CN114918484A - Copper bar cutting device and using method thereof - Google Patents

Abstract

The application relates to the field of copper bar cutting, in particular to a copper bar cutting device and a using method thereof, wherein the copper bar cutting device comprises a frame body assembly, the frame body assembly comprises a moving frame, a first supporting plate and a third supporting plate, the first supporting plate is close to the end part of the moving frame, the third supporting plate is close to the other end of the moving frame, the height from one side of the moving frame to the other side of the moving frame is gradually reduced, and then the first supporting plate and the third supporting plate are in an inclined state; a first cutting assembly; the first cutting assembly and the second cutting assembly are respectively arranged on the first supporting plate and the third supporting plate; and the control terminal is connected with the first cutting assembly and the second cutting assembly. The cutting device can print numbering information on the copper bar by effectively utilizing the self structural configuration, has high processing efficiency and can automatically separate from the copper bar.

Description

Copper bar cutting device and using method thereof

Technical Field

The application relates to the field of copper bar cutting, in particular to a copper bar cutting device and a using method thereof.

Background

In order to meet the production requirement, the cutting device for the copper bar is specially designed so as to improve the flat head efficiency of the copper bar. But because the saw bit cutting has the ageing, can appear bar copper crew cut incomplete problem when the saw bit live time is longer, and then lead to the product to go wrong, equipment live time overlength also can lead to the production of defective products moreover, and when equipment was more, need longer time to finding out the equipment that goes wrong. It is therefore desirable to provide a cutting device that is simultaneously numbered when facing an external flat head.

Therefore, a need exists for a cutting device and a method for using the cutting device, wherein the cutting device is used for printing serial number information on a copper rod, has high processing efficiency and can automatically separate from the copper rod.

Disclosure of Invention

The main purpose of the present application is to provide a cutting device for a copper bar and a method for using the same, wherein the cutting device for a copper bar can effectively utilize the structural configuration of the cutting device to realize the advantages of printing numbering information on the copper bar and high processing efficiency.

Another objective of the present application is to provide a cutting device for copper bar and a method for using the same, wherein the cutting device for copper bar comprises a seventh driving member, the seventh driving member has a third telescopic rod, and a printing block is installed at an end of the third telescopic rod, so that the seventh driving member can extrude the external copper bar, so that the number information on the printing block is printed on the external copper bar.

In order to achieve at least one of the above objects, the present application provides a cutting device for a copper bar, wherein the cutting device for a copper bar comprises:

the frame body assembly comprises a moving frame, a first supporting plate and a third supporting plate, the first supporting plate is arranged on one side of the moving frame, which is far away from the ground, the first supporting plate is close to the end part of the moving frame, the third supporting plate is close to the other end of the moving frame, the height from one side of the moving frame to the other side of the moving frame is gradually reduced, and therefore the first supporting plate and the third supporting plate are in an inclined state;

a first cutting assembly;

the first cutting assembly and the second cutting assembly are respectively arranged on the first supporting plate and the third supporting plate, wherein the external copper bar is arranged on the moving frame, and the first cutting assembly and the second cutting assembly are arranged to be capable of flatly facing two ends of the external copper bar;

and the control terminal is connected with the first cutting assembly and the second cutting assembly.

In one or more embodiments of the present application, the frame assembly further includes a second support plate disposed on a side of the movable frame facing away from the ground, the second support plate being located on a side of the first support plate, and a side of the second support plate near the first support plate being connected to the first support plate, wherein the first support plate has a first scrap channel and a first mounting groove, the first mounting groove is near the second support plate, and the first scrap channel is located on a side of the first mounting groove remote from the second support plate, wherein the first scrap channel and the first mounting groove both extend through the first support plate, the third support plate has a second scrap channel and a second mounting groove, the second scrap channel is near a side of the third support plate facing away from the second support plate, and the second scrap channel is located on a side of the second scrap channel near the second support plate, the third supporting plate is also provided with a first sliding groove, the first sliding groove is positioned on one side, close to the second supporting plate, of the third supporting plate, and the second waste chute, the second mounting groove box and the first sliding groove penetrate through the third supporting plate.

In one or more embodiments of the present application, the second cutting assembly includes a second supporting seat, the second supporting seat is disposed on a side of the third supporting plate away from the ground, one side of the second supporting seat close to the third supporting plate is further provided with a plurality of second supporting pillars, a plurality of ends of the second supporting pillars are fixedly connected to the second supporting seat and a side of the third supporting plate close to each other, one side of the second supporting seat close to the second supporting plate is provided with a fourth mounting groove, and one end of the fourth mounting groove close to the third supporting plate is communicated with the outside.

In one or more embodiments of the present application, the second cutting assembly further includes a fourth driving member and a second pressing plate, one end of the fourth driving member is fixedly connected to a top wall forming the fourth mounting groove, and the other end of the fourth driving member is connected to the second pressing plate. In addition a rubber pad is installed on one side of the second extrusion plate, which deviates from the first driving component, wherein the rubber pad is used for limiting the end part of the external copper rod, the rubber pad is located on one side of the second installation groove, which deviates from the second waste tank, the second cutting assembly comprises a second baffle plate, the second baffle plate is in contact with at least two second support columns which are close to the second waste tank, the side wall of the second baffle plate is fixedly connected with the third support plate, the second baffle plate is perpendicular to the third support plate, and the second baffle plate is close to one side of the second waste tank, which is far away from the second extrusion plate.

