CN214211916U - Efficient automatic machining equipment for cardboard square tubes - Google Patents

Abstract

The utility model belongs to the technical field of cardboard production equipment, in particular to a cardboard square tube high-efficiency automatic processing device, which comprises a workbench, a rolling forming part, a product length detection part, a straightening transmission part, a first photographing detection part, a punching part, a second photographing detection part and a cutting part, wherein the rolling forming part is used for rolling raw materials into a square tube, the product length detection part is used for detecting the length of the square tube conveyed to the straightening transmission part, the straightening transmission part is used for straightening the position of the square tube and then transmitting the square tube to the punching part, the first photographing detection part is used for detecting whether the square tube meets the requirement, the punching part is used for punching the square tube, the punching part is fixedly arranged between the straightening transmission part and the cutting part, the second photographing detection part is used for detecting the square tube after punching, the cutting component is used for cutting the formed square pipe into a plurality of finished square pipes with equal length.

Description

Efficient automatic machining equipment for cardboard square tubes

Technical Field

The utility model belongs to the technical field of the cardboard production facility, especially, relate to a high-efficient automated processing equipment is managed in cardboard side.

Background

The cardboard is as the important loading and unloading, storage and transportation equipment in the commodity circulation operation process, and the supporting use of fork truck plays huge effect in modern commodity circulation.

Most of the prior clamping plates are formed by assembling a square tube and other parts, namely the square tube is an important component of the clamping plates. However, most of the existing square pipes are processed by manually using an iron hammer, a die casting machine and other steps, the square pipes obtained by processing are different in shape, so that the quality of the clamping plate is not guaranteed, the square pipes are required to be punched, cut and the like after being formed, the square pipes are basically processed and realized by manpower at present, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient automatic processing equipment is managed in cardboard side aims at solving among the prior art and obtains side's pipe and punch, cut etc. operation through the manual work to side's pipe and have the square pipe shape that obtains and differ, technical problem such as inefficiency.

In order to achieve the above object, the embodiment of the utility model provides a pair of high-efficient automatic processing equipment of cardboard side pipe, including workstation, roll forming part, product length detection part, alignment transmission part, the first detection part of shooing, the part of punching a hole, the second detection part of shooing and cutting part:

the roll forming component is used for rolling the raw materials into a square tube and is fixedly arranged on the workbench;

the product length detection component is used for detecting the length of the square tube conveyed from the roll forming component to the straightening transmission component, and is fixedly arranged above the roll forming component;

the straightening transmission component is used for straightening the position of the square pipe transmitted from the roll forming component and then transmitting the square pipe to the punching component, and the straightening transmission component is fixedly arranged between the roll forming component and the punching component;

the first photographing detection part is used for detecting whether the square pipe obtained by rolling the rolling forming part meets the requirement or not, and is fixedly arranged above the straightening transmission part;

the punching component is used for punching the square pipe and is fixedly arranged between the straightening transmission component and the cutting component;

the second photographing detection part is used for detecting the punched square tube, the second photographing detection part is fixedly arranged between the punching part and the cutting part, and the second photographing part is positioned above the punching part;

the cutting component is used for cutting the formed square pipe into a plurality of finished square pipes with equal length.

Optionally, the roll forming part includes a plurality of first roll extrusion components, a plurality of second roll extrusion components, a plurality of third roll extrusion components, a plurality of fourth roll extrusion components and a plurality of fifth roll extrusion components, a roll extrusion groove is formed in the workbench, and the first roll extrusion component, the second roll extrusion components, the third roll extrusion components, the fourth roll extrusion components and the fifth roll extrusion components are sequentially installed in the roll extrusion groove from left to right:

the first rolling assembly comprises a first upper roller and a first lower roller, the first upper roller is fixedly arranged at the upper end of the rolling groove, the first lower roller is fixedly arranged at the lower end of the rolling groove, and the first lower roller is positioned right below the first upper roller;

the structures of the second rolling assembly and the third rolling assembly are the same as those of the first rolling assembly, the roller of the second rolling assembly is smaller than that of the first rolling assembly, and the roller of the third rolling assembly is smaller than that of the second rolling assembly;

the fourth rolling component comprises a fourth upper roller and a fourth lower roller, the fourth upper roller and the fourth lower roller are respectively arranged at the upper end and the lower end of the rolling groove, the middle of the fourth upper roller is concave, two sides of the fourth upper roller are convex, and the structure of the fourth lower roller is the same as that of the fourth upper roller;

the fifth rolling assembly comprises a fifth upper roller and a fifth lower roller, the fifth upper roller and the fifth lower roller are respectively arranged at the upper end and the lower end of the rolling groove, the middle position of the fifth upper roller is convex, two sides of the fifth upper roller are concave, and the structure of the fifth lower roller is the same as that of the fifth upper roller.

Optionally, product length detection part is including two length detection fixed plates, length detection pivot, length detection fixed block, encoder and length detection carousel, two length detection fixed plate fixed mounting respectively is in roll forming part both sides, the length detection pivot is fixed two between the length detection fixed plate, the one end fixed mounting of length detection fixed block is in the length detection pivot, the encoder with the equal fixed mounting of length detection carousel is in on the other end of length detection fixed block, the encoder with the length detection carousel is connected.

Optionally, alignment transmission part is including two alignment transmission fixed plates, and two alignment transmission fixed plate parallel fixed mounting are in on the workstation, alignment transmission fixed plate is located roll forming part one side, two be provided with a plurality of alignment transmission gyro wheels on the top between the alignment transmission fixed plate, alignment transmission gyro wheel below is provided with down alignment transmission gyro wheel, on the alignment transmission gyro wheel with down the intermediate position of alignment gyro wheel all be provided with square pipe assorted alignment recess.

Optionally, the first detection part of shooing is including the first base of shooing, a CCD camera and the first detection driving piece of shooing, be provided with the first detection guide rail of shooing on the workstation, the first pedestal mounting of shooing is in on the first detection guide rail of shooing, a CCD camera fixed mounting be in the first base upper end of shooing, a CCD camera is located alignment transmission part top, the first detection driving piece of shooing with the first base bottom of shooing is connected.

Optionally, the punching component includes at least two punching assemblies and a first punching driving member for driving the punching assemblies to move, a punching groove is formed in the workbench, two punching guide rails are arranged on the workbench and located on two sides of the punching groove respectively, the punching assemblies are mounted on the punching guide rails, the first punching driving member is mounted in the punching groove, and the first punching driving member is connected with the punching assemblies;

the punching assembly comprises a punching base, a punching mounting seat, a second punching driving piece and a punching column, the punching base is mounted on the punching guide rail, the lower surface of the punching base is connected with the first punching driving piece, the punching mounting seat is fixed on the punching base, the second punching driving piece is fixedly mounted at the upper end of the punching mounting seat, the punching column is connected with the second punching driving piece, a channel matched with a square pipe is arranged on the punching base, a first through hole matched with the punching column is arranged on the punching base, and the first through hole is located above the channel.

Optionally, the cutting component includes a cutting base, a cutting positioning assembly and a cutting assembly:

the cutting positioning assembly comprises a cutting fixing block, a cutting fixing driving piece and a cutting fixing plate, the cutting fixing block is fixedly arranged on the cutting base, the cutting fixing driving piece is fixedly arranged on one side of the cutting fixing block, the cutting fixing plate is positioned on the cutting fixing block, and the cutting fixing plate is connected with the cutting fixing driving piece;

the cutting assembly comprises two cutting mounting plates, a cutting rotating shaft is arranged between the cutting mounting plates, a cutting mounting seat is arranged on the cutting rotating shaft, a cutting motor and a cutting blade are arranged on the cutting mounting seat, the cutting motor is used for driving the cutting blade to rotate, and a handle is further arranged on the cutting mounting seat.

