CN111167745A

CN111167745A - Material distributing device

Info

Publication number: CN111167745A
Application number: CN202010151015.3A
Authority: CN
Inventors: 严敏剑
Original assignee: Zhangjiagang Free Trade Zone Yaxin Auto Parts Co ltd
Current assignee: Zhangjiagang Free Trade Zone Yaxin Auto Parts Co ltd
Priority date: 2020-03-06
Filing date: 2020-03-06
Publication date: 2020-05-19

Abstract

The invention discloses a material distribution device.A plurality of V-shaped rollers are sequentially arranged on a rack from front to back at intervals, and a first driving device drives each V-shaped roller to rotate around the axis of the first driving device through chain transmission so as to convey a steel pipe positioned on each V-shaped roller from back to front; the first long shaft is supported and arranged on the right side of the rack through corresponding second bearing seats, the first long shaft is driven to rotate by a second driving device, the second long shaft is supported and arranged on the left side of the rack through corresponding third bearing seats, the second long shaft is driven to rotate by a third driving device, and the first long shaft and the second long shaft are both vertical to a roll shaft of any V-shaped roll; a plurality of first material turning plates are fixedly arranged on the first long shaft from front to back at intervals, and the inner ends of the first material turning plates are bent upwards to form first hooks; a plurality of second material turning plates are fixedly arranged on the second long shaft from front to back at intervals in sequence, and the inner ends of the second material turning plates are bent upwards to form second hooks. The device has simple structure and can realize the purpose of automatic material distribution.

Description

Material distributing device

Technical Field

The invention relates to steel pipe processing equipment, in particular to a material distribution device.

Background

In the manufacturing process of the steel pipe, due to the influence of factors such as slag inclusion in raw materials and the like, the risk of generating defects such as cracks, sand holes and the like after the steel pipe is formed exists; in order to ensure the quality of the steel pipes, the formed steel pipes need to be detected, and unqualified steel pipes with defects such as cracks and sand holes are sorted out. At present, a flaw detector is adopted to detect steel pipes, and then unqualified steel pipes with defects are manually sorted out, but the manual sorting mode has the defects of high labor intensity of workers, low working efficiency, high labor cost and the like.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the material separating device is simple in structure and can automatically separate defective unqualified steel pipes from non-defective qualified steel pipes.

In order to solve the problems, the invention adopts the technical scheme that: a kind of said distributing device, including: the device comprises a rack, a plurality of V-shaped rollers are sequentially arranged on the rack from front to back at intervals, a roller shaft of each V-shaped roller is supported on the rack through two corresponding first bearing seats, the axis of the roller shaft of each V-shaped roller is positioned on the same horizontal plane, and the roller shafts of the V-shaped rollers are parallel to each other; the first driving device drives each V-shaped roller to rotate around the axis of the first driving device through chain transmission, and the speed and the rotating direction of each V-shaped roller are synchronous and consistent, so that the steel pipe positioned on the V-shaped rollers is conveyed from back to front; the first long shaft is supported and arranged on the right side of the rack through a plurality of corresponding second bearing seats, the first long shaft is driven to rotate by a second driving device, the second long shaft is supported and arranged on the left side of the rack through a plurality of corresponding third bearing seats, the second long shaft is driven to rotate by a third driving device, the first long shaft is parallel to the second long shaft, and the first long shaft is vertical to a roll shaft of any V-shaped roll; a plurality of first material turning plates are fixedly arranged on the first long shaft from front to back at intervals in sequence, the left end of each first material turning plate is bent upwards to form a first claw, each first claw extends into a gap between every two adjacent V-shaped rollers, each first claw is positioned below a steel pipe on the V-shaped rollers, and the first long shaft drives each first material turning plate to turn right under the driving of a second driving device, so that the steel pipe is driven to be output to the right side along the first material turning plates after each first claw hooks the steel pipe; and a plurality of second material turning plates are fixedly arranged on the second long shaft from front to back at intervals in sequence, the right end of each second material turning plate is bent upwards to form a second claw, each second claw extends into a gap between every two adjacent V-shaped rollers, each second claw is positioned below the steel pipe on the V-shaped roller, and the second long shaft drives each second material turning plate to turn to the left under the driving of a third driving device, so that the steel pipe is driven to be output to the left along the second material turning plates after each second claw hooks the steel pipe.

Further, in the foregoing dispensing device, the second driving device has a structure that: the cylinder body of the first oil cylinder or the first air cylinder is hinged on the rack, an extension rod of the first oil cylinder or the extension rod of the first air cylinder is hinged with one end of a first connecting rod, and the other end of the first connecting rod is fixed on a first long shaft; when the extension rod of the first oil cylinder or the extension rod of the first air cylinder extends outwards, the first material turning plate is driven to turn towards the left side to bear the steel pipes conveyed forwards by the V-shaped rollers; when the extension rod of the first oil cylinder or the extension rod of the first air cylinder retracts inwards, the first material turning plate is pulled to turn to the right side, and therefore the steel pipes are driven to be output to the right side along the first material turning plate after the steel pipes are hooked by the first hooks.

Further, in the above dispensing device, the third driving device has a structure that: the cylinder body of the second oil cylinder or the second air cylinder is hinged on the rack, an extension rod of the second oil cylinder or the extension rod of the second air cylinder is hinged with one end of a second connecting rod, and the other end of the second connecting rod is fixed on a second long shaft; when the extension rod of the second oil cylinder or the extension rod of the second air cylinder extends outwards, the second material turning plate is driven to turn over towards the right side to bear the steel pipes conveyed forwards by the V-shaped rollers; when the extension rod of the second oil cylinder or the extension rod of the second air cylinder retracts inwards, the second material turning plate is pulled to turn towards the left side, and therefore after the steel pipes are hooked by the second hooks, the steel pipes are driven to be output towards the left side along the second material turning plate.

Further, in the above-mentioned material distribution device, the specific chain transmission structure is: the left end of the roll shaft of each V-shaped roll is respectively and fixedly provided with a left chain wheel, and the right end of the roll shaft of each V-shaped roll is respectively and fixedly provided with a right chain wheel; the rack sequentially starts from front to back from the right chain wheel arranged at the first, every two adjacent right chain wheels are matched with one chain to form an independent first chain transmission, the rack sequentially starts from the left chain wheel arranged at the second from front to back, and every two adjacent left chain wheels form an independent second chain transmission; the first driving device is a driving motor, a driving chain wheel is fixedly arranged on a motor shaft of the driving motor, and a main chain is wound on the driving chain wheel and the left chain wheel which is arranged on the first left chain wheel from front to back on the rack to form first-stage chain transmission.

Further, in the material distribution device, first baffle plates are respectively and fixedly arranged on the machine frame corresponding to each first chain transmission, and each first baffle plate respectively covers the upper side and the right side of the corresponding first chain transmission; and second baffles are respectively and fixedly arranged on the machine frame corresponding to each second chain transmission and respectively cover the upper part and the left side of the corresponding second chain transmission.

Further, in the above-mentioned material distribution device, each first material-reversing plate is located in the gap between two adjacent first chain drives, and each second material-reversing plate is located in the gap between two adjacent second chain drives.

Further, aforementioned a distributing device, wherein, all parcel has the protective layer on every V type roller, and the setting of protective layer can protect the steel pipe surface, can protect V type roller surface again.

Further, in the material distribution device, a front baffle is fixedly arranged at the front end of the frame; under the drive of the first driving device, the steel pipe positioned on the V-shaped roller is conveyed from back to front until the front end of the steel pipe abuts against the front baffle.

The invention has the beneficial effects that: the device has simple and compact structure and convenient operation; the device is matched with a flaw detector and a control device for use, the flaw detector detects the steel pipe to obtain a detection signal, and the control device controls the second driving device or the third driving device to work according to the detection signal of the flaw detector, so that the aim of automatically separating defective unqualified steel pipes from non-defective qualified steel pipes is fulfilled.

Drawings

Fig. 1 is a schematic structural diagram of a material distribution device according to the present invention.

Fig. 2 is a partially enlarged schematic view of fig. 1.

Fig. 3 is a partially enlarged schematic view of a portion a of fig. 1.

Fig. 4 is a schematic view of the structure in the top view of fig. 1.

Fig. 5 is a partially enlarged schematic view of fig. 4.

Fig. 6 is a structural schematic view in the bottom direction of fig. 4.

Fig. 7 is a structural schematic view of the second material reversing plate in fig. 6 in another state.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the accompanying drawings and preferred embodiments.