In one or more embodiments of this application, the support body subassembly still includes two connecting pipes, two the connecting pipe respectively by fixed connection in remove the both sides of frame, and all be located remove the middle section of frame, wherein the one end of connecting pipe is close to remove the frame and deviate from the one end of first cutting component, the other end is close to the second backup pad, the support body subassembly still includes a fourth backup pad, the fourth backup pad is located two one side on connecting pipe back of the ground, the fourth backup pad has a third waste silo and second pilot hole, the third waste silo is just right the second waste silo, just the second pilot hole is located one side of stating the third waste silo.

In one or more embodiments of the present application, the second cutting assembly includes a fifth driving part disposed on the fourth supporting plate and located between the third waste receptacle and the second assembling hole, the fifth driving part has a second moving block, the fifth driving part is configured to drive the second moving block to move transversely for a predetermined distance, the second cutting assembly further includes a sixth driving part and a seventh driving part, the sixth driving part and the seventh driving part are both disposed on the second moving block, the sixth driving part is close to the second waste receptacle, and the seventh driving part is located on a side of the sixth driving part facing away from the second waste receptacle, the sixth driving part has a second telescopic rod, and a second top block is mounted on an end of the second telescopic rod facing away from the sixth driving part, the second cutting assembly further comprises a second L-shaped block, the second L-shaped block is provided with a second side portion and a second top portion, the second side portion is perpendicular to the second top portion, the side wall of the second top block is fixedly connected with the second side portion of the L-shaped block, the second top block can drive the second L-shaped block to lift for a preset distance, and the second top portion of the second L-shaped block is close to the third supporting plate.

In one or more embodiments of the present application, the second side portion of the second L-shaped block further has a third assembly hole located at one side of the sixth driving part, the second cutting assembly further includes a second power part, the second power part has a second head portion, the second head portion is fixedly connected to the wall surface forming the third assembly hole, and one end of the second head portion facing away from the second power part has a second rotating shaft and a second saw blade, the second rotating shaft is rotatably disposed on the second head portion, and the second saw blade is detachably disposed on the second rotating shaft, the second power part is configured to drive the second rotating shaft to rotate, so as to rotate the second saw blade, wherein one side of the second saw blade facing away from the second rotating shaft passes through the second mounting groove, and is positioned on one side of the third supporting plate, which is back to the ground.

In one or more embodiments of the present application, the third support plate further has a plurality of first positioning holes uniformly distributed and spaced at a predetermined distance, the first positioning holes are located at a side of the second mounting groove departing from the second waste tank, the plurality of first positioning holes all penetrate through the third support plate, and the plurality of first positioning holes also penetrate through the second top of the second L-shaped block. The seventh driving part is provided with a third telescopic rod, and one end, away from the seventh driving part, of the third telescopic rod is provided with a printing block, wherein the printing block selectively corresponds to one of the first positioning holes.

In one or more embodiments of the present application, the second supporting plate has a second sliding groove, the second sliding groove penetrates through the second supporting plate, the cutting device for copper bars further includes a ninth driving part, the ninth driving part is disposed on a side of the moving frame away from the ground, the ninth driving part is located at a lower side of the third supporting plate, the ninth driving part has a fourth moving block, the ninth driving part is configured to drive the fourth moving block to move transversely for a predetermined distance, the fourth moving block further has a second stop block on a side away from the ninth driving part, an end of the second stop block away from the fourth moving block penetrates through the first sliding groove, the third supporting plate further has a second positioning hole, and the second positioning hole is located on a side of the external copper bar away from the second stop block, the cutting device for the copper bars further comprises two telescopic devices, one telescopic device is arranged in the second positioning hole and can extend out for a preset length, and the control terminal is connected with the ninth driving part and the telescopic devices.

In order to achieve at least one of the above objects, the present application provides a method for using a copper bar cutting device, wherein the copper bar cutting device comprises:

s1: placing an external copper rod on the movable frame, and placing two ends of the external copper rod on the first supporting plate and the third supporting plate respectively;

s2: extending the two telescopic devices by a preset length through the control terminal;

s3: and driving the eighth driving component and the ninth driving component through the control terminal to enable the first stop block and the second stop block to move for a preset distance in the direction close to the outer copper rod until the outer copper rod is stopped by the two telescopic devices.

S4: and driving the first driving part and the fourth driving part through the control terminal, so that the first extrusion plate and the second extrusion plate respectively press the end parts of the external copper rods on the first supporting plate and the third supporting plate.

S5: the first power component and the second power component are driven by the control terminal to enable the first saw blade and the second saw blade to rotate, and meanwhile the first driving component and the fifth driving component are driven, so that the first saw blade and the second saw blade move for a preset distance in the direction close to an external copper bar, and the first saw blade and the second saw blade are enabled to respectively perform flat head on two ends of the external copper bar.

S6: and driving the seventh driving component through the control terminal to enable the seal block to extrude the external copper rod arranged on the movable frame, so that the serial number information on the seal block is printed on the external copper rod.

S7: through control terminal drive first drive unit and fourth drive unit to make first stripper plate and second stripper plate no longer prescribe a limit to outside bar copper, drive simultaneously two telescoping device retracts the predetermined distance, the height of one side of removal frame highly to the height of opposite side diminishes gradually, therefore outside bar copper can be followed the low one side roll of removal frame, until outside bar copper drops to outside and accomodates the frame on.

Drawings

These and/or other aspects and advantages of the present application will become more apparent and more readily appreciated from the following detailed description of the embodiments of the present application, taken in conjunction with the accompanying drawings of which:

fig. 1 illustrates a schematic structural view of a copper bar cutting apparatus.

Fig. 2 illustrates a part of a structural schematic diagram I of a copper bar cutting device.

Fig. 3 illustrates a second structural schematic diagram of a copper bar cutting device.

Fig. 4 illustrates a part of the first cutting assembly.