The embodiment of the utility model provides a above-mentioned one or more technical scheme in the high-efficient automatic processing equipment of cardboard side pipe have one of following technological effect at least: when the square tube straightening and straightening device is used, raw materials are transmitted to a roll forming component, the roll forming component continuously rolls the raw materials to obtain a square tube, the roll forming component continuously drives a product to move forwards when rolling the product, a product length detection component is abutted against the product, so that how long the product length transmitted to the straightening and transmitting component through the roll forming component is detected, and when the product length detection component detects that the length of the passed product reaches the length of a required finished square tube, the product length detection component sends a signal to a controller, so that the controller can send a signal to a cutting component to cut the product, and the lengths of the cut finished square tubes are consistent; then the square pipe is transmitted to a straightening transmission part from a rolling forming part, the straightening transmission part straightens the position of the square pipe, so that the square pipe cannot be skewed when being transmitted to a punching part, the punching effect of the punching part on the square pipe is ensured, when the square pipe is transmitted to the punching part from the straightening transmission part, a first photographing part photographs the square pipe to detect whether the shape of the square pipe meets the requirement, if not, the square pipe needs to be stopped to adjust equipment, and a large number of inferior-quality products are prevented from being produced; the side pipe is through the part that punches a hole back, and the second part of shooing detects square pipe, and whether the hole on the detection side pipe meets the requirements, if not meeting the requirements, then the second part of shooing can send corresponding signal for the controller, then cutting part is according to product length detection part's testing result, and the other side pipe cuts, obtains the finished product side pipe of length unanimity, the utility model discloses an automatic forming processing of other side pipe has avoided using manual work, and one-time shaping, has guaranteed the quality of side pipe, has improved production efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is the embodiment of the utility model provides a cardboard side pipe high-efficient automated processing equipment's structural schematic.

Fig. 2 is the embodiment of the utility model provides a structural schematic diagram of roll forming part of high-efficient automatic processing equipment is managed in cardboard side.

Fig. 3 is the embodiment of the utility model provides a structural schematic diagram of roll forming part of high-efficient automatic processing equipment is managed in cardboard side.

Figure 4 is the embodiment of the utility model provides a product length detection part's of cardboard side pipe high-efficient automatic processing equipment structural schematic diagram.

Fig. 5 is the embodiment of the utility model provides a straightening transmission part's of cardboard side pipe high-efficient automatic processing equipment structural schematic diagram.

Figure 6 is the embodiment of the utility model provides a cardboard side pipe high-efficient automatic processing equipment's a detection part's that shoots structural schematic diagram.

Figure 7 is the embodiment of the utility model provides a structural schematic diagram of the part that punches a hole of high-efficient automatic processing equipment of cardboard side pipe.

Figure 8 is the embodiment of the utility model provides a cardboard side pipe high-efficient automated processing equipment's cutting element's schematic structure diagram.

Wherein, in the figures, the respective reference numerals:

the rolling forming component 2, the first rolling assembly 21, the second rolling assembly 22, the third rolling assembly 23, the fourth rolling assembly 24, the fifth rolling assembly 25, the rolling groove 26, the first upper roller 211, the first lower roller 212, the fourth upper roller 241, the fourth lower roller 242, the fifth upper roller 251 and the fifth lower roller 252;

the length detection device comprises a product length detection part 3, a length detection fixing plate 31, a length detection rotating shaft 32, a length detection fixing block 33, an encoder 34 and a length detection turntable 35;

a straightening transmission part 4, a straightening transmission fixing plate 41, an upper straightening transmission roller 42, a lower straightening transmission roller 43 and a straightening groove 44;

the first photographing detection part 5, a first photographing base 51, a first CCD camera 52, a first photographing detection driving part 53 and a first photographing detection guide rail 54;

punch member 6, punch assembly 61, first punch drive 62, punch recess 63, punch guide 64, punch base 611, punch mount 612, second punch drive 613, punch post 614, channel 615;

a second photographing detection section 7;

the cutting device comprises a cutting component 8, a cutting base 81, a cutting positioning component 82, a cutting component 83, a cutting fixing block 821, a cutting fixing driving component 822, a cutting fixing plate 823, a cutting mounting plate 831, a cutting rotating shaft 832, a cutting motor 833, a cutting blade 834, a handle 835 and a cutting mounting seat 836.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary and intended to explain the embodiments of the present invention and are not to be construed as limiting the present invention.

