CN220466287U

CN220466287U - Tubular product piling bin

Info

Publication number: CN220466287U
Application number: CN202321872282.5U
Authority: CN
Inventors: 马黎明; 杨星辉; 刘磊
Original assignee: Shaanxi Xiongfeng Steel Structure Decoration Engineering Co ltd
Current assignee: Shaanxi Xiongfeng Steel Structure Decoration Engineering Co ltd
Priority date: 2023-07-17
Filing date: 2023-07-17
Publication date: 2024-02-09
Anticipated expiration: 2033-07-17

Abstract

The utility model relates to a tubular product stacking rack relates to the field of tubular product equipment technology, it includes supporting component, a plurality of conveying component and a subassembly of placing, supporting component includes the backup pad, backup pad one end is close to upstream feeding equipment, a plurality of conveying component are all located in the backup pad, a plurality of standing grooves have been seted up to backup pad one side of keeping away from ground, the distribution direction and the tubular product conveying direction of a plurality of standing grooves are unanimous, a plurality of conveying component are located a standing groove respectively, conveying component includes cylinder and driving piece, the cylinder central axis is unanimous with the setting direction of standing groove, the cylinder rotates and connects in the backup pad, the roof and the backup pad of cylinder keep away from ground one side parallel and level, the driving piece is fixed in the backup pad, the driving piece is connected with the cylinder in order to drive the cylinder and rotates; placing the subassembly and including rack, the distribution direction and the tubular product direction of delivery of rack and backup pad are perpendicular, and the rack is used for depositing tubular product, and this application has the effect that improves and be inconvenient for stacking the material.

Description

Tubular product piling bin

Technical Field

The application relates to the field of pipe equipment technology, in particular to a pipe stacking rack.

Background

The pipe is a material for making a pipe, the pipe is also a material necessary for constructional engineering, a large number of steel pipes are produced in factories, the space occupied by storing the steel pipes is reduced, and the management of the pipe is usually that the pipe is orderly placed on a storage shelf.

In the related art, in factory production, the length of the pipe after production and processing is still very big, the pipe needs to be tidied and piled up, in the process of pipe processing, the pipe after processing is carried the pipe through upstream conveying equipment, personnel wait at the discharge gate of upstream conveying equipment, and when the pipe is sent out through the discharge gate of upstream conveying equipment, personnel carry the pipe of sending out to the appointed stack of factory building.

To the relevant technique among the above-mentioned, in the in-process of tubular product processing, carry tubular product through upstream conveying equipment, the mode of rethread manual transportation carries the tubular product to appointed position, has increased personnel's work load, is inconvenient for stacking the material.

Disclosure of Invention

In order to solve the problem that the stacking of materials is inconvenient, the application provides a pipe stacking rack.

The application provides a tubular product piling bin adopts following technical scheme:

the utility model provides a tubular product piling bin, includes supporting component, a plurality of conveying component and a subassembly of placing, the supporting component includes the backup pad, backup pad horizontal installation is in ground, backup pad one end is close to upstream feeding equipment, and a plurality of conveying component all locates in the backup pad, the backup pad is kept away from ground one side and is seted up a plurality of standing grooves, and a plurality of the distributing direction of standing grooves is unanimous with tubular product conveying direction, the setting direction of standing groove is perpendicular with tubular product conveying direction, and a plurality of conveying component is located respectively in the standing groove, conveying component includes cylinder and driving piece, the cylinder central axis with the setting direction of standing groove is unanimous, the cylinder rotate connect in the backup pad, the roof of cylinder with the backup pad is kept away from ground one side parallel and level, the driving piece is fixed in the backup pad, the driving piece with the cylinder is connected in order to drive the cylinder rotates.

The placing assembly comprises a placing frame, the placing frame is located on one side of the supporting plate, the placing frame is perpendicular to the distribution direction of the supporting plate and the conveying direction of the pipe, the placing frame is installed on the ground, and the placing frame is used for storing the pipe.

