CN212371615U - Plasma section bar cutting assembly line - Google Patents

Abstract

The utility model discloses a plasma section bar cutting assembly line, including loading attachment, grinding device, cutting device, the output device who connects in order, it still includes material feeding unit its characterized in that, material feeding unit connects between cutting device and grinding device, and two lines of cut of cutting device pass through material feeding unit and connect a grinding device jointly. Two cutting lines of the cutting device are connected with a polishing device through a feeding device, so that the assembly line is more compact and efficient and produces according to beats.

Description

Plasma section bar cutting assembly line

Technical Field

The utility model relates to a section bar cutting field specifically is a plasma section bar cutting assembly line.

Background

At present, the blanking of the domestic section bar cutting production line is basically in a single line mode, namely, a single-sleeve feeding and robot blanking production line is arranged at one edge.

In practice, the edge paint removing and polishing efficiency is far higher than the cutting efficiency, and one set of edge paint removing and polishing equipment can meet the cutting requirement of 2 lines simultaneously.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the problem that exists among the background art, a plasma profile cutting assembly line is proposed.

The technical scheme is as follows:

the utility model provides a plasma section bar cutting assembly line, includes loading attachment, grinding device, cutting device, output device that connect in order, and it still includes material feeding unit, material feeding unit connects between cutting device and grinding device, and two lines of cut of cutting device pass through material feeding unit and connect a grinding device jointly.

Preferably, the feeding device comprises a group of feeding storage racks, each feeding storage rack is provided with a transverse transmission chain, the transverse transmission chain is provided with bulges at equal intervals, and the bulges of each transverse transmission chain are longitudinally kept consistent; each material loading storage frame transversely sets up, and raw and other materials are vertically placed on the material loading storage frame, and raw and other materials drive through the arch of horizontal driving chain and advance, fall grinding device one by one.

Preferably, the polishing device comprises a polishing input roller way, a polishing chamber and a polishing output roller way, the polishing input roller way is longitudinally transmitted, and one side of the polishing input roller way is arranged at the tail part of the feeding device and used for receiving the raw materials sent out by the feeding device and sending the raw materials into the polishing chamber; the polishing output roller way is connected with the feeding device.

Preferably, a 3D scanner is arranged at the input side of the grinding device.

Preferably, the feeding device comprises two groups of material distributing and storing frames, a host machine material loading frame and two groups of material distributing and storing frames, the two groups of material distributing and storing frames are respectively connected with two sides of the polishing device and used for storing polished raw materials output by the polishing device; the host computer material loading frame is two sets of, and every group corresponds a set of branch material storage rack and a line of cut of connecting for send into the line of cut with the raw and other materials that polish.

Preferably, the material distributing and storing frame and the material loading frame of the host machine are both of a transverse transmission chain and a protruding structure, and the transverse transmission chain is in running fit with the protruding structure to realize displacement of polished raw materials.

Preferably, each cutting line of the cutting device comprises a host input roller way and a cutting host, the host input roller way receives the polished raw materials sent by the feeding device, and the cutting host cuts the raw materials and is connected with the output device.

Preferably, the cutting host computer also includes a code spraying and scribing device.

Preferably, the output devices are arranged into two groups and respectively correspond to the cutting lines, and each output device comprises a short material output roller way and a long material output roller way which are sequentially connected.

Preferably, a material distributing mechanism is arranged on the short material output roller way to distribute the short materials to the short material area; the long material output roller way is provided with a discharging storage frame and a turnover device, and the long material is transported to the turnover device from the long material output roller way through the discharging storage frame.

The beneficial effects of the utility model

Two cutting lines of the cutting device are connected with a polishing device through a feeding device, so that the assembly line is more compact and efficient and produces according to beats.

The cutting host computer still includes spouts a yard marking device, and the raw and other materials are cut into single part at the cutting room, matches the pallet according to the code of part is automatic, then after the part was carried corresponding tray position, feed mechanism can initiatively push the part to corresponding pallet in.

Drawings

FIG. 1 is a block diagram of the device of the present invention

FIG. 2 is the schematic structural view of the feeding device and the polishing device of the present invention

FIG. 3 is the schematic structural view of the polishing device, the feeding device and the cutting device of the present invention

FIG. 4 is a schematic structural view of the cutting device and the output device of the present invention

FIG. 5 is a schematic diagram of the structure of the output device of the present invention

Detailed Description

The present invention will be further explained with reference to the following examples, but the scope of the present invention is not limited thereto:

referring to fig. 1, a plasma section cutting assembly line comprises a feeding device 1, a polishing device 2, a cutting device 4, an output device 5 and a feeding device 3, wherein the feeding device 1, the polishing device 2, the cutting device 4 and the output device 5 are connected in sequence, the feeding device 3 is connected between the cutting device 4 and the polishing device 2, and two cutting lines of the cutting device 4 are connected with one polishing device 2 through the feeding device 3.

Referring to fig. 2, the feeding device 1 comprises a group of feeding storage racks 1-1, each feeding storage rack 1-1 is provided with a transverse transmission chain 1-2, the transverse transmission chain 1-2 is provided with protrusions 1-3 at equal intervals, and the protrusions 1-3 of each transverse transmission chain 1-2 are longitudinally kept consistent; each feeding storage rack 1-1 is transversely arranged, raw materials are longitudinally placed on the feeding storage racks 1-1 and are driven to advance through the bulges 1-3 of the transverse transmission chains 1-2 to fall onto the polishing device 2 one by one.

With reference to fig. 2 and 3, the polishing device 2 comprises a polishing input roller way 2-1, a polishing chamber 2-2 and a polishing output roller way 2-3, the polishing input roller way 2-1 is longitudinally transported, and one side of the polishing input roller way 2-1 is arranged at the tail of the feeding device 1 and used for receiving raw materials sent out by the feeding device 1 and sending the raw materials into the polishing chamber 2-2; the polishing output roller table 2-3 is connected with the feeding device 3.

In a preferred embodiment, a 3D scanner is provided on the input side of the milling device 2.

Referring to fig. 3, the feeding device 3 includes two material distributing and storing frames 3-1, two material loading frames 3-2 on the main machine, and the two material distributing and storing frames 3-1 are respectively connected to two sides of the polishing device 2 and used for storing polished raw materials output by the polishing device 2; the material loading frames 3-2 of the host machine are divided into two groups, and each group is correspondingly connected with one group of material distributing and storing frames 3-1 and one cutting line and used for feeding the polished raw materials into the cutting line.

The material distributing and storing frame 3-1 and the main machine material loading frame 3-2 are both of a transverse transmission chain and a protruding structure, and the transverse transmission chain is rotationally matched with the protruding structure to realize displacement of polished raw materials. In one embodiment, the opening and closing of the material distributing and storing frame 3-1 and the material loading frame 3-2 of the host machine are manually operated; in a more preferred embodiment, the material distributing and storing rack 3-1 and the material loading rack 3-2 on the main machine are opened and closed automatically by the control system according to the task condition of the cutting main machine 4-2.

With reference to fig. 3 and 4, each cutting line of the cutting device 4 includes a host input roller table 4-1 and a cutting host 4-2 (a robot cutting arm, model is IRB 1600-1.2/6), the host input roller table 4-1 receives the polished raw material sent by the feeding device 3, and the cutting host 4-2 cuts and connects with the output device 5.

In a preferred embodiment, the cutting host 4-2 further comprises a code spraying and scribing device.

Referring to fig. 5, the output devices 5 are arranged in two groups, which correspond to the cutting lines, respectively, and each output device 5 includes a short material output roller table 5-1 and a long material output roller table 5-2, which are connected in sequence.

