CN217837361U - Discharging frame for steel pipes - Google Patents

Abstract

The utility model discloses a steel pipe discharging frame, a conveying support frame is arranged on a steel pipe feeding station, a plurality of conveying rollers are rotatably arranged on the conveying support frame, the conveying rollers drive the cut steel pipe to be conveyed to the steel pipe feeding station through a rotating power device, a turnover device for enabling the steel pipe to roll to the steel pipe rolling conveying station is also arranged on the steel pipe feeding station, a rolling conveying frame with a certain inclination angle is arranged on the steel pipe rolling conveying station, a steel pipe blocking device for blocking the rolling of the steel pipe is arranged on the rolling conveying frame, a flat head mechanism for pushing the steel pipe to enable the steel pipe to be arranged neatly is also arranged on the steel pipe rolling conveying station, and a steel pipe placing frame for placing the steel pipe after rolling is arranged on the steel pipe checking station; this play work or material rest can carry the steel pipe that cuts off automatically and carry out the accuracy and align the range, makes things convenient for the operation of inspection and subsequent handling, effectively reduces the scratch and the human labor on steel pipe surface, improves discharging efficiency.

Description

Discharging frame for steel pipes

Technical Field

The utility model relates to a steel pipe cutting technical field especially relates to a play work or material rest of steel pipe.

Background

The steel pipe is widely applied steel, and is formed and cut by a set size on a continuous production line of the steel pipe, and the cut steel pipe is discharged through the discharging frame.

Present play work frame includes a transport support frame of carrying the steel pipe axial, then be provided with the conveying roller on the transport support frame, the carriage passes through the stirring mechanism and links up with the carriage of slope, stirring mechanism turns over the steel pipe to the carriage on, the steel pipe rolls from the carriage again and arranges, carry out follow-up work after supplying workman's inspection, but in the cutting process, some burrs can appear in the incision department that cuts off, because the state of steel pipe when being stirred to the carriage is inconsistent, the surface of the good steel pipe of arrangement before the roll in-process of steel pipe on the carriage can the fish tail, cause the influence to follow-up work, still need the manual work to arrange, the integral operation needs workman's cooperation, waste time and energy.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a go out work or material rest of steel pipe, this play work or material rest can carry the steel pipe that cuts off automatically and carry out the accuracy and align the range, and the operation of convenient inspection and subsequent handling effectively reduces scratch and the human labor on steel pipe surface, improves discharging efficiency.

In order to solve the technical problem, the technical scheme of the utility model is that: the steel pipe discharging frame comprises a frame, wherein a steel pipe feeding station, a steel pipe rolling conveying station and a steel pipe checking station are arranged on the frame, a conveying support frame is arranged on the steel pipe feeding station, a plurality of conveying rollers are rotatably mounted on the conveying support frame, the conveying rollers are used for driving cut steel pipes to be conveyed to the steel pipe feeding station through a rotating power device, a turnover device enabling the steel pipes to roll to the steel pipe rolling conveying station is further arranged on the steel pipe feeding station, a rolling conveying frame with a certain inclination angle is arranged on the steel pipe rolling conveying station, a steel pipe blocking device used for blocking the steel pipes to roll is arranged on the rolling conveying frame, a flat head mechanism used for pushing the steel pipes to enable the steel pipes to be arranged neatly is further arranged on the steel pipe rolling conveying station, the flat pushing device and the steel pipe blocking device are matched for use, and a steel pipe placing frame arranged after the steel pipes roll is arranged on the steel pipe checking station.

As a preferable scheme, the flat head mechanism comprises a positioning baffle plate positioned on one side of the rolling conveying frame and an axial pushing device positioned on the other side of the rolling conveying frame, and the axial pushing device is fixedly arranged on the pushing support frame extending out of the upper edge of the rolling conveying frame.