Through adopting above-mentioned technical scheme, when needing to stack the tubular product, at first, start a plurality of driving pieces simultaneously, the driving piece can drive the cylinder and rotate, afterwards, upstream feeding equipment can carry the tubular product, afterwards, the tubular product can be carried in the backup pad, the tubular product continues to slide, when tubular product slides to cylinder department, at cylinder pivoted in-process, the cylinder can drive tubular product and continue to slide, can make the tubular product slide more smooth and easy in the backup pad, after tubular product carries the backup pad, personnel only need with tubular product remove to the rack can, arrange in order to stack the tubular product, compare with the correlation technique, this application is carried the backup pad with tubular product through upstream feeding equipment, rethread cylinder makes tubular product better slide, afterwards, remove the tubular product to arrange in order to stack on the rack through personnel, be favorable to improving the problem that is unfavorable for stacking the material.

Optionally, the placement module further includes a plurality of sliders, a plurality of the sliders are fixed between the placement frame and the support plate, the distribution direction of the plurality of the sliders is consistent with the pipe conveying direction, the sliders are obliquely arranged, the higher end of each slider is fixed on the support plate, the lower end of each slider is close to the placement frame, and the sliders can be used for sliding the pipe.

Through adopting above-mentioned technical scheme, when the tubular product in the backup pad is removed to the rack when needs, personnel remove tubular product department to the slider, later, make tubular product landing to the slider on, at this moment, the tubular product that is located on the slider can follow the slider landing to the rack on, need not personnel to carry the tubular product to the rack on, further be convenient for personnel stack the material.

Optionally, place the subassembly still include two lifters and two connecting seats, two the lifter is located the rack both ends, two the distribution direction of lifter is unanimous with the direction of delivery of tubular product, the lifter is installed in ground, the lifter with the connecting seat is connected, the lifter can be adjusted the height of connecting seat, the rack with the connecting seat is connected.

By adopting the technical scheme, when the height of the placing rack is required to be adjusted, the lifting piece is started when the height of the placing rack is higher than that of the sliding piece, the lifting piece drives the connecting seat to move towards one side close to the ground, and in the moving process of the connecting seat, the placing rack can synchronously move along with the connecting seat and can be adjusted to a proper position; when rack height is less than the slider, have the difference in height between rack and the slider, start the lifter, lifter drive connecting seat moves towards keeping away from ground one side, and at this moment, the rack can be along with connecting seat synchronous motion, adjusts the rack to suitable position, is favorable to reducing the condition that damages because of the collision between the tubular product, through setting up the lifter, is favorable to adjusting the height of rack.

Optionally, the lifter includes the second cylinder, the vertical setting of second cylinder, the cylinder body of second cylinder is installed in ground, the piston rod of second cylinder is kept away from ground one side towards, the piston rod of second cylinder with the connecting seat is fixed.

Through adopting above-mentioned technical scheme, when the height of rack is adjusted to needs, start the second cylinder, second cylinder drive connecting seat is close to or keep away from ground one side motion to can adjust the position of rack, through setting up the second cylinder, be favorable to realizing the automation of lifting operation.

Optionally, the placement module further includes two overturning members, the two overturning members are respectively close to one connecting seat, the overturning members are fixed on one side of the connecting seat away from the placement frame, and the overturning members are connected with the placement frame to drive the placement frame to overturn.

Through adopting above-mentioned technical scheme, when tubular product landing to the rack, need remove tubular product to keeping away from slider one side, to arrange in order the pile to the tubular product, at this moment, start two upset pieces simultaneously, upset piece drive rack upset can make the tubular product remove on the rack surface, through setting up the upset piece, is favorable to overturning the rack.

Optionally, the device further comprises a plurality of pushing components, wherein the pushing components are respectively located between two adjacent rollers, the pushing components and the rollers are located on the same side of the supporting plate, the pushing components comprise a pushing plate and a pushing piece, the pushing plate is slidably arranged on the supporting plate, the sliding direction of the pushing plate is perpendicular to the conveying direction of the pipe, the pushing piece is fixed on the supporting plate, and the pushing piece is connected with the pushing plate to drive the pushing plate to move.

Through adopting above-mentioned technical scheme, after upstream feeding equipment carries the tubular product to the backup pad, the tubular product can be better slide in the backup pad through the cylinder, when needs remove the tubular product to the rack, starts the pushing part, and the pushing part can promote the pushing plate and be close to tubular product one side motion, can promote tubular product motion, makes tubular product slide to the rack along the slider on, through setting up the pushing part, need not the manual work and promotes tubular product.

Optionally, still include adjusting part, adjusting part is located backup pad is close to upstream feeding equipment one side, adjusting part includes the deflector, deflector one end with the backup pad is connected, and the other end overlap joint is in upstream feeding equipment, the deflector can make tubular product carry to the backup pad in.

Through adopting above-mentioned technical scheme, when upstream feeding equipment carries tubular product, tubular product slides to the deflector through upstream feeding equipment's discharge gate, later on, continue to carry tubular product, tubular product carries to the backup pad through the deflector in, through setting up the deflector, in the tubular product of being convenient for carries to the backup pad.

Optionally, the adjusting part still includes the regulating part, deflector one end with the backup pad articulates, and the other end overlap joint is in upstream feeding equipment, the regulating part is fixed in the backup pad, the regulating part with the deflector is connected in order to drive the deflector is around the backup pad rotates.

Through adopting above-mentioned technical scheme, when backup pad and upstream feeding equipment are located not co-altitude, start the regulating part, regulating part drive deflector rotates around the backup pad, can make deflector one end overlap joint in upstream feeding equipment, afterwards, upstream feeding equipment carries the tubular product to the deflector, continues to carry tubular product, and tubular product can follow the deflector and move to the backup pad, through setting up the regulating part, is favorable to adapting to the backup pad of not co-altitude.

In summary, the present application includes at least one of the following beneficial technical effects:

1. compared with the prior art, the pipe is conveyed to the supporting plate through the upstream feeding equipment, the pipe slides better through the roller, and then the pipe is moved to the placing rack by personnel to be sorted and stacked, so that the problem that the stacking of the materials is inconvenient is solved;

2. the pipe can slide onto the rack along the slide, personnel are not required to carry the pipe onto the rack, and the stacking of the materials by personnel is further facilitated;

3. by arranging the pushing piece, the pipe is not required to be pushed manually.

Drawings

Fig. 1 is a schematic view of the overall structure of the first view angle in the present embodiment;

FIG. 2 is an enlarged view of A in FIG. 1;

FIG. 3 is a schematic view of the structure of the support assembly in this embodiment;

FIG. 4 is a schematic view of the structure of B in FIG. 3;

fig. 5 is a schematic diagram of the overall structure of the second view angle in the present embodiment.

Reference numerals illustrate: 1. an upstream feeding device; 2. a support assembly; 21. a support plate; 211. a placement groove; 22. a support rod; 3. a transport assembly; 31. a roller; 311. a support base; 32. a driving member; 321. a fixing seat; 322. a driving motor; 4. an adjustment assembly; 41. a guide plate; 42. an adjusting member; 421. placing a plate; 422. a first motor; 423. a driving rod; 5. a pushing component; 51. a pushing piece; 511. a fixing plate; 512. a first cylinder; 52. a pushing plate; 6. placing the assembly; 61. a placing rack; 62. a lifting member; 621. a fixed base; 622. a second cylinder; 63. a connecting seat; 64. a turnover piece; 641. a turnover motor; 65. a slider; 651. a vertical rod; 652. and (5) a diagonal rod.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses a tubular product stacking rack. Referring to fig. 1, 2 and 3, a pipe stacking rack includes a support assembly 2, a plurality of conveying assemblies 3, an adjusting assembly 4, a plurality of pushing assemblies 5 and a placement assembly 6, wherein the conveying assemblies 3, the adjusting assemblies 4 and the pushing assemblies 5 are all disposed on the support assembly 2, and the placement assembly 6 is disposed on one side of the support assembly 2.

Referring to fig. 1, the support assembly 2 includes a support plate 21 and a plurality of support rods 22, the support plate 21 is horizontally disposed, the support rods 22 are located at one side of the support plate 21, the support rods 22 are vertically disposed, the support rods 22 are arranged in a matrix, one end of each support rod 22 is welded to the support plate 21, and the support rods 22 can support the support plate 21.

Referring to fig. 2, 3 and 4, a plurality of conveying components 3 are disposed on one side of the support plate 21 far away from the support rod 22, a plurality of placing grooves 211 are disposed on one side of the support plate 21 far away from the support rod 22, and the distribution direction of the placing grooves 211 is consistent with the pipe conveying direction, the arrangement direction of the placing grooves 211 is perpendicular to the pipe conveying direction, the conveying components 3 are disposed in one placing groove 211, the conveying components 3 comprise a roller 31 and a driving piece 32, the roller 31 is horizontally disposed, the central axis direction of the roller 31 is perpendicular to the conveying direction of the pipe, the top wall of the roller 31 is flush with one side of the support plate 21 far away from the support rod 22, two ends of the roller 31 are respectively provided with a supporting seat 311, the supporting seats 311 are welded on the support plate 21, the supporting seats 311 are rotationally connected with the roller 31, in this embodiment, the driving piece 32 comprises a fixing seat 321 and a driving motor 322, the fixing seat 321 is welded on the support plate 21, and the fixing seat 321 is close to the supporting seat 311, the casing of the driving motor 322 is fixedly connected to the fixing seat 321 through a screw, the output shaft of the driving motor 322 penetrates through the supporting seat 311 and is coaxially and fixedly connected with the roller 31 through a key connection mode, the driving motor 322 can drive the roller 31 to rotate, and then the driving motor 322 can smoothly rotate to the roller 31, and can smoothly rotate when the pipe is conveyed to the support 21, and then, the pipe 31 is driven to smoothly rotate.

Referring to fig. 1, 2 and 3, the adjusting component 4 is located on one side of the support plate 21 near the upstream feeding device 1, the adjusting component 4 includes a guide plate 41 and an adjusting member 42, the guide plate 41 may be a rectangular plate or a U-shaped plate, in this embodiment, the guide plate 41 is preferably a rectangular plate, the guide plate 41 is horizontally arranged, the arrangement direction of the guide plate 41 is consistent with the conveying direction of the pipe, one end of the guide plate 41 is hinged to the support plate 21, the other end is overlapped on the upstream feeding device 1, one end of the guide plate 41 near the upstream feeding device 1 is in an arch shape, the guide plate 41 can be convenient for conveying the pipe to the support plate 21, and the adjusting member 42 is located on one side of the guide plate 41 near the hinged end.

Referring to fig. 2, 3 and 4, in the present embodiment, the adjusting member 42 includes a placing plate 421, a first motor 422 and a driving rod 423, the placing plate 421 is welded on the supporting plate 21, and the placing plate 421 is close to the guiding plate 41, the casing of the first motor 422 is fixedly connected to the placing plate 421 through a screw, the driving rod 423 is disposed on one side of the guiding plate 41 close to the hinge end in a penetrating manner, the driving rod 423 is welded on the guiding plate 41, the output shaft of the first motor 422 and the driving rod 423 are fixedly connected coaxially through a coupling, the first motor 422 can rotate the driving rod 423, and the driving rod 423 can drive the guiding plate 41 to rotate around the supporting plate 21.

Referring to fig. 3, a plurality of pushing assemblies 5 are respectively located between two adjacent rollers 31, the pushing assemblies 5 include a pushing member 51 and a pushing plate 52, in this embodiment, the pushing member 51 includes a fixing plate 511 and a first cylinder 512, the fixing plate 511 is welded to the supporting plate 21, the first cylinder 512 is horizontally disposed, and the arrangement direction of the first cylinder 512 is perpendicular to the feeding direction of the pipe, the cylinder body of the first cylinder 512 is fixedly connected to the fixing plate 511 by a screw, the piston rod of the first cylinder 512 is welded to the pushing plate 52, the pushing plate 52 is slidably disposed on the supporting plate 21, and the sliding direction of the pushing plate 52 is perpendicular to the conveying direction of the pipe, and the first cylinder 512 can push the pushing plate 52 to move toward a side close to or far from the pipe.

