CN217726803U - Copper bar perforating device - Google Patents

Abstract

The utility model discloses a copper bar perforating device relates to copper bar processing technology field. The utility model comprises a frame; the upper part of the frame is provided with a material conveying assembly; the material conveying component is provided with a material supply component; a bearing frame is fixed on one side of the material conveying assembly; a workbench corresponding to the material conveying assembly is horizontally fixed on the bearing frame; a punching assembly for synchronously punching a plurality of materials is arranged above the workbench; a positioning assembly for positioning a plurality of materials is arranged below the punching assembly; one side of the punching assembly is provided with a first material pushing assembly used for pushing the single material on the material conveying assembly to the workbench; one side of the first material pushing component is provided with a second material pushing component which is used for pushing the material pushed by the first material pushing component into the positioning component. The utility model is not only reasonable in structural design, it is convenient to use, has improved the efficiency of punching a hole of copper bar moreover effectively, has higher market using value.

Description

Copper bar perforating device

Technical Field

The utility model belongs to the technical field of the copper bar processing, especially, relate to a copper bar perforating device.

Background

Chinese patent with publication number CN213496718U discloses a novel copper bar punching mold, which is used for punching a copper bar by placing the copper bar in a placing cavity and utilizing an electric telescopic rod, a punching motor and a punching drill bit. The above device has the following disadvantages: not only need artifical loading and unloading copper bar, can not realize the synchronous punching operation of a plurality of copper bars moreover to it is more to need artifical participation, and this is lower with regard to production efficiency, has also increased workman's intensity of labour simultaneously. Therefore, a copper bar punching device is urgently needed to be researched so as to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a copper bar perforating device, its purpose is in order to solve the technical problem who provides among the above-mentioned background art.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a copper bar perforating device, which comprises a frame; the upper part of the frame is provided with a material conveying assembly; the material conveying assembly is provided with a material supply assembly; a bearing frame is fixed on one side of the material conveying assembly; a workbench corresponding to the material conveying assembly is horizontally fixed on the bearing frame; a punching assembly for synchronously punching a plurality of materials is arranged above the workbench; a positioning assembly for positioning a plurality of materials is arranged below the punching assembly; one side of the punching assembly is provided with a first material pushing assembly used for pushing the single material on the material conveying assembly to the workbench; one side of the first material pushing assembly is provided with a second material pushing assembly used for pushing the material pushed by the first material pushing assembly into the positioning assembly; the material pushing direction of the second material pushing assembly is perpendicular to the material pushing direction of the first material pushing assembly.

As a preferred technical scheme of the utility model, the material transporting assembly comprises two pairs of mounting blocks which are vertically fixed on the upper part of the frame side by side and a pair of transmission belt wheels which are arranged side by side; two ends of the transmission belt wheel are respectively and rotatably connected to the two adjacent mounting blocks; one end of a wheel shaft of the transmission belt wheel is coaxially fixed on an output shaft of a driving motor; the driving motor is fixed on a mounting block; the two driving belt wheels are in driving connection through a material conveying belt; a plurality of parting strips are fixed on the working surface of the conveying belt side by side along the length direction; and a material accommodating space is formed between every two adjacent division bars.

As a preferred technical proposal of the utility model, the feeding component comprises a material storage box with the upper end and the lower end both of which are open structures; the material storage box is vertically arranged above the material conveying belt; a plurality of materials can be stacked in the material storage box; the lower port of the storage box is abutted against the upper surface of the parting strip; the opposite two side walls of the storage box are fixed on the rack through the vertically arranged support columns respectively.

As a preferred technical solution of the present invention, the supporting frame includes a pair of side supporting rods fixed side by side on the frame; the upper ends of the two side supporting rods are connected through a top rod which is horizontally arranged; the workbench is horizontally fixed between the support rods on the two sides; the workbench is arranged below the ejector rod.

As a preferred technical scheme of the utility model, a first limit convex edge corresponding to the first material pushing component is integrally formed at one edge of the workbench, which is far away from the material conveying belt; a second limiting convex edge corresponding to the positioning component is integrally formed on one edge of the workbench, which is far away from the first material pushing component; and a notch structure for removing materials from the workbench is formed between the second limiting convex edge and the first limiting convex edge.

As a preferred technical scheme of the utility model, the punching assembly comprises a pair of first mounting seats which are fixed on the ejector rod side by side; a first cylinder is vertically fixed on the first mounting seat; the lower ends of the two first air cylinders are connected through a lifting bar; and a plurality of vertically arranged punches are fixed on the lower surface of the lifting strip side by side.