In the description of the embodiments of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience in describing the embodiments of the present invention and simplifying the description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

The utility model discloses an embodiment, as shown in FIG. 1, provides a high-efficient automatic processing equipment of cardboard side pipe, including workstation, roll forming part 2, product length detection part 3, alignment transmission part 4, the first detection part 5 of shooing, the part 6 of punching a hole, the second detection part 7 of shooing and cutting part 8:

the roll forming component 2 is used for rolling the raw materials into a square tube, and the roll forming component 2 is fixedly arranged on the workbench;

the product length detection component 3 is used for detecting the length of the square tube conveyed from the roll forming component 2 to the straightening transmission component 4, and the product length detection component 3 is fixedly arranged above the roll forming component 2;

the straightening transmission component 4 is used for straightening the position of the square pipe transmitted from the roll forming component 2 and then transmitting the square pipe to the punching component 6, and the straightening transmission component 4 is fixedly arranged between the roll forming component 2 and the punching component 6;

the first photographing detection part 5 is used for detecting whether the square pipe obtained by rolling the rolling forming part 2 meets the requirement or not, and the first photographing detection part 5 is fixedly arranged above the straightening transmission part 4;

the punching component 6 is used for punching the square pipe, and the punching component 6 is fixedly arranged between the straightening transmission component 4 and the cutting component 8;

the second photographing detection part 7 is used for detecting the punched square tube, the second photographing detection part 7 is fixedly installed between the punching part 6 and the cutting part 8, and the second photographing detection part 7 is located above the punching part 6;

the cutting component 8 is used for cutting the formed square tube into a plurality of finished square tubes with equal length.

In this embodiment, when the device is used, the raw material is transmitted to the roll forming component 2, the roll forming component 2 continuously rolls the raw material, and finally a square tube is obtained, the roll forming component 2 continuously drives the product to move forward when rolling the product, the product length detecting component 3 abuts against the product, so as to detect how long the product length transmitted to the straightening transmission component 4 by the roll forming component 2 is, and when the product length detecting component 3 detects that the length of the product passing through reaches the length of the required finished square tube, the product length detecting component 3 sends a signal to a controller, so that the controller can send a signal to the cutting component 8 to cut the product, and the lengths of the finished square tubes obtained by cutting are consistent; then the square tube is conveyed from the roll forming part 2 to the straightening conveying part 4, the straightening conveying part 4 straightens the position of the square tube, so that the square tube can not be inclined when conveyed to the punching part 6, the punching effect of the punching part 6 on the square tube is ensured, when the square tube is conveyed from the straightening conveying part 4 to the punching part 6, the first photographing detection part 5 photographs the square tube to detect whether the shape of the square tube meets the requirement, if not, the square tube needs to be stopped to adjust equipment, and a large number of inferior-quality products are prevented from being produced; square pipe warp punching part 6 back of punching a hole, the second is shot and is detected 7 other side pipes, detects whether the hole on the side pipe meets the requirements, if not meet the requirements, then the second is shot and is detected 7 can send corresponding signal and give the controller, then cutting part 8 basis product length detection part 3's testing result, the other side pipe cuts, obtains the finished product side pipe of length unanimity, the utility model discloses an automatic forming processing of other side pipe has avoided using manual work, and one-time shaping, has guaranteed the quality of side pipe, has improved production efficiency.

