CN111332754A

CN111332754A - Automatic feeding and steel distributing device for pipes

Info

Publication number: CN111332754A
Application number: CN202010260638.4A
Authority: CN
Inventors: 杨树兴; 张兆国; 沙峰; 赵彦来
Original assignee: Shandong Bairui Environmental Protection And Technology Co ltd
Current assignee: Shandong Bairui Environmental Protection And Technology Co ltd
Priority date: 2020-04-03
Filing date: 2020-04-03
Publication date: 2020-06-26

Abstract

The invention relates to the technical field of pipe production and processing, in particular to an automatic pipe feeding and steel distributing device which comprises a supporting rod, a conveying structure, a lubricating structure, a distributing structure, a buffering structure and a feeding structure, wherein the conveying structure is arranged on the supporting rod; through the setting of dividing the material structure, can carry out single the drawing with the tubular product that the transportation structure went up the tiling, thereby can avoid appearing not dividing the circumstances of ejection of compact or many materials when dividing the material, improve the efficiency that tubular product divided the material one by one, reach the effect that improves the production rhythm, and still be equipped with buffer structure on dividing the material structure, can carry out abundant buffering with the tubular product that rolls from dividing the material structure, thereby can avoid the impact damage that the tubular product directly rolls and leads to the fact, the effect of protection tubular product has been played, and tubular product rolls into the inside of feeding structure, can carry out vertical transportation to tubular product through the feeding structure, guarantee the spraying production line for tubular product spraying production line one by one, reach and carry one by one with the tubular product after the bed even cloth of cloth, thereby can improve spraying efficiency and quality greatly.

Description

Automatic feeding and steel distributing device for pipes

Technical Field

The invention relates to the technical field of pipe production and processing, in particular to an automatic pipe feeding and steel distributing device.

Background

Tubing is the material used to make pipe fittings. Different pipes are used for different pipe fittings, and the quality of the pipes directly determines the quality of the pipe fittings. The multipurpose pipe for building engineering, power plants, chemical plants and the like has an execution standard GB/T5310; for high-pressure boilers: the execution standard GB/T8163; seamless steel pipe for transporting fluid: there is an implementation standard GB 3087; seamless steel pipe for low pressure boiler: has an execution standard GB/T9948; seamless steel pipe for petroleum cracking: has an execution standard GB/T14976; stainless seamless steel pipe for fluid transportation is made of alloy (15CrMo, 12Cr1MoV) carbon steel (10#, 20#, 45#) stainless steel (304, 316). The pipe is a necessary material for building engineering, and commonly used materials comprise a water supply pipe, a water discharge pipe, a gas pipe, a heating pipe, an electric wire conduit, a rainwater pipe and the like. With the development of science and technology, the pipes used in home decoration also go through the development process of common cast iron pipes → cement pipes → (reinforced concrete pipes, asbestos cement pipes) → (nodular cast iron pipes), galvanized steel pipes → plastic pipes and aluminum-plastic composite pipes.

In order to prevent corrosion and prolong the service life of various pipes used in the industries of building engineering, mine construction, bridge construction and the like, a coating needs to be sprayed on the surface of the pipe, but the spraying production line is a one-by-one pipe spraying production line, the pipes uniformly distributed on a material distribution bed need to be conveyed to a spraying inlet roller way one by one, but the common material distribution device frequently distributes materials and the condition that the materials cannot be distributed or a plurality of materials are distributed is often generated, and the production rhythm is seriously influenced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an automatic pipe feeding and steel distributing device.

The technical scheme adopted by the invention for solving the technical problems is as follows: the automatic pipe feeding and steel distributing device comprises support rods, a conveying structure, a lubricating structure, a distributing structