CN111299685A - Steel pipe machining device and using method - Google Patents

Abstract

The invention discloses a steel pipe machining device, and relates to the technical field of machining. In the present application, a steel pipe processing apparatus includes: the machine body is arranged on a plane; the transfer table sets up in the outside of organism, and the transfer table includes: the transmission frame is arranged at the outer side of the machine body; the conveying roller is arranged in the conveying frame; push down the device setting in the top of organism, push down the device and include: the fixing frame is arranged above the machine body, the upper surface of the fixing frame is provided with a telescopic motor, and the telescopic motor is connected with the fixing frame; the fixing plate is arranged below the fixing frame; the cutting device sets up the one side at the pressure equipment device, and the cutting device includes: the cutting frame is arranged above the machine body; the binding device is arranged at one end of the machine body; the limiting device is arranged in the machine body. The steel pipe cutting machine is used for solving the problems of large labor amount and low processing efficiency caused by the fact that steel pipes need to be put in manually when the steel pipes are cut off and the cut steel pipes need to be rearranged and discharged.

Description

Steel pipe machining device and using method

Technical Field

The invention relates to the technical field of machining, in particular to a steel pipe machining device and a using method thereof.

Background

The steel pipe is a common stress member, has the advantages of light weight and high strength, and is widely used in engineering construction.

In the process of processing the steel pipe, the steel pipe needs to be sent into a cutting machine, so that a longer steel pipe can be cut into required length, in the prior art, the steel pipe is usually sent into secondary processing equipment, a manual feeding mode is adopted, workers need to send one steel pipe into the secondary processing equipment once, and the workers need to wait beside the secondary processing equipment to send the next steel pipe in time, the feeding mode not only enables the labor capacity of the workers to be large, but also causes low feeding efficiency, the cut steel pipe occupies a large amount of storage space at will, and the labor capacity of the workers needs to be increased in the follow-up process.

Disclosure of Invention

The invention aims to provide a steel pipe machining device which is used for solving the problems that in the prior art, when a steel pipe is cut off, the steel pipe needs to be put in manually, and the cut steel pipe needs to be rearranged and discharged, so that the manual labor amount is large, and the machining efficiency is low.

In order to achieve the above purpose, the embodiments of the present application adopt the following technical solutions: a steel pipe processing apparatus comprising: a body disposed on a plane; the rollgang, this rollgang sets up in the outside of this organism, and this rollgang and this organism fixed connection, this rollgang includes: the conveying frame is arranged on the outer side of the machine body and fixedly connected with the machine body, a hollow upper opening is formed in the conveying frame, and the upper surface of the conveying frame is flush with the upper surface of the machine body; the conveying roller is arranged inside the conveying frame and connected with the conveying frame, and the conveying roller is used for conveying the steel pipe; push down the device, should push down the device setting in the top of this organism, should push down device and this organism fixed connection, should push down the device and directly be provided with the space with this organism, should push down the device and include: the fixing frame is arranged above the machine body and fixedly connected with the machine body, the fixing frame is hollow, and a telescopic motor is arranged on the upper surface of the fixing frame and connected with the fixing frame; the fixed plate is arranged below the fixed frame, a gap is arranged between the fixed frame and the fixed plate, the upper surface of the fixed plate is connected with one end of the telescopic motor, and the fixed plate moves up and down through the telescopic motor; cutting device, this cutting device set up in one side of this push down device, is provided with the space between this cutting device and this push down device, this cutting device and this organism fixed connection, and this cutting device includes: the cutting frame is arranged above the machine body, the cutting frame is higher than the fixed frame, and the upper surface of the cutting frame is provided with a lifting cylinder; the cutting piece is connected with the lifting end of the lifting cylinder and used for cutting the steel pipe; the binding device is arranged at one end of the machine body, is fixedly connected with the machine body and is used for arranging and fixing the steel pipe after cutting; and the limiting device is arranged in the machine body and is movably connected with the machine body, and the limiting device is used for positioning the steel pipe during cutting.

In the technical scheme, in order to solve the problems that when steel pipes are cut off, the steel pipes need to be manually placed, the cut steel pipes need to be rearranged and discharged, the labor intensity is large, and the machining efficiency is low, the steel pipes are conveyed continuously by using the receiving frame and the conveying frame to form a conveying track of the steel pipes, manual intervention situations are reduced in the conveying process, then the steel pipes are arranged and stacked by using the limiting device after the steel pipes reach the limiting device, the steel pipes are arranged by using the limiting device, then the steel pipes in the limiting device are fixed by using the pressing device, and the steel pipe machining efficiency is reduced by using the pressing device and the limiting device because the steel pipes need to be manually observed whether the preorders are cut or not and then placed into subsequent steel pipes when the steel pipes are manually placed into the steel pipes for cutting, meanwhile, the cutting amount is also reduced by manual single placement, multiple simultaneous cutting is carried out by adopting a pressing device and a limiting device when the steel pipe is cut, the steel pipe cannot cause vibration displacement in the cutting process, the limiting device fixes the steel pipe in three directions, then the four-direction fixation is eliminated by the pressing device, the steel pipe displacement condition in the cutting process occurs, the steel pipe is not required to be manually placed, after the steel pipe is cut, the steel pipe after cutting is bound by a binding device, the steel pipe is prevented from being dispersedly placed to occupy a large using area, the steel pipe is required to be manually rearranged after the steel pipe is cut and then bound by the binding device, the binding device reduces the labor amount of the steel pipe after processing, and the processing efficiency is improved without rearranging when the steel pipe is bound.

Further, in an embodiment of the present invention, the body includes: the receiving frame is arranged on a plane and fixedly connected with the conveying roller way, the receiving frame is arranged on the outer side of the conveying roller way, an opening is formed in the joint of the receiving frame and the conveying roller way, the conveying roller wheel conveys the steel pipe to move to the receiving frame, a receiving belt is arranged inside the receiving frame, the steel pipe is arranged on the upper surface of the receiving belt, and the receiving belt conveys the steel pipe to the pressing device; the conveying frame is arranged below the receiving frame and fixedly connected with the receiving frame, the overlapped part of the conveying frame and the receiving frame is connected with the pressing device and the cutting device, and the binding device is connected above the conveying frame; the conveying cylinder is arranged inside the receiving frame and used for pushing the limiting device to move; the adjusting plates are arranged inside the conveying frame and fixedly connected with the conveying frame, and the two adjusting plates are symmetrically arranged; the rollgang is arranged inside the conveying frame and is movably connected with the conveying frame.