As a preferred scheme, axial thrust unit is including pushing away the flat cylinder, cylinder fixed mounting is on promoting the support frame, the push rod fixedly connected with of cylinder promotes the piece, the other end of location steel pipe is fixed a position to the locating baffle restriction.

As a preferable scheme, the steel pipe blocking device comprises a blocking block vertically arranged on the rolling conveying frame in a lifting sliding mode, the blocking block is driven to lift by a blocking cylinder, and when the blocking cylinder drives the blocking block to lift to the highest point, the steel pipe is blocked by the blocking block when rolling on the rolling conveying frame; when the blocking cylinder drives the blocking block to descend to the lowest point, the blocking block avoids the steel pipe.

As a preferred scheme, the conveying support frame comprises two strip-shaped frames extending along the longitudinal direction, the conveying rollers are uniformly and rotatably installed between the two strip-shaped frames, and the rotating power device is installed on the strip-shaped frames.

As a preferable scheme, the rotary power device comprises a driving motor installed below the strip-shaped frame, the conveying rollers comprise driving conveying rollers and driven conveying rollers, the driving conveying rollers are driven by the driving motor to rotate through output shafts, transmission shafts which are convenient to connect are extended out of the driving conveying rollers along the axes, and the driving motor is sequentially connected with the transmission shafts on the driving conveying rollers through belt transmission.

As a preferred scheme, the turnover device comprises a turnover shaft rotatably mounted below the conveying support frame, a turnover rod is fixedly mounted on the turnover shaft and arranged in a gap between the conveying roller and the conveying roller, the turnover rod is driven by a turnover power device to synchronously rotate along with the turnover shaft, and the turnover rod turns over the steel pipe from the conveying roller to the rolling conveying frame when turning upwards.

As a preferable scheme, a power assisting device for assisting the rolling of the steel pipe is arranged on the rolling conveying frame.

As a preferable scheme, the rolling conveying frame is further provided with a convex block matched with the blocking cylinder for use.

As a preferable scheme, the power assisting device comprises belts which are arranged on the surfaces of two sides of the rolling conveying frame and cover the convex blocks, a rolling shaft is rotatably arranged on the rolling conveying frame, the belts are wound on the rolling shaft, and the rolling shaft and the rolling power device drive the belts to be pulled.

After the technical scheme is adopted, the utility model discloses an effect is: a steel pipe discharging frame comprises a frame, wherein a steel pipe feeding station, a steel pipe rolling conveying station and a steel pipe checking station are arranged on the frame, a conveying support frame is arranged on the steel pipe feeding station, a plurality of conveying rollers are rotatably mounted on the conveying support frame, the conveying rollers drive cut steel pipes to be conveyed to the steel pipe feeding station through a rotating power device, a turnover device enabling the steel pipes to roll to the steel pipe rolling conveying station is further arranged on the steel pipe feeding station, a rolling conveying frame with a certain inclination angle is arranged on the steel pipe rolling conveying station, a steel pipe blocking device used for blocking the rolling of the steel pipes is arranged on the rolling conveying frame, a flat head mechanism used for pushing the steel pipes to enable the steel pipes to be arranged orderly is further arranged on the steel pipe rolling conveying station, the flat pushing device and the steel pipe blocking device are matched for use, and a steel pipe placing frame arranged after the steel pipes roll is arranged on the steel pipe checking station; firstly, steel pipes are sawed into a plurality of sections of steel pipes, then the steel pipes are placed on a conveying support frame, conveying rollers are driven by a rotating power device to be conveyed to a steel pipe feeding station, the rotating power device stops rotating, then the steel pipes on the steel pipe feeding station are jacked and overturned to a rolling conveying frame by an overturning device, the rolling conveying frame has a certain inclination, the steel pipes roll along the rolling conveying frame in a proper manner, in the rolling process, the steel pipe blocking device blocks the steel pipes from continuously rolling off, then the blocked fixed steel pipes are pushed by a flat head mechanism, and when the steel pipes are pushed to a specified position, the blocking device stops blocking, the steel pipes continue to roll in a proper manner until the steel pipes roll to a steel pipe placing frame, then the operation is repeated on the next section of steel pipes, the steel pipes roll to the steel pipe placing frame and are sequentially arranged and accurately aligned; this play work or material rest can carry the steel pipe that cuts off automatically and carry out the accuracy and align the range, and the operation of convenient inspection and subsequent handling effectively reduces scratch and the human labor on steel pipe surface, improves discharging efficiency.