In another embodiment of the present invention, as shown in fig. 2 and 3, the roll forming component 2 includes a plurality of first roll extrusion assemblies 21, a plurality of second roll extrusion assemblies 22, a plurality of third roll extrusion assemblies 23, a plurality of fourth roll extrusion assemblies 24 and a plurality of fifth roll extrusion assemblies 25, a roll extrusion groove 26 is provided on the worktable, the first roll extrusion assemblies 21, the second roll extrusion assemblies 22, the third roll extrusion assemblies 23, the fourth roll extrusion assemblies 24 and the fifth roll extrusion assemblies 25 are sequentially installed in the roll extrusion groove 26 from left to right:

the first rolling assembly 21 comprises a first upper roller 211 and a first lower roller 212, the first upper roller 211 is fixedly installed at the upper end of the rolling groove 26, the first lower roller 212 is fixedly installed at the lower end of the rolling groove 26, and the first lower roller 212 is located right below the first upper roller 211;

the structure of the second rolling assembly 22 and the third rolling assembly 23 is the same as that of the first rolling assembly 21, the rollers of the second rolling assembly 22 are smaller than those of the first rolling assembly 21, and the rollers of the third rolling assembly 23 are smaller than those of the second rolling assembly 22;

the fourth rolling assembly 24 includes a fourth upper roller 241 and a fourth lower roller 242, the fourth upper roller 241 and the fourth lower roller 242 are respectively installed at the upper end and the lower end of the rolling groove 26, the middle of the fourth upper roller 241 is concave, two sides of the fourth upper roller 241 are convex, and the structure of the fourth lower roller 242 is the same as that of the fourth upper roller 241;

the fifth rolling assembly 25 includes a fifth upper roller 251 and a fifth lower roller 252, the fifth upper roller 251 and the fifth lower roller 252 are respectively installed at the upper end and the lower end of the rolling groove 26, the middle position of the fifth upper roller 251 is convex, two sides of the fifth upper roller 251 are concave, and the structure of the fifth lower roller 252 is the same as that of the fifth upper roller 251.

In this embodiment, when in use, the raw material is conveyed between the first upper roller 211 and the first lower roller 212, the first upper roller 211 and the first lower roller 212 rotate to roll the raw material, so that two sides of the raw material are concave towards the middle position, then the second rolling assembly 22 and the third rolling module continue to roll the raw material, so that two sides of the raw material are concave towards the middle position more and more, then the fourth upper roller 241 and the fourth lower roller 242 continue to roll the raw material, because the middle of the fourth upper roller 241 and the middle of the fourth lower roller 242 are concave and two sides are convex, the fourth upper roller 241 and the fourth lower roller 242 can press down the parts of the raw material, which are concave towards the middle position, to form a square tube, and then the fifth upper roller 251 and the fifth lower roller 252 continue to roll the raw material primarily, because the middle of the fifth upper roller 251 and the fifth lower roller 252 protrudes, the fifth upper roller 251 and the fifth lower roller 252 can further roll the middle position of the raw material, so that the square tube is formed, the one-time roll forming of the square tube is realized, the manual processing is avoided, the quality of the square tube is ensured, and the production efficiency is improved.

In another embodiment of the present invention, as shown in fig. 4, the product length detection unit 3 includes two length detection fixing plates 31, a length detection rotating shaft 32, a length detection fixing block 33, an encoder 34 and a length detection rotary table 35, two the length detection fixing plates 31 are respectively fixed on the two sides of the roll forming unit 2, the length detection rotating shaft 32 is fixed on two between the length detection fixing plates 31, one end of the length detection fixing block 33 is fixed on the length detection rotating shaft 32, the encoder 34 and the length detection rotary table 35 are both fixed on the other end of the length detection fixing block 33, the encoder 34 is connected with the length detection rotary table 35.

In this embodiment, when using, it is through right length detection fixed block 33 applys an external force, makes length detection fixed block 33 moves down, encoder 34 with length detection carousel 35 is along with moving down, length detection carousel 35 with the square pipe butt on the roll forming part 2, the roll forming part 2 drives square pipe and moves, and square pipe drives length detection carousel 35 moves, according to the distance that square pipe antedisplacement can be known to the number of turns of length detection carousel 35, and when the distance that square pipe antedisplacement reaches the default, 8 side's pipes of cutting part cut, just can guarantee the length that 8 cutting parts cut the finished product side's pipe that obtains is unanimous.

