CN217291312U - Bus numerical control production line - Google Patents

Abstract

A bus numerical control production line comprises a rack and a feeding part arranged on the rack, wherein the feeding part comprises a feeding platform and clamps, an auxiliary clamp and a main clamp are respectively positioned at two sides of a sawing part, the feeding part also comprises a material roller assembly, and the end part of the material roller assembly is connected to a feeding bracket; the bus numerical control production line further comprises a bending part, the bending part comprises a bending part I, a transverse pushing part and a bending part II, the main clamp conveys the material belt section to the bending part I, and the material belt section processed by the bending part I is conveyed by the material roller component in sequence and is processed by the transverse pushing part and the bending part II to output a finished bus. This production line integration saw cuts and secondary bending function, and the copper bar is as for on feeding platform, and what outwards output is the fixed length finished product that has the secondary bending shaping, and processing degree of automation is high, compact structure, machining efficiency compare in the unit, has improved more than the triple, has saved manual work and area greatly.

Description

Bus numerical control production line

Technical Field

The utility model belongs to the technical field of bus duct generating line processing technique and specifically relates to a generating line numerical control production line is related to, and this production line has integrateed the automation and has saw cut and the function of bending.

Background

The copper bus in the bus duct is formed by processing a copper bar. The first step of processing needs to be finished by cutting the copper bar into a bus bar blank in a fixed length mode, and the cutting mode is generally shearing. For example, the numerical control bus bar shearing and bending press disclosed in CN203076504U includes a shearing unit and at least one bending unit, the copper bar is conveyed to the bending unit after being sheared to complete the bending process, and the positioning stopper is arranged in the press, so that the bus bar direction does not need to be changed during the operation. However, for the bus bar needing to be bent twice and the copper bar which is not suitable for shearing, the defects of inconvenient operation, low machining efficiency and serious section deformation after shearing exist.

Disclosure of Invention

The utility model aims to overcome the shortcoming that exists among the prior art, provide a generating line numerical control production line, this production line cooperation automatic control part can accomplish saw cutting and twice bending processing of copper bar fast, and the technical scheme of adoption is: the utility model provides a generating line numerical control production line, includes the frame and installs the pay-off part in the frame, and the pay-off part includes feeding platform and clamp, and vice clamp and main clamp are located the both sides of sawing the part respectively, its characterized in that: the feeding part also comprises a material roller assembly, and the end part of the material roller assembly is connected to the feeding bracket; the bus numerical control production line further comprises a bending part, the bending part comprises a bending part I, a transverse pushing part and a bending part II, the main clamp conveys the material belt section to the bending part I, and the material belt section processed by the bending part I is conveyed by the material roller assembly in sequence and is processed by the transverse pushing part and the bending part II to output a finished bus.

In consideration of the requirement of twice bending feeding, the material roller component comprises a plurality of material rollers, the end parts of the material rollers are arranged in inner holes of rolling bearings, and the rolling bearings are arranged in bearing holes of the feeding support. The transmission part drives the material roller to rotate to complete the directional transmission of the material belt section.

Considering the reasonability of processing and the saving of occupied space of a production line, one end of the material belt section close to the transverse pushing part is a head end, and the other end of the material belt section is a tail end. And the bending part I takes the tail end face as a positioning end face to finish the bending processing of the tail end. And the bending part II takes the end surface of the head end as a positioning end surface to finish the bending processing of the head end.

Considering the arrangement of two times of bending and transverse pushing stations, the material roller assembly comprises a bending part I and a bending part II, the material roller assembly comprises a transverse pushing portal frame stretching across the bending part I and the bending part II, and a transverse pushing screw rod is mounted on the transverse pushing portal frame. The material belt section after the primary bending is transversely pushed and then is positioned at the input end of the secondary bending station, so that the workpiece position transfer in the secondary bending is completed.

The beneficial effects of the utility model reside in that: this production line integration saw cuts and secondary bending function, and the copper bar is as for on feeding platform, and what outwards output is the fixed length finished product that has the secondary bending shaping, and processing degree of automation is high, compact structure, machining efficiency compare in the unit, has improved more than the triple, has saved manual work and area greatly.

Drawings

Fig. 1 is a schematic view of the structure of the present invention, fig. 2 is a top view of fig. 1, fig. 3 is a perspective view of fig. 1, and fig. 4 is a schematic view of a finished bus processed by the production line. Wherein:

1 is a feeding part, 11 is a feeding platform, 12 is an auxiliary clamp, 13 is a main clamp, 14 is a drag chain, and 15 is a material roller component; 2 is a sawing part; 3 is a press bending part I; 4, a transverse pushing part, 41, a transverse pushing portal frame and 42, transverse pushing lead screw assembly; 5 is a press bending part II; and 6 is a frame.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

The utility model discloses a generating line numerical control production line, this production line include frame 6, pay-off part 1, saw cut part 2, the part of bending I3, violently push away part 4 and the part of bending II 5, the copper bar becomes the outside output of finished product generating line after saw cutting and twice bending. The finished bus is a workpiece obtained after all the procedures are finished on the production line in sequence.

