CN217995935U - Automatic discharging device of tubular product - Google Patents

Abstract

The utility model discloses an automatic discharging device of tubular product, which comprises a frame, be provided with the storage frame in the frame, be provided with the row's of being used for arranging tubular product material platform of slope on the storage frame, the low side of storage frame is provided with the tubular product that is used for receiving tubular product and connects the material structure, the top lift slidable mounting that lies in row material platform in the frame has low reaches lift seat and upper reaches lift seat, upper reaches lift seat and low reaches lift seat are driven by upper reaches lift power device and lower reaches lift power device respectively, install the low reaches that are used for blockking the low reaches tubular product on the low reaches lift seat and block the piece, install on the upper reaches lift seat and be used for inserting the upper reaches in the clearance between low reaches tubular product and the adjacent tubular product and block the piece. The automatic discharging device is simple in structure and is more suitable for discharging short pipes.

Description

Automatic discharging device of tubular product

Technical Field

The utility model relates to an automatic discharging device of tubular product for the blanking is pursued to tubular product processing or quality testing in-process.

Background

In the process of processing or quality inspection of pipes, pipe sections after being sawed need to be fed one by one, so that subsequent quality inspection of the surfaces of the pipe sections is facilitated or subsequent machining of the pipe sections is facilitated, such as chamfering, drilling and other operations. Although the structure can realize the automatic discharging of the pipe, the structure is relatively complex, especially under the condition that the lengths of some pipe sections are relatively short, the jacking effect of the jacking blocks is poor, and the pipe sections are easy to shift due to unstable gravity center, so that the discharging accuracy is reduced. In addition, this structure is difficult to adapt to pipe sections of various specifications, and when the types of the specifications of the pipe sections are large, for example, when the length and the diameter of the pipe sections are greatly changed, the structure is difficult to adapt.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the automatic discharging device for the pipes is simple in structure and more suitable for discharging the pipes with shorter lengths.

In order to solve the technical problem, the technical scheme of the utility model is that: the utility model provides an automatic discharging device of tubular product, includes the frame, be provided with the storage frame in the frame, be provided with the row's of being used for arranging tubular product material platform of slope on the storage frame, the low side of storage frame is provided with the tubular product that is used for receiving tubular product and connects the material structure, the top that lies in row material platform in the frame goes up and down slidable mounting has low reaches lift seat and upper reaches lift seat, upper reaches lift seat and low reaches lift seat are driven by upper reaches lift power device and low reaches lift power device respectively, install the low reaches that are used for blockking the low reaches tubular product on the low reaches lift seat and block the piece, install on the upper reaches lift seat and be used for inserting the upper reaches in the clearance between low reaches tubular product and the adjacent tubular product and block the piece.

Preferably, the upstream blocking block is slidably mounted on the upstream lifting seat and is locked and fixed by the first locking mechanism, and the sliding direction of the upstream blocking block is parallel to the blanking direction of the discharging platform or the sliding direction of the upstream blocking block has a component direction parallel to the blanking direction.

Preferably, the downstream lifting seat and the upstream lifting seat are both mounted on a mounting seat in a lifting and sliding manner, and the mounting seat is mounted on the rack through a position adjusting mechanism.

As a preferable scheme, the position adjusting mechanism comprises a transverse adjusting mechanism and a height adjusting structure which are connected, and the mounting seat is mounted on the transverse adjusting mechanism or the height adjusting structure.

As a preferred scheme, the lateral adjusting mechanism includes a lateral adjusting seat slidably mounted on the frame along the length direction of the pipe, the lateral adjusting seat is locked and fixed on the frame through a second locking mechanism or connected with the frame through a lateral screw nut mechanism, the height adjusting mechanism includes a height adjusting seat slidably mounted on the lateral adjusting seat in a lifting manner, the height adjusting seat is locked and fixed on the lateral adjusting seat through a third locking mechanism or mounted on the lateral adjusting seat through a height screw nut mechanism, the upstream lifting power device and the downstream lifting power device are both cylinders and fixed on the mounting seat, and the upstream lifting seat and the downstream lifting seat are respectively mounted at the telescopic ends of the upstream lifting power device and the downstream lifting power device.

As a preferred scheme, the material storage rack comprises a first rack half body and a second rack half body, the first rack half body and the second rack half body are respectively provided with a first platform body and a second platform body which form the material discharge platform, and the first rack half body and the second rack half body are transversely slidably mounted on the frame and fixed through a fourth locking mechanism or a spacing adjusting screw nut mechanism.

