

the punching forming component is arranged in the discharging supporting component, is matched with the discharging supporting component and performs punching forming treatment on the metal lath arranged in the discharging supporting component;

ejection of compact direction subassembly, this ejection of compact direction subassembly install between die-cut shaping subassembly and ejection of compact bearing subassembly to correspond with ejection of compact bearing subassembly's exit end position, lead by ejection of compact direction subassembly to the finished product after the die-cut shaping.

Specifically, the feed support assembly includes:

the supporting frame body is provided with a space capable of accommodating the metal lath;

the assembly end plate is fixed at the mounting end of the support frame body and is mounted at the inlet of the discharging support assembly through a connecting bolt;

the supporting wheel rollers are provided with a group, are respectively arranged in the supporting frame body and are sequentially arranged along the axial direction of the supporting frame body, and the supporting wheel rollers are used for supporting the metal lath on the supporting frame body;

the feed engagement assembly includes:

the connecting frame body is provided with an arc-shaped bearing surface capable of containing the metal lath, and the mounting end of the connecting frame body is mounted on the support frame body through a deflection shaft lever and can deflect towards the upper part or the lower part of the support frame body;

the supporting roller rods are provided with a group, are respectively arranged in the connecting frame body and are sequentially arranged along the arc-shaped supporting surface of the connecting frame body, and the supporting roller rods support the metal lath on the connecting frame body;

the feed guide assembly includes:

the guide cross beam is positioned on the connecting frame body and is parallel to the supporting roller rod, a positioning opening is formed in the edge of the connecting frame body, and two ends of the guide cross beam are respectively arranged in the positioning opening and fixedly connected by adopting a positioning bolt;

and a pair of guide rollers, wherein each guide roller is respectively arranged on the guide beam and extends to the upper part of the guide beam, a gap for the metal lath to pass through is reserved between the guide rollers, and the guide rollers guide the conveying path of the metal lath.

Specifically, ejection of compact supporting component includes:

the support base plate is transversely arranged and is arranged in the rack through a connecting piece, and the discharging bearing component is arranged in the support base plate;

a support back plate installed in the support substrate and protruding above the support substrate;

the supporting top plate is arranged in the supporting base plate and is suspended above the supporting base plate, and the punching and forming assembly is arranged in the supporting top plate;

ejection of compact supporting subassembly includes:

the positioning base is arranged on the supporting substrate, the bottom of the positioning base is provided with a positioning end socket, a positioning clamping groove matched with the supporting substrate is formed in the supporting substrate, and the positioning end socket extends into the positioning clamping groove and is connected by adopting a connecting piece so that the positioning base is kept fixed on the supporting substrate;

the lower supporting die is arranged on the positioning base, and the metal plate strip to be punched is arranged on the lower supporting die;

the die-cut shaping subassembly includes:

the punching end is positioned above the positioning base and the bearing lower die, and a sliding groove matched with the punching end is formed in the supporting top plate, so that the punching end can ascend or descend in the sliding groove;

the upper forming die is arranged at the bottom of the punching end and is matched with the lower bearing die in shape, and the punching end drives the upper forming die to perform punching forming treatment on the metal lath arranged on the lower bearing die;

the ejection of compact direction subassembly includes:

one end of the guide plate is mounted at the outlet end of the bearing lower die through a rotating shaft, the other end of the guide plate extends to the direction of the storage equipment, and finished products discharged from the bearing lower die can enter the storage equipment through the guide plate;

and the connecting pull rod is connected with one end of the connecting pull rod through a rotating shaft and connected with the punching end through a rotating shaft, and the other end of the connecting pull rod is connected with the punching end through a rotating shaft, so that the punching end drives the guide material plate to shake up and down through the connecting pull rod when rising or falling, and a finished product adhered to the guide material plate falls off.

The utility model has the advantages that:

this conveyor adopts feed mechanism and discharge mechanism to combine, feed mechanism adopts linking up support body and backing roll pole to support the sheet metal strip of feeding equipment output, link up the support body simultaneously and install on supporting the support body through the axostylus axostyle that deflects, can deflect to supporting support body top or below, with the transport angle of cooperation sheet metal strip, avoid the sheet metal strip and link up wearing and tearing each other between the support body, be favorable to reducing the trouble, promote product quality, discharge mechanism installs the direction flitch in the exit end of bearing lower mould through the pivot, and adopt linking up the pull rod to lead to the flitch and die-cut end continuous, the direction flitch is shaken from top to bottom along with die-cut end, its end collides with the supporting baseplate, shake off the finished product on the direction flitch, avoid die-cut finished product adhesion to cause the export jam on leading the flitch, be favorable to promote work efficiency, reduce the trouble.