In another embodiment of the utility model, as shown in fig. 5, alignment transmission part 4 is including two alignment transmission fixed plates 41, and the parallel fixed mounting of two alignment transmission fixed plates 41 is in on the workstation, alignment transmission fixed plate 41 is located 2 one side of roll forming part, two be provided with a plurality of alignment transmission gyro wheels 42 of going up between the upper end of alignment transmission fixed plate 41, it is provided with down alignment transmission gyro wheel 43 to go up alignment transmission gyro wheel 42 below, go up alignment transmission gyro wheel 42 with the intermediate position of down alignment transmission gyro wheel 43 all is provided with square pipe assorted alignment recess 44.

In this embodiment, when using, the square pipe after the roll forming part 2 will be shaped transmits to go up alignment transmission gyro wheel 42 with down between the alignment transmission gyro wheel 43, go up alignment transmission gyro wheel 42 with down the alignment gyro wheel rotates, drive square pipe along alignment recess 44 removes, realizes the alignment to square pipe position, prevents that square pipe is crooked and leads to punching part 6's the effect of punching a hole is not good even the failure of punching a hole.

In another embodiment of the present invention, as shown in fig. 6, the first photographing detection part 5 includes a first photographing base 51, a first CCD camera 52 and a first photographing detection driving part 53, the workbench is provided with a first photographing detection guide 54, the first photographing base 51 is installed on the first photographing detection guide 54, the first CCD camera 52 is fixedly installed on the upper end of the first photographing base 51, the first CCD camera 52 is located above the straightening transmission part 4, and the first photographing detection driving part 53 is connected to the bottom of the first photographing base 51; the second photographing detecting part 7 has the same structure as the first photographing detecting part 5, and a repetitive description thereof will not be made. When the square pipe detection device is used, the first photographing detection driving part 53 drives the first photographing base 51 to move along the first photographing detection guide rail 54, the first CCD camera 52 moves along with the first photographing detection guide rail, so that the position of the first CCD camera 52 can be adjusted in real time, then the first CCD camera 52 performs photographing detection on a square pipe, the first CCD camera 52 transmits a picture to a processor for comparison, when the square pipe is detected to be a qualified product, processing is continued, when the square pipe is detected to be a defective product, the square pipe can be taken out in time, and automatic detection on the square pipe is achieved, so that the defective square pipe can be detected effectively in time.

In another embodiment of the present invention, as shown in fig. 7, the punching component 6 includes at least two punching assemblies 61 and a first punching driving member 62 for driving the punching assemblies 61 to move, a punching groove 63 is provided on the worktable, two punching guide rails 64 are provided on the worktable, the two punching guide rails 64 are respectively located at two sides of the punching groove 63, the punching assemblies 61 are mounted on the punching guide rails 64, the first punching driving member 62 is mounted in the punching groove 63, and the first punching driving member 62 is connected to the punching assemblies 61;

the punching assembly 61 comprises a punching base 611, a punching mounting seat 612, a second punching driving member 613 and a punching column 614, the punching base 611 is mounted on the punching guide rail 64, the lower surface of the punching base 611 is connected with the first punching driving member 62, the punching mounting seat 612 is fixed on the punching base 611, the second punching driving member 613 is fixedly mounted at the upper end of the punching mounting seat 612, the punching column 614 is connected with the second punching driving member 613, a channel 615 matched with a square pipe is arranged on the punching base 611, a first through hole matched with the punching column 614 is arranged on the punching base 611, and the first through hole is located above the channel 615.

In this embodiment, when the device is used, the first punching driving member 62 drives the punching base 611 to move, the punching mounting seat 612, the second punching driving member 613 and the punching column 614 move, when the device moves to a specific position, the first punching driving member 62 stops working, the second punching driving member 613 drives the punching column 614 to move down, and the punching column 614 penetrates through the first through hole and then punches the square pipe in the channel 615, so that the automatic punching of the square pipe is realized, and the production efficiency is improved.