Fig. 5 illustrates a second partial structural view of the first cutting assembly.

Fig. 6 illustrates a third partial structural view of the first cutting assembly.

Fig. 7 illustrates a fourth partial structural view of the first cutting assembly.

Fig. 8 illustrates a partial structural schematic view one of the second cutting assembly.

Fig. 9 illustrates a partial structural schematic diagram two of the second cutting assembly.

Fig. 10 illustrates a partial structural view three of the second cutting assembly.

Fig. 11 illustrates a partial structural view of the second cutting assembly.

Fig. 12 illustrates a partial structural schematic diagram five of the second cutting assembly.

Fig. 13 illustrates a structural schematic diagram of the seventh driving part.

Detailed Description

The terms and words used in the following specification and claims are not limited to the literal meanings, but are used only by the inventors to enable a clear and consistent understanding of the application. Accordingly, it will be apparent to those skilled in the art that the following descriptions of the various embodiments of the present application are provided for illustration only and not for the purpose of limiting the application as defined by the appended claims and their equivalents.

It is understood that the terms "a" and "an" should be interpreted as meaning "at least one" or "one or more," i.e., that a quantity of one element may be one in one embodiment, while a quantity of another element may be plural in other embodiments, and the terms "a" and "an" should not be interpreted as limiting the quantity.

While ordinal numbers such as "first," "second," etc., will be used to describe various components, those components are not limited herein. The term is used only to distinguish one element from another. For example, a first component could be termed a second component, and, similarly, a second component could be termed a first component, without departing from the teachings of the inventive concepts. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The terminology used herein is for the purpose of describing various embodiments only and is not intended to be limiting. As used herein, the singular forms are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, numbers, steps, operations, components, elements, or combinations thereof, but do not preclude the presence or addition of one or more other features, numbers, steps, operations, components, elements, or groups thereof.

Summary of the application

In order to meet the production requirement, the cutting device for the copper bar is specially designed so as to improve the flat head efficiency of the copper bar. But because the saw bit cutting has the ageing, can appear bar copper crew cut incomplete problem when the saw bit live time is longer, and then lead to the product to go wrong, equipment live time overlength also can lead to the production of defective work moreover, and when equipment was more, need the longer time to finding out the equipment that goes wrong. It is therefore desirable to provide a cutting device that is simultaneously numbered when the exterior is flat.

Therefore, a cutting device which is used for printing serial number information on the copper rod, has high processing efficiency and can automatically separate from the copper rod and a using method thereof are needed.

Based on the technical problems, the cutting device for the copper rod and the using method of the cutting device for the copper rod are simple in structure, do not relate to complex manufacturing process and expensive materials, and have high economical efficiency.

Cutting device for schematic copper bar and using method thereof

Referring to fig. 1 to 13, a cutting apparatus for copper bars according to a preferred embodiment of the present invention is specifically designed to meet the processing requirements and efficiency. The bar blanking apparatus is described in detail below to facilitate an understanding of the invention.

Specifically, as shown in fig. 1, the cutting device for the copper bar includes a frame assembly 10, a first cutting assembly 20 and a second cutting assembly 30, and both the first cutting assembly 20 and the second cutting assembly 30 are disposed on the frame assembly 10. It should be noted that the second cutting assembly 30 is slidably disposed on the frame assembly 10, and the first cutting assembly and the second cutting assembly 30 are disposed opposite to each other and spaced apart from each other by a predetermined distance.

It should be noted that an external copper rod is placed on the frame assembly 10, and the first cutting assembly 20 and the second cutting assembly 30 are used to cut both ends of the external copper rod placed on the frame assembly 10 to trim the ends of the external copper rod.

Further, the frame assembly 10 includes a movable frame 11, and the movable frame 11 is movably disposed on the ground, wherein it should be understood by those skilled in the art that a plurality of uniformly distributed pulleys are installed on the bottom wall of the movable frame 11, so that the movable frame 11 can move on the ground.

Further, as shown in fig. 4 and 11, the frame assembly 10 further includes a first supporting plate 12, a second supporting plate 13 and a third supporting plate 14, the first supporting plate 12, the second supporting plate 13 and the third supporting plate 14 are all disposed on the side of the moving frame 11 departing from the ground, the first supporting plate 12 is close to the end of the moving frame 11, the second supporting plate 13 is located on one side of the first supporting plate 12, one side of the second supporting plate 13 close to the first supporting plate 12 is connected to the first supporting plate 12, and the third supporting plate 14 is close to the other end of the moving frame 11.

It is worth mentioning that the first cutting assembly 20 is provided on the first support plate 12 and the second cutting assembly 30 is provided on the third support plate 14.

It should be noted that, as shown in fig. 2 and fig. 4 to 7, the first support plate 12 has a first waste chute 1201 and a first mounting groove 1202, the first mounting groove 1202 is close to the second support plate 13, and the first waste chute 1201 is located at a side of the first mounting groove 1202 far from the second support plate 13, wherein both the first waste chute 1201 and the first mounting groove 1202 penetrate through the first support plate 12.

In addition, the third supporting plate 14 is provided with a second waste groove 1401 and a second mounting groove 1402, the second waste groove 1401 is close to one side of the third supporting plate 14, which is far away from the second supporting plate 13, and the second waste groove 1401 is positioned at one side of the second waste groove 1401, which is close to the second supporting plate 13.

It should be noted that the third supporting plate 14 further has a first sliding chute 1403, the first sliding chute 1403 is located at a side of the third supporting plate 14 close to the second supporting plate 13, and the second waste chute 1401, the second mounting groove 1402 box, and the first sliding chute 1403 all penetrate through the third supporting plate 14.

Further, first cutting component 20 includes a first supporting seat 21, first supporting seat 21 is located one side that first backup pad 12 deviates from ground, and with first backup pad 12 interval predetermined distance, it is worth mentioning, first supporting seat 21 is close to one side of backup pad still is equipped with a plurality ofly first support column, and is a plurality of the both ends of first support column with first supporting seat 21 with one side fixed connection that first backup pad 12 is close to each other.

Further, one side of the first supporting seat 21 close to the two supporting plates is provided with a third mounting groove, and one end of the third mounting groove close to the first supporting plate 12 is communicated with the outside.

It should be noted that the first cutting assembly 20 further includes a first driving member 22 and a first pressing plate 23, one end of the first driving member 22 is fixedly connected to a top wall forming the third mounting groove, and the other end is connected to the first pressing plate 23. In addition, a rubber pad is mounted on the side of the first pressing plate 23 facing away from the first driving member 22, wherein the rubber pad is used for limiting the end of the outer copper rod, and wherein the rubber pad is positioned on the side of the first mounting groove 1202 close to the second supporting plate 13.

It should be noted that the height of one side of the movable frame 11 is gradually reduced to the height of the other side, so that the first support plate 12, the second support plate 13 and the third support plate 14 are all in an inclined state.

Wherein, the first cutting assembly 20 comprises a first baffle 24, the first baffle 24 contacts with at least two first supporting columns near the first waste chute 1201, and the side wall of the first baffle 24 is further fixedly connected with the first supporting plate 12, and the first baffle 24 is perpendicular to the first supporting plate 12, wherein the first baffle 24 is further near the first baffle 24 and is further located on one side of the first waste chute 1201 away from the first pressing plate 23. It should be noted that, a plurality of external copper bars are all disposed on the moving frame 1, and the first baffle 24 is disposed so that the ends of the plurality of external copper bars are flush, that is, one end of each of the plurality of external copper bars is in contact with the first baffle 24.

It should be noted that the frame body assembly 10 further includes two vertical plates 151 and a horizontal plate 152, the two vertical plates 151 are disposed oppositely and are both disposed on the wall surface of the moving frame 11 close to the ground, and the horizontal plate 152 is further fixedly connected to one end of the two vertical plates 151 departing from the ground.

It should be noted that the two vertical plates 151 have different lengths, so that the horizontal plate 152 is inclined, and the inclined state of the horizontal plate 152 is consistent with the inclined state of the first support plate 12.

Further, the first cutting assembly 20 further includes a second driving member 25, and the second driving member 25 is disposed on a side of the cross plate 152 facing away from the vertical plate 151. It should be noted that the second driving part 25 has a first moving block, and the second driving part 25 is configured to drive the first moving block to move transversely by a predetermined distance, that is, the first moving block can reciprocate transversely.

Further, the first cutting assembly 20 further includes at least one third driving member 26, and the third driving member 26 is disposed on the first moving block, so that the first moving block drives the third driving member 26 to move. In addition, one end of the third driving part 26, which is far away from the moving block, is also provided with a first telescopic rod, and the third driving part 26 is arranged to drive the first telescopic rod to stretch and contract for a preset length.

Further, the first cutting assembly 20 further includes a first L-shaped block 27, the first L-shaped block 27 includes a first side portion 271 and a first top portion 272, the first side portion 271 of the first L-shaped block 27 contacts the third driving member 26 and is adjacent to the first mounting groove 1202, and the first top portion 272 of the first L-shaped block 27 is adjacent to the ground side of the first support plate 12.

It should be noted that a first top block 261 is disposed at an end of the first telescopic rod departing from the third driving member 26, the first top block 261 is fixedly connected with an end of the first telescopic rod departing from the third driving member 26, and a side wall of the first top block 261 is further fixedly connected with a side wall of the first L-shaped block 27. It should be noted that when the first telescopic rod is lifted to a predetermined height, the first top block 261 is also lifted to a predetermined height.

Further, the side 271 of the first L-shaped block 27 has a first fitting hole 2701, the first fitting hole 2701 penetrates through the first side 271 of the first L-shaped block 27, and the first fitting hole 2701 is located at one side of the first top block 261.

Further, the first cutting assembly 20 further comprises a first power member 28, the first power member 28 has a first head portion fixedly connected to the wall surface defining the first fitting hole 2701, thereby defining the position of the first power member 28, wherein it should be understood by those skilled in the art that an end of the first head portion facing away from the first power member 28 has a first rotating shaft and a first saw blade 29, the first rotating shaft is rotatably disposed on the first head portion, and the first saw blade 29 is detachably disposed on the first rotating shaft. It should be noted that the first power component 28 is configured to drive the first rotating shaft to rotate, so as to rotate the first saw blade 29, wherein a side of the first saw blade 29 departing from the first rotating shaft passes through the first mounting groove 1202 and is located at a side of the first supporting plate 12 departing from the ground.

It should be noted that, when the third driving member 26 is configured to control the lifting of the first top block 261, so as to lift the first L-shaped block 27 by a predetermined distance, and further, to extend or retract the first saw blade 29 into the first mounting groove 1202, the second driving member 25 is configured to drive the third driving member 26 to move laterally by a predetermined distance, so as to move the first saw blade 29 by a predetermined distance in the first mounting groove 1202, so as to enable the first saw blade 29 to cut the end of the external copper rod placed on the frame assembly 10.

It should be noted that the first driving member 22 is implemented as an air cylinder, the second driving member 25 is implemented as an oil cylinder, and the second driving member 25 can also be implemented by a bearing and a lead screw, wherein the third driving member 26 can be implemented as an air cylinder.