In the preferred embodiment, a material distributing mechanism 5-1-1 is arranged on the short material output roller way 5-1 to distribute the short materials to a short material area 5-1-2; the long material output roller way 5-2 is provided with a blanking storage rack 5-2-1 and a turnover device 5-2-2, and the long material is transported from the long material output roller way 5-2 to the turnover device 5-2-2 through the blanking storage rack 5-2-1.

In other embodiments, the automatic material distribution of the output device 5 can be replaced by a traditional material outlet device, the core utility model of the utility model is that the grinding device 2 drags two to the cutting device 4, and other methods are preferred.

The device structure forms a complete automatic production line for automatic material feeding, paint removing and grinding, section steel distribution, robot marking and cutting and automatic part tray dividing and outputting, the whole automatic line comprises two sets of section steel cutting and processing equipment and one set of edge grinding equipment, and in the actual production capacity of our factory, the total size is 64.5m multiplied by 14.5m multiplied by 3m, and the maximum processing section length is 14 m.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides a plasma section bar cutting assembly line, includes loading attachment (1), grinding device (2), cutting device (4), output device (5) that connect in order, its characterized in that still includes material feeding unit (3), material feeding unit (3) are connected between cutting device (4) and grinding device (2), and two lines of cut of cutting device (4) pass through material feeding unit (3) and connect one grinding device (2) jointly.

2. The plasma profile cutting line according to claim 1, characterized in that the feeding device (1) comprises a group of feeding storage racks (1-1), each feeding storage rack (1-1) is provided with a transverse transmission chain (1-2), the transverse transmission chain (1-2) is provided with equally spaced protrusions (1-3), and the protrusions (1-3) of each transverse transmission chain (1-2) are longitudinally consistent; each feeding storage rack (1-1) is transversely arranged, and the raw materials are longitudinally placed on the feeding storage racks (1-1).

3. The plasma profile cutting line according to claim 1, characterized in that the grinding device (2) comprises a grinding input roller table (2-1), a grinding chamber (2-2) and a grinding output roller table (2-3), wherein the grinding input roller table (2-1) is longitudinally transported, and one side of the grinding input roller table (2-1) is arranged at the tail part of the feeding device (1); the polishing output roller way (2-3) is connected with the feeding device (3).

4. A plasma profile cutting line according to claim 3, characterized in that a 3D scanner is arranged at the input side of the grinding device (2).

5. The plasma profile cutting production line according to claim 1, wherein the feeding devices (3) comprise two groups of material distribution storage racks (3-1), a main machine material feeding rack (3-2) and two groups of material distribution storage racks (3-1), and the two groups of material distribution storage racks are respectively connected with two sides of the grinding device (2); the host machine feeding frames (3-2) are divided into two groups, and each group is correspondingly connected with one group of material distributing and storing frames (3-1) and one cutting line.

6. The plasma profile cutting line according to claim 5, wherein the material distributing and storing rack (3-1) and the main machine material loading rack (3-2) are both in a transverse transmission chain and a protruding structure.

7. The plasma profile cutting line according to claim 1, characterized in that each cutting line of the cutting device (4) comprises a main machine input roller table (4-1) and a cutting main machine (4-2), the main machine input roller table (4-1) receives the ground raw material sent by the feeding device (3), and the cutting main machine (4-2) performs cutting and is connected with the output device (5).

8. The plasma profile cutting line according to claim 7, characterized in that the cutting main machine (4-2) further comprises a code spraying and scribing device.

9. The plasma profile cutting line according to claim 1, characterized in that said output devices (5) are arranged in two groups respectively corresponding to the cutting lines, the output devices (5) comprising a short run out table (5-1) and a long run out table (5-2) connected in sequence.

10. The plasma profile cutting line according to claim 9, characterized in that the short material run-out table (5-1) is provided with a material distribution mechanism (5-1-1) for distributing the short material to the short material area (5-1-2); the long material output roller way (5-2) is provided with a blanking storage rack (5-2-1) and a turnover device (5-2-2), and the long material is transported from the long material output roller way (5-2) to the turnover device (5-2-2) through the blanking storage rack (5-2-1).

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