CN114229431B

CN114229431B - Auxiliary blanking system for laser cutting

Info

Publication number: CN114229431B
Application number: CN202111334234.6A
Authority: CN
Inventors: 曹俊伟; 关文魁; 余超雄; 黄亚军; 王伟
Original assignee: Pentium Laser Wuhan Co ltd
Current assignee: Pentium Laser Wuhan Co ltd
Priority date: 2021-11-11
Filing date: 2021-11-11
Publication date: 2024-03-29
Anticipated expiration: 2041-11-11
Also published as: CN114229431A

Abstract

The invention relates to a laser cutting auxiliary blanking system which comprises a plurality of independent flat plate supporting units and a collecting unit, wherein the plurality of flat plate supporting units are sequentially arranged on a base, different numbers of flat plate supporting units are sequentially used according to the length of a pipe, and the collecting unit is arranged on one side of the base; the flat plate supporting unit comprises a flat plate for placing the pipe and a floating supporting component for adjusting the height of the flat plate according to the diameter of the pipe; the collecting unit comprises a soft belt support, the soft belt support supports pipes through soft belts in the soft belt support, and an adjusting mechanism is further arranged between the flat plate supporting unit and the collecting unit and can adjust the tightness degree of the soft belts according to the floating condition of the floating supporting component; the adjusting mechanism comprises an adjusting hydraulic box and an output end, wherein the adjusting hydraulic box is connected with the input end of the flat plate and the output end of the connecting soft belt frame, the adjusting hydraulic box is arranged on the base, and the input end and the output end are connected with the adjusting hydraulic box together; when the flat plate is supported by gravity, the height of the flat plate is lowered along with the input end, so that the output end moves correspondingly by adjusting the hydraulic box, and the tightness of the soft belt is adjusted.

Description

Auxiliary blanking system for laser cutting

[ field of technology ]

The invention relates to the technical field of pipe blanking, in particular to a laser cutting auxiliary blanking system.

[ background Art ]

The blanking of the pipe is an indispensable technological process for production, in the prior art, equipment which can be continuously used for pipes with different lengths is provided, but a blanking system used for blanking the pipes with different lengths is unique, so that when the collecting equipment is used, the weight of the collecting equipment is different due to different materials of the pipes, the pipes after blanking of a high-density material fall into the unique receiving system, the receiving system cannot well protect the receiving system, the pipes cannot be well protected when the pipes after blanking of a low-density material fall into the receiving system, and the blanking system for dynamically protecting and collecting the pipes with different weights does not exist in the market.

[ invention ]

The invention aims to overcome the defects in the prior art and provides a blanking auxiliary supporting system capable of blanking pipes with different weights.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the auxiliary blanking system for laser cutting comprises a plurality of independent flat plate supporting units and a collecting unit, wherein the plurality of flat plate supporting units are sequentially arranged on a base, different numbers of flat plate supporting units are sequentially used according to the length of a pipe, and the collecting unit is arranged on one side of the base; the flat plate supporting unit comprises a flat plate for placing the pipe and a floating supporting component for adjusting the height of the flat plate according to the diameter of the pipe; the collecting unit comprises a soft belt support, the soft belt support supports pipes through soft belts in the soft belt support, and an adjusting mechanism is further arranged between the flat plate supporting unit and the collecting unit and can adjust the tightness degree of the soft belts according to the floating condition of the floating supporting component; the adjusting mechanism comprises an adjusting hydraulic box, an input end connected to the flat plate and an output end connected with the soft belt frame, wherein the adjusting hydraulic box is arranged on the base, and the input end and the output end are connected with the adjusting hydraulic box together; when the flat plate receives gravity, the input end descends along with the height of the flat plate, so that the output end moves correspondingly by adjusting the hydraulic box, and the tightness of the soft belt is adjusted.

Preferably, the floating support assembly comprises a fixed bracket and an adjusting bracket, the fixed bracket is arranged on the base, one end of the adjusting bracket is slidably connected to the fixed bracket, one end of the floating support assembly further comprises a cylinder and a floating limit bar which are connected to the adjusting bracket, and the other end of the floating support assembly comprises a screw rod, a guide rail and a pressing wheel which are connected to the fixed bracket; the flat plate is connected to the other end of the adjusting bracket.

Preferably, the number of the flat plate supporting units is three, the first flat plate supporting unit is used for directly blanking a pipe with the length smaller than 1400mm, the second flat plate supporting unit is used for directly blanking a pipe with the length of 1400-2200 mm, the third flat plate supporting unit is used for supporting a pipe with the length larger than 2200mm, and the aggregate unit is used for assisting the third flat plate supporting unit in blanking.