In another embodiment of the present invention, as shown in fig. 8, the cutting component 8 includes a cutting base 81, a cutting positioning component 82 and a cutting component 83:

the cutting positioning assembly 82 comprises a cutting fixing block 821, a cutting fixing driving piece 822 and a cutting fixing plate 823, wherein the cutting fixing block 821 is fixedly installed on the cutting base 81, the cutting fixing driving piece 822 is fixedly installed on one side of the cutting fixing block 821, the cutting fixing plate 823 is located on the cutting fixing block 821, and the cutting fixing plate 823 is connected with the cutting fixing driving piece 822;

cutting assembly 83 is including two cutting mounting panels 831, two be provided with cutting pivot 832 between the cutting mounting panel 831, be provided with cutting mount pad 836 on the cutting pivot 832, be provided with cutting motor 833 and cutting blade 834 on the cutting mount pad 836, cutting motor 833 is used for the drive cutting blade 834 rotates, still be provided with handle 835 on the cutting mount pad 836.

In this embodiment, when in use, the square pipe is punched by the punching part 6 and then is transferred to the cutting fixing block 821, the cutting fixing driving piece 822 drives the cutting fixing plate 823 to move to limit the square pipe, so as to prevent the square pipe from shaking in the cutting process, ensure the cutting effect, when the product length detecting part 3 detects that the moving distance of the square pipe reaches the required length of the square pipe, that is, the moving distance of the square pipe on the cutting fixed block 821 is the required length of the square pipe, then by applying an external force to the handle 835, the handle 835 rotates the cutting mounting 836, the cutting blade 834 cuts the square pipe as it moves downward, thereby realizing equal-length cutting of the square pipe, improving the production efficiency and ensuring the quality of the finished square pipe.

The driving parts in the above embodiments are all existing cylinder driving parts or motor driving parts.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a high-efficient automatic processing equipment of cardboard side pipe, its characterized in that, including workstation, roll forming part, product length detection part, alignment transmission part, the first detection part of shooing, the part of punching a hole, the second detection part of shooing and cutting part:

the roll forming component is used for rolling the raw materials into a square tube and is fixedly arranged on the workbench;

the product length detection component is used for detecting the length of the square tube conveyed from the roll forming component to the straightening transmission component, and is fixedly arranged above the roll forming component;

the straightening transmission component is used for straightening the position of the square pipe transmitted from the roll forming component and then transmitting the square pipe to the punching component, and the straightening transmission component is fixedly arranged between the roll forming component and the punching component;

the first photographing detection part is used for detecting whether the square pipe obtained by rolling the rolling forming part meets the requirement or not, and is fixedly arranged above the straightening transmission part;

the punching component is used for punching the square pipe and is fixedly arranged between the straightening transmission component and the cutting component;

the second photographing detection part is used for detecting the punched square tube, the second photographing detection part is fixedly arranged between the punching part and the cutting part, and the second photographing part is positioned above the punching part;

the cutting component is used for cutting the formed square pipe into a plurality of finished square pipes with equal length.

2. The efficient and automatic machining device for the square tubes of the snap-gauge plates according to claim 1, wherein the roll forming component comprises a plurality of first roll pressing assemblies, a plurality of second roll pressing assemblies, a plurality of third roll pressing assemblies, a plurality of fourth roll pressing assemblies and a plurality of fifth roll pressing assemblies, a roll pressing groove is formed in the workbench, and the first roll pressing assemblies, the second roll pressing assemblies, the third roll pressing assemblies, the fourth roll pressing assemblies and the fifth roll pressing assemblies are sequentially installed in the roll pressing groove from left to right:

the first rolling assembly comprises a first upper roller and a first lower roller, the first upper roller is fixedly arranged at the upper end of the rolling groove, the first lower roller is fixedly arranged at the lower end of the rolling groove, and the first lower roller is positioned right below the first upper roller;

the structures of the second rolling assembly and the third rolling assembly are the same as those of the first rolling assembly, the roller of the second rolling assembly is smaller than that of the first rolling assembly, and the roller of the third rolling assembly is smaller than that of the second rolling assembly;

the fourth rolling component comprises a fourth upper roller and a fourth lower roller, the fourth upper roller and the fourth lower roller are respectively arranged at the upper end and the lower end of the rolling groove, the middle of the fourth upper roller is concave, two sides of the fourth upper roller are convex, and the structure of the fourth lower roller is the same as that of the fourth upper roller;

the fifth rolling assembly comprises a fifth upper roller and a fifth lower roller, the fifth upper roller and the fifth lower roller are respectively arranged at the upper end and the lower end of the rolling groove, the middle position of the fifth upper roller is convex, two sides of the fifth upper roller are concave, and the structure of the fifth lower roller is the same as that of the fifth upper roller.