As a preferred scheme, an anti-jumping baffle is arranged above the discharging platform on the rack.

As a preferred scheme, the anti-bouncing baffle comprises an installation part and a baffle part, wherein a vertical strip-shaped hole is formed in the installation part, and the installation part is fixed on the height adjusting seat or the installation seat through a bolt constrained in the strip-shaped hole.

Preferably, the upstream barrier block and the downstream barrier block have the same structure, the upstream barrier block comprises an installation plate part and a barrier plate part, the installation plate part and the barrier plate part are connected to form a T-shaped structure, the plate surface of the barrier plate part is perpendicular to the discharge platform, and the lower end of the barrier plate part is provided with a cone.

After the technical scheme is adopted, the utility model discloses an effect is: an automatic discharging device of pipes comprises a rack, wherein a storage rack is arranged on the rack, an inclined discharging platform for arranging the pipes is arranged on the storage rack, a pipe receiving structure for receiving the pipes is arranged at the lower end of the storage rack, a downstream lifting seat and an upstream lifting seat are arranged on the rack above the discharging platform in a lifting and sliding manner, the upstream lifting seat and the downstream lifting seat are respectively driven by an upstream lifting power device and a downstream lifting power device, a downstream blocking block for blocking the most downstream pipes is arranged on the downstream lifting seat, an upstream blocking block for inserting into a gap between the most downstream pipes and adjacent pipes is arranged on the upstream lifting seat, the downstream blocking block is driven by the downstream lifting power device to be positioned at a blocking station, and all the pipes arranged on the discharging platform under the action of gravity are blocked by the downstream blocking block, when discharging is needed, the upstream lifting power device drives the upstream blocking block to move downwards, the upstream blocking block can be inserted into a gap between the most downstream pipe and the adjacent pipe, in the inserting process, the upstream blocking block can push other pipes at the upstream to roll and avoid, so that the upstream blocking block can block other pipes except the most downstream pipe, then the downstream blocking block rises to release the most downstream pipe, the released pipe can enter the pipe receiving structure to be cached, subsequent discharging is facilitated, then the downstream blocking block descends to be positioned at a blocking station, then the upstream blocking block rises, at the moment, the pipe can roll on the inclined discharging platform and is finally blocked by the downstream blocking block, and then the actions are repeated to realize discharging of the pipes one by one, and the automatic discharging device has a simple structure, the upstream barrier block and the downstream barrier block are switched with each other to realize the discharge one by one, the discharge action is simple and reliable, and the discharge device is particularly suitable for the discharge of pipes with relatively short length.

The upstream blocking block is slidably mounted on the upstream lifting seat and is locked and fixed through the first locking mechanism, the sliding direction of the upstream blocking block is parallel to the blanking direction of the discharging platform or the sliding direction of the upstream blocking block has a sub-direction parallel to the blanking direction, so that the upstream blocking block can be locked through the first locking mechanism after being slidably adjusted in position, the distance between the upstream blocking block and the downstream blocking block can be changed, the upstream blocking block can be accurately inserted into a gap between pipes when descending, and meanwhile, the distance can be changed to adapt to pipes with different diameters.

The position adjusting mechanism comprises a transverse adjusting mechanism and a height adjusting structure which are connected, and the mounting seat is mounted on the transverse adjusting mechanism or the height adjusting structure, so that the height and the transverse position of the mounting seat can be changed through the transverse adjusting structure and the height adjusting structure, the change of the transverse position can adjust the positions of the upstream blocking block and the downstream blocking block for blocking the pipe, the pipe is enabled not to generate angular deviation while the pipe is enabled to be blocked stably, the heights of the upstream blocking block and the downstream blocking block can be adjusted in a large range through the change of the heights, and more choices are provided for the maximum stroke of the downstream lifting power device and the upstream lifting power device.

The material storage frame comprises a first material frame half body and a second material frame half body, a first platform body and a second platform body which form the material discharging platform are respectively arranged on the first material frame half body and the second material frame half body, and the first material frame half body and the second material frame half body are transversely and slidably mounted on the frame and fixed through a fourth locking mechanism or a spacing adjusting screw nut mechanism, so that the width of the material discharging platform can be changed, the material storage frame can be suitable for placing pipes with different lengths, and meanwhile, the positions of the pipes are blocked by changing the upstream blocking block and the downstream blocking block, so that the blocking positions of the pipes are located in the middle of the pipes as far as possible, and the material storage frame is further suitable for discharging the pipes with different lengths.

And because the anti-bouncing baffle is arranged above the discharging platform on the rack and comprises an installation part and a baffle part, the installation part is provided with a vertical bar-shaped hole, the installation part is fixed on the height adjusting seat or the installation seat through a bolt constrained in the bar-shaped hole, the anti-bouncing baffle can effectively cover the pipe on the discharging platform, when the upstream stop block is downwards inserted into a gap between the pipes, the pipe on the upstream can be prevented from bouncing, and meanwhile, the pipe can be conveniently placed on the discharging platform.

The upstream blocking block and the downstream blocking block are the same in structure, the upstream blocking block comprises an installation plate part and a blocking plate part, the installation plate part and the blocking plate part are connected to form a T-shaped structure, the plate surface of the blocking plate part is perpendicular to the discharging platform, and the lower end of the blocking plate part is provided with a cone shape, so that the length of the tubes blocked by the upstream blocking block and the downstream blocking block is longer, and meanwhile, the cone-shaped lower end can be conveniently and better inserted into a gap between the tubes.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a perspective view of an embodiment of the present invention;

fig. 2 is a perspective view of the embodiment of the present invention after hiding the frame;

fig. 3 is a partial perspective view of an embodiment of the present invention;

FIG. 4 is a schematic view of an installation structure of an upstream block of an embodiment of the present invention;

in the drawings: 1. a frame; 2. a storage rack; 21. a first stack half; 22. a second stack half; 3. a discharge platform; 4. an upstream lifting seat; 5. a downstream lifting seat; 6. an anti-bouncing baffle; 61. an installation part; 62. a baffle portion; 7. a height adjusting seat; 8. a lateral adjustment seat; 9. the pipe material receiving structure; 10. a downstream lift power unit; 11. an upstream lift power plant; 12. a mounting base; 13. a height lead screw nut mechanism; 14. a pipe; 15. an upstream blocking piece; 151. a mounting plate portion; 152. a barrier plate portion.

Detailed Description

The present invention will be described in further detail with reference to the following specific examples.

As shown in fig. 1 to 4, an automatic discharging device for pipes includes a frame 1, where the frame 1 is a frame structure formed by fixing sectional materials to each other, a storage frame 2 is disposed on the frame 1, a discharging platform 3 for arranging pipes 14 is disposed on the storage frame 2 in an inclined manner, the storage frame 2 includes a first frame half body 21 and a second frame half body 22, the first frame half body 21 and the second frame half body 22 are respectively provided with a first platform body and a second platform body which form the discharging platform 3, and the first frame half body 21 and the second frame half body 22 are both transversely slidably mounted on the frame 1 and fixed by a fourth locking mechanism or a distance adjusting screw nut mechanism. The rack 1 is provided with a transversely extending support guide rail, the support guide rail is matched with a transverse sliding block in a sliding manner, the first rack half body 21 and the second rack half body 22 are installed on the transverse sliding block respectively to realize sliding, the fourth locking mechanism can be locked by adopting a bolt fastener, and can be locked after the positions and the distances of the first rack half body 21 and the second rack half body 22 are adjusted, of course, the first rack half body 21 and the second rack half body 22 can also be adjusted by adopting a distance adjusting lead screw and nut mechanism, wherein the distance adjusting lead screw and nut mechanism is a conventional mechanical mechanism at present, a distance adjusting lead screw can be installed on the rack 1 in a rotating manner, the distance adjusting lead screw is a lead screw with positive and negative threads, two nuts are installed on the distance adjusting lead screw in a matching manner, and the first rack half body 21 and the second rack half body 22 are fixed with the nuts respectively, so that the distance between the first rack half body 21 and the second rack half body 22 can be changed by rotating the distance adjusting lead screw, and the arrangement of the pipes 14 with different lengths can be adapted.

The first platform body and the second platform body are inclined, and side plates are arranged on two sides of the first platform body and the second platform body, so that the discharging platform 3 is formed.

The low end of the storage rack 2 is provided with a pipe 14 receiving structure 9 for receiving a pipe 14, in this embodiment, the pipe 14 receiving structure 9 is a V-shaped supporting groove, and the supporting groove is used for supporting a pipe 14 for discharging, so that the pipe is conveniently discharged by a subsequent conveying mechanism.

