CN216271733U

CN216271733U - Automatic pipe feeding frame

Info

Publication number: CN216271733U
Application number: CN202122967051.XU
Authority: CN
Inventors: 柯晓华
Original assignee: Kinkalteck Foshan Intelligent Equipment Co ltd
Current assignee: Kinkalteck Foshan Intelligent Equipment Co ltd
Priority date: 2021-11-30
Filing date: 2021-11-30
Publication date: 2022-04-12
Anticipated expiration: 2031-11-30

Abstract

The utility model discloses an automatic pipe feeding frame which comprises a material frame, wherein an inclined discharging platform is arranged above the material frame, a blocking material guide plate is arranged on the material frame and positioned at the lower end side of the discharging platform, the upper end surface of the blocking material guide plate is provided with an inclined material guide inclined surface, an upstream material guide inclined surface is arranged on the blocking material guide plate and close to the upstream side of the discharging platform, a support roller set is arranged on the material frame and positioned at the downstream side of the blocking material guide plate, a material turning mechanism is arranged on the material frame, and pipes on the discharging platform are turned to the inclined material guide inclined surface of the blocking material guide plate one by one along the upstream material guide inclined surface by the material turning mechanism. This automatic material loading frame adopts the mode of stirring to send into the support roller set with tubular product one by one steady, has reduced the collision of tubular product material loading in-process, and then reduces to cause the damage to tubular product.

Description

Automatic pipe feeding frame

Technical Field

The utility model relates to an automatic feeding frame which is used for storing and automatically feeding materials to a supporting roller upper group when a pipe is sawed.

Background

The metal pipe needs to be fed when being sawn, the existing pipe is generally placed on a feeding frame, the feeding frame is formed by welding sectional materials, an inclined feeding platform is arranged on the feeding frame, a blocking block is arranged on one side of the lower end of the feeding frame, and a supporting roller set is arranged on one side of the blocking block; the pipe is cached on the discharging platform, then the pipe is jacked through the lifting block, the height of the pipe is higher than that of the blocking block, and then the pipe falls onto the blocking block along the top of the lifting block and then falls onto the supporting roller set. The feeding frame with the structure has the following defects: 1. at present, the pipe in the feeding mode falls onto the blocking block from the jacking block and then onto the supporting roller set, and two times of impact can be generated, so that the surface of the pipe is damaged; 2. the existing feeding frame is formed by welding sectional materials, so that one supporting frame can only support pipes of one specification group, and when the length difference of the pipes is large, feeding frames of different lengths are required to support; in addition, when the pipe is long, the length of the feeding frame is very long, and the transportation cost is increased.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the utility model provides a pipe automatic feeding frame, this automatic feeding frame adopts the mode of stirring to send into the support roller group with pipe one by one steady, has reduced the collision of pipe material loading in-process, and then reduces to cause the damage to pipe.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the utility model provides a tubular product automatic feeding frame, includes the work or material rest, the work or material rest top is provided with the row's of slope material platform, the low side that lies in row material platform on the work or material rest is provided with and blocks the stock guide, the up end that blocks the stock guide sets up to slope stock guide inclined plane, and the upstream side that blocks and be close to row material platform on the stock guide is provided with upstream stock guide inclined plane, lie in the downstream side that blocks the stock guide on the work or material rest and install the support roller set, install stirring mechanism on the work or material rest, stirring mechanism will arrange tubular product on the material platform and pursue root stirring along upstream stock guide inclined plane to the slope stock guide inclined plane that blocks the stock guide.

As a preferred scheme, the material turning mechanism comprises a deflection shaft which is rotatably installed on the material rest and longitudinally extends, a plurality of material turning blocks are fixedly installed on the deflection shaft, each material turning block comprises a material turning surface used for turning a pipe at the lowest end and a pushing surface used for pushing other pipes in the material turning process, and a deflection power device for reciprocating deflection of the deflection shaft is installed on the material rest.

As a preferable scheme, the deflection power device is a material turning cylinder, one end of the material turning cylinder is hinged on the material rack, a hinged arm is fixed on the deflection shaft, and the other end of the material turning cylinder is hinged on the hinged arm.

Preferably, the material turning block is a fan-shaped material turning block.

As an optimal scheme, the material rack comprises two or more material rack bodies, and the material rack bodies are detachably fixed through connecting beams.

As an optimal scheme, the material discharging platform comprises a plurality of material discharging frames arranged at intervals, each material discharging frame comprises a connecting rod and an inclined supporting rod, the low end of each supporting rod is hinged to the material discharging frame, the high end of each supporting rod is hinged to the connecting rod, a plurality of mounting gear holes are formed in the connecting rods, and a fixing bolt for fixing the connecting rod on the material discharging frame is arranged in one mounting gear hole.

As an optimal scheme, each material rack body is provided with one supporting roller set, each supporting roller set comprises a roller frame which is arranged on the material rack body in a lifting mode, a group of supporting rollers are arranged on the roller frame in a rotating mode, and a height adjusting mechanism for adjusting the height of the roller frame is arranged between the material rack body and the roller frame.

As an optimal scheme, the height adjusting mechanism is a screw rod lifter, two sets of screw rod lifters are arranged between each roller frame and the material rack body, and adjusting rods of the screw rod lifters on adjacent material rack bodies are connected through a synchronous connecting rod to rotate synchronously.

After the technical scheme is adopted, the utility model has the effects that: the automatic pipe feeding frame comprises a material frame, an inclined discharging platform is arranged above the material frame, a blocking guide plate is arranged on the material frame and positioned at the lower end side of the discharging platform, the upper end face of the blocking guide plate is provided with an inclined guide inclined plane, an upstream guide inclined plane is arranged on the blocking guide plate and close to the upstream side of the discharging platform, a support roller set is arranged on the material frame and positioned at the downstream side of the blocking guide plate, a material turning mechanism is arranged on the material frame and turns the pipes on the discharging platform one by one along the upstream guide inclined plane onto the inclined guide inclined plane of the blocking guide plate, so the pipes are arranged on the discharging platform and are blocked by the blocking guide plate, then the material turning mechanism is started to turn one pipe at the lowest end onto the blocking guide plate, and the pipes enter the inclined guide inclined plane along the upstream guide inclined plane in the material turning process, the whole process has no collision, thereby reducing the noise and avoiding the collision of the pipes; then the pipe rolls down on the supporting roller group along the upstream material guiding inclined plane, so that the feeding mechanism of the sawing machine can feed materials conveniently, the automatic feeding frame has reliable action, the collision is reduced, the noise is low, and the surface quality of the pipe is better.

The material turning mechanism comprises a deflection shaft which is rotatably arranged on the material rack and extends longitudinally, a plurality of material turning blocks are fixedly arranged on the deflection shaft, each material turning block comprises a material turning surface for turning a lowest-end pipe and a pushing surface for pushing other pipes in the material turning process, a deflection power device for reciprocating deflection of the deflection shaft is arranged on the material rack, the deflection power device can drive the deflection shaft to deflect in a reciprocating manner, the deflection shaft deflects to drive the plurality of material turning blocks to deflect in a reciprocating manner, so that the pushing surfaces can push other pipes while the materials are turned over on the material turning surfaces, the reliability of the material turning action is ensured, and when the materials are reset, the material turning surfaces are positioned below the pipes, so that the pipes on the material discharging platform can be supplemented due to the action of gravity, the action of the process is stable and reliable, and the pipes can be turned over along the profile of an upstream material guiding inclined surface during material turning, the falling collision of the pipe is avoided.

And the material rack comprises two or more material rack bodies, and the material rack bodies are detachably fixed through the connecting beams, so that the material rack can flexibly select a proper number of material rack bodies according to the actual length of the pipe, and the transportation cost is also reduced.

The discharge platform comprises a plurality of discharge racks arranged at intervals, each discharge rack comprises a connecting rod and an inclined supporting rod, the lower end of each supporting rod is hinged to the corresponding discharge rack, the higher end of each supporting rod is hinged to the corresponding connecting rod, a plurality of installation gear holes are formed in the corresponding connecting rod, a fixing bolt for fixing the corresponding connecting rod to the corresponding discharge rack is arranged in one installation gear hole, and therefore the inclination angle of the corresponding supporting rod can be changed by changing the position of the corresponding fixing bolt on the installation gear holes, and the arrangement requirements of pipes of different sizes are met.