The flat head mechanism comprises a positioning baffle positioned on one side of the rolling conveying frame and an axial pushing device positioned on the other side of the rolling conveying frame, and the axial pushing device is fixedly arranged on a pushing support frame extending out of the rolling conveying frame; the axial pushing device comprises a pushing cylinder, the cylinder is fixedly arranged on the pushing support frame, a push rod of the cylinder is fixedly connected with a pushing block, and the positioning baffle limits the other end of the positioning steel pipe; after the steel pipe is contacted with the positioning baffle through the push-flat cylinder, the rolling position of the steel pipe is determined, and the subsequent rolling of the steel pipe can be accurately aligned conveniently.

The steel pipe blocking device comprises a blocking block vertically and vertically arranged on the rolling conveying frame in a sliding mode, the blocking block is driven to lift by a blocking cylinder, and when the blocking cylinder drives the blocking block to rise to the highest point, the steel pipe is blocked by the blocking block when rolling on the rolling conveying frame; when the blocking cylinder drives the blocking block to descend to the lowest point, the blocking block avoids the steel pipe; the steel pipe can be effectively blocked by the blocking cylinder, so that the steel pipe is balanced in stress and firm in blocking.

The conveying support frame comprises two strip-shaped frames extending longitudinally, the conveying rollers are uniformly and rotatably arranged between the two strip-shaped frames, and the rotating power device is arranged on the strip-shaped frames; the rotary power device comprises a driving motor arranged below the strip-shaped frame, the conveying rollers comprise driving conveying rollers and driven conveying rollers, the driving conveying rollers are driven by the driving motor to rotate through output shafts, transmission shafts which are conveniently connected are extended out of the driving conveying rollers along the axial lines, and the driving motor is sequentially connected with the transmission shafts on the driving conveying rollers through belt transmission; because the initiative conveying roller sets up for the interval, the conveyer belt can connect far distance, consequently can effectively transmit, and belt transmission simple structure, transmission are steady, can cushion and inhale the shake.

The turnover device comprises a turnover shaft which is rotatably arranged below the conveying support frame, a turnover rod is fixedly arranged on the turnover shaft, the turnover rod is arranged in a gap between the conveying roller and the conveying roller, the turnover rod is driven by a turnover power device to synchronously rotate along with the turnover shaft, and the turnover rod turns over the steel pipe from the conveying roller to the rolling conveying frame when turning upwards; because the steel pipe needs turning device to make the steel pipe on the conveying roller move to the rolling carriage after transporting to steel pipe material loading station, consequently through the trip bar when deflecting, jack-up steel pipe makes the steel pipe fall on the rolling carriage after contacting with the steel pipe, accomplished the transfer of steel pipe, and device simple structure, reduce cost.

The rolling conveying frame is provided with a power assisting device for assisting the steel tube to roll; because block the cylinder and after the guide arm withdrawal, the steel pipe can't continue to roll sometimes, can help the steel pipe to roll smoothly through booster unit, guarantee the continuity of ejection of compact.

The rolling conveying frame is also provided with a convex block matched with the blocking cylinder for use; because block that the cylinder can only block steel pipe one side, can take place to rock at the in-process that pushes away the tie, can inject the steel pipe opposite side through protruding piece, can effectively guarantee to push away the steel pipe when flat and can move on a straight line.