Further, in the embodiment of the present invention, the position limiting device includes: the limiting frame is arranged in the receiving frame, is arranged above the conveying frame and is movably connected with the conveying frame, the lower end of the limiting frame is matched with the sliding groove of the conveying frame, and the limiting frame moves along the extending direction of the sliding groove of the conveying frame; the upper pressure plate is arranged above the limiting frame and is movably connected with the limiting frame, and two opposite ends of the upper pressure plate are matched with the inner walls of two opposite sides of the limiting frame; the switching disc is arranged below the limiting frame, the switching disc is connected with the limiting frame through a rotating shaft, and the switching disc is arranged in the sliding groove of the conveying frame; the telescopic motor is arranged on the upper surface of the fixing frame and is used for controlling the movement of the fixing plate; the adjusting rod is arranged on the upper surface of the limiting frame and movably connected with the limiting frame, and the adjusting rod rotates around the circular shape of the cylinder above the limiting frame; the fastening shaft is arranged inside the upper pressure plate, is movably connected with the upper pressure plate through a bearing, and is provided with a rotating wheel, the rotating wheel is arranged on the periphery of the fastening shaft, and the rotating wheel is fixedly connected with the fastening shaft; the alignment hole is arranged in the limiting frame, corresponds to the fastening shaft and is provided with a gap; the conduction area, this conduction area set up in the periphery of this swiveling wheel, and this regulation pole and this swiveling wheel are connected to this conduction area, and this regulation pole drives this swiveling wheel through this conduction area and rotates.

Further, in an embodiment of the present invention, the binding apparatus includes: the driving wheels are arranged above the conveying frame, fixedly connected with a connecting plate arranged on the upper surface of the conveying frame and provided with four driving wheels; the rotating ring is arranged in the middle of the driving wheel, and the periphery of the rotating ring is meshed with the periphery of the driving wheel; the binding disc is arranged on the surface of the rotating ring and is fixedly connected with the rotating ring; the rotating motor is arranged on the outer side of the conveying frame and is connected with the driving wheel, and the rotating motor controls the driving wheel to rotate; the connecting band is arranged on the periphery of the driving wheel and is used for controlling the rotation of the other driving wheels.

Further, in the embodiment of the invention, an adjusting plate is arranged between the pressing device and the cutting device, the adjusting plate is fixedly connected with the pressing device and the cutting device, a tooth socket is arranged on one side of the adjusting plate, and the surface of the adjusting plate is attached to the periphery of the adjusting rod.

Further, in the embodiment of the present invention, when the limiting frame moves along the extending direction of the sliding slot of the conveying frame, the periphery of the adjusting rod is engaged with the surface of the adjusting plate so as to drive the fastening shaft to be connected with the aligning hole, thereby moving the upper pressing plate downward.

Furthermore, in the embodiment of the present invention, the upper end of the adjusting rod is connected to the lower end of the fixing plate, the upper end of the adjusting rod is sleeved to the lower end of the fixing plate, and the adjusting rod can be directly separated from the fixing plate when the limiting frame moves.

Further, in the embodiment of the present invention, the adjusting plate is disposed at the right side of the cutting device, the adjusting plate is an arc-shaped plate, and the arc-shaped end of the adjusting plate contacts the outer surface of the limiting device first, so that the limiting device rotates to adjust the direction of the steel pipe.

Further, in the embodiment of the present invention, a conveying device is disposed below the limiting frame, the conveying device is disposed inside the conveying rack, the conveying device is fixedly connected to the conveying rack, and the conveying device includes: the conveying wheels are arranged inside the conveying frame and meshed with the conversion disc, a rectangular groove is formed in the lower bottom surface of the conversion disc, a convex ring is arranged on the periphery of each conveying wheel and meshed with the groove of the conversion disc, and a plurality of conveying wheels are arranged; and the conveying belt is arranged on the periphery of the conveying wheel and drives the conveying wheel to rotate in the same direction.

Further, in the embodiment of the present invention, after the limiting device moves to the binding device, the rotating motor drives the driving wheel to rotate so that the rotating wheel rotates around a circle, and the binding disc rotates around the outer periphery of the steel tube for binding.

The embodiment of the invention also discloses a using method of the steel pipe machining device, which comprises the following steps:

conveying the steel pipes to a receiving frame through a conveying roller, enabling the steel pipes to move to a pressing device through a receiving belt of the receiving frame, enabling the receiving belt to drive the steel pipes to move to the pressing device, and enabling the steel pipes to fall into limiting frames respectively after the steel pipes move to a limiting device;

starting a pressing device, enabling a fixed plate to approach a limiting frame through downward movement of a telescopic motor, enabling an upper pressing plate connected with the fixed plate to move towards the limiting frame while the fixed plate moves downwards, enabling the upper pressing plate to be matched with the limiting frame, and enabling the surface of the upper pressing plate to be attached to the outer portion of the steel pipe to form primary fixation;

the conveying cylinder is started, the conveying cylinder pushes the limiting frame to move towards the cutting device, the adjusting rod arranged on the upper pressure plate is meshed with the adjusting plate while the limiting frame moves towards the cutting device, rotation is formed between the adjusting rod and the adjusting plate while the limiting frame moves, so that threaded connection is formed between the adjusting rod and the aligning hole, the adjusting rod is close to the aligning hole, the upper pressure plate is further fastened with the steel pipe and the limiting frame, after the upper pressure plate fixes the steel pipe in the limiting frame, the conveying cylinder continues to push the limiting frame to move towards the cutting device, and after the limiting frame moves to the cutting device, a cutting blade of the cutting device cuts the steel pipe to realize segmentation;