Further, the frame assembly 10 further includes a first hopper 16, the first hopper 16 is disposed on one side of the first support plate 12 close to the ground and faces the first waste material tank 1201, wherein the first hopper 16 has a first opening, a first cavity and a second cavity, the first opening is respectively communicated with the first waste material tank 1201 and the first cavity, and the second opening is respectively communicated with the outside and the first cavity, wherein when the first saw blade 29 cuts the end of the external copper rod, the cut part of the external copper rod sequentially passes through the first waste material tank 1201, the first opening, the first cavity and the second opening.

Further, as shown in fig. 1, fig. 3, and fig. 8 to fig. 13, the second cutting assembly 30 includes a second supporting seat 31, the second supporting seat 31 is disposed on a side of the third supporting plate 14 away from the ground, it should be mentioned that a plurality of second supporting pillars are further disposed on a side of the second supporting seat 31 close to the third supporting plate 14, and two ends of the plurality of second supporting pillars are fixedly connected to a side of the second supporting seat 31 close to the third supporting plate 14.

Further, one side of the second support seat 31 close to the two support plates is provided with a fourth installation groove, and one end of the fourth installation groove close to the third support plate 14 is communicated with the outside.

It should be noted that the second cutting assembly 30 further includes a fourth driving member 32 and a second extrusion plate 33, one end of the fourth driving member 32 is fixedly connected to the top wall forming the fourth mounting groove, and the other end is connected to the second extrusion plate 33. In addition, a rubber pad is mounted on the side of the second pressing plate 33 facing away from the first driving member 22, wherein the rubber pad is used for limiting the end of the outer copper rod, wherein the rubber pad is positioned on the side of the second mounting groove 1402 facing away from the second chute 1401.

The second cutting assembly 30 includes a second baffle 34, the second baffle 34 contacts with at least two second supporting pillars near the second waste chute 1401, and the side wall of the second baffle 34 is further fixedly connected to the third supporting plate 14, and the second baffle 34 is perpendicular to the third supporting plate 14, wherein the second baffle 34 is further near a side of the second waste chute 1401 far away from the second pressing plate 33. It should be noted that, a plurality of external copper bars are all disposed on the moving frame 11, and the second baffle 34 is disposed so that the end portions of the plurality of external copper bars are flush, that is, one end of each of the plurality of external copper bars is in contact with the second baffle 34.

Further, as shown in fig. 1, the frame assembly 10 further includes two connecting pipes 17, two of the connecting pipes 17 are respectively and fixedly connected to two sides of the movable frame 11 and are located at the middle section of the movable frame 11, wherein one end of the connecting pipe 17 is close to one end of the movable frame 11 deviating from the first cutting assembly 20, and the other end of the connecting pipe 17 is close to the second supporting plate 13.

Further, the frame assembly 10 further includes a fourth supporting plate 18, and the fourth supporting plate 18 is disposed on a side of the two connecting pipes 17 away from the ground. The fourth supporting plate 18 has a third waste container 1801 and a second assembling hole 1802, the third waste container 1801 faces the second waste container 1401, and the second assembling hole 1802 is located at one side of the third waste container 1801. It should be mentioned that the frame assembly 10 further comprises a second hopper, and two ends of the second material head are respectively communicated with the third waste material tank 1801 and the second waste material tank 1401.

Further, the second cutting assembly 30 is disposed on the third support plate 14.

Wherein the second cutting assembly 30 comprises a fifth driving member 35, the fifth driving member 35 is disposed on the fourth support plate 18 and located between the third waste container 1801 and the second assembling hole 1802, wherein it should be noted that the fifth driving member 35 has a second moving block, and the fifth driving member 35 is configured to drive the second moving block to move transversely by a predetermined distance.

Further, the second cutting assembly 30 further includes a sixth driving member 36 and a seventh driving member 37, the sixth driving member 36 and the seventh driving member 37 are both disposed on the second moving block, the sixth driving member 36 is close to the second waste chute 1401, and the seventh driving member 37 is located on a side of the sixth driving member 36 facing away from the second waste chute 1401.

Further, as shown in fig. 12, the sixth driving member 36 has a second telescopic rod, and a second top block 361 is installed at an end of the second telescopic rod facing away from the sixth driving member 36. Wherein the second cutting assembly 30 further comprises a second L-shaped block 38, the second L-shaped block 38 has a second side portion 381 and a second top portion 382, the second side portion 381 is perpendicular to the second top portion 382, and a side wall of the second top block 361 is fixedly connected to the side portion of the second L-shaped block 38, so that the second top block 361 can lift the second L-shaped block 38 by a predetermined distance, wherein the top portion of the second L-shaped block 38 is close to the third supporting plate 14.

Further, the second side portion 381 of the second L-shaped block 38 further has a third fitting hole 3801, and the third fitting hole 3801 is located at a side of the sixth driving part 36.

Further, the second cutting assembly 30 further includes a second power member having a second head fixedly connected to the wall defining the third fitting hole 3801, and an end of the second head facing away from the second power member has a second rotating shaft and a second saw blade 392, the second rotating shaft is rotatably disposed on the second head, and the second saw blade 392 is detachably disposed on the second rotating shaft. It should be noted that the second power component is configured to drive the second rotating shaft to rotate, so as to rotate the second saw blade 392, wherein one side of the second saw blade 392 departing from the second rotating shaft passes through the second mounting groove 1402 and is located on one side of the third supporting plate 14 departing from the ground.