And because each material rack body is provided with one set of supporting roller group, each supporting roller group comprises a roller frame which is arranged on the material rack body in a lifting way, a group of supporting rollers are arranged on the roller frame in a rotating way, a height adjusting mechanism for adjusting the height of the roller frame is arranged between the material rack body and the roller frame, and the height of the roller frame can be adjusted by using the height adjusting mechanism, so that the alignment requirements of the centers of pipes with different sizes are met.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic side view of an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of FIG. 1 at A;

in the drawings: 1. a rack body; 2. a connecting beam; 3. a synchronous connecting rod; 4. a discharge platform; 41. a support bar; 42. a connecting rod; 43. installing a gear hole; 5. a blocking material guide plate; 51. an upstream material guiding inclined plane; 52. the inclined material guide surface is inclined; 6. a support roller set; 61. a support roller; 62. a roller frame; 7. a height adjustment mechanism; 8. a material turning mechanism; 81. a yaw axis; 82. a material turning block; 821. turning over the material surface; 822. pushing the dough; 83. and a material turning cylinder.

Detailed Description

The present invention is described in further detail below with reference to specific examples.

As shown in fig. 1, an automatic pipe feeding frame includes a material frame, an inclined discharging platform 4 is disposed above the material frame, a blocking material guide plate 5 is disposed on the material frame and located at a lower end side of the discharging platform 4, an inclined material guide inclined surface 52 is disposed on an upper end surface of the blocking material guide plate 5, an upstream material guide inclined surface 51 is disposed on the blocking material guide plate 5 and close to an upstream side of the discharging platform 4, a support roller set 6 is mounted on a downstream side of the blocking material guide plate 5 on the material frame, a material turning mechanism 8 is mounted on the material frame, and the material turning mechanism 8 turns pipes on the discharging platform 4 one by one onto the inclined material guide inclined surface 52 of the blocking material guide plate 5 along the inclined material guide inclined surface 52.

Wherein in this embodiment, the work or material rest includes two or a plurality of work or material rest bodies 1, can dismantle fixedly through tie-beam 2 between the work or material rest body 1, and work or material rest body 1 is formed by the section bar welding, and tie-beam 2 passes through the fastener to be connected between a plurality of work or material rest bodies 1, can dismantle tie-beam 2 when the transportation to reduce the length of work or material rest, the cost of transportation is lower.

As shown in fig. 1 and 2, in this embodiment, the discharging platform 4 includes a plurality of discharging racks arranged at intervals, each discharging rack includes a connecting rod 42 and an inclined supporting rod 41, a lower end of the supporting rod 41 is hinged to the discharging rack, a higher end of the supporting rod 41 is hinged to the connecting rod 42, the connecting rod 42 is provided with a plurality of mounting gear holes 43, one of the mounting gear holes 43 is provided with a fixing bolt for fixing the connecting rod 42 to the discharging rack, and thus, the inclination of the supporting rod 41 can be adjusted by changing the position of the fixing bolt.

The supporting roller set 6 is installed on each material rack body 1, the supporting roller set 6 comprises a roller frame 62 which is installed on the material rack body 1 in a lifting mode, a group of supporting rollers 61 are installed on the roller frame 62 in a rotating mode, and a height adjusting mechanism 7 for adjusting the height of the roller frame 62 is arranged between the material rack body 1 and the roller frame 62. The height adjusting mechanism 7 is a screw rod lifter, two sets of screw rod lifters are arranged between each roller frame 62 and the material rack body 1, and adjusting rods of the screw rod lifters on adjacent material rack bodies 1 are connected through a synchronous connecting rod 3 to rotate synchronously. The supporting position of the supporting roller 61 can be changed by changing the height of the roller frame 62, so that the height of the center is changed, and the centering requirement when pipes with different sizes are sawed can be met.