As a preferred technical scheme of the utility model, the positioning component comprises a pair of second mounting seats which are fixed on the mandril side by side; a second cylinder is horizontally fixed on the second mounting seat; the telescopic direction of the output end of the second cylinder is parallel to the axial direction of the transmission belt wheel; a movable block is fixed at the output end of the second cylinder; a driving strip is horizontally fixed at the lower end of the movable block; the length direction of the driving strip is perpendicular to the telescopic direction of the output end of the second air cylinder; two ends of the driving strip are horizontally fixed with vertical transmission strips; the two transmission bars are connected through a pair of positioning bars arranged side by side; the two positioning strips, the two transmission strips and the workbench form a positioning space for a plurality of materials.

As a preferred technical solution of the present invention, the first pushing assembly includes a third mounting seat fixed on the top rod; a third cylinder is horizontally fixed on the third mounting seat; the telescopic direction of the output end of the third cylinder is parallel to the axial direction of the transmission belt wheel; and a material pushing plate corresponding to the accommodating space is vertically fixed at the output end of the third cylinder.

As a preferred technical solution of the present invention, the second pushing assembly includes a fourth cylinder horizontally fixed on the upper surface of the worktable; the telescopic direction of the output end of the fourth cylinder is perpendicular to the telescopic direction of the output end of the third cylinder; and a material pushing strip parallel to the transmission strip is horizontally fixed at the output end of the fourth cylinder.

The utility model discloses following beneficial effect has:

the utility model discloses a pile up a plurality of copper bars in feed subassembly, utilize fortune material subassembly copper bar in with feed subassembly to carry one by one, copper bar when fortune material subassembly on corresponds with first material subassembly position that pushes away, push away the copper bar that the subassembly will be rather than in a corresponding accommodation space through first material subassembly that pushes away and push away to the workstation on (then first material subassembly that pushes away resets, for pushing away the copper bar in the next accommodation space and preparing to the workstation on), utilize the second to push away the material subassembly and will be pushed away to the locating component by first copper bar that pushes away material subassembly in (then the second pushes away material subassembly and resets), then fortune material subassembly continues to drive the copper bar motion, make copper bar in another accommodation space corresponding with first material subassembly position that pushes away, the action of pushing away of first material subassembly and second material subassembly is repeated again, thereby push away another copper bar to the locating component in proper order, first material subassembly and second push away the above-mentioned operation that pushes away the material subassembly, thereby with a plurality of neatly put in the locating component, then utilize the copper bar to punch a plurality of copper bar to carry out the synchronous operation in the locating component, thereby the efficiency of the copper bar that punches has realized that the automatic application of punching has also been realized the copper bar when punching the production of the efficiency of the work of the production has been high.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages simultaneously.

Drawings

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

Fig. 1 is the utility model discloses a copper bar perforating device's structural schematic.

Fig. 2 is the structure schematic diagram of the material transporting assembly of the present invention.

Fig. 3 is a position relation diagram between the material transporting assembly and the workbench of the present invention.

Fig. 4 is a schematic structural view of the punching assembly, the positioning assembly, the first pushing assembly and the second pushing assembly of the present invention installed on the worktable.

Fig. 5 is a schematic structural view of the punching assembly, the first pushing assembly and the second pushing assembly of the present invention installed on the worktable.

Fig. 6 is a schematic structural view of the positioning assembly, the first pushing assembly and the second pushing assembly of the present invention installed on the worktable.

Fig. 7 is a schematic structural diagram of the positioning assembly of the present invention.

In the drawings, the reference numbers indicate the following list of parts:

1-a machine frame, 2-a material conveying assembly, 3-a material feeding assembly, 4-a bearing frame, 5-a workbench, 6-a punching assembly, 7-a positioning assembly, 8-a first material pushing assembly, 9-a second material pushing assembly, 201-an installation block, 202-a transmission belt wheel, 203-a driving motor, 204-a material conveying belt, 205-a division bar, 301-a material storage box, 302-a supporting column, 501-a first limit convex edge, 502-a second limit convex edge, 601-a first installation seat, 602-a first air cylinder, 603-a lifting bar, 604-a punch head, 701-a second installation seat, 702-a second air cylinder, 703-a movable block, 704-a driving bar, 705-a transmission bar, 706-a positioning bar, 801-a third installation seat, 802-a third air cylinder, 803-a material pushing plate, 901-a fourth air cylinder and 902-a material pushing bar.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-4, the present invention relates to a copper bar punching apparatus, which comprises a conventional frame 1 in the art; the upper part of the frame 1 is provided with a material conveying component 2; the material conveying component 2 is provided with a material supply component 3; a bearing frame 4 is fixed on one side of the material conveying assembly 2; a workbench 5 corresponding to the material conveying assembly 2 is horizontally fixed on the bearing frame 4; a punching assembly 6 for synchronously punching a plurality of materials is arranged above the workbench 5; a positioning component 7 for positioning a plurality of materials is arranged below the punching component 6; one side of the punching assembly 6 is provided with a first material pushing assembly 8 for pushing the single material on the material conveying assembly 2 to the workbench 5; one side of the first pushing component 8 is provided with a second pushing component 9 which is used for pushing the material pushed by the first pushing component 8 into the positioning component 7; the material pushing direction of the second material pushing assembly 9 is perpendicular to the material pushing direction of the first material pushing assembly 8. When the punching device is used, a plurality of copper bars are stacked in the feeding assembly 3, the copper bars in the feeding assembly 3 are conveyed one by the material conveying assembly 2, when the copper bars on the material conveying assembly 2 correspond to the first material pushing assembly 8 in position, the copper bars in one corresponding containing space are pushed onto the workbench 2 through the first material pushing assembly 8 (then the first material pushing assembly 8 resets to prepare for pushing the copper bars in the next containing space onto the workbench 2), the copper bars pushed by the first material pushing assembly 8 are pushed into the positioning assembly 7 by the second material pushing assembly 9 (then the second material pushing assembly 9 resets), then the material conveying assembly 2 continues to drive the copper bars to move, the copper bars in the other containing space correspond to the first material pushing assembly 8 in position, the material pushing actions of the first material pushing assembly 8 and the second material pushing assembly 9 are repeated in sequence, so that the other copper bars are pushed into the positioning assembly 7, the material conveying assembly 2 is repeated, the operations of the first material pushing assembly 8 and the second material pushing assembly 9 are performed orderly, the copper bars are pushed into the positioning assembly 7, the copper bars are punched synchronously, and the copper bar punching efficiency of a plurality of copper bar punching device is improved, and the copper bar punching efficiency of a worker is effectively utilized, and the copper bar punching device is effectively.

The second embodiment is as follows:

on the basis of the first specific embodiment, as shown in fig. 2-3, the material transporting assembly 2 includes two pairs of mounting blocks 201 vertically fixed on the upper portion of the rack 1 side by side and a pair of driving pulleys 202 arranged side by side; two ends of the driving belt wheel 202 are respectively and rotatably connected to the two adjacent mounting blocks 201; one end of the wheel shaft of a transmission belt wheel 202 is coaxially fixed on the output shaft of a driving motor 203; the driving motor 203 is fixed on a mounting block 201; the two driving belt wheels 202 are in driving connection through a conveying belt 204; a plurality of parting beads 205 are fixed on the working surface of the conveyor belt 204 side by side along the length direction; and a material containing space is formed between two adjacent division bars 205. During the use, drive the intermittent type formula motion of material transporting belt 204 through driving motor 203 through driving pulley 202 to the realization carries a plurality of copper bars in proper order.

As shown in fig. 2, the feeding assembly 3 includes a material storage box 301 with an open structure at both upper and lower ends; the material storage box 301 is vertically arranged above the material conveying belt 204; a plurality of materials can be stacked in the material storage box 301; the lower port of the storage box 301 is abutted against the upper surface of the parting strip 205; the opposite two side walls of the material storage box 301 are fixed on the rack 1 through the vertically arranged support columns 302 respectively. When accommodation space was fashionable with storage case 301's lower port relatively, the copper bar in the storage case 301 fell into accommodation space under the action of gravity to can realize supplying a plurality of copper bars in the storage case 301 to a plurality of accommodation space on the fortune material area 204, guarantee the production efficiency of copper bar effectively.

The third concrete example:

on the basis of the second embodiment, as shown in fig. 3-6, the carriage 4 comprises a pair of side stays fixed side by side to the frame 1; the upper ends of the two side stay bars are connected through a horizontally arranged ejector rod; the workbench 5 is horizontally fixed between the support rods on the two sides; one edge of the workbench 5 close to the material conveying belt 204 is abutted against the side edge of the material conveying belt 204, and the upper surface of the workbench 5 and the working surface of the upper section of the material conveying belt 204 are positioned on the same horizontal plane; the workbench 5 is arranged below the ejector rod; a first limiting convex edge 501 corresponding to the first material pushing assembly 8 is integrally formed on one edge of the workbench 5 away from the material conveying belt 204; a second limiting convex edge 502 corresponding to the positioning component 7 is integrally formed on one edge of the workbench 5 far away from the first pushing component 8; a notch structure for removing the material from the working table 5 is formed between the second limiting convex edge 502 and the first limiting convex edge 501.