It should be noted that, as shown in fig. 11 and 13, the third supporting plate 14 further has a plurality of first positioning holes 1404 uniformly spaced at a predetermined distance, and the first positioning holes 1404 are located on a side of the second mounting groove 1402 facing away from the second chute 1401. It is worth mentioning that the first positioning holes 1404 all penetrate the third support plate 14, and the first positioning holes 1404 also penetrate the top of the second L-shaped block 38. The seventh driving member 37 has a third telescopic rod, and an end of the third telescopic rod facing away from the seventh driving member 37 is provided with an ink block 371, wherein the ink block 371 selectively corresponds to one of the first positioning holes 1404. It should be noted that the third retractable rod can extend out by a predetermined angle, so as to move the block 371 towards the third supporting plate 14 by a predetermined distance.

When the second moving block drives the seventh driving part 37 to arrive at a predetermined position, the printing block 371 directly faces one of the first positioning holes 1404 (preferably, the outermost one of the first positioning holes 1404), then the third telescopic rod extends out by a predetermined length, so that the printing block 371 passes through the corresponding first positioning hole 1404, and thus the printing block 371 extrudes the corresponding external copper rod, wherein it needs to be stated that the printing block 371 has numbering information, then the second moving block continues to move by a predetermined distance, so that the printing block 371 directly faces the other end of the first positioning hole 1404, and so on until all the external copper rods are printed with the numbering information, and then when a problem occurs to the copper rod of the batch, a user can find the corresponding device by using the information on the numbering, and then maintain the device. Wherein the block 371 can be replaced according to the user's requirement, that is, the number information on the block 371 can be replaced within a certain time.

Furthermore, a rack 40 is fixed on one side of one of the connecting pipes 17 close to the other connecting pipe 17, and a first slide rail 51 is further respectively disposed on one side of the two connecting pipes 17 away from the ground, wherein the fourth support plate 18 is slidably disposed on the two first slide rails 51.

It should be noted that the second cutting assembly 30 further includes a third power component 300, the third power component 300 is disposed on the fourth supporting plate 18, wherein the third power component 300 has a third rotation axis, the third rotation axis passes through the second assembling hole 1802 and is disposed on one side of the fourth supporting plate 18 close to the ground, and it should be noted that a gear is further installed at one end of the third rotation axis departing from the fourth supporting plate 18, and the gear is engaged with the rack 40. Wherein the gear moves the fourth support plate 18 forward and backward by a predetermined distance by rolling on the rack 40 when the third power unit 300 is operated.

It should be noted that two second slide rails 52 are further installed on one side of the moving frame 11 away from the ground, the two second slide rails 52 are oppositely arranged, the two slide rails are located between the second supporting plate 13 and the third supporting plate 14, the frame body assembly 10 further includes a plurality of fifth supporting plates 19, and the plurality of fifth supporting plates 19 are slidably arranged on the two second slide rails 52, so as to prevent the intermediate portion from bending downward due to an excessively long outer copper rod.

It should be noted that the third supporting plate 14 is spaced from the top of the moving frame 11 by a predetermined distance, so that when the fourth supporting plate 18 moves, the fourth supporting plate 18 drives the second cutting assembly 30 to move integrally.

Further, the second support plate 13 has a second sliding slot 1301, and the second sliding slot 1301 passes through the second support plate 13.

Specifically, the cutting device for the copper bar further includes an eighth driving member 60 and a ninth driving member 70, the eighth driving member 60 and the ninth driving member 70 are both disposed on a side of the moving frame 11 facing away from the ground, the eighth driving member 60 is disposed on a lower side of the second support plate 13, and the ninth driving member 70 is disposed on a lower side of the third support plate 14, wherein the eighth driving member 60 has a third moving block, the eighth driving member 60 is configured to drive the third moving block to move laterally by a predetermined distance, the third moving block further has a first stop 61 on a side facing away from the ground, an end of the first stop 61 facing away from the third moving block passes through the second sliding groove 1301, the ninth driving member 70 has a fourth moving block, the ninth driving member 70 is configured to drive the fourth moving block to move laterally by a predetermined distance, and a second stop block 71 is further disposed on a side of the fourth moving bay away from the ninth driving part 70, and an end of the second stop block 71 away from the fourth moving block passes through the first sliding chute 1403, it is worth mentioning that the first stop block 61 and the second stop block 71 are both located on the same side, and the first stop block 61 and the second stop block 71 are both close to a side of the moving frame 11 higher than the ground, wherein the first stop block 61 and the second stop block 71 can move a predetermined distance in a direction close to a side of the moving frame 11 lower than the ground, so as to define a position of the external copper rod.

It should be noted that the third supporting plate 14 further has a second positioning hole 1405, the second positioning hole 1405 is located on a side of the external copper rod away from the second stopper 71, and the first supporting plate 12 has a third positioning hole 1203, and the third positioning hole 1203 and the second positioning hole 1405 are located on the same side, and the third positioning hole 1203 is located on a side of the first pressing plate 23 away from the first mounting groove 1202. It should be noted that the first stopper 61 and the second stopper 71 can move a moving distance in a direction approaching the second positioning hole 1405 and the third positioning hole 1203, respectively.

It should be mentioned that the cutting device for the copper bar further includes two telescoping devices 80, two telescoping devices 80 are respectively disposed in the second positioning hole 1405 and the third positioning hole 1203, wherein the telescoping devices 80 are set to a controllable telescopic predetermined length, so as to define the position of the external copper bar, and further enable the first stopper 61 and the second stopper 71 to respectively move towards the direction close to the second positioning hole 1405 and the third positioning hole 1203 for a moving distance, and the first stopper 61 and the second stopper 71 drive the external copper bar to move until being stopped by two telescoping devices 80. Specifically, the telescopic device 80 may be implemented with a tenth driving part and a controller.