Preferably, the first flat plate supporting unit further comprises a small turning plate for facilitating slag separation and a downward turning assembly for assisting in receiving, the small turning plate is arranged on the most side of the flat plate supporting device, namely, the first flat plate supporting unit is arranged on one side of the flat plate, one end of the downward turning assembly is connected with the flat plate, and the other end of the downward turning assembly is connected with the adjusting bracket.

Preferably, the second flat plate supporting unit further comprises a turndown component, one end of the turndown component is connected with the flat plate, and the other end of the turndown component is connected with the adjusting bracket.

Preferably, the third flat plate support unit further includes flanges for preventing the round pipe from rolling, and the flanges are disposed at both sides of the flat plate of the third flat plate support unit.

Preferably, the flat plate supporting unit further comprises a riding roller for reducing friction, and the retraction roller is arranged on the flat plate.

Preferably, the aggregate unit comprises a conveyor chain for transferring the tubing; one end of the conveying chain is close to the third flat plate supporting unit, and the other end of the conveying chain is connected with the soft belt frame.

Preferably, the conveying chain is fixed on the ground through a long support, the soft belt frame is fixed on the ground through a short support, and the long support is fixedly connected with the base.

The invention has the advantages that:

1. the adjusting mechanism can adjust the tightness degree of the soft belt according to the weight of the pipe, and can better protect the pipe or the device.

2. The independent flat panel support unit of the present invention reduces the area where the flat panel support cannot be lifted.

3. The small turning plate can facilitate slag separation.

4. The hose rack can better bear the pipe and prevent the pipe from being damaged.

5. The supporting roller can reduce friction and prevent the flat plate from being damaged

[ description of the drawings ]

FIG. 1 is a schematic perspective view of a laser cutting assisted blanking system according to the present invention;

FIG. 2 is a schematic front view of a laser cutting assisted blanking system according to the present invention;

FIG. 3 is an enlarged view of the invention at A in FIG. 1;

FIG. 4 is an enlarged view of the invention at B in FIG. 1;

FIG. 5 is an enlarged view of the invention at C in FIG. 1;

FIG. 6 is an enlarged view of the invention at D in FIG. 1;

fig. 7 is a schematic perspective view of an adjusting mechanism of the blanking auxiliary supporting system of the present invention.

Reference numerals and components referred to in the drawings are as follows:

1. a flat plate supporting unit; 10. a flat plate; 101; adjusting the bracket; 102. a fixed bracket; 103. a small turning plate; 104. a supporting roller; 105. a cylinder; 106. a floating limit bar; 107. flanging; 2. an aggregate unit; 21. a conveyor chain; 22. a soft belt rack; 221. a soft belt; 3. an adjusting mechanism; 31. adjusting a hydraulic tank; 32. an input end; 33. and an output terminal.

[ detailed description ] of the invention

The following detailed description of the invention provides specific embodiments with reference to the accompanying drawings.

It should be noted that the descriptions of "first", "second", etc. used in the embodiments of the present invention are used for descriptive purposes only, and should not be construed as indicating or implying any particular number of features or characteristics of the present invention, such that the features of the present invention that are defined in the embodiments herein may be indicative of at least one of such defined features or characteristics.

The technical solutions of the embodiments of the present invention described in the present specification may be combined with each other, but it is necessary that the technical solutions are based on the fact that those skilled in the art can implement the embodiments, and when the technical solutions are combined with each other or cannot be implemented, the technical solutions should be considered as not being combined.

The auxiliary blanking system for laser cutting comprises a plurality of independent flat plate supporting units 1 and a collecting unit 2, wherein the plurality of flat plate supporting units 1 are sequentially arranged on a base, different numbers of flat plate supporting units 1 are sequentially used according to the length of a pipe, and the collecting unit 2 is arranged on one side of the base; the flat plate supporting unit 1 comprises a flat plate 10 for placing a pipe and a floating supporting component for adjusting the height of the flat plate 10 according to the diameter of the pipe; the collecting unit 2 comprises a soft belt support 22, the soft belt support 22 supports pipes through soft belts 221 in the soft belt support 22, an adjusting mechanism 3 is further arranged between the flat plate supporting unit 1 and the collecting unit 2, and the adjusting mechanism 3 can adjust the tightness degree of the soft belts 221 according to the floating condition of the floating supporting component; the adjusting mechanism 3 comprises an adjusting hydraulic tank 31, an input end 32 connected to the flat plate 10 and an output end 33 connected with the soft belt frame 22, wherein the adjusting hydraulic tank 31 is arranged on the base, and the input end 32 and the output end 33 are connected with the adjusting hydraulic tank 31 together; when the plate 10 is subjected to gravity, the input end 32 descends along with the height of the plate 10, so that the output end 33 moves correspondingly by adjusting the hydraulic tank 31, and the tightness of the soft belt 221 is adjusted.