3. The efficient automatic machining device for the square tubes of the snap-gauge plates according to claim 1 or 2, wherein the product length detection part comprises two length detection fixing plates, a length detection rotating shaft, two length detection fixing blocks, an encoder and a length detection rotating disc, the two length detection fixing plates are respectively and fixedly arranged on two sides of the roll forming part, the length detection rotating shaft is fixed between the two length detection fixing plates, one end of each length detection fixing block is fixedly arranged on the length detection rotating shaft, the encoder and the length detection rotating disc are both fixedly arranged on the other end of the corresponding length detection fixing block, and the encoder is connected with the length detection rotating disc.

4. The efficient automatic processing equipment for the square tubes of the snap-gauge plates according to claim 1 or 2, wherein the alignment transmission component comprises two alignment transmission fixing plates, the two alignment transmission fixing plates are fixedly mounted on the workbench in parallel, the alignment transmission fixing plate is positioned on one side of the roll forming component, a plurality of upper alignment transmission rollers are arranged between the upper ends of the two alignment transmission fixing plates, lower alignment transmission rollers are arranged below the upper alignment transmission rollers, and alignment grooves matched with the square tubes are formed in the middle positions of the upper alignment transmission rollers and the lower alignment transmission rollers.

5. The efficient automatic processing equipment for the square pipes of the snap-gauge plates according to claim 1 or 2, wherein the first photographing detection part comprises a first photographing base, a first CCD camera and a first photographing detection driving part, the workbench is provided with a first photographing detection guide rail, the first photographing base is installed on the first photographing detection guide rail, the first CCD camera is fixedly installed at the upper end of the first photographing base, the first CCD camera is located above the straightening transmission part, and the first photographing detection driving part is connected with the bottom of the first photographing base.

6. The efficient automatic processing equipment for the square pipes of the clamping plates according to claim 1 or 2, wherein the punching part comprises at least two punching assemblies and a first punching driving piece for driving the punching assemblies to move, a punching groove is formed in the workbench, two punching guide rails are arranged on the workbench and are respectively positioned on two sides of the punching groove, the punching assemblies are mounted on the punching guide rails, the first punching driving piece is mounted in the punching groove, and the first punching driving piece is connected with the punching assemblies;

the punching assembly comprises a punching base, a punching mounting seat, a second punching driving piece and a punching column, the punching base is mounted on the punching guide rail, the lower surface of the punching base is connected with the first punching driving piece, the punching mounting seat is fixed on the punching base, the second punching driving piece is fixedly mounted at the upper end of the punching mounting seat, the punching column is connected with the second punching driving piece, a channel matched with a square pipe is arranged on the punching base, a first through hole matched with the punching column is arranged on the punching base, and the first through hole is located above the channel.

7. The efficient automatic processing equipment for the square tubes of the clamping plates according to claim 1 or 2, wherein the cutting component comprises a cutting base, a cutting positioning component and a cutting component:

the cutting positioning assembly comprises a cutting fixing block, a cutting fixing driving piece and a cutting fixing plate, the cutting fixing block is fixedly arranged on the cutting base, the cutting fixing driving piece is fixedly arranged on one side of the cutting fixing block, the cutting fixing plate is positioned on the cutting fixing block, and the cutting fixing plate is connected with the cutting fixing driving piece;

the cutting assembly comprises two cutting mounting plates, a cutting rotating shaft is arranged between the cutting mounting plates, a cutting mounting seat is arranged on the cutting rotating shaft, a cutting motor and a cutting blade are arranged on the cutting mounting seat, the cutting motor is used for driving the cutting blade to rotate, and a handle is further arranged on the cutting mounting seat.

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