Wherein one skilled in the art should understand that the end of the magazine assembly 10 provided with the first cutting assembly 20 is further mounted with a control terminal 90, the control terminal 90 being used to control all the driving and power components described above.

The method of using the copper bar cutting device is explained in detail below:

s1: placing an external copper rod on the moving frame 11, and placing both ends of the external copper rod on the first support plate 12 and the third support plate 14, respectively;

s2: extending the two telescoping devices 80 by a predetermined length through the control terminal 90;

s3: the eighth driving part 60 and the ninth driving part 70 are driven by the control terminal 90, so that the first stopper 61 and the second stopper 71 move a predetermined distance in a direction of approaching the outer copper rod until the outer copper rod is stopped by the two telescopic devices 80.

S4: the first and fourth driving parts 22 and 32 are driven by the control terminal 90 such that the first and second pressing plates 23 and 33 press the ends of the external copper rods placed on the first and third supporting plates 12 and 14, respectively.

S5: the first power member 28 and the second power member are driven by the control terminal 90 to rotate the first saw blade 29 and the second saw blade 392, and the first driving member 22 and the fifth driving member 35 are driven at the same time, so that the first saw blade 29 and the second saw blade 392 move a predetermined distance in a direction of approaching the outer copper rod, and the first saw blade 29 and the second saw blade 392 respectively perform the flat ends on the two ends of the outer copper rod.

S6: the seventh driving part 37 is driven by the control terminal 90 so that the stamp block 371 presses the outer copper bar placed on the moving frame 11, thereby printing the number information on the stamp block 371 on the outer copper bar.

S7: the first driving part 22 and the fourth driving part 32 are driven by the control terminal 90, so that the first extrusion plate 23 and the second extrusion plate 33 no longer limit the external copper rod, and simultaneously the two telescopic devices 80 are driven to retract for a preset distance, the height of one side of the movable frame 11 is gradually reduced to the height of the other side, so that the external copper rod can roll from the lower side of the movable frame 11 until the external copper rod falls onto the external storage frame.

In summary, the cutting device for copper bars and the using method thereof according to the embodiments of the present application are clarified, and provide advantages of the cutting device for copper bars and the using method thereof, such as printing number information on the copper bars, high processing efficiency, and capability of automatically separating from the copper bars.

It is worth mentioning that, in the embodiment of the present application, the cutting device for copper rods and the use method thereof have simple structure, do not involve complicated manufacturing process and expensive materials, and have high economical efficiency. Meanwhile, for manufacturers, the copper bar cutting device and the use method thereof are easy to produce, low in cost, more beneficial to controlling production cost and further beneficial to product popularization and use.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are given by way of example only and are not limiting of the invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the examples, and any variations or modifications of the embodiments of the present invention may be made without departing from the principles.

Claims (10)

1. A cutting device for copper bars, characterized in that it comprises:

the frame body assembly comprises a moving frame, a first supporting plate and a third supporting plate, the first supporting plate is arranged on one side of the moving frame, which is far away from the ground, the first supporting plate is close to the end part of the moving frame, the third supporting plate is close to the other end of the moving frame, the height from one side of the moving frame to the other side of the moving frame is gradually reduced, and therefore the first supporting plate and the third supporting plate are in an inclined state;

a first cutting assembly;

the first cutting assembly and the second cutting assembly are respectively arranged on the first supporting plate and the third supporting plate, wherein the external copper bar is arranged on the moving frame, and the first cutting assembly and the second cutting assembly are arranged to be capable of flatly facing two ends of the external copper bar;

and the control terminal is connected with the first cutting assembly and the second cutting assembly.

2. The apparatus for cutting copper bar according to claim 1, wherein the frame body assembly further comprises a second supporting plate disposed at a side of the movable frame facing away from the ground, the second supporting plate being located at a side of the first supporting plate, and a side of the second supporting plate close to the first supporting plate being connected to the first supporting plate, wherein the first supporting plate has a first waste tank and a first mounting groove, the first mounting groove is close to the second supporting plate, and the first waste tank is located at a side of the first mounting groove far from the second supporting plate, wherein the first waste tank and the first mounting groove both penetrate the first supporting plate, the third supporting plate has a second waste tank and a second mounting groove, the second waste tank is close to a side of the third supporting plate facing away from the second supporting plate, and the second waste trough is positioned at one side, close to the second support plate, of the second waste trough, the third support plate is further provided with a first sliding groove, the first sliding groove is positioned at one side, close to the second support plate, of the third support plate, and the second waste trough, the second mounting groove box and the first sliding groove penetrate through the third support plate.

3. The apparatus for cutting copper bar according to claim 2, wherein the second cutting assembly comprises a second supporting seat, the second supporting seat is disposed on a side of the third supporting plate away from the ground, a plurality of second supporting pillars are further disposed on a side of the second supporting seat close to the third supporting plate, two ends of the plurality of second supporting pillars are fixedly connected to a side of the second supporting seat close to the third supporting plate, a fourth mounting groove is disposed on a side of the second supporting seat close to the second supporting plate, and an end of the fourth mounting groove close to the third supporting plate is communicated with the outside.

4. The apparatus for cutting copper bars as defined in claim 3, wherein said second cutting assembly further comprises a fourth driving member and a second pressing plate, said fourth driving member having one end fixedly connected to the top wall forming said fourth mounting groove and the other end connected to said second pressing plate, and a rubber pad mounted on the side of said second pressing plate facing away from said first driving member, wherein said rubber pad is used to define the end of the outer copper bar, said rubber pad is located on the side of said second mounting groove facing away from said second chute, wherein said second cutting assembly comprises a second baffle plate contacting at least two second supporting posts adjacent to said second chute, and the side wall of said second baffle plate is further fixedly connected to said third supporting plate, and said second baffle plate is perpendicular to said third supporting plate, the second baffle is also close to one side of the second waste material groove far away from the second extrusion plate.