Drawings

Fig. 1 is a schematic structural diagram of a conveying device for metal part machining according to the present invention.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention will be further described with reference to the drawings and the specific embodiments.

As shown in fig. 1, the conveying device for metal part processing provided by the present invention includes a feeding mechanism and a discharging mechanism which are communicated with each other, the feeding mechanism is connected with a feeding device, the discharging mechanism is connected with a storage device, a feeding device conveys a metal lath to be processed to the feeding device, the feeding mechanism conveys the metal lath to the discharging mechanism, and finally the discharging mechanism conveys a formed finished product to the storage device; the feeding mechanism comprises a feeding supporting component, a feeding linking component and a feeding guiding component, the feeding supporting component is arranged at an inlet of the discharging mechanism through a detachable connecting structure, the feeding linking component is arranged on the feeding supporting component through an adjustable connecting structure and corresponds to a discharge hole of the feeding equipment in position, metal laths in the feeding equipment can enter the processing equipment through the feeding linking component and the feeding supporting component, the feeding guiding component is arranged on the feeding linking component, and the feeding guiding component guides the metal laths on the feeding linking component; discharge mechanism includes ejection of compact supporting component, ejection of compact bearing subassembly, die-cut shaping subassembly and ejection of compact direction subassembly, ejection of compact supporting component installs in the frame, ejection of compact bearing subassembly is installed in ejection of compact supporting component, the space of waiting die-cut lath has in the ejection of compact bearing subassembly to place, die-cut shaping subassembly is installed in ejection of compact supporting component, and with ejection of compact bearing subassembly cooperation, carry out die-cut shaping processing by die-cut shaping subassembly to the lath of the metal that is arranged in ejection of compact bearing subassembly, ejection of compact direction subassembly is installed between die-cut shaping subassembly and ejection of compact bearing subassembly, and correspond with ejection of compact bearing subassembly's exit end position, the finished product after the die-cut shaping is guided by ejection of compact direction subassembly.

In this embodiment, the feeding support assembly includes a support frame 110, an assembly end plate 120 and a set of support roller 130, the support frame has a space capable of accommodating the metal lath, the assembly end plate is fixed at the mounting end of the support frame, the assembly end plate is mounted at the inlet of the discharging support assembly through a connecting bolt, the support roller is provided with a set of support rollers, each support roller is respectively mounted in the support frame and sequentially arranged along the axial direction of the support frame, and the metal lath on the support frame is supported by the support roller;

the feeding connection assembly comprises a connection frame body 210 and supporting roller rods 220, an arc-shaped supporting surface capable of accommodating the metal lath is arranged on the connection frame body, the mounting end of the connection frame body is mounted on the supporting frame body through a deflection shaft rod 211 and can deflect towards the upper part or the lower part of the supporting frame body, a group of supporting roller rods are arranged, each supporting roller rod is respectively mounted in the connection frame body and is sequentially arranged along the arc-shaped supporting surface of the connection frame body, and the metal lath on the connection frame body is supported by the supporting roller rods;

the feeding guide assembly comprises a guide cross beam 310 and guide rollers 230, the guide cross beam is located on the connecting frame body and is parallel to the supporting roller rods, a positioning opening is formed in the edge of the connecting frame body, two ends of the guide cross beam are arranged in the positioning opening respectively and are fixedly connected through positioning bolts 311, the guide rollers are provided with a pair of guide rollers, each guide roller is installed on the guide cross beam respectively and extends out of the upper portion of the guide cross beam, a gap for metal laths to pass through is reserved between the guide rollers, and the guide rollers guide the conveying path of the metal laths.

The feeding mechanism further comprises a pressing leveling assembly, the pressing leveling assembly comprises a pressing guide frame 410, a pressing carrier frame 420 and pressing roller rollers 430, the pressing guide frame is installed on the support frame and extends above the support frame, the pressing carrier frame is located in the pressing guide frame and located above the supporting roller rollers, the pressing carrier frame is further matched with the pressing guide frame and can lift in the pressing guide frame, a group of pressing roller rollers are arranged, the pressing roller rollers are respectively installed in the pressing carrier frame and are sequentially arranged along the axial direction of the pressing carrier frame, a gap for the metal strip to pass through is formed between the pressing roller rollers and the supporting roller rollers, and the pressing leveling treatment is carried out on the metal strip through the pressing roller rollers and the supporting roller rollers. The stitching carrier has an adjusting screw 421, the stitching guide has an adjusting nut 411 matching with the stitching carrier, and the stitching carrier is driven by the adjusting nut to lift in the stitching guide to adjust the distance between the stitching roller and the supporting roller.