Referring to fig. 5, the placement unit 6 includes a placement frame 61, two lifting members 62, two connection seats 63, two turning members 64 and a plurality of sliding members 65, the placement frame 61 is a rectangular frame, the placement frame 61 is located at one side of the support plate 21, the placement frame 61 is horizontally arranged, the two lifting members 62 are located at two ends of the placement frame 61, and the distribution directions of the two lifting members 62 are consistent with the conveying direction of the pipe, in this embodiment, the lifting members 62 include a fixing base 621 and a second cylinder 622, the fixing base 621 is fixedly mounted on the ground by screws, the second cylinder 622 is vertically arranged, the cylinder body of the second cylinder 622 is fixedly connected to the fixing base 621 by screws, the piston rods of the second cylinder 622 face to the side far away from the ground, and the piston rods of the two second cylinders 622 are respectively welded with one connection seat 63, the placement frame 61 is located between the two connection seats 63, and the placement frame 61 is rotatably connected to the connection seats 63; in this embodiment, the turnover member 64 is a turnover motor 641, the turnover motor 641 is located on one side of the connection seat 63 away from the placement frame 61, the casing of the turnover motor 641 is fixedly connected to the connection seat 63 through a screw, the output shaft of the turnover motor 641 is fixedly connected to the placement frame 61 after penetrating through the connection seat 63, the turnover motor 641 can drive the placement frame 61 to turn over a certain angle, and the output shaft of the turnover motor 641 is rotatably connected to the connection seat 63.

Referring to fig. 5, the distribution direction of the plurality of sliders 65 is consistent with the conveying direction of the pipe, the sliders 65 may be sliding plates or sliding rods, in this embodiment, the sliders 65 include two vertical rods 651 and an inclined rod 652, the two vertical rods 651 are vertically disposed, one end of each vertical rod 651 is fixedly mounted on the ground through a screw, the distribution direction of the two vertical rods 651 is perpendicular to the conveying direction of the pipe, one vertical rod 651 is close to the rack 61, the two vertical rods 651 have a height difference, the vertical rod 651 close to the rack 61 is lower than the vertical rod 651 far away from the rack 61, the inclined rod 652 is obliquely disposed, the inclined rod 652 is located at the top of the vertical rod 651, the lower end of the inclined rod 652 is close to the rack 61, the higher end of the inclined rod 652 is welded on the support plate 21, and the inclined rod 652 and the vertical rod 651 are fixedly connected in a welded manner.

The implementation principle of the pipe stacking rack provided by the embodiment of the application is as follows: when the pipes are required to be stacked, first, the first motor 422 is started, the first motor 422 drives the guide plate 41 to rotate, the guide plate 41 can be adjusted to a proper position, the guide plate 41 is flush with a discharge hole of the upstream feeding equipment 1, the pipes can slide onto the guide plate 41 better, then the pipes slide onto the support plate 21 through the guide plate 41, and meanwhile, the driving motor 322 is started, and the driving motor 322 drives the roller 31 to rotate, so that the pipes slide better; when the pipe needs to slide down to the rack 61, the number of the first cylinders 512 is selected to be started according to the length of the pipe, the driving motor 322 is turned off, meanwhile, the first cylinders 512 are started, the first cylinders 512 can push the pipe onto the inclined rods 652, the pipe slides down to the rack 61 through the inclined rods 652, and the pipe is stacked.

When the height of the placing frame 61 needs to be adjusted, two second cylinders 622 are started at the same time, and according to the height of the vertical rod 651, the connecting seat 63 is driven to move towards one side close to or far away from the ground by the second cylinders 622, so that the height of the placing frame 61 can be adjusted, and damage to the pipe due to collision is avoided; when the pipe slides to the rack 61, the pipe needs to be moved to a side far away from the vertical rod 651, and meanwhile, two turnover motors 641 are started, and the turnover motors 641 drive the rack 61 to turn over, so that the pipe can be moved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. A tubular product piling bin, its characterized in that: the automatic feeding device comprises a supporting component (2), a plurality of conveying components (3) and a placement component (6), wherein the supporting component (2) comprises a supporting plate (21), the supporting plate (21) is horizontally installed on the ground, one end of the supporting plate (21) is close to upstream feeding equipment (1), the conveying components (3) are all arranged on the supporting plate (21), a plurality of placement grooves (211) are formed in one side, far away from the ground, of the supporting plate (21), the distribution direction of the placement grooves (211) is consistent with the pipe conveying direction, the placement grooves (211) are perpendicular to the pipe conveying direction, the conveying components (3) are located in one placement groove (211), the conveying components (3) comprise a roller (31) and a driving piece (32), the central axis of the roller (31) is consistent with the placement direction of the placement groove (211), the roller (31) is rotationally connected to the supporting plate (21), the top wall of the roller (31) is flush with one side, far away from the ground, of the supporting plate (21), and the driving piece (31) is fixed on the roller (31) and is rotationally connected with the roller (32).

The placement component (6) comprises a placement frame (61), the placement frame (61) is located on one side of the supporting plate (21), the placement frame (61) and the distribution direction of the supporting plate (21) are perpendicular to the conveying direction of the pipe, the placement frame (61) is installed on the ground, and the placement frame (61) is used for storing the pipe.

2. A pipe stacking rack as defined in claim 1, wherein: the placement component (6) further comprises a plurality of sliding pieces (65), the sliding pieces (65) are fixed between the placement frame (61) and the supporting plate (21), the distribution directions of the sliding pieces (65) are consistent with the conveying direction of the pipe, the sliding pieces (65) are obliquely arranged, the higher end of each sliding piece (65) is fixed on the supporting plate (21), the lower end of each sliding piece (65) is close to the placement frame (61), and the sliding pieces (65) can be used for sliding the pipe.

3. A pipe stacking rack as defined in claim 2, wherein: the placing assembly (6) further comprises two lifting pieces (62) and two connecting seats (63), the two lifting pieces (62) are located at two ends of the placing frame (61), the distribution directions of the two lifting pieces (62) are consistent with the conveying direction of the pipe, the lifting pieces (62) are installed on the ground, the lifting pieces (62) are connected with the connecting seats (63), the lifting pieces (62) can adjust the height of the connecting seats (63), and the placing frame (61) is connected with the connecting seats (63).

4. A pipe stacking rack as defined in claim 3, wherein: the lifting piece (62) comprises a second air cylinder (622), the second air cylinder (622) is vertically arranged, a cylinder body of the second air cylinder (622) is installed on the ground, a piston rod of the second air cylinder (622) faces to one side far away from the ground, and a piston rod of the second air cylinder (622) is fixed with the connecting seat (63).

5. A pipe stacking rack as defined in claim 3, wherein: the placement component (6) further comprises two turnover pieces (64), the two turnover pieces (64) are respectively close to one connecting seat (63), the turnover pieces (64) are fixed on one side, away from the placement frame (61), of the connecting seat (63), and the turnover pieces (64) are connected with the placement frame (61) to drive the placement frame (61) to turn over.

6. A pipe stacking rack as defined in claim 2, wherein: still include a plurality of pushing components (5), a plurality of pushing components (5) are located respectively adjacent two between cylinder (31), pushing components (5) with cylinder (31) are located backup pad (21) homonymy, pushing components (5) including pushing away flitch (52) and pushing away material piece (51), pushing away flitch (52) slide set up in backup pad (21), the slip direction of pushing away flitch (52) is perpendicular with the direction of delivery of tubular product, pushing away material piece (51) are fixed in backup pad (21), pushing away material piece (51) with pushing away material board (52) and being connected in order to drive pushing away material board (52) motion.

7. A pipe stacking rack as defined in claim 1, wherein: still include adjusting part (4), adjusting part (4) are located backup pad (21) are close to upstream feeding equipment (1) one side, adjusting part (4) are including deflector (41), deflector (41) one end with backup pad (21) are connected, and the other end overlap joint is in upstream feeding equipment (1), deflector (41) can make tubular product carry to backup pad (21) on.

8. The pipe stacking rack of claim 7, wherein: the adjusting assembly (4) further comprises an adjusting piece (42), one end of the guide plate (41) is hinged to the supporting plate (21), the adjusting piece (42) is fixed to the supporting plate (21), and the adjusting piece (42) is connected with the guide plate (41) to drive the guide plate (41) to rotate around the supporting plate (21).