As shown in fig. 1, fig. 2, fig. 4 and fig. 5, the material distribution device in this embodiment includes: the roller shaft axis of each V-shaped roller 2 is positioned on the same horizontal plane, and the roller shafts of each V-shaped roller 2 are parallel to each other. The first driving device drives each V-shaped roller 2 to rotate around the axis of the first driving device through chain transmission, the speed of each V-shaped roller 2 is synchronous, and the rotating direction of each V-shaped roller is consistent, so that the steel pipe positioned on each V-shaped roller 2 is conveyed from back to front. This embodiment all wraps up the protective layer on every V type roller 2, and the setting of protective layer can protect the steel pipe surface, can protect V type roller surface again, the transport steel pipe that can also be better in addition. In the embodiment, a front baffle 11 is fixedly arranged at the front end of the frame 1. Under the drive of the first driving device, the steel pipe positioned on the V-shaped roller 2 is conveyed from back to front until the front end of the steel pipe abuts against the front baffle 11, and at the moment, the steel pipe cannot be conveyed forwards any more. In actual production, can set up inductive switch in baffle 11 department before, inductive switch and first drive arrangement all are connected with controlling means, trigger inductive switch when the steel pipe front end supports to lean on in baffle 11 before, controlling means stops work according to inductive switch's trigger signal control first drive arrangement.

As shown in fig. 2, 4 and 5, the specific structure of the chain drive described in this embodiment is: the left end of the roll shaft of each V-shaped roll 2 is fixedly provided with a left chain wheel 22, and the right end of the roll shaft of each V-shaped roll 2 is fixedly provided with a right chain wheel 23. The frame 1 starts from front to back in sequence from the right chain wheel 23 arranged first, every two adjacent right chain wheels 23 are matched with one chain to form an independent first chain transmission, the frame 1 starts from front to back in sequence from the left chain wheel 22 arranged second, and every two adjacent left chain wheels 22 are matched with one chain to form an independent second chain transmission. The first driving device is a driving motor 3, a driving sprocket 31 is fixedly arranged on a motor shaft of the driving motor 3, and a main chain 30 is wound on the driving sprocket 31 and the left sprocket 22 arranged on the frame 1 from front to back to form first-stage chain transmission. The driving motor 3 transmits power to the V-shaped rollers 2 through the first-stage chain transmission, the first chain transmissions and the second chain transmissions.

As shown in fig. 1 and 2, a first baffle 24 is fixedly arranged on the frame 1 corresponding to each first chain drive, each first baffle 24 respectively shields the upper side and the right side of the corresponding first chain drive, and the arrangement of each first baffle 24 not only protects the corresponding first chain drive, but also ensures the cleanliness of the corresponding first chain drive. And second baffle plates 25 are respectively and fixedly arranged on the machine frame 1 corresponding to each second chain transmission, each second baffle plate 25 respectively shields the upper side and the left side of the corresponding second chain transmission, and the arrangement of each second baffle plate 25 not only protects the corresponding second chain transmission, but also ensures the cleanliness of the corresponding second chain transmission.

As shown in fig. 1 and 4, the first long shaft 4 is supported by a plurality of corresponding second bearing seats 41 and arranged on the right side of the frame 1, the first long shaft 4 is driven by the second driving device to rotate, the second long shaft 5 is supported by a plurality of corresponding third bearing seats 51 and arranged on the left side of the frame 1, the second long shaft 5 is driven by the third driving device to rotate, the first long shaft 4 is parallel to the second long shaft 5, and the first long shaft 4 is perpendicular to the roller shaft of any V-shaped roller 2. A plurality of first material turning plates 42 are fixedly arranged on the first long shaft 4 from front to back at intervals in sequence, the left end of each first material turning plate 42 is bent upwards to form a first claw 43, each first claw 43 extends into a gap between every two adjacent V-shaped rollers 2, and when each first material turning plate 42 is in a non-working state, each first claw 43 is positioned below the steel pipe on the V-shaped roller 2; when each first material turning plate 42 works, under the driving of the second driving device, the first long shaft 4 drives each first material turning plate 42 to turn right, so that the steel pipes are driven to be output to the right along the first material turning plates 42 after the steel pipes are hooked by the first hooks 43. A plurality of second material turning plates 52 are sequentially and fixedly arranged on the second long shaft 5 from front to back at intervals, the right end of each second material turning plate 52 is bent upwards to form a second claw 53, each second claw 53 extends into a gap between every two adjacent V-shaped rollers 2, and when each second material turning plate 52 is in a non-working state, each second claw 53 is positioned below the steel pipe on the V-shaped roller 2; when each second material turning plate 52 works, under the driving of the third driving device, the second long shaft 5 drives each second material turning plate 52 to turn to the left, so that the steel pipe 100 is driven to be output to the left along the second material turning plate 52 after each second claw 53 hooks the steel pipe 100.

As shown in fig. 3 and 6, the second driving device has the following structure: an air cylinder or an oil cylinder is adopted, and the air cylinder is taken as an example for explanation, a cylinder body of the first air cylinder 6 is hinged on the rack 1, an extension rod 61 of the first air cylinder 6 is hinged with one end of a first connecting rod 62, and the other end of the first connecting rod 62 is fixed on the first long shaft 4; when the extension rod 61 of the first cylinder 6 extends outwards, the first material turning plate 42 is driven to turn towards the left side, and when the extension rod 61 of the first cylinder 6 retracts inwards, the first material turning plate 42 is pulled to turn towards the right side.

As shown in fig. 3, 6 and 7, the third driving device has the following structure: an air cylinder or an oil cylinder is adopted, and the air cylinder is taken as an example for explanation, the cylinder body of the second air cylinder 7 is hinged on the rack 1, the extension rod 71 of the second air cylinder 7 is hinged with one end of a second connecting rod 72, and the other end of the second connecting rod 72 is fixed on the second long shaft 5; when the extension rod 71 of the second cylinder 7 extends outwards, the second material turning plate 52 is driven to turn towards the right side, and when the extension rod 71 of the second cylinder 7 retracts inwards, the second material turning plate 52 is pulled to turn towards the left side.

As shown in fig. 1 and 4, in the present embodiment, each first material-reversing plate 42 is located in the gap between every two adjacent first chain drives, and likewise each first material-reversing plate 42 is located in the gap between every two adjacent first baffle plates 24. The second material-reversing plates 52 are located in the gap between two adjacent second chain drives, likewise the second material-reversing plates 52 are located in the gap between two adjacent second stops 25. The above arrangement thus makes the overall structure more compact.

The device is matched with a flaw detector and a control device for use, the steel pipe is detected by the flaw detector to obtain a detection signal before being conveyed to the position where the front end of the steel pipe abuts against the front baffle 11, the control device judges according to the detection signal of the flaw detector, and after the steel pipe is conveyed to the position where the front end of the steel pipe abuts against the front baffle 11, the control device controls the second driving device or the third driving device to work, so that the aim of automatically separating defective unqualified steel pipes from non-defective qualified steel pipes is fulfilled. The left side of the frame 1 is assumed to be the output of a qualified steel pipe, and the right side of the frame 1 is assumed to be the output of an unqualified steel pipe with defects such as cracks, sand holes and the like. The steel pipe to be detected placed on the V-shaped roller 2 is driven by the first driving device to be conveyed from back to front, and when the front end of the steel pipe touches the front baffle 11, the steel pipe is blocked and cannot move forward continuously. The control device performs corresponding control according to the signals detected by the flaw detector:

if the flaw detector detects that the steel pipe to be detected is an unqualified steel pipe, the control device controls the second driving device, and the first long shaft 4 drives the first material turning plates 42 to turn right under the driving of the second driving device, so that the first hooks 43 hook the steel pipe and then drive the steel pipe to output to the right along the first material turning plates 42.

If the flaw detector detects that the steel pipe to be detected is a qualified steel pipe, the control device controls the third driving device, and under the driving of the third driving device, the second long shaft 5 drives each second material turning plate 52 to turn to the left, so that after each second claw 53 hooks the steel pipe 100, the steel pipe 100 is driven to output to the left along the second material turning plate 52.

Then, the next steel pipe to be detected can be detected. To sum up, the device operation is very convenient, need not to use a large amount of manpowers to come the manual steel pipe of sorting, has improved letter sorting efficiency, greatly reduced the cost of labor.

The flaw detector belongs to the mature technology in the field, and the device is used in cooperation with the flaw detector and does not protect the specific structure of the flaw detector, so that the specific structure and the specific working principle of the flaw detector do not need to be explained in the application. The control device also belongs to the mature technology of the control field, and the device is matched with the control device for use, and does not protect the specific structure of the control device, so that the specific structure of the control device does not need to be explained in the application, and any mature control device which can complete the control (control the second driving device or the third driving device to work according to the detection signal of the flaw detector) can be applied and matched with the automatic steel pipe distributing device and the flaw detector for use.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, but any modifications or equivalent variations made in accordance with the technical spirit of the present invention are within the scope of the present invention as claimed.

Claims

1. A dispensing device, comprising: the frame, its characterized in that: a plurality of V-shaped rollers are sequentially arranged on the rack from front to back at intervals, the roll shaft of each V-shaped roller is supported on the rack through a corresponding first bearing seat, the roll shaft axes of each V-shaped roller are positioned on the same horizontal plane, and the roll shafts of the V-shaped rollers are parallel to each other; the first driving device drives each V-shaped roller to rotate around the axis of the first driving device through chain transmission, and the speed and the rotating direction of each V-shaped roller are synchronous and consistent, so that the steel pipe positioned on the V-shaped rollers is conveyed from back to front; the first long shaft is supported and arranged on the right side of the rack through corresponding second bearing seats, the first long shaft is driven to rotate by a second driving device, the second long shaft is supported and arranged on the left side of the rack through corresponding third bearing seats, the second long shaft is driven to rotate by a third driving device, the first long shaft is parallel to the second long shaft, and the first long shaft is vertical to a roller shaft of any V-shaped roller; a plurality of first material turning plates are fixedly arranged on the first long shaft from front to back at intervals in sequence, the left end of each first material turning plate is bent upwards to form a first claw, each first claw extends into a gap between every two adjacent V-shaped rollers, each first claw is positioned below a steel pipe on the V-shaped rollers, and the first long shaft drives each first material turning plate to turn right under the driving of a second driving device, so that the steel pipe is driven to be output to the right side along the first material turning plates after each first claw hooks the steel pipe; and a plurality of second material turning plates are fixedly arranged on the second long shaft from front to back at intervals in sequence, the right end of each second material turning plate is bent upwards to form a second claw, each second claw extends into a gap between every two adjacent V-shaped rollers, each second claw is positioned below the steel pipe on the V-shaped roller, and the second long shaft drives each second material turning plate to turn to the left under the driving of a third driving device, so that the steel pipe is driven to be output to the left along the second material turning plates after each second claw hooks the steel pipe.

2. A dispensing apparatus as claimed in claim 1, wherein: the structure of the second driving device is as follows: the cylinder body of the first oil cylinder or the first air cylinder is hinged on the rack, an extension rod of the first oil cylinder or the extension rod of the first air cylinder is hinged with one end of a first connecting rod, and the other end of the first connecting rod is fixed on a first long shaft; when the extension rod of the first oil cylinder or the extension rod of the first air cylinder extends outwards, the first material turning plate is driven to turn to the left side, and when the extension rod of the first oil cylinder or the extension rod of the first air cylinder retracts inwards, the first material turning plate is pulled to turn to the right side.

3. A dispensing apparatus as claimed in claim 1 or 2, characterized in that: the third driving device has the structure that: the cylinder body of the second oil cylinder or the second air cylinder is hinged on the rack, an extension rod of the second oil cylinder or the extension rod of the second air cylinder is hinged with one end of a second connecting rod, and the other end of the second connecting rod is fixed on a second long shaft; when the extension rod of the second oil cylinder or the extension rod of the second air cylinder extends outwards, the second material turning plate is driven to turn towards the right side, and when the extension rod of the second oil cylinder or the extension rod of the second air cylinder retracts inwards, the second material turning plate is pulled to turn towards the left side.

4. A dispensing apparatus as claimed in claim 1, wherein: the specific chain transmission structure is as follows: the left end of the roll shaft of each V-shaped roll is respectively and fixedly provided with a left chain wheel, and the right end of the roll shaft of each V-shaped roll is respectively and fixedly provided with a right chain wheel; the rack is started from the front to the back and from the right chain wheel arranged at the first, every two adjacent right chain wheels are matched with one chain to form an independent first chain transmission, the rack is started from the front to the back and from the left chain wheel arranged at the second, every two adjacent left chain wheels are matched with one chain to form an independent second chain transmission; the first driving device is a driving motor, a motor shaft of the driving motor is fixedly provided with a driving chain wheel, and a main chain is wound on the driving chain wheel and the rack and is arranged on the first left chain wheel from front to back.

5. A dispensing apparatus as claimed in claim 4, wherein: the frame corresponding to each first chain transmission is respectively and fixedly provided with a first baffle, and each first baffle respectively covers the upper side and the right side of the corresponding first chain transmission; and second baffles are respectively and fixedly arranged on the machine frame corresponding to each second chain transmission and respectively cover the upper part and the left side of the corresponding second chain transmission.

6. A dispensing apparatus as claimed in claim 4 or 5, characterized in that: each first material-turning plate is positioned in a gap between every two adjacent first chain drives, and each second material-turning plate is positioned in a gap between every two adjacent second chain drives.

7. A dispensing apparatus as claimed in claim 1, wherein: and each V-shaped roller is wrapped with a protective layer.

8. A dispensing apparatus as claimed in claim 1, 4 or 7, characterized in that: the front end of the frame is also fixedly provided with a front baffle; under the drive of the first driving device, the steel pipe positioned on the V-shaped roller is conveyed from back to front until the front end of the steel pipe abuts against the front baffle.