The automatic discharging device in this embodiment is used for detecting the appearance flaws of the tube 14, and the tube 14 is temporarily stored in the supporting groove and then is sent to the detecting device by other stepping conveying mechanisms for detection.

The utility model discloses a discharge material platform, including frame 1, lie in the top of discharging platform 3 and go up and down slidable mounting has low reaches lift seat 5 and upper reaches lift seat 4 on the frame 1, upper reaches lift seat 4 and low reaches lift seat 5 are driven by upper reaches lift power device 11 and low reaches lift power device 10 respectively, install the low reaches that is used for blockking most low reaches tubular product 14 on the low reaches lift seat 5 and block the piece 15, install on the upper reaches lift seat 4 and be used for inserting the upper reaches in the clearance between most low reaches tubular product 14 and the adjacent tubular product 14 and block the piece 15.

In this embodiment, the upstream blocking block 15 is slidably mounted on the upstream lifting seat 4 and is locked and fixed by the first locking mechanism, and the sliding direction of the upstream blocking block 15 is parallel to the blanking direction of the discharging platform 3 or the sliding direction of the upstream blocking block 15 has a component direction parallel to the blanking direction. The upstream lifting seat 4 is also provided with a guide rail and a slider structure, so that the upstream blocking block 15 can slide conveniently, the first locking mechanism adopts a locking bolt for locking, and a lead screw nut mechanism can be adopted as the first locking mechanism, so that the position of the upstream blocking block 15 can be changed by rotating a lead screw.

As shown in FIG. 4, the upstream block 15 and the downstream block have the same structure and the same installation manner, the upstream block 15 includes an installation plate 151 and a blocking plate 152, the installation plate 151 and the blocking plate 152 are connected to form a T-shaped structure, the plate surface of the blocking plate 152 is perpendicular to the discharge platform 3, the lower end of the blocking plate 152 is tapered, and the sliding direction of the upstream block 15 is perpendicular to the discharge platform 3, so as to reduce the resistance of the upstream block 15 inserted into the gap between the tubes 14 as much as possible.

As shown in fig. 2 and fig. 3, the downstream lifting seat 5 and the upstream lifting seat 4 are both mounted on a mounting seat 12 in a lifting and sliding manner, and the mounting seat 12 is mounted on the rack 1 through a position adjusting mechanism, wherein in this embodiment, the position adjusting mechanism includes a horizontal adjusting mechanism and a height adjusting mechanism which are connected, and the mounting seat 12 is mounted on the horizontal adjusting mechanism or the height adjusting mechanism.

The transverse adjusting mechanism comprises a transverse adjusting seat 8 which is slidably mounted on the rack 1 along the length direction of a pipe 14, the transverse adjusting seat 8 is locked and fixed on the rack 1 through a second locking mechanism or is connected with the rack 1 through a transverse lead screw nut mechanism, the height adjusting mechanism comprises a height adjusting seat 7 which is mounted on the transverse adjusting seat 8 in a lifting and sliding manner, the height adjusting seat 7 is locked and fixed on the transverse adjusting seat 8 through a third locking mechanism or is mounted on the transverse adjusting seat 8 through a height lead screw nut mechanism 13, the sliding manner is that sliding is realized through a guide rail slider structure, the second locking mechanism and the third locking mechanism can be fixed through locking bolts, the upstream lifting power device 11 and the downstream lifting power device 10 are both cylinders and fixed on the mounting seat 12, and the upstream lifting seat 4 and the downstream lifting seat 5 are respectively mounted at the telescopic ends of the upstream lifting power device 11 and the downstream lifting power device 10. Thus, the upstream lifting seat 4 and the downstream lifting seat 5 are lifted and descended through the extension and contraction of the piston rods of the air cylinders.

In this embodiment, an anti-bouncing baffle 6 is installed above the discharging platform 3 on the frame 1. Prevent jumping baffle 6 and include installation department 61 and baffle portion 62, be provided with vertical bar hole on the installation department 61, installation department 61 is fixed in through the bolt of retraining in the bar hole on altitude mixture control seat 7 or the mount pad 12 perhaps are fixed in, prevent jumping baffle 6's height also can be adjusted like this to adapt to the tubular product 14 of different pipe diameters.