The discharging supporting component comprises a supporting base plate 510, a supporting back plate 520 and a supporting top plate 530, the supporting base plate is transversely arranged and is installed in the rack through a connecting piece, the discharging supporting component is installed in the supporting base plate, the supporting back plate is installed in the supporting base plate and extends out of the upper side of the supporting base plate, the supporting top plate is installed in the supporting base plate and is suspended above the supporting base plate, and the punching forming component is installed in the supporting top plate;

the discharging and bearing component comprises a positioning base 610 and a bearing lower die 620, the positioning base is arranged on a supporting substrate, the bottom of the positioning base is provided with a positioning end 611, a positioning clamping groove matched with the positioning base is formed in the supporting substrate, the positioning end extends into the positioning clamping groove and is connected by adopting a connecting piece, the positioning base is kept fixed on the supporting substrate, the bearing lower die is arranged on the positioning base, and a metal plate strip to be punched is arranged on the bearing lower die;

the punching forming assembly comprises a punching end 710 and a forming upper die 720, the punching end is positioned above the positioning base and the bearing lower die, a sliding groove matched with the punching end is formed in the supporting top plate, the punching end can ascend or descend in the sliding groove, the forming upper die is arranged at the bottom of the punching end and is matched with the bearing lower die in shape, and the punching end drives the forming upper die to perform punching forming processing on the metal lath arranged on the bearing lower die;

ejection of compact direction subassembly includes direction flitch 810 and links up pull rod 820, the exit end in the bearing lower mould is installed through the pivot to direction flitch one end, the other end stretches to the storage equipment direction, the finished product of discharging can get into storage equipment through the direction flitch in the bearing lower mould, link up pull rod one end and connect in die-cut end through the pivot on, its other end is connected in die-cut end through the pivot, die-cut end is gone up or is driven the direction flitch through linking the pull rod and is shaken from top to bottom when descending, make the finished product of adhesion on the direction flitch drop.

The discharging mechanism further comprises a blank plate lubricating assembly, the blank plate lubricating assembly comprises a lubricating cylinder body 910, a space for containing lubricating liquid is formed in the lubricating cylinder body, the edge of the lubricating cylinder body is installed on the punching end through a connecting piece and can move along with the punching end, a liquid outlet port of the lubricating cylinder body points to the inlet end of the bearing lower die, and when the blank plate is punched by the upper die in the forming process, the punching end drives the lubricating liquid in the lubricating cylinder body to vibrate and flow out and fall onto the blank plate.

This conveyor adopts feed mechanism and discharge mechanism to combine, feed mechanism adopts linking up support body and backing roll pole to support the sheet metal strip of feeding equipment output, link up the support body simultaneously and install on supporting the support body through the axostylus axostyle that deflects, can deflect to supporting support body top or below, with the transport angle of cooperation sheet metal strip, avoid the sheet metal strip and link up wearing and tearing each other between the support body, be favorable to reducing the trouble, promote product quality, discharge mechanism installs the direction flitch in the exit end of bearing lower mould through the pivot, and adopt linking up the pull rod to lead to the flitch and die-cut end continuous, the direction flitch is shaken from top to bottom along with die-cut end, its end collides with the supporting baseplate, shake off the finished product on the direction flitch, avoid die-cut finished product adhesion to cause the export jam on leading the flitch, be favorable to promote work efficiency, reduce the trouble.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to let the technical personnel in the field understand the contents of the present invention and implement the present invention, and the protection scope of the present invention can not be limited thereby, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (3)