5. The apparatus for cutting a copper bar according to claim 4, wherein the frame body assembly further comprises two connecting pipes, the two connecting pipes are respectively and fixedly connected to two sides of the movable frame and are located at a middle portion of the movable frame, one end of each connecting pipe is close to one end of the movable frame away from the first cutting assembly, the other end of each connecting pipe is close to the second supporting plate, the frame body assembly further comprises a fourth supporting plate, the fourth supporting plate is located at one side of the two connecting pipes away from the ground, the fourth supporting plate is provided with a third waste tank and a second assembling hole, the third waste tank is opposite to the second waste tank, and the second assembling hole is located at one side of the third waste tank.

6. A cutting apparatus for copper bars as claimed in claim 5, wherein the second cutting assembly includes a fifth driving part disposed on the fourth support plate between the third chute and the second assembling hole, the fifth driving part having a second moving block, the fifth driving part being disposed to drive the second moving block to move transversely a predetermined distance, the second cutting assembly further includes a sixth driving part and a seventh driving part, both of the sixth driving part and the seventh driving part being disposed on the second moving block, the sixth driving part being adjacent to the second chute, and the seventh driving part being disposed on a side of the sixth driving part opposite to the second chute, the sixth driving part having a second telescopic rod, an end of the second telescopic rod opposite to the sixth driving part being mounted with a second top block, the second cutting assembly further comprises a second L-shaped block, the second L-shaped block is provided with a second side portion and a second top portion, the second side portion is perpendicular to the second top portion, the side wall of the second top block is fixedly connected with the second side portion of the L-shaped block, the second top block can drive the second L-shaped block to lift for a preset distance, and the second top portion of the second L-shaped block is close to the third supporting plate.

7. The apparatus for cutting copper bar according to claim 6, wherein the second side portion of the second L-shaped block further has a third fitting hole located at one side of the sixth driving member, the second cutting assembly further comprises a second power member having a second head portion fixedly connected to the wall surface defining the third fitting hole, and an end of the second head portion facing away from the second power member has a second rotating shaft and a second saw blade, the second rotating shaft is rotatably disposed on the second head portion, and the second saw blade is detachably disposed on the second rotating shaft, the second power member is configured to rotate the second rotating shaft so as to rotate the second saw blade, wherein one side of the second saw blade facing away from the second rotating shaft passes through the second fitting groove, and is positioned on one side of the third supporting plate, which is back to the ground.

8. The apparatus for cutting copper bar according to claim 7, wherein said third supporting plate further has a plurality of first positioning holes spaced apart from each other by a predetermined distance, said first positioning holes are located at a side of said second mounting groove facing away from said second chute, said plurality of first positioning holes are formed through said third supporting plate, and said plurality of first positioning holes are formed through said second top portion of said second L-shaped block, wherein said seventh driving member has a third telescopic rod, and an end of said third telescopic rod facing away from said seventh driving member is mounted with a block, wherein said block selectively corresponds to one of said first positioning holes.

9. The apparatus for cutting copper bar according to claim 8, wherein the second supporting plate has a second sliding slot, the second sliding slot extends through the second supporting plate, the apparatus further comprises a ninth driving member, the ninth driving member is disposed on a side of the movable frame facing away from the ground, the ninth driving member is disposed on a lower side of the third supporting plate, the ninth driving member has a fourth moving block, the ninth driving member is configured to drive the fourth moving block to move laterally by a predetermined distance, the fourth moving block further has a second stop block on a side facing away from the ninth driving member, an end of the second stop block facing away from the fourth moving block passes through the first sliding slot, the third supporting plate further has a second positioning hole, and the second positioning hole is located on a side of the outer copper bar facing away from the second stop block, the cutting device for the copper bar further comprises two telescopic devices, one telescopic device is arranged in the second positioning hole, the telescopic devices can extend out of a preset length, and the control terminal is connected with the ninth driving part and the telescopic devices.

10. A method for using a copper bar cutting device according to any one of claims 1 to 9, wherein the method comprises:

s1: placing an external copper rod on the moving frame, and placing two ends of the external copper rod on the first supporting plate and the third supporting plate respectively;

s2: extending the two telescopic devices by a preset length through the control terminal;

s3: the eighth driving part and the ninth driving part are driven by the control terminal, so that the first stop block and the second stop block move for a preset distance in the direction close to the outer copper rod until the outer copper rod is stopped by the two telescopic devices;

s4: driving the first driving part and the fourth driving part through the control terminal so that the first extrusion plate and the second extrusion plate respectively press the end parts of the external copper rods on the first support plate and the third support plate;

s5: the first power component and the second power component are driven through the control terminal to enable the first saw blade and the second saw blade to rotate, and meanwhile, the first driving component and the fifth driving component are driven, so that the first saw blade and the second saw blade move for a preset distance in a direction close to an external copper bar, and the first saw blade and the second saw blade respectively perform flat head on two ends of the external copper bar;

s6: driving the seventh driving component through the control terminal to enable the seal block to extrude the external copper rod arranged on the movable frame, so that the serial number information on the seal block is printed on the external copper rod;

s7: the first driving component and the fourth driving component are driven by the control terminal, so that the first extrusion plate and the second extrusion plate do not limit the external copper rod any more, the two telescopic devices are driven to retract for a preset distance, the height from one side of the movable frame to the other side of the movable frame is gradually reduced, and therefore the external copper rod can roll from the lower side of the movable frame until the external copper rod falls onto the external storage frame.

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