The power assisting device comprises belts which are arranged on the surfaces of the two sides of the rolling conveying frame and cover the convex blocks, a rolling shaft is rotatably arranged on the rolling conveying frame, the belts are wound on the rolling shaft, and the rolling shaft and the rolling power device drive the belts to be pulled; the belt is attached to the convex blocks when being loosened, and after the belt is tensioned, the belt attached to the convex blocks is pulled up, the belt is straightened to form an inclination with the convex blocks, so that the steel pipe is enabled to continuously slide, and the stable discharging of the discharging frame is ensured.

Drawings

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

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

fig. 2 is a front view of an embodiment of the present invention;

fig. 3 is the utility model discloses structural schematic of steel pipe material loading station department:

FIG. 4 is a schematic structural diagram of a steel pipe rolling conveying station and a steel pipe material checking station in the embodiment of the present invention;

fig. 5 is a right side view of a rolling carriage according to an embodiment of the present invention;

in the drawings: 1. a steel pipe feeding station; 2. a steel pipe rolling conveying station; 3. a steel pipe material checking station; 4. conveying the support frame; 41. a strip-shaped frame; 5. a drive motor; 6. an active delivery roller; 61. a drive shaft; 7. a driven feed roller; 8. a rolling carriage; 9. turning over a motor; 10. a turning shaft; 11. turning over the fixed block; 12. a turning rod; 13. pushing the support frame; 14. a leveling cylinder; 15. a pushing block; 16. positioning a baffle plate; 17. blocking the support frame; 18. blocking the air cylinder; 19. a raised block; 20. a belt; 21. a rolling shaft; 22. a scrolling motor; 23. steel pipe rack.

Detailed Description

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

As shown in fig. 1 to 4, a steel pipe discharging frame comprises a frame, a steel pipe feeding station 1, a steel pipe rolling conveying station 2 and a steel pipe detecting station 3 are arranged on the frame, a conveying support frame 4 is arranged on the steel pipe feeding station 1, a plurality of conveying rollers are rotatably mounted on the conveying support frame 4, the conveying rollers drive the cut steel pipe to be conveyed to the steel pipe feeding station 1 through a rotating power device, a turnover device enabling the steel pipe to roll to the steel pipe rolling conveying station 2 is further arranged on the steel pipe feeding station 1, a rolling conveying frame 8 with a certain inclination angle is arranged on the steel pipe rolling conveying station 2, a steel pipe blocking device for blocking the rolling of the steel pipe is arranged on the rolling conveying frame 8, a flat head mechanism for pushing the steel pipe to enable the steel pipe to be arranged neatly is further arranged on the steel pipe rolling conveying station 2, the pushing device and the steel pipe blocking device are used in cooperation, and a steel pipe placing frame 23 arranged after the rolling of the steel pipe is arranged on the steel pipe detecting station 3.

In this embodiment, the steel pipe placing frame 23 is horizontally placed, and a certain amount of steel pipes need to be arranged on the steel pipe placing frame 23, so that a rolling limiting plate is arranged on the steel pipe placing frame 23 to prevent the steel pipes from falling, workers can check the steel pipes conveniently, and the quality of the steel pipes is guaranteed.

As shown in fig. 3, the flathead mechanism comprises a positioning baffle 16 positioned on one side of the rolling conveying frame 8 and an axial pushing device positioned on the other side of the rolling conveying frame 8, and the axial pushing device is fixedly arranged on the pushing support frame 13 extending out of the upper edge of the rolling conveying frame 8; the positioning baffle 16 is aligned with the axial pushing device, and the positioning baffle 16 is fixedly arranged on the side edge of the rolling conveying frame 8, so that the steel pipe is conveniently limited; of course, the positioning baffle 16 can also limit the position of the steel pipe by jacking up the pushing support frame.