Specifically, the unloading braced system includes a plurality of independent dull and stereotyped braced units 1, and dull and stereotyped braced unit 1 is used for supporting the tubular product, still includes aggregate unit 2 for collect the tubular product after the cutting, a plurality of dull and stereotyped braced units 1 set gradually on the base, according to the different length of tubular product, use the dull and stereotyped braced unit 1 of different quantity, for example the length is short can only use one, and the length is longer can use two, three, aggregate unit 2 sets up in one side of base, and the tubular product that is cut can fall into aggregate unit 2. The flat plate supporting unit 1 comprises a flat plate 10 for placing a pipe, and a floating supporting assembly for adjusting the height of the flat plate 10 according to the diameter of the pipe; the collecting unit 2 comprises a soft belt frame 22 for receiving the pipe, the soft belt frame 22 receives the pipe through a soft belt 221 in the soft belt frame 22, an adjusting mechanism 3 is further arranged between the flat plate supporting unit 1 and the collecting unit 2, the adjusting mechanism 3 can adjust the tightness degree of the soft belt 221 according to the floating condition of the floating supporting component, the pipe falls into the collecting unit 2 after the blanking is finished, the pipe has different qualities due to different lengths, the soft belt 221 is required to have proper tightness degree when the pipe with different qualities falls into the collecting unit 2, on one hand, the pipe with larger quality is prevented from directly colliding with the soft belt frame due to excessive loosening, on the other hand, the buffer effect of the soft belt frame is prevented from being lost due to excessive tightening, the adjusting mechanism 3 comprises an adjusting hydraulic box 31, an input end 32 connected with the flat plate 10 and an output end 33 connected with the soft belt frame 22, the adjusting hydraulic box 31 is arranged on the base, and the input end 32 and the output end 33 are jointly connected with the adjusting hydraulic box 31; when the flat plate 10 receives gravity, the height of the input end 32 is reduced along with the height of the flat plate 10, so that the output end 33 moves correspondingly by adjusting the hydraulic box 31, the tightness of the soft belt 221 is adjusted, and when the weight of the pipe is lighter, the soft belt is looser, and the accelerated aging caused by continuous tightening of the soft belt is prevented.

It should be noted that, regarding the adjustment of the input end 32 to the tightness of the soft belt, there are various prior arts in the prior art, and the present invention is not described herein.

Preferably, the floating support assembly comprises a fixed bracket 102 and an adjusting bracket 101, wherein the fixed bracket 102 is arranged on the base, one end of the adjusting bracket 101 is slidably connected to the fixed bracket 102, one end of the floating support assembly further comprises a cylinder 105 and a floating limit bar 106 which are connected to the adjusting bracket 101, and the other end of the floating support assembly comprises a screw rod, a guide rail and a pressing wheel which are connected to the fixed bracket 102; the flat plate 10 is connected to the other end of the adjustment bracket 101.

Specifically, the floating support assembly comprises a fixed bracket 102 and an adjusting bracket 101, wherein the fixed bracket 102 is arranged on the base, one end of the adjusting bracket 101 is slidably connected to the fixed bracket 102, one end of the floating support assembly further comprises a cylinder 105 and a floating limit bar 106 which are connected to the adjusting bracket 101, and the other end of the floating support assembly comprises a screw rod, a guide rail and a pressing wheel which are connected to the fixed bracket 102; the flat plate 10 is connected to the other end of the adjusting bracket 101, the pressing wheel is arranged on the guide rail in a sliding manner through a sliding block, the guide rail is horizontally arranged on the fixed bracket 102, the screw rod is connected to one side of the sliding block, the sliding block is enabled to move left and right through rotation of the screw rod, so that the pressing wheel is driven to move left and right, the pressing wheel moves left and right and is abutted to a floating limit strip 106 connected to the adjusting bracket, the limitation of the floating limit strip 106 is achieved, and the flat plate 10 is connected to the other end of the adjusting bracket 101; each individual flat plate support unit 1 may be height-varied according to the adjustment of the floating support assembly, thereby avoiding interference of other flat plate support units 1 with the chuck.