1. The utility model provides a conveyor for metalwork processing, includes feed mechanism and discharge mechanism that communicates each other, and feed mechanism links up with feeding equipment, and discharge mechanism links up with storage equipment, carries to wait to process the lath strip to feeding equipment by feeding equipment to carry the lath strip to discharge mechanism by feed mechanism, carry fashioned finished product to storage equipment by discharge mechanism at last, its characterized in that, feed mechanism includes:

the feeding support assembly is arranged at the inlet of the discharging mechanism through a detachable connecting structure;

the feeding connection component is arranged on the feeding support component through an adjustable connection structure and corresponds to the position of a discharge hole of the feeding equipment, and a metal plate strip in the feeding equipment can enter the processing equipment through the feeding connection component and the feeding support component;

the feeding guide assembly is arranged on the feeding joining assembly and guides the metal strip on the feeding joining assembly;

the discharge mechanism comprises:

the discharging support component is arranged in the rack;

the discharging supporting component is arranged in the discharging supporting component, and a space for placing a metal lath to be punched is formed in the discharging supporting component;

the punching forming component is arranged in the discharging supporting component, is matched with the discharging supporting component and performs punching forming treatment on the metal lath arranged in the discharging supporting component;

ejection of compact direction subassembly, this ejection of compact direction subassembly install between die-cut shaping subassembly and ejection of compact bearing subassembly to correspond with ejection of compact bearing subassembly's exit end position, lead by ejection of compact direction subassembly to the finished product after the die-cut shaping.

2. The conveyor for metal part machining of claim 1, wherein the feed support assembly comprises:

the supporting frame body is provided with a space capable of accommodating the metal lath;

the assembly end plate is fixed at the mounting end of the support frame body and is mounted at the inlet of the discharging support assembly through a connecting bolt;

the supporting wheel rollers are provided with a group, are respectively arranged in the supporting frame body and are sequentially arranged along the axial direction of the supporting frame body, and the supporting wheel rollers are used for supporting the metal lath on the supporting frame body;

the feed engagement assembly includes:

the connecting frame body is provided with an arc-shaped bearing surface capable of containing the metal lath, and the mounting end of the connecting frame body is mounted on the support frame body through a deflection shaft lever and can deflect towards the upper part or the lower part of the support frame body;

the supporting roller rods are provided with a group, are respectively arranged in the connecting frame body and are sequentially arranged along the arc-shaped supporting surface of the connecting frame body, and the supporting roller rods support the metal lath on the connecting frame body;

the feed guide assembly includes:

the guide cross beam is positioned on the connecting frame body and is parallel to the supporting roller rod, a positioning opening is formed in the edge of the connecting frame body, and two ends of the guide cross beam are respectively arranged in the positioning opening and fixedly connected by adopting a positioning bolt;

and a pair of guide rollers, wherein each guide roller is respectively arranged on the guide beam and extends to the upper part of the guide beam, a gap for the metal lath to pass through is reserved between the guide rollers, and the guide rollers guide the conveying path of the metal lath.

3. The conveyor for metal part machining according to claim 1, wherein the outfeed support assembly comprises:

the support base plate is transversely arranged and is arranged in the rack through a connecting piece, and the discharging bearing component is arranged in the support base plate;

a support back plate installed in the support substrate and protruding above the support substrate;

the supporting top plate is arranged in the supporting base plate and is suspended above the supporting base plate, and the punching and forming assembly is arranged in the supporting top plate;

ejection of compact supporting subassembly includes:

the positioning base is arranged on the supporting substrate, the bottom of the positioning base is provided with a positioning end socket, a positioning clamping groove matched with the supporting substrate is formed in the supporting substrate, and the positioning end socket extends into the positioning clamping groove and is connected by adopting a connecting piece so that the positioning base is kept fixed on the supporting substrate;

the lower supporting die is arranged on the positioning base, and the metal plate strip to be punched is arranged on the lower supporting die;

the die-cut shaping subassembly includes:

the punching end is positioned above the positioning base and the bearing lower die, and a sliding groove matched with the punching end is formed in the supporting top plate, so that the punching end can ascend or descend in the sliding groove;

the upper forming die is arranged at the bottom of the punching end and is matched with the lower bearing die in shape, and the punching end drives the upper forming die to perform punching forming treatment on the metal lath arranged on the lower bearing die;

the ejection of compact direction subassembly includes:

one end of the guide plate is mounted at the outlet end of the bearing lower die through a rotating shaft, the other end of the guide plate extends to the direction of the storage equipment, and finished products discharged from the bearing lower die can enter the storage equipment through the guide plate;

and the connecting pull rod is connected with one end of the connecting pull rod through a rotating shaft and connected with the punching end through a rotating shaft, and the other end of the connecting pull rod is connected with the punching end through a rotating shaft, so that the punching end drives the guide material plate to shake up and down through the connecting pull rod when rising or falling, and a finished product adhered to the guide material plate falls off.

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