Further, the axial pushing device comprises a pushing cylinder 14, the cylinder is fixedly mounted on a pushing support frame 13, a pushing rod of the cylinder is fixedly connected with a pushing block 15, and the positioning baffle 16 limits the other end of the positioning steel pipe; the guide rod of the push-flat cylinder 14 controls the push block 15 to stretch, so that the push block 15 pushes the steel pipe to be in contact with the positioning baffle 16, the steel pipe can roll to the steel pipe placing frame 23 from a fixed position after rolling, the steel pipe can be aligned and orderly arranged, and the steel pipe can be prevented from being scratched by other steel pipes due to the fact that the cross sections of the steel pipes are not aligned.

Certainly, another scheme can also be adopted, the axial pushing device comprises an electric push rod, a motor is fixedly mounted on the pushing support frame 13, the motor drives a pair of screw rod nuts after being decelerated by a gear, the rotary motion of the motor is changed into linear motion, and the push rod action is completed by utilizing the forward and reverse rotation of the motor.

In this embodiment, the steel pipe blocking device comprises a blocking block vertically installed on the rolling conveying frame 8 in a lifting and sliding manner, the blocking block is driven to lift by a blocking cylinder 18, and when the blocking cylinder 18 drives the blocking block to lift to the highest point, the steel pipe is blocked by the blocking block when rolling on the rolling conveying frame 8; the blocking cylinder 18 is fixedly arranged on the blocking support frame 17, so that the blocking block can be conveniently controlled to lift, and when the blocking cylinder 18 drives the blocking block to descend to the lowest point, the blocking block avoids the steel pipe; the number of the blocking cylinders 18 is two, and the blocking cylinders 18 are respectively located on two sides in the rolling conveying frame 8, so that when the steel pipes are blocked, the steel pipes are stressed evenly, and can stably lean against a guide rod of the blocking cylinder 18.

As shown in fig. 2, the conveying support frame 4 includes two strip frames 41 extending longitudinally, the conveying rollers are uniformly rotatably installed between the two strip frames 41, and the rotating power device is installed on the strip frames 41, so that the steel pipes can be conveyed on the conveying rollers conveniently.

Further, the rotary power device comprises a driving motor 5 arranged below the strip-shaped frame 41, the conveying rollers comprise driving conveying rollers 6 and driven conveying rollers 7, the driving conveying rollers 6 are driven to rotate by the driving motor 5 through output shafts, transmission shafts 61 which are convenient to connect are extended out of the driving conveying rollers 6 along the axial lines, and the driving motor 5 is sequentially connected with the transmission shafts 61 on the driving conveying rollers 6 through belt transmission; because the belt drive is the belt drive between belt and the band pulley, initiative conveying roller 6 sets up for the interval, and the conveyer belt can connect far distance, consequently can effectively transmit, and belt drive simple structure, transmission are steady, can cushion and inhale the shake.

Certainly, another scheme can also be adopted, the driving motor 5 and the driving conveying roller 6 are sequentially connected through chain transmission, so that the output shaft of the driving motor 5 and the transmission shaft 61 of the driving conveying roller 6 are both connected with gears, the chains are clamped on the gears, transmission can be completed, the transmission ratio of the chain transmission is accurate, the transmission power is high, the overload capacity is high, and the steel pipe can be stably conveyed.

As shown in fig. 2, the turnover device comprises a turnover shaft 10 rotatably mounted below the conveying support frame 4, a turnover rod 12 is fixedly mounted on the turnover shaft 10, the turnover rod 12 is arranged in a gap between the conveying roller and the conveying roller, the turnover rod 12 is driven by a turnover power device to synchronously rotate along with the turnover shaft 10, and when the turnover rod 12 is turned upwards, the steel pipe is turned upwards from the conveying roller to the rolling conveying frame 8; upset power device is including upset motor 9, upset motor 9 fixed mounting is in the below of leaning on bar frame 41 through rolling carriage 8 one side, and trip shaft 10 is rotated the installation by upset fixed block 11, and upset motor 9 drive trip shaft 10 upset drives trip bar 12 around trip shaft 10 axis beat, because trip bar 12 sets up in the clearance of conveying roller and conveying roller, makes the steel pipe fall on rolling carriage 8 convenient with steel pipe contact back jack-up steel pipe, has accomplished the transfer of steel pipe, and device simple structure, the cost is reduced.

In this embodiment, the rolling carriage 8 is provided with a power assisting device for assisting the rolling of the steel pipe; after the guide rod retracts, the blocking cylinder 18 rolls the steel pipe again due to the inclination, but the steel pipe cannot roll continuously due to the blocking of impurities on the rolling conveying frame 8, the steel pipe can be helped to roll smoothly through the power assisting device, and the continuity of discharging is guaranteed.

As shown in fig. 4 and 5, the rolling carriage 8 is further provided with a convex block 19 used in cooperation with the blocking cylinder 18; because the blocking cylinder 18 can only block one side of the steel pipe, the steel pipe can shake in the process of being pushed to be flat, the other side of the steel pipe can be limited through the convex blocks 19, and the steel pipe can be effectively guaranteed to move on a straight line when being pushed to be flat.

Further, the boosting device comprises belts 20 which are arranged on the surfaces of the two sides of the rolling conveying frame 8 and cover the convex blocks 19, a rolling shaft 21 is rotatably arranged on the rolling conveying frame 8, the belts 20 are wound on the rolling shaft 21, and the rolling shaft 21 and the rolling power device drive the belts 20 to be pulled; the two belts 20 are covered on the two side surfaces of the rolling conveying frame 8 and the convex blocks 19 and extend to the leg parts of the rolling conveying frame 8, the winding wheels are connected by the winding shafts 21 to synchronously rotate, the winding power device comprises the winding motors 22, and the winding motors 22 are fixedly installed on the leg parts of the rolling conveying frame 8, so that when a steel pipe cannot roll, the belts 20 are attached to the convex blocks 19 when the belts 20 are loosened at first, the winding motors 22 drive the winding shafts 21 to roll, after the belts 20 are tightened, the belts 20 attached to the convex blocks 19 are pulled, the belts 20 are straightened to form an inclination with the convex blocks 19, the steel pipe is promoted to continuously slide, the smooth rolling of the steel pipe is effectively facilitated, and the structure is simple.

The utility model discloses a theory of operation: firstly, steel pipes are sawed into a plurality of sections of steel pipes, then the steel pipes are placed on a conveying support frame 4, a driving motor 5 drives a transmission shaft 61 to drive a driving conveying roller 6 to rotate, the driving conveying roller 6 drives a driven conveying roller 7 to rotate, the steel pipes are conveyed to a steel pipe feeding station 1, the driving motor 5 stops rotating, then a turnover shaft 10 is driven by a turnover motor 9, a turnover rod 12 swings to jack up the steel pipes on the steel pipe feeding station 1, then the steel pipes are turned over to a rolling conveying frame 8, the steel pipes roll along the rolling conveying frame 8 along the trend, a guide rod of a blocking cylinder 18 rises during rolling, the blocking block blocks block the steel pipes to continue rolling, then a guide rod extends out of a leveling cylinder 14, a pushing block 15 pushes the steel pipes to be in contact with a positioning baffle 16, then the guide rod of the leveling cylinder 14 retracts, the guide rod of the blocking cylinder 18 descends, meanwhile, a rolling shaft 21 is driven by a motor 22 to rotate, a tensioning belt 20, the steel pipes continue rolling along the trend to roll until the steel pipes roll to a steel pipe placement frame 23, then the steel pipes roll to the steel pipes placement frame 23, and then the next section of the steel pipes are repeatedly rolled to the steel pipes placement frame 23, and are sequentially arranged on the steel pipe placement frame 23 and accurately aligned.

The above-mentioned embodiments are only descriptions of the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and all modifications and changes made by the technical solution of the present invention should fall within the protection scope defined by the claims of the present invention on the basis of not departing from the spirit of the present invention.