Preferably, the number of the flat plate supporting units 1 is three, the first flat plate supporting unit 1 is used for directly blanking a pipe with the length smaller than 1400mm, the second flat plate supporting unit 1 is used for directly blanking a pipe with the length of 1400-2200 mm, the third flat plate supporting unit 1 is used for supporting a pipe with the length larger than 2200mm, and the aggregate unit 2 is used for assisting the third flat plate supporting unit 1 in blanking.

Specifically, the number of the flat plate supporting units 1 is three, and the three flat plate supporting units 1 can adapt to most working conditions, so that inconvenience in regulation and control caused by excessive number of the flat plate supporting units 1 is avoided, and the situation that the number is too small to accurately regulate in time is avoided. The first flat plate 10 is used for directly blanking a pipe with the length of less than 1400mm, the second flat plate supporting unit 1 is used for directly blanking a pipe with the length of 1400-2200 mm, the pipe with the proper length is directly blanked through the first two supporting units, the pipe with the proper length is supported in a segmented mode when the length is longer, the third flat plate supporting unit 1 is used for supporting the pipe with the length of more than 2200mm, and the collecting unit 2 is used for assisting the blanking of the third flat plate supporting unit 1.

Preferably, the first flat plate supporting unit 1 further includes a small turning plate 103 for facilitating slag separation and a downward turning assembly for assisting in receiving, the small turning plate 103 is disposed at the most side of the flat plate 10 supporting device, that is, at one side of the flat plate 10 in the first flat plate supporting unit 1, one end of the downward turning assembly is connected to the flat plate 10, and the other end is connected to the adjusting bracket 101.

Specifically, the first flat plate supporting unit 1 further includes a small turning plate 103 for facilitating slag separation and a lower turning assembly for assisting in receiving, the small turning plate 103 is arranged at the most side of the flat plate 10 supporting device, namely, the first flat plate supporting unit 1 is hinged to the flat plate 10, the small turning plate 103 is convenient for slag separation by flattening and packing, one end of the lower turning assembly is connected with the flat plate 10, the other end of the lower turning assembly is connected with the adjusting bracket 101, the air cylinder 105 is connected to one side, close to the collecting unit 2, of the flat plate 10, a triangle is formed between the air cylinder 105 and the flat plate 10 and between the adjusting bracket 101, stable supporting can be achieved on a pipe, when the pipe needs to be supported, the air cylinder 105 stretches out to support the flat plate 10 to keep a horizontal state, and when the pipe needs to be fed, the air cylinder 105 contracts to enable the flat plate 10 to incline, so that the pipe is caused to slide under the dead weight condition.

Preferably, the second flat support unit 1 further includes a turndown assembly, one end of the turndown assembly is connected to the flat plate 10, and the other end is connected to the adjusting bracket 101.

Specifically, the second flat supporting unit 1 further comprises a turndown component, one end of the turndown component is connected with the flat plate 10, the other end of the turndown component is connected with the adjusting bracket 101, the air cylinder 105 is connected to one side, close to the collecting unit 2, of the flat plate 10, a triangle is formed between the air cylinder 105 and the flat plate 10 and between the air cylinder 105 and the adjusting bracket 101, the flat plate supporting unit can stably support a pipe when supporting, when the flat plate 10 is required to be supported, the air cylinder 105 stretches out and supports the flat plate 10 to keep a horizontal state, when blanking is required, the air cylinder 105 contracts to enable the flat plate 10 to incline, and therefore the pipe is enabled to slide under the dead weight condition.

Preferably, the third flat plate support unit 1 further comprises flanges 107 for preventing the round tube from rolling, and the flanges 107 are disposed at both sides of the flat plate 10 of the third flat plate support unit 1.

Specifically, the third flat plate supporting unit 1 further includes a flange 107 for preventing the round tube from rolling, where the flange 107 is disposed on two sides of the flat plate 10 of the third flat plate supporting unit 1, and when the round tube is cut, the flat plate 10 rolls when supported and falls down, so as to avoid rolling out of the flat plate 10, and injury to personnel and loss of parts are caused.

Preferably, the plate supporting unit 1 further includes a roller 104 for reducing friction, and the roller 104 is disposed on the plate 10.

Specifically, the flat plate supporting unit 1 further includes a roller 104 for reducing friction, the roller 104 is disposed on the flat plate 10, and the friction force of the pipe on the roller 104 is small, so that the resistance of the pipe during moving is reduced. While also avoiding scratching and damage to the support of the plate 10.

Preferably, the aggregate unit 2 further comprises a conveyor chain 21 for transferring the tubes; one end of the conveying chain 21 is close to the third flat plate supporting unit 1, and the other end of the conveying chain is connected with the soft belt frame 22.