starting the conveying device, driving a conveying belt to rotate by a conveying motor arranged on a conveying wheel after the steel pipe is cut in a segmented manner, meshing with a conversion disc connected with the lower surface of the limiting frame while the conveying wheel rotates, and driving the conversion disc to move towards the binding device while the conveying wheel rotates;

the direction is switched, when the conversion disc moves towards the binding device, the limiting frame and the steel pipe pass through the adjusting plate, the arc-shaped end of the adjusting plate contacts the steel pipe so as to enable the steel pipe to rotate, when the steel pipe rotates to 90 degrees, the limiting frame is attached to the surface of the adjusting plate, and when the limiting frame moves towards the binding device, the top end of the steel pipe and the binding device form a relative direction;

the rotation motor is started, the rotation motor is started after the limiting frame and the steel pipe reach the designated position, the rotation motor drives the four driving wheels to rotate, the rotation of the driving wheels enables the rotation to rotate around the circle center, the steel pipe penetrates through the circle center of the rotating ring, when the steel pipe penetrates through the circle center of the rotating ring, the binding disc connected with the surface of the rotating ring binds the steel pipe, meanwhile, the fixing of the adjusting rod on the upper pressure plate is cancelled, the steel pipe is partially bound, and the steel pipe continues to move through the conveying roller way to enable the steel pipe to be bound in an all-dimensional.

The invention has the beneficial effects that: firstly, the steel pipe processing device can cut a plurality of steel pipes, and the steel pipes can be cut while keeping high stability, so that the situation that the cutting surfaces of the steel pipes are inconsistent is reduced. Second, after the steel pipe reachs stop device, the steel pipe automatically falls into spacing frame, the steel pipe that falls into in spacing frame stops falling into after reacing a certain amount, simultaneously bulldoze the board and bulldoze the steel pipe of messenger's steel pipe in spacing frame at the inside steel pipe that sets up of receiving frame and keep the coplanar, the steel pipe is placed and is accomplished back push down the device and promote the fixed plate through flexible motor and remove to spacing frame, make top board and spacing frame cup joint mutually through the fixed plate, it is fixed to carry out the top to the steel pipe in the spacing frame through the top board, thereby make spacing frame fix four directions of steel pipe, after the top board is fixed the steel pipe, the conveying cylinder promotes spacing frame and removes to cutting device. Thirdly, in the moving process of the conveying cylinder, the adjusting rod arranged above the upper pressure plate is meshed with the adjusting plate, so that in the moving process of the limiting frame, the adjusting rod and the adjusting plate can continuously fix the upper pressure plate, the steel pipe and the limiting frame, when the adjusting rod rotates through the adjusting plate, the fastening shaft inside the upper pressure plate is connected with the adjusting rod through a conduction band, so that the fastening shaft rotates while the adjusting rod rotates, the lower end of the fastening shaft corresponds to the alignment hole inside the limiting frame, the fastening shaft can be in threaded connection with the alignment hole while the fastening shaft rotates, so that the fastening shaft can move relative to the alignment hole, further the fixing force of the upper pressure plate on the steel pipe is further improved, in the moving process of the steel pipe, as the upper pressure plate and the lower pressure device are directly arranged in a sleeved mode, the fixing plate of the lower pressure device cannot move along with the upper pressure plate, after the steel pipe moves to the cutting device, the cutting piece cuts and segments the steel pipe, and the influence of vibration generated in the steel pipe cutting process on the fixed position of the steel pipe is reduced through the upper pressing plate, the limiting frame, the adjusting rod and the aligning holes in the cutting process. Fourthly, after the cutting is finished, the conveying device moves the steel pipe, the conveying wheel of the conveying device is matched and connected with a conversion disc arranged below a limiting frame, in the process that the limiting frame moves to a binding device, the limiting frame and the steel pipe realize direction conversion through an adjusting plate arranged inside a conveying frame, when the limiting frame and the steel pipe contact the adjusting plate, the arc end of the adjusting plate firstly contacts the steel pipe so that the steel pipe drives the limiting frame to rotate, the conversion disc continuously moves to the binding device while the limiting frame rotates, the conversion disc and the limiting frame are movably connected, the limiting frame can rotate around the center of the conversion disc, the cutting end of the steel pipe is opposite to the binding device after the surfaces of the limiting frame and the adjusting plate are attached, after the steel pipe moves to the binding device, the binding disc of the binding device binds the steel pipe, and the driving wheel is driven to rotate by using a rotating motor, drive rotatory ring of wheel pair and carry out the centre of a circle and rotate to use rotatory ring to drive the periphery of binding the coiling steel pipe and carry out the rotation and bind, thereby realize need not the manual work after the steel pipe cutting and carry out the position arrangement and binding, improve steel pipe machining efficiency, reduce the amount of labour, the steel pipe after binding simultaneously has reduced area.

Drawings

The present application is further described below with reference to the drawings and examples.

Fig. 1 is a schematic perspective view of a steel pipe processing apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic view of a pressing device and a cutting device of the steel pipe processing device according to the embodiment of the present invention.

FIG. 3 is a schematic view of a limiting device of the steel pipe processing device according to the embodiment of the present invention.

FIG. 4 is a schematic view of the inside of a position limiting device of the steel pipe processing apparatus according to the embodiment of the present invention.

FIG. 5 is an enlarged view of the interior of the position-limiting device of the steel pipe processing apparatus according to the embodiment of the present invention.

Fig. 6 is a schematic view of a combination of a limiting device and a conveying device of the steel pipe processing device according to the embodiment of the invention.

FIG. 7 is a schematic view of a binding apparatus of a steel pipe processing apparatus according to an embodiment of the present invention.

FIG. 8 is a schematic view showing the operation of a steel pipe processing apparatus according to an embodiment of the present invention.

10. Machine body 101, receiving frame 102, and conveying frame

103. Receiving belt 104, conveying cylinder 105, and adjusting plate

106. Rollgang 20, rollgang 201, carriage

202. Conveying roller 30, pressing device 301 and fixing frame

302. Fixing plate 40, cutting device 401 and cutting frame

402. Cutting blade 403, lifting cylinder 50 and binding device

501. Connecting band 502, rotating ring 503 and binding disk

504. Rotating motor 505, driving wheel 60 and limiting device

601. Limiting frame 602, upper pressure plate 603 and conversion disk

604. Telescopic motor 605, adjusting rod 606 and fastening shaft

607. Rotating wheel 608, alignment hole 609 and conduction band

70. Steel pipe 80, adjusting plate 90 and conveying device

901. Conveying wheel 902 and conveying belt

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clear and fully described, embodiments of the present invention are further described in detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of some embodiments of the invention and are not limiting of the invention, and that all other embodiments obtained by those of ordinary skill in the art without the exercise of inventive faculty are within the scope of the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "inner", "outer", "top", "bottom", "side", "vertical", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "a," "an," "first," "second," "third," "fourth," "fifth," and "sixth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

For the purposes of simplicity and explanation, the principles of the embodiments are described by referring mainly to examples. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the embodiments. It will be apparent, however, to one skilled in the art that the embodiments may be practiced without these specific details. In some instances, well-known methods and structures have not been described in detail so as not to unnecessarily obscure the embodiments. In addition, all embodiments may be used in combination with each other.

The first embodiment is as follows:

as shown in fig. 1 and 2, the present embodiment discloses a steel pipe 70 processing apparatus, including: the automatic cutting machine comprises a machine body 10, a conveying roller way 20, a conveying frame 201, a conveying roller 202, a pressing device 30, a fixing frame 301, a fixing plate 302, a cutting device 40, a cutting frame 401, a cutting sheet 402, a binding device 50 and a limiting device 60, wherein the machine body 10 is arranged on a plane; conveying roller 20 sets up in the outside of organism 10, conveying roller 20 and organism 10 fixed connection, and conveying roller 20 includes: the conveying frame 201 is arranged outside the machine body 10, the conveying frame 201 is fixedly connected with the machine body 10, the conveying frame 201 is internally provided with a hollow upper opening, and the upper surface of the conveying frame 201 is flush with the upper surface of the machine body 10; the conveying roller 202 is arranged inside the conveying frame 201, the conveying roller 202 is connected with the conveying frame 201, and the conveying roller 202 is used for conveying the steel pipe 70; push down device 30 and set up in the top of organism 10, push down device 30 and organism 10 fixed connection, push down device 30 and organism 10 directly are provided with the space, and push down device 30 includes: the fixing frame 301 is arranged above the machine body 10, the fixing frame 301 is fixedly connected with the machine body 10, the fixing frame 301 is hollow, the upper surface of the fixing frame 301 is provided with a telescopic motor 604, and the telescopic motor 604 is connected with the fixing frame 301; the fixing plate 302 is arranged below the fixing frame 301, a gap is arranged between the fixing frame 301 and the fixing plate 302, the upper surface of the fixing plate 302 is connected with one end of a telescopic motor 604, and the fixing plate 302 moves up and down through the telescopic motor 604; cutting device 40 sets up in one side of the pressure equipment 30, is provided with the space between cutting device 40 and the pressure equipment 30, cutting device 40 and organism 10 fixed connection, cutting device 40 includes: the cutting frame 401 is arranged above the machine body 10, the cutting frame 401 is higher than the fixed frame 301, and the upper surface of the cutting frame 401 is provided with a lifting cylinder 403; the cutting blade 402 is connected with the lifting end of the lifting cylinder 403, and the cutting blade 402 is used for cutting the steel pipe 70; the binding device 50 is arranged at one end of the machine body 10, the binding device 50 is fixedly connected with the machine body 10, and the binding device 50 is used for arranging and fixing the steel pipe 70 after cutting; the limiting device 60 is arranged inside the machine body 10, the limiting device 60 is movably connected with the machine body 10, and the limiting device 60 is used for positioning the steel pipe 70 during cutting.

In order to solve the problems that the steel pipe 70 needs to be manually placed into the steel pipe 70 when the steel pipe 70 is cut off, the amount of manual labor caused by rearrangement and discharge of the cut steel pipe 70 is large, and the machining efficiency is low, the steel pipe 70 cutting device adopts the receiving frame 101, the conveying frame 102, the pressing device 30, the cutting device 40, the binding device 50 and the limiting device 60, the conveying track of the steel pipe 70 is firstly formed through the receiving frame 101 and the conveying frame 102 to keep continuous conveying of the steel pipe 70, the manual intervention situation is reduced in the conveying process, the limiting device 60 is used for arranging and stacking the steel pipe 70 after the steel pipe 70 reaches the limiting device 60, the steel pipe 70 is arranged through the limiting device 60, the steel pipe 70 in the limiting device 60 is fixed through the pressing device 30, the phenomenon that whether the cutting of the steel pipe 70 is finished or not needs to be manually observed when the steel pipe 70 is normally placed into the steel pipe 70 for cutting through the pressing device 30 and the limiting device 60 is reduced The cutting amount is reduced by placing a single manual piece, a plurality of steel pipes 70 are cut simultaneously by adopting the pressing device 30 and the limiting device 60 when the steel pipes 70 are cut, the steel pipes 70 cannot vibrate and displace in the cutting process, because the stop device 60 fixes the steel pipe 70 in three directions and then fixes the steel pipe 70 in four directions by the pressing device 30, the steel pipe 70 is prevented from being displaced during the cutting process, and the steel pipe 70 does not need to be manually placed, after the cutting of the steel pipe 70 is completed, the cut steel pipe 70 is bound by the binding device 50 to prevent the steel pipe 70 from being scattered and occupying a large using area, compared with the binding device 50 which is manually placed and cut the steel pipes 70, the binding device 50 needs to manually rearrange the sequence of the steel pipes 70 and then bind the steel pipes, the binding device 50 reduces the labor amount of the workers after the steel pipes 70 are processed, and the rearrangement is not needed during binding, so that the processing efficiency is improved.

The body 10 includes: the receiving rack 101 is arranged on a plane, the receiving rack 101 is fixedly connected with the conveying roller way 20, the receiving rack 101 is arranged on the outer side of the conveying roller way 20, an opening is formed in the joint of the receiving rack 101 and the conveying roller way 20, the conveying roller 202 conveys the steel pipe 70 to move to the receiving rack 101, a receiving belt 103 is arranged inside the receiving rack 101, the steel pipe 70 is arranged on the upper surface of the receiving belt 103, and the receiving belt 103 conveys the steel pipe 70 to the pressing device 30; the conveying frame 102 is arranged below the receiving frame 101, the conveying frame 102 is fixedly connected with the receiving frame 101, the pressing device 30 and the cutting device 40 are arranged at the overlapped part of the conveying frame 102 and the receiving frame 101 in a connecting mode, and the binding device 50 is connected above the conveying frame 102; the conveying cylinder 104 is arranged inside the receiving frame 101, and the conveying cylinder 104 is used for pushing the limiting device 60 to move; the adjusting plates 105 are arranged inside the conveying frame 102, the adjusting plates 105 are fixedly connected with the conveying frame 102, two adjusting plates 105 are arranged, and the adjusting plates 105 are symmetrically arranged; and the conveying roller way 106 is arranged inside the conveying frame 102, and the conveying roller way 106 is movably connected with the conveying frame 102. The cooperation through transfer table 20 and receiving frame 101 is used, and transfer table 20 continuously carries steel pipe 70 to receiving frame 101, and then receiving frame 101 carries steel pipe 70 to stop device 60 through receiving area 103 to it is slow to reduce the artifical speed of placing steel pipe 70, and need artifically carry out the parallel and level adjustment to the terminal surface of steel pipe 70 after placing steel pipe 70, has reduced steel pipe 70 conveying efficiency.

Specifically, as shown in fig. 3, 4, and 5, the stopper 60 includes: the limiting frame 601 is arranged inside the receiving frame 101, the limiting frame 601 is arranged above the conveying frame 102, the limiting frame 601 is movably connected with the conveying frame 102, the lower end of the limiting frame 601 is matched with a sliding groove of the conveying frame 102, and the limiting frame 601 moves along the extending direction of the sliding groove of the conveying frame 102; the upper pressure plate 602 is arranged above the limiting frame 601, the upper pressure plate 602 is movably connected with the limiting frame 601, and two opposite ends of the upper pressure plate 602 are matched with the inner walls of two opposite sides of the limiting frame 601; the switching disk 603 is arranged below the limiting frame 601, the switching disk 603 is connected with the limiting frame 601 through a rotating shaft, and the switching disk 603 is arranged in a sliding groove of the conveying frame 102; the telescopic motor 604 is arranged on the upper surface of the fixing frame 301, and the telescopic motor 604 is used for controlling the movement of the fixing plate 302; the adjusting rod 605 is arranged on the upper surface of the limiting frame 601, the adjusting rod 605 is movably connected with the limiting frame 601, and the adjusting rod 605 rotates around the circular shape of the cylinder above the limiting frame 601; the fastening shaft 606 is arranged inside the upper pressing plate 602, the fastening shaft 606 is movably connected with the upper pressing plate 602 through a bearing, the rotating wheel 607 is arranged on the periphery of the fastening shaft 606, and the rotating wheel 607 is fixedly connected with the fastening shaft 606; the alignment hole 608 is arranged inside the limiting frame 601, the alignment hole 608 corresponds to the fastening shaft 606, and a gap is formed between the alignment hole 608 and the fastening shaft 606; the conductive belt 609 is arranged on the periphery of the rotating wheel 607, the conductive belt 609 is connected with the adjusting rod 605 and the rotating wheel 607, and the adjusting rod 605 drives the rotating wheel 607 to rotate through the conductive belt 609.

An adjusting plate 80 is arranged between the pressing device 30 and the cutting device 40, the adjusting plate 80 is fixedly connected with the pressing device 30 and the cutting device 40, a tooth socket is arranged on one side of the adjusting plate 80, and the surface of the adjusting plate 80 is attached to the periphery of the adjusting rod 605.

When the limiting frame 601 moves along the extending direction of the sliding slot of the conveying frame 102, the outer circumference of the adjusting rod 605 engages with the surface of the adjusting plate 80 to drive the fastening shaft 606 to connect with the alignment hole 608, so that the upper pressure plate 602 moves downward.

The upper end of the adjusting rod 605 is connected with the lower end of the fixing plate 302, the upper end of the adjusting rod 605 is sleeved with the lower end of the fixing plate 302, and the adjusting rod 605 can be directly separated from the fixing plate 302 when the limiting frame 601 moves.

The adjusting plate 105 is arranged on the right side of the cutting device 40, the adjusting plate 105 is an arc-shaped plate, and the arc-shaped end of the adjusting plate 105 contacts the outer surface of the limiting device 60 firstly, so that the limiting device 60 rotates to adjust the direction of the steel pipe 70.

After the limiting device 60 moves to the binding device 50, the rotating motor 504 drives the driving wheel 505 to rotate, so that the rotating ring 502 rotates around a circle, and the binding disk 503 rotates around the periphery of the steel tube 70 to bind.

After the steel pipe 70 reaches the limiting device 60, the steel pipe 70 automatically falls into the limiting frame 601, the steel pipe 70 falling into the limiting frame 601 stops falling after reaching a certain number, meanwhile, the pushing plate arranged inside the receiving frame 101 pushes the steel pipe 70 in the limiting frame 601 to enable the end face of the steel pipe 70 to keep the same plane, after the steel pipe 70 is placed, the pushing device 30 pushes the fixing plate 302 to move towards the limiting frame 601 through the telescopic motor 604, the upper pressing plate 602 is sleeved with the limiting frame 601 through the fixing plate 302, the steel pipe 70 in the limiting frame 601 is fixed upwards through the upper pressing plate 602, the limiting frame 601 is enabled to fix the four directions of the steel pipe 70, and after the steel pipe 70 is fixed through the upper pressing plate 602, the conveying cylinder 104 pushes the limiting frame 601 to move towards the cutting device 40. In the moving process of the conveying cylinder 104, the adjusting rod 605 arranged above the upper press plate 602 is engaged with the adjusting plate 80, so that in the moving process of the limiting frame 601, the adjusting rod 605 and the adjusting plate 80 can continuously fix the upper press plate 602, the steel pipe 70 and the limiting frame 601, when the adjusting rod 605 rotates through the adjusting plate 80, the fastening shaft 606 inside the upper press plate 602 is connected with the adjusting rod 605 through the conducting belt 609, so that the fastening shaft 606 rotates while the adjusting rod 605 rotates, the lower end of the fastening shaft 606 corresponds to the alignment hole 608 inside the limiting frame 601, the fastening shaft 606 is in threaded connection with the alignment hole 608 while the fastening shaft 606 rotates, so that the fastening shaft can move relative to the alignment hole 608, further the fixing force of the upper press plate 602 to the steel pipe 70 is further improved, in the moving process of the steel pipe 70, because the upper press plate 602 and the lower press device 30 are directly arranged to be sleeved, therefore, the fixing plate 302 of the pressing device 30 does not move along with the upper pressing plate 602, after the steel pipe 70 moves to the cutting device 40, the cutting blade 402 cuts and segments the steel pipe 70, and the influence of the vibration generated in the cutting process of the steel pipe 70 on the fixed position of the steel pipe 70 is reduced through the upper pressing plate 602, the limiting frame 601, the adjusting rod 605 and the aligning hole 608 in the cutting process

Specifically, as shown in fig. 7, the binding device 50 includes: the driving wheels 505 are arranged above the conveying frame 102, the driving wheels 505 are fixedly connected with connecting plates arranged on the upper surface of the conveying frame 102, and the number of the driving wheels 505 is four; a rotating ring 502, the rotating ring 502 is arranged in the middle of the driving wheel 505, and the outer periphery of the rotating ring 502 is meshed with the outer periphery of the driving wheel 505; the binding plate 503 is arranged on the surface of the rotating ring 502, and the binding plate 503 is fixedly connected with the rotating ring 502; the rotating motor 504 is arranged on the outer side of the conveying frame 102, the rotating motor 504 is connected with the driving wheel 505, and the rotating motor 504 controls the driving wheel 505 to rotate; and the connecting belt 501 is arranged on the periphery of the driving wheel 505, and the connecting belt 501 is used for controlling the rotation of the rest driving wheels 505.

Specifically, as shown in fig. 6, a conveying device 90 is disposed below the limiting frame 601, the conveying device 90 is disposed inside the conveying frame 102, the conveying device 90 is fixedly connected to the conveying frame 102, and the conveying device 90 includes: the conveying wheels 901 are arranged inside the conveying frame 102, the conveying wheels 901 are meshed with the change-over disc 603, a rectangular groove is formed in the lower bottom surface of the change-over disc 603, a convex ring is arranged on the periphery of each conveying wheel 901, the convex ring of each conveying wheel 901 is meshed with the groove of the change-over disc 603, and a plurality of conveying wheels 901 are arranged; the conveying belt 902, the conveying belt 902 sets up in the periphery of conveying wheel 901, and conveying belt 902 drives conveying wheel 901 and becomes the same direction rotation.

After cutting, the conveying device 90 moves the steel pipe 70, the conveying wheel 901 of the conveying device 90 is in matching connection with the conversion plate 603 arranged below the limiting frame 601, in the process that the limiting frame 601 moves to the binding device 50, the limiting frame 601 and the steel pipe 70 realize direction conversion through the adjusting plate 80 arranged inside the conveying frame 102, when the limiting frame 601 and the steel pipe 70 contact the adjusting plate 80, the arc end of the adjusting plate 80 firstly touches the steel pipe 70 so that the steel pipe 70 drives the limiting frame 601 to rotate, the conversion plate 603 continuously moves to the binding device 50 while the limiting frame 601 rotates, the conversion plate 603 is in movable connection with the limiting frame 601, the limiting frame 601 rotates around the center of the conversion plate 603, after the surfaces of the limiting frame 601 and the adjusting plate 80 are attached, the cutting end of the steel pipe 70 is opposite to the binding device 50, and after the steel pipe 70 moves to the binding device 50, the binding plate 503 of the binding device 50 binds the steel pipe 70, drive driving wheel 505 rotation through using rotation motor 504, driving wheel 505 carries out the centre of a circle rotation to rotatory ring 502 to use rotatory ring 502 to drive and bind the dish 503 and carry out rotatory the binding around steel pipe 70's periphery, thereby realize need not the manual work after steel pipe 70 cutting and carry out the position arrangement and binding, improve steel pipe 70 machining efficiency, reduce the amount of labour, steel pipe 70 after binding simultaneously has reduced area.

When the steel pipe cutting machine is used, the receiving belt 103 conveys the steel pipe 70 to the limiting device 60, the limiting frame 601 of the limiting device 60 loads the steel pipe 70, when the steel pipe 70 reaches a certain conveying amount, the receiving belt 103 stops conveying the steel pipe 70, then the pressing device 30 moves the fixing plate 302 downwards through the telescopic motor 604, the fixing plate 302 enables the upper pressing plate 602 to be meshed with the limiting frame 601, after the upper pressing plate 602 is connected with the limiting frame 601, the upper pressing plate 602 presses and fixes the steel pipe 70 in the limiting frame 601, so that the steel pipe 70 in the limiting frame 601 keeps high stability, then the conveying cylinder 104 pushes the limiting frame 601 to move towards the cutting device 40, the adjusting rod 605 arranged above the upper pressing plate 602 is meshed with the tooth groove of the adjusting plate 80 while the limiting frame 601 moves, in the process that the adjusting rod 605 is meshed with the adjusting plate 80, the conveying cylinder 104 continuously pushes and is meshed with the adjusting rod 605, a fastening shaft 606 arranged inside the upper pressure plate 602 is in threaded connection with the alignment hole 608, so that the pressing force of the upper pressure plate 602 on the steel pipe 70 is further kept high in stability through the fastening shaft 606 and the alignment hole 608, the upper pressure plate 602 can also fix the steel pipe 70 after being separated from the pressing force of the fixing plate 302, after the limiting frame 601 reaches the cutting device 40, the cutting blade 402 cuts the steel pipe 70 in a segmented manner, the segmented and cut steel pipe 70 drives the conversion disk 603 to move towards the binding device 50 through the conveying wheel 901, in the moving process of the conversion disk 603, when the limiting frame 601 and the steel pipe 70 pass through the adjusting plate 80, the arc-shaped end of the adjusting plate 80 contacts the steel pipe 70 to turn the steel pipe 70, so that the limiting frame 601 rotates around the center of the conversion disk 603, the direction conversion of the steel pipe 70 is realized, the cutting end of the steel pipe 70 faces towards the binding device 50, after the direction conversion is completed, the steel pipe 70 is conveyed to the binding device 50 through the conveying wheel 901, the binding device 50 drives the driving wheel 505 to rotate through the rotating motor 504, the driving wheel 505 drives the rotating ring 502 to rotate around the center of the rotating ring 502, the rotating ring 502 drives the binding disc 503 to rotate around the periphery of the steel pipe 70 for binding, meanwhile, the adjusting rod 605 is loosened manually, after the adjusting rod 605 is loosened, the upper pressure plate 602 releases the fixation of the steel pipe 70, the steel pipe 70 continues to move through the conveying roller 106, meanwhile, the binding disc 503 carries out all-dimensional binding on the steel pipe 70, automatic binding after the steel pipe 70 is cut is achieved, the situation that the steel pipe 70 needs to be rearranged for binding after the steel pipe 70 is placed manually and cut is reduced, the labor amount of workers is increased, and meanwhile, the.