Claims (10)

1. The utility model provides a play work or material rest of steel pipe, includes the frame, its characterized in that: the steel pipe rolling conveying device is characterized in that a steel pipe feeding station, a steel pipe rolling conveying station and a steel pipe checking station are arranged on the rack, a conveying support frame is arranged on the steel pipe feeding station, a plurality of conveying rollers are rotatably mounted on the conveying support frame and drive the cut steel pipes to be conveyed to the steel pipe feeding station through a rotating power device, a turnover device enabling the steel pipes to roll to the steel pipe rolling conveying station is further arranged on the steel pipe feeding station, a rolling conveying frame with a certain inclination angle is arranged on the steel pipe rolling conveying station, a steel pipe blocking device used for blocking the rolling of the steel pipes is arranged on the rolling conveying frame, a flat head mechanism used for pushing the steel pipes to enable the steel pipes to be arranged orderly is further arranged on the steel pipe rolling conveying station, the flat head mechanism and the steel pipe blocking device are matched for use, and a steel pipe placing rack arranged after the steel pipes roll is arranged on the steel pipe checking station.

2. The steel pipe discharging frame of claim 1, wherein: the flat head mechanism comprises a positioning baffle positioned on one side of the rolling conveying frame and an axial pushing device positioned on the other side of the rolling conveying frame, and the axial pushing device is fixedly arranged on the rolling conveying frame along the extending pushing support frame.

3. The steel pipe discharging frame of claim 2, wherein: the axial pushing device comprises a pushing cylinder, the cylinder is fixedly mounted on the pushing support frame, a pushing rod of the cylinder is fixedly connected with a pushing block, and the positioning baffle limits the other end of the positioning steel pipe.

4. The steel tube discharging frame of claim 3, wherein: the steel pipe blocking device comprises a blocking block vertically arranged on the rolling conveying frame in a lifting sliding mode, the blocking block is driven to lift by a blocking cylinder, and when the blocking cylinder drives the blocking block to rise to the highest point, the steel pipe is blocked by the blocking block when rolling on the rolling conveying frame; when the blocking cylinder drives the blocking block to descend to the lowest point, the blocking block avoids the steel pipe.

5. The steel pipe discharging frame of claim 4, wherein: the conveying support frame comprises two strip-shaped frames which extend along the longitudinal direction, the conveying rollers are uniformly rotatably installed between the two strip-shaped frames, and the rotating power device is installed on the strip-shaped frames.

6. The steel pipe discharge frame of claim 5, wherein: the rotary power device comprises a driving motor installed below the strip-shaped frame, the conveying rollers comprise driving conveying rollers and driven conveying rollers, the driving conveying rollers are driven by the driving motor to rotate through output shafts, transmission shafts which are convenient to connect are extended along the axes on the driving conveying rollers, and the transmission shafts on the driving conveying rollers are sequentially connected through belt transmission.

7. The steel pipe discharging frame of claim 6, wherein: the turnover device comprises a turnover shaft which is rotatably arranged below the conveying support frame, a turnover rod is fixedly arranged on the turnover shaft and is arranged in a gap between the conveying roller and the conveying roller, the turnover rod is driven by a turnover power device to synchronously rotate along with the turnover shaft, and the turnover rod turns over the steel pipe onto the rolling conveying frame from the conveying roller when turning upwards.

8. The steel pipe discharge frame of claim 7, wherein: and the rolling conveying frame is provided with a power assisting device for assisting the steel pipe to roll.

9. The steel tube discharging frame of claim 8, wherein: and the rolling conveying frame is also provided with a convex block matched with the blocking cylinder for use.

10. The steel tube discharging frame of claim 9, wherein: the power assisting device comprises belts which are arranged on the surfaces of two sides of the rolling conveying frame and cover the protruding blocks, a rolling shaft is rotatably arranged on the rolling conveying frame, the belts are wound on the rolling shaft, and the rolling shaft and the rolling power device drive the belts to be pulled.

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