Specifically, the aggregate unit 2 includes a conveyor chain 21 for transferring the pipes; one end of the conveying chain 21 is close to the third flat plate supporting unit 1, the other end of the conveying chain 21 is connected with the soft belt frame 22, and when the third flat plate 10 is used for supporting, the conveying chain 21 is used for blanking the pipe. When the third plate 10 is supported to move downwards, the plate 10 is supported to be lower than the conveying chain 21, the pipe falls on the conveying chain 21, the conveying chain 21 rolls forwards to drive the pipe to move forwards, then falls on the soft belt frame 22, and the soft belt 221 reduces impact when the pipe falls.

Preferably, the conveying chain 21 is fixed on the ground through a long support, the soft belt frame 22 is fixed on the ground through a short support, and the long support is fixedly connected with the base.

Specifically, through long support and base fixed connection for whole system is simpler when the installation, does not need the assembly of part one by one.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that modifications and additions may be made to those skilled in the art without departing from the method of the present invention, which modifications and additions are also to be considered as within the scope of the present invention.

Claims

1. The utility model provides a supplementary unloading system of laser cutting which characterized in that: the device comprises a plurality of independent flat plate supporting units and a collecting unit, wherein the plurality of flat plate supporting units are sequentially arranged on a base, different numbers of flat plate supporting units are sequentially used according to the length of a pipe, and the collecting unit is arranged on one side of the base; the flat plate supporting unit comprises a flat plate for placing the pipe and a floating supporting component for adjusting the height of the flat plate according to the diameter of the pipe; the collecting unit comprises a soft belt support, the soft belt support supports pipes through soft belts in the soft belt support, and an adjusting mechanism is further arranged between the flat plate supporting unit and the collecting unit and can adjust the tightness degree of the soft belts according to the floating condition of the floating supporting component; the adjusting mechanism comprises an adjusting hydraulic box, an input end connected to the flat plate and an output end connected with the soft belt frame, wherein the adjusting hydraulic box is arranged on the base, and the input end and the output end are connected with the adjusting hydraulic box together; when the flat plate receives gravity, the input end descends along with the height of the flat plate, so that the output end correspondingly moves by adjusting the hydraulic box, and the tightness of the soft belt is adjusted;

the floating support assembly comprises a fixed support and an adjusting support, the first flat plate support unit further comprises a small turning plate for facilitating slag separation and a downward turning assembly for assisting in receiving materials, the small turning plate is arranged on the most side of the flat plate support unit, namely one side of the flat plate in the first flat plate support unit, one end of the downward turning assembly is connected with the flat plate, and the other end of the downward turning assembly is connected with the adjusting support;

the second flat plate supporting unit further comprises a downward turning component, one end of the downward turning component is connected with the flat plate, and the other end of the downward turning component is connected with the adjusting bracket.

2. A laser cutting assisted blanking system according to claim 1, wherein: the fixed support is arranged on the base, one end of the adjusting support is connected to the fixed support in a sliding manner, one end of the floating support assembly further comprises a cylinder and a floating limit bar which are connected to the adjusting support, and the other end of the floating support assembly comprises a screw rod, a guide rail and a pressing wheel which are connected to the fixed support; the flat plate is connected to the other end of the adjusting bracket.

3. A laser cutting assisted blanking system according to claim 2, wherein: the number of the flat plate supporting units is three, the first flat plate supporting unit is used for directly blanking a pipe with the length smaller than 1400mm, the second flat plate supporting unit is used for directly blanking a pipe with the length of 1400-2200 mm, the third flat plate supporting unit is used for supporting a pipe with the length larger than 2200mm, and the aggregate unit is used for assisting the third flat plate supporting unit in blanking.

4. A laser cutting assisted blanking system according to claim 3, wherein: the third flat plate supporting unit further comprises flanges for preventing the round pipe from rolling, and the flanges are arranged on two sides of the flat plate of the third flat plate supporting unit.

5. The laser cutting assisted blanking system according to claim 4, wherein: the flat plate supporting unit further comprises a supporting roller for reducing friction, and the supporting roller is arranged on the flat plate.

6. The laser cutting assisted blanking system according to claim 5, wherein: the collecting unit comprises a conveying chain for transferring the pipe and a soft belt support for supporting the pipe; one end of the conveying chain is close to the third flat plate supporting unit, and the other end of the conveying chain is connected with the soft belt frame.

7. The laser cutting assisted blanking system of claim 6, wherein: the conveying chain is fixed on the ground through a long support, the soft belt frame is fixed on the ground through a short support, and the long support is fixedly connected with the base.