The embodiment of the utility model provides an automatic discharging device, the upper reaches that utilize the switching of going up and down each other block piece 15 and low reaches and block the piece and switch the position that blocks, realize only a tubular product 14, arrange width, upper reaches that material platform 3 blocks simultaneously that block piece 15 and low reaches block the transverse position of piece, highly all can adjust, just can adapt to the tubular product 14 of different diameters of different length, this automatic discharging device's structure is simpler than present prior art relatively, and the adaptability scope is also stronger.

The above-mentioned embodiments are merely descriptions of the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and alterations made to the technical solution of the present invention without departing from the spirit of the present invention are intended to fall within the scope of the present invention defined by the claims.

Claims (9)

1. The utility model provides an automatic discharging device of tubular product, includes the frame, be provided with storage frame, its characterized in that in the frame: the utility model discloses a pipe storage rack, including storage frame, low side, upper reaches lift seat and lower reaches lift seat, the upper reaches lift seat is driven by upper reaches lift power device and lower reaches lift power device respectively, be provided with the row's of arranging material platform that is used for arranging tubular product of slope on the storage frame, the low side of storage frame is provided with the tubular product that is used for receiving tubular product and connects the material structure, the top that lies in row material platform in the frame goes up and down slidable mounting has lower reaches lift seat and upper reaches lift seat, upper reaches lift seat and lower reaches lift seat are driven by upper reaches lift power device and lower reaches lift power device respectively, install the lower reaches that are used for blockking the most low reaches tubular product on the lower reaches lift seat and block the piece, install the upper reaches that are used for inserting in the clearance between most low reaches tubular product and the adjacent tubular product on the upper reaches lift seat and block the piece.

2. The automatic discharging device of the pipe material according to claim 1, wherein: the upstream blocking block is slidably mounted on the upstream lifting seat and is locked and fixed through a first locking mechanism, and the sliding direction of the upstream blocking block is parallel to the blanking direction of the discharging platform or the sliding direction of the upstream blocking block has a sub direction parallel to the blanking direction.

3. The automatic discharging device of the pipe according to claim 2, wherein: the downstream lifting seat and the upstream lifting seat are both arranged on the mounting seat in a lifting and sliding manner, and the mounting seat is arranged on the rack through a position adjusting mechanism.

4. The automatic pipe discharging device according to claim 3, wherein: the position adjusting mechanism comprises a transverse adjusting mechanism and a height adjusting structure which are connected, and the mounting seat is mounted on the transverse adjusting mechanism or the height adjusting structure.

5. The automatic discharging device of the pipe according to claim 4, wherein: the transverse adjusting mechanism comprises a transverse adjusting seat which is slidably installed on the rack along the length direction of the pipe, the transverse adjusting seat is locked and fixed on the rack through a second locking mechanism or is connected with the rack through a transverse lead screw nut mechanism, the height adjusting structure comprises a height adjusting seat which is installed on the transverse adjusting seat in a lifting and sliding mode, the height adjusting seat is locked and fixed on the transverse adjusting seat through a third locking mechanism or is installed on the transverse adjusting seat through a height lead screw nut mechanism, an upstream lifting power device and a downstream lifting power device are both cylinders and are fixed on the installation seat, and the upstream lifting seat and the downstream lifting seat are respectively installed at the telescopic ends of the upstream lifting power device and the downstream lifting power device.

6. The automatic pipe discharging device according to claim 5, wherein: the material storage frame comprises a first material frame half body and a second material frame half body, a first platform body and a second platform body which form the material discharge platform are respectively arranged on the first material frame half body and the second material frame half body, and the first material frame half body and the second material frame half body are transversely installed on the rack in a sliding mode and are fixed through a fourth locking mechanism or a spacing adjusting lead screw nut mechanism.

7. The automatic pipe discharging device according to claim 6, wherein: and an anti-bouncing baffle is arranged above the discharging platform on the rack.

8. The automatic discharging device of the pipe according to claim 7, wherein: the anti-bouncing baffle comprises an installation part and a baffle part, wherein a vertical bar-shaped hole is formed in the installation part, and the installation part is fixed on the height adjusting seat or the installation seat through a bolt constrained in the bar-shaped hole.

9. The automatic discharging device of the pipe material according to claim 1, wherein: the structure of the upstream blocking block is the same as that of the downstream blocking block, the upstream blocking block comprises an installation plate part and a blocking plate part, the installation plate part is connected with the blocking plate part to form a T-shaped structure, the plate surface of the blocking plate part is perpendicular to the material discharging platform, and the lower end of the blocking plate part is arranged to be conical.

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