As shown in fig. 2 and 3, the material turning mechanism 8 includes a deflecting shaft 81 rotatably mounted on the material frame and extending longitudinally, a plurality of material turning blocks 82 are fixedly mounted on the deflecting shaft 81, the material turning blocks 82 include a material turning surface 821 for turning a lowest-end tube and a pushing surface 822 for pushing another tube during the material turning process, and in this embodiment, the material turning blocks 82 are preferably fan-shaped material turning blocks. And a deflection power device for reciprocating deflection of the deflection shaft 81 is arranged on the material rack. The deflection power device is a material turning cylinder 83, one end of the material turning cylinder 83 is hinged to the material frame, a hinged arm is fixed on the deflection shaft 81, and the other end of the material turning cylinder 83 is hinged to the hinged arm.

Because the material rack of the present invention includes a plurality of material rack bodies 1, there may be a plurality of material turning cylinders 83 in this embodiment, each material rack body 1 is provided with one deflection shaft 81 and synchronously drives the deflection shaft to deflect, and at this time, the deflection shafts 81 may be arranged in segments. Of course, an appropriate number of material turning cylinders 83 can be selected according to the actual length of the material rack, and meanwhile, the deflection shafts 81 can be connected through couplers, so that material turning can be realized.

The material turning cylinder 83 and the lead screw lifter mentioned in the embodiment are conventional technologies at present, and the structure and the control principle are clear. 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

1. The utility model provides a tubular product automatic feeding frame which characterized in that: the pipe material discharging device comprises a material rack, wherein an inclined material discharging platform is arranged above the material rack, a blocking guide plate is arranged on the material rack and located at the lower end side of the material discharging platform, an inclined guide inclined plane is formed in the upper end face of the blocking guide plate, an upstream guide inclined plane is arranged on the blocking guide plate and close to the material discharging platform, a supporting roller set is installed on the material rack and located at the downstream side of the blocking guide plate, a material turning mechanism is installed on the material rack, and pipes on the material discharging platform are turned one by one to the inclined guide inclined plane of the blocking guide plate along the upstream guide inclined plane by the material turning mechanism.

2. The automatic pipe feeding frame of claim 1, wherein: the material turning mechanism comprises a deflection shaft which is rotatably arranged on the material rack and extends longitudinally, a plurality of material turning blocks are fixedly arranged on the deflection shaft, each material turning block comprises a material turning surface for turning a lowest-end pipe and a pushing surface for pushing other pipes in the material turning process, and a deflection power device for the deflection shaft to deflect in a reciprocating mode is arranged on the material rack.

3. The automatic pipe feeding frame of claim 2, wherein: the deflection power device is a material turning cylinder, one end of the material turning cylinder is hinged to the material rack, a hinged arm is fixed on the deflection shaft, and the other end of the material turning cylinder is hinged to the hinged arm.

4. The automatic pipe feeding frame of claim 3, wherein: the material turning block is a fan-shaped material turning block.

5. The automatic pipe feeding frame of claim 4, wherein: the material rack comprises two or more material rack bodies, and the material rack bodies are detachably fixed through connecting beams.

6. The automatic pipe feeding frame of claim 5, wherein: the discharging platform comprises a plurality of discharging frames arranged at intervals, each discharging frame comprises a connecting rod and an inclined supporting rod, the low end of each supporting rod is hinged to the corresponding discharging frame, the high end of each supporting rod is hinged to the corresponding connecting rod, a plurality of mounting gear holes are formed in the corresponding connecting rods, and a fixing bolt for fixing the corresponding connecting rod to the corresponding discharging frame is arranged in one of the mounting gear holes.

7. The automatic pipe feeding frame of claim 6, wherein: the supporting roller set is installed on each material rack body and comprises a roller frame which is installed on the material rack body in a lifting mode, a group of supporting rollers are installed on the roller frame in a rotating mode, and a height adjusting mechanism for adjusting the height of the roller frame is arranged between the material rack body and the roller frame.

8. The automatic pipe feeding frame of claim 7, wherein: the height adjusting mechanism is a screw rod lifter, two sets of screw rod lifters are arranged between each roller frame and the material rack body, and adjusting rods of the screw rod lifters on adjacent material rack bodies are connected through a synchronous connecting rod to rotate synchronously.