Finally, as shown in fig. 8, there is provided a method for using a device for machining a steel pipe 70, comprising the steps of:

the steel pipe 70 is conveyed to the receiving rack 101 through the conveying roller 202, the steel pipe 70 moves towards the pressing device 30 through the receiving belt 103 of the receiving rack 101, the receiving belt 103 drives the steel pipe 70 to move to the pressing device 30, and after the steel pipe 70 moves to the limiting device 60, the steel pipe 70 falls into the limiting frames 601 respectively;

starting the pressing device 30, moving the fixing plate 302 downwards to approach the limiting frame 601 through the telescopic motor 604, moving the upper pressing plate 602 connected with the fixing plate 302 to the limiting frame 601 while moving the fixing plate 302 downwards, and simultaneously matching the upper pressing plate 602 with the limiting frame 601, wherein the surface of the upper pressing plate 602 is attached to the outer part of the steel pipe 70 to form primary fixation;

the conveying cylinder 104 is started, the conveying cylinder 104 pushes the limiting frame 601 to move towards the cutting device 40, the adjusting rod 605 arranged on the upper pressure plate 602 is meshed with the adjusting plate 80 while the limiting frame 601 moves towards the cutting device 40, the adjusting rod 605 and the adjusting plate 80 rotate while the limiting frame 601 moves, so that threaded connection is formed between the adjusting rod 605 and the aligning hole 608, the adjusting rod 605 approaches to the aligning hole 608, so that the upper pressure plate 602 is further fastened with the steel pipe 70 and the limiting frame 601, after the upper pressure plate 602 fixes the steel pipe 70 in the limiting frame 601, the conveying cylinder 104 continues to push the limiting frame 601 to move towards the cutting device 40, and after the limiting frame 601 moves to the cutting device 40, the cutting piece 402 of the cutting device 40 cuts the steel pipe 70 to realize segmentation;

starting the conveying device 90, after the steel pipe 70 is cut in sections, the conveying wheel 901 drives the conveying belt 902 to rotate through the arranged conveying motor, the conveying wheel 901 rotates and is meshed with the conversion disk 603 connected to the lower surface of the limiting frame 601, and the conveying wheel 901 rotates and drives the conversion disk 603 to move towards the binding device 50;

the direction is switched, when the switching disc 603 moves towards the binding device 50, the limiting frame 601 and the steel pipe 70 pass through the adjusting plate 105, the arc-shaped end of the adjusting plate 105 contacts the steel pipe 70 so that the steel pipe 70 rotates, when the steel pipe 70 rotates to 90 degrees, the limiting frame 601 is attached to the surface of the adjusting plate 105, and when the limiting frame 601 moves towards the binding device 50, the top end of the steel pipe 70 and the binding device 50 form a relative direction;

the rotating motor 504 is started, the rotating motor 504 is started after the limiting frame 601 and the steel pipe 70 reach the specified position, the rotating motor 504 drives the four driving wheels 505 to rotate, the rotating ring 502 rotates around the circle center through the rotation of the driving wheels 505, the steel pipe 70 penetrates through the circle center of the rotating ring 502, when the steel pipe 70 penetrates through the circle center of the rotating ring 502, the steel pipe 70 is bound by the binding disc 503 connected to the surface of the rotating ring 502, meanwhile, the fixing of the adjusting rod 605 on the upper pressure plate 602 is cancelled, and after the steel pipe 70 is partially bound, the steel pipe 70 continues to move through the conveying roller 106, so that the steel pipe 70 is bound in all directions.

Although the illustrative embodiments of the present application have been described above to enable those skilled in the art to understand the present application, the present application is not limited to the scope of the embodiments, and various modifications within the spirit and scope of the present application defined and determined by the appended claims will be apparent to those skilled in the art from this disclosure.

Claims (10)

1. A steel pipe processing apparatus, comprising:

the body is arranged on a plane;

the transfer table, the transfer table sets up the outside of organism, the transfer table with organism fixed connection, the transfer table includes:

the conveying frame is arranged on the outer side of the machine body and fixedly connected with the machine body, a hollow upper opening is formed in the conveying frame, and the upper surface of the conveying frame is flush with the upper surface of the machine body;

the conveying roller wheel is arranged inside the conveying frame and connected with the conveying frame, and the conveying roller wheel is used for conveying the steel pipe;

the device pushes down, the device setting of pushing down is in the top of organism, the device of pushing down with organism fixed connection, the device of pushing down with the organism directly is provided with the space, the device of pushing down includes:

the fixing frame is arranged above the machine body and fixedly connected with the machine body, the fixing frame is hollow, a telescopic motor is arranged on the upper surface of the fixing frame, and the telescopic motor is connected with the fixing frame;

the fixing plate is arranged below the fixing frame, a gap is formed between the fixing frame and the fixing plate, the upper surface of the fixing plate is connected with one end of the telescopic motor, and the fixing plate moves up and down through the telescopic motor;

cutting device, cutting device sets up one side of pushing down the device, cutting device with be provided with the space between the device pushes down, cutting device with organism fixed connection, cutting device includes:

the cutting frame is arranged above the machine body and is higher than the fixed frame, and a lifting cylinder is arranged on the upper surface of the cutting frame;

the cutting piece is connected with the lifting end of the lifting cylinder and used for cutting the steel pipe;

the binding device is arranged at one end of the machine body, is fixedly connected with the machine body and is used for arranging and fixing the steel pipes after cutting;

the limiting device is arranged inside the machine body and is movably connected with the machine body, and the limiting device is used for positioning the steel pipe during cutting.