As shown in fig. 4-5, the punching assembly 6 includes a pair of first mounting seats 601 fixed side by side on the carrier rod; the first mounting base 601 is a rectangular structure; a conventional first cylinder 602 in the field is vertically fixed on the first mounting seat 601; the lower ends of the two first cylinders 602 are connected through a lifting bar 603; a plurality of vertically arranged punches 604 are fixed side by side on the lower surface of the lifting bar 603; punch 604 is cylindrical in configuration. After a plurality of copper bars are neatly placed in the positioning assembly 7, the first air cylinder 602 is utilized to drive the punch 604 to synchronously move downwards through the lifting bar 603, so that synchronous punching operation of the plurality of copper bars in the positioning assembly 7 is realized, and punching efficiency of the copper bars is effectively ensured.

As shown in fig. 6-7, the positioning assembly 7 includes a pair of second mounting seats 701 fixed side by side on the top bar; the second mounting base 701 is of an L-shaped structure; a conventional second cylinder 702 in the field is horizontally fixed on the second mounting seat 701; the telescopic direction of the output end of the second cylinder 702 is parallel to the axial direction of the driving pulley 202; a movable block 703 is fixed at the output end of the second cylinder 702; a driving strip 704 is horizontally fixed at the lower end of the movable block 703; the length direction of the driving bar 704 is perpendicular to the extension direction of the output end of the second air cylinder 702; two ends of the driving bar 704 are horizontally fixed with vertical transmission bars 705; the two transmission bars 705 are connected through a pair of positioning bars 706 arranged side by side; the two positioning bars 706, the two driving bars 705 and the working table 5 form a positioning space for a plurality of materials. During the use, drive strip 704 is driven downward through movable block 703 through second cylinder 702, make the lower surface of location strip 706 and the upper surface of workstation 5 coincide (the medial surface of a location strip 706 of keeping away from fortune material subassembly 2 this moment is in the same horizontal plane with the side that first spacing chimb 501 is close to fortune material subassembly 2, and the one end of location strip 706 and the spacing chimb 502 of second are close to a side of pushing away material subassembly 8 and are inconsistent), thereby make two location strips 706, two drive bars 705 and workstation 5 form the location space to a plurality of copper bars, when the copper bar moved into the location space, the upper surface of copper bar and the lower surface of drive bar 705 supported, and the relative both ends of copper bar respectively with the relative medial surface of two location strips 706 supported, thereby realize the location to the copper bar.

As shown in fig. 5 to 6, the first pushing assembly 8 includes a third mounting seat 801 fixed on the top rod; the third mounting seat 801 is of an L-shaped structure; a conventional third cylinder 802 in the field is horizontally fixed on the third mounting seat 801; the telescopic direction of the output end of the third cylinder 802 is parallel to the axial direction of the driving belt wheel 202; a material pushing plate 803 corresponding to the receiving space is vertically fixed to an output end of the third cylinder 802. During the use, drive scraping wings 803 through third cylinder 802 and move to push away the copper bar in the accommodation space to workstation 5 on.

As shown in fig. 5-6, the second pushing assembly 9 includes a fourth cylinder 901 horizontally fixed on the upper surface of the worktable 5; the fourth cylinder 901 is a conventional element in the art; the telescopic direction of the output end of the fourth cylinder 901 is perpendicular to the telescopic direction of the output end of the third cylinder 802; the output end of the fourth cylinder 901 is horizontally fixed with a pushing strip 902 parallel to the driving strip 705. When the copper bar pushing device is used, the fourth cylinder 901 drives the pushing bar 902 to move linearly to push the copper bar pushed by the first pushing assembly 8 into the positioning assembly 7; after the copper bars are pushed into the positioning assembly 7 in sequence, the fourth cylinder 901 drives the pushing strip 902 to move linearly, so that the pushing strip 902 and the second limiting convex edge 502 are limited to the copper bars, and the punching quality of the copper bars is effectively guaranteed.

The preferred embodiments of the present invention disclosed above are intended to aid in the description of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, thereby enabling others skilled in the art to best understand the invention and its practical application. The present invention is limited only by the claims and their full scope and equivalents.

Claims (9)

1. A copper bar punching device comprises a frame (1); the method is characterized in that:

the upper part of the frame (1) is provided with a material conveying assembly (2); a feeding component (3) is arranged on the material conveying component (2); a bearing frame (4) is fixed on one side of the material conveying assembly (2); a workbench (5) corresponding to the material conveying assembly (2) is horizontally fixed on the bearing frame (4);

a punching assembly (6) for synchronously punching a plurality of materials is arranged above the workbench (5); a positioning assembly (7) for positioning a plurality of materials is arranged below the punching assembly (6); one side of the punching assembly (6) is provided with a first material pushing assembly (8) used for pushing the single material on the material conveying assembly (2) to the workbench (5); one side of the first material pushing assembly (8) is provided with a second material pushing assembly (9) used for pushing the material pushed by the first material pushing assembly (8) into the positioning assembly (7); the material pushing direction of the second material pushing assembly (9) is perpendicular to the material pushing direction of the first material pushing assembly (8).

2. The copper bar punching device according to claim 1, wherein the material conveying assembly (2) comprises two pairs of mounting blocks (201) which are vertically fixed on the upper portion of the rack (1) side by side and a pair of transmission belt wheels (202) which are arranged side by side; two ends of the transmission belt wheel (202) are respectively and rotatably connected to the two adjacent mounting blocks (201); one end of the wheel shaft of the transmission belt wheel (202) is coaxially fixed on the output shaft of a driving motor (203); the driving motor (203) is fixed on a mounting block (201); the two driving belt wheels (202) are in transmission connection through a conveying belt (204); a plurality of parting beads (205) are fixed on the working surface of the conveying belt (204) side by side along the length direction; a material containing space is formed between two adjacent division bars (205).

3. The copper bar perforating device according to claim 2, characterized in that the feeding assembly (3) comprises a storage box (301) with an open structure at both upper and lower ends; the storage box (301) is vertically arranged above the material conveying belt (204); a plurality of materials can be stacked in the material storage box (301); the lower port of the storage box (301) is abutted against the upper surface of the division bar (205); the opposite two side walls of the material storage box (301) are fixed on the rack (1) through the vertically arranged support columns (302).

4. The copper bar perforating device as claimed in claim 2 or 3, characterized in that said carriage (4) comprises a pair of side stays fixed side by side to the frame (1); the upper ends of the two side stay bars are connected through a horizontally arranged ejector rod; the workbench (5) is horizontally fixed between the support rods on the two sides; the workbench (5) is arranged below the ejector rod.

5. The copper bar perforating device as claimed in claim 4, characterized in that a first limiting convex edge (501) corresponding to the first pushing assembly (8) is integrally formed on an edge of the workbench (5) away from the conveying belt (204); a second limiting convex edge (502) corresponding to the positioning component (7) is integrally formed at one edge of the workbench (5) far away from the first material pushing component (8); a notch structure for removing materials from the workbench (5) is formed between the second limiting convex edge (502) and the first limiting convex edge (501).

6. The copper bar punching device according to claim 5, wherein the punching assembly (6) comprises a pair of first mounting seats (601) fixed side by side on the top bar; a first cylinder (602) is vertically fixed on the first mounting seat (601); the lower ends of the two first air cylinders (602) are connected through a lifting bar (603); and a plurality of vertically arranged punches (604) are fixed on the lower surface of the lifting bar (603) side by side.

7. The copper bar perforating device according to claim 5 or 6, characterized in that said positioning assembly (7) comprises a pair of second mounting seats (701) fixed side by side on the mandrel; a second cylinder (702) is horizontally fixed on the second mounting seat (701); the telescopic direction of the output end of the second air cylinder (702) is parallel to the axial direction of the transmission belt wheel (202); a movable block (703) is fixed at the output end of the second air cylinder (702); a driving strip (704) is horizontally fixed at the lower end of the movable block (703); the length direction of the driving strip (704) is perpendicular to the telescopic direction of the output end of the second air cylinder (702); two ends of the driving bar (704) are horizontally fixed with vertical transmission bars (705); the two transmission bars (705) are connected through a pair of positioning bars (706) arranged side by side; the two positioning strips (706), the two transmission strips (705) and the workbench (5) form a positioning space for a plurality of materials.

8. The copper bar perforating device as claimed in claim 7, characterized in that said first pushing assembly (8) comprises a third mounting seat (801) fixed to the ejector rod; a third cylinder (802) is horizontally fixed on the third mounting seat (801); the telescopic direction of the output end of the third cylinder (802) is parallel to the axial direction of the transmission belt wheel (202); a material pushing plate (803) corresponding to the accommodating space is vertically fixed at the output end of the third cylinder (802).

9. The copper bar perforating device according to claim 8, characterized in that said second pushing assembly (9) comprises a fourth cylinder (901) fixed horizontally to the upper surface of the table (5); the telescopic direction of the output end of the fourth air cylinder (901) is perpendicular to the telescopic direction of the output end of the third air cylinder (802); and a pushing strip (902) parallel to the transmission strip (705) is horizontally fixed at the output end of the fourth cylinder (901).

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