The feeding part comprises a feeding platform 11, a clamp and a material roller assembly 15, the feeding platform 11 is located at the initial end of the production line, the clamp comprises a main clamp 13 and an auxiliary clamp 12, the auxiliary clamp 12 and the main clamp 13 are respectively located on two sides of the sawing part 2, the material roller assembly 15 comprises a plurality of material rollers, the end portion of each material roller is installed in an inner hole of a rolling bearing, and the rolling bearing is arranged in a bearing hole of the feeding support. Thus, the material roller rotates under the action of a transmission component (such as a transmission chain wheel and a chain), and the directional transmission of the copper bar section arranged on the material roller component 15 can be completed.

Saw cut and be equipped with in the part 2 saw cut the motor, press material subassembly etc. press the material piece of pressing of material subassembly (for example press the material cylinder) tailpiece of the piston rod portion to act on the copper bar, can fix the copper bar, the motor that saw cuts that is equipped with the disc saw bit is under the removal cylinder impetus, accomplishes the operation of saw cutting of copper bar. Since the structure is prior art, the structure of the sawing section will not be described in detail. The material belt is cut to a fixed length under the action of the sawing part 2 to form a material belt section with the length meeting the initial setting.

The bending part of the bus numerical control production line comprises a bending part I3, a transverse pushing part 4 and a bending part II 5, a material belt section is conveyed to the bending part I3 by a main clamp 13, and the material belt section processed by the bending part I3 is conveyed by a material roller assembly in sequence and is processed by the transverse pushing part 4 and the bending part II 4 to output a finished bus.

Corresponding to the structure, the feeding mode of the production line has two types, one type is the clamp feeding realized by matching the main clamp 13 and the auxiliary clamp 12, and the clamp feeding is used for the front section of the production line, namely, the material belt on the feeding platform 11 is conveyed to the sawing part 2. The other feeding mode is feeding by a material roller, the feeding by the material roller adopts a material roller component, and two ends of the material roller component are connected to a feeding support by rolling bearings. The two feeding modes are as follows: the material belt is placed on the feeding platform 11 and conveyed to the sawing part 2 for sawing, and a material belt section is obtained after sawing; the strip section is placed on the strip assembly 15 by the main nip 13. The material roller assembly 15 comprises a press bending part I3, a material roller assembly at the output end of the press bending part I3 and a material roller assembly at the input end of the press bending part II 5, the transverse pushing part comprises a transverse pushing portal frame 41 stretching across the material roller assembly at the output end of the press bending part I3 and the material roller assembly at the input end of the press bending part II 5, and a transverse pushing screw rod is installed on the transverse pushing portal frame 41. After the material belt section is conveyed in place, the transverse pushing cylinder conveys the material belt section from the material roller assembly at the output end of the bending part I3 to the material roller assembly at the input end of the bending part II 5, and the material roller assembly at the input end of the bending part II 5 continuously conveys the material belt section to the position of the bending part II 5 to finish secondary bending processing, so that finished bus bar output is realized.

In this embodiment, one end of the material tape section close to the transverse pushing portion 4 is a head end, and the other end is a tail end. And the bending part I3 takes the end surface of the tail end as a positioning end surface to finish the bending processing of the tail end. And the bending part II 5 takes the end face of the head end as a positioning end face to finish the bending processing of the head end.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or replacements made by those skilled in the art within the scope of the present invention also belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a generating line numerical control production line, includes the frame and installs the pay-off part in the frame, and the pay-off part includes feeding platform and clamp, and vice clamp and main clamp are located the both sides of sawing the part respectively, its characterized in that: the feeding part also comprises a material roller assembly, and the end part of the material roller assembly is connected to the feeding bracket; the bus numerical control production line further comprises a bending part, the bending part comprises a bending part I, a transverse pushing part and a bending part II, the main clamp conveys the material belt section to the bending part I, and the material belt section processed by the bending part I is conveyed by the material roller assembly in sequence and is processed by the transverse pushing part and the bending part II to output a finished bus.

2. The bus numerical control production line according to claim 1, characterized in that: the material roller component comprises a plurality of material rollers, the end parts of the material rollers are arranged in inner holes of rolling bearings, and the rolling bearings are arranged in bearing holes of the feeding support.

3. The bus numerical control production line according to claim 1, characterized in that: one end of the material belt section close to the transverse pushing part is a head end, and the other end of the material belt section is a tail end.

4. The bus numerical control production line according to claim 3, characterized in that: and the bending part I takes the tail end face as a positioning end face to finish the bending processing of the tail end.

5. The bus numerical control production line according to claim 3, characterized in that: and the bending part II takes the end surface of the head end as a positioning end surface to finish the bending processing of the head end.

6. The bus numerical control production line according to claim 4 or 5, characterized in that: the material roller assembly comprises a bending part I output end material roller assembly and a bending part II input end material roller assembly, the transverse pushing part comprises a transverse pushing portal frame which stretches across the bending part I output end material roller assembly and the bending part II input end material roller assembly, and a transverse pushing lead screw controlled by a servo motor is mounted on the transverse pushing portal frame.

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