2. A steel pipe machining apparatus as claimed in claim 1, wherein the machine body includes:

the receiving frame is arranged on a plane and fixedly connected with the conveying roller way, the receiving frame is arranged on the outer side of the conveying roller way, an opening is formed in the joint of the receiving frame and the conveying roller way, the conveying roller wheel conveys the steel pipe to move to the receiving frame, a receiving belt is arranged inside the receiving frame, the steel pipe is arranged on the upper surface of the receiving belt, and the receiving belt conveys the steel pipe to the pressing device;

the conveying frame is arranged below the receiving frame and fixedly connected with the receiving frame, the overlapped part of the conveying frame and the receiving frame is connected with the pressing device and the cutting device, and the binding device is connected above the conveying frame;

the conveying cylinder is arranged inside the receiving frame and used for pushing the limiting device to move;

the adjusting plates are arranged inside the conveying frame and fixedly connected with the conveying frame, and the number of the adjusting plates is two, and the adjusting plates are symmetrically arranged;

the conveying roller way is arranged inside the conveying frame and is movably connected with the conveying frame.

3. A steel pipe machining apparatus as claimed in claim 1, wherein the stopper means comprises:

the limiting frame is arranged inside the receiving frame, is arranged above the conveying frame, is movably connected with the conveying frame, is matched with the sliding groove of the conveying frame at the lower end and moves along the extending direction of the sliding groove of the conveying frame;

the upper pressure plate is arranged above the limiting frame and is movably connected with the limiting frame, and two opposite ends of the upper pressure plate are matched with the inner walls of two opposite sides of the limiting frame;

the switching disc is arranged below the limiting frame, the switching disc is connected with the limiting frame through a rotating shaft, and the switching disc is arranged in a sliding groove of the conveying frame;

the telescopic motor is arranged on the upper surface of the fixing frame and used for controlling the movement of the fixing plate;

the adjusting rod is arranged on the upper surface of the limiting frame and movably connected with the limiting frame, and the adjusting rod rotates around the circular shape of the cylinder above the limiting frame;

the fastening shaft is arranged inside the upper pressure plate, the fastening shaft is movably connected with the upper pressure plate through a bearing,

the rotating wheel is arranged on the periphery of the fastening shaft and is fixedly connected with the fastening shaft;

the alignment hole is arranged inside the limiting frame, corresponds to the fastening shaft and is provided with a gap;

the conduction area, the conduction area sets up the periphery of swiveling wheel, the conduction area is connected adjust the pole with the swiveling wheel, it passes through to adjust the pole the conduction area drives the swiveling wheel rotates.

4. A steel pipe processing apparatus as claimed in claim 1, wherein the binding means comprises:

the driving wheels are arranged above the conveying frame, the driving wheels are fixedly connected with a connecting plate arranged on the upper surface of the conveying frame, and the number of the driving wheels is four;

the rotating ring is arranged in the middle of the driving wheel, and the periphery of the rotating ring is meshed with the periphery of the driving wheel;

the binding disc is arranged on the surface of the rotating ring and is fixedly connected with the rotating ring;

the rotating motor is arranged on the outer side of the conveying frame and is connected with the driving wheel, and the rotating motor controls the driving wheel to rotate;

the connecting band sets up the periphery of drive wheel, the connecting band is used for controlling the rotation of other drive wheels.

5. The steel pipe processing device according to claim 3, wherein an adjusting plate is disposed between the pressing device and the cutting device, the adjusting plate is fixedly connected with the pressing device and the cutting device, a tooth space is disposed on one side of the adjusting plate, and the surface of the adjusting plate is attached to the periphery of the adjusting rod.

6. The steel pipe processing device according to claim 5, wherein when the position-limiting frame moves along the direction in which the sliding slot of the carriage extends, the outer circumference of the adjusting rod engages with the surface of the adjusting plate to drive the fastening shaft to connect with the alignment hole, so that the upper pressing plate moves downward.

7. The steel pipe processing device according to claim 6, wherein an upper end of the adjusting rod is connected to a lower end of the fixing plate, the upper end of the adjusting rod is sleeved to the lower end of the fixing plate, and the adjusting rod can be directly separated from the fixing plate when the limiting frame moves.

8. The steel pipe processing device according to claim 2, wherein the adjusting plate is arranged on the right side of the cutting device, the adjusting plate is an arc-shaped plate, and an arc-shaped end of the adjusting plate contacts with an outer surface of the limiting device first, so that the limiting device rotates to adjust the direction of the steel pipe.

9. The steel pipe processing device according to claim 3, wherein a conveying device is arranged below the limiting frame, the conveying device is arranged inside the conveying frame, the conveying device is fixedly connected with the conveying frame, and the conveying device comprises:

the conveying wheels are arranged inside the conveying frame and meshed with the conversion disc, a rectangular groove is formed in the lower bottom surface of the conversion disc, a convex ring is arranged on the periphery of each conveying wheel and meshed with the groove of the conversion disc, and a plurality of conveying wheels are arranged;

and the conveying belt is arranged on the periphery of the conveying wheel and drives the conveying wheel to rotate in the same direction.

10. The steel pipe processing device according to claim 4, wherein the rotation motor rotates the driving wheel after the limiting device moves to the binding device, so that the rotation wheel rotates around a circle, and the binding disc rotates around the outer circumference of the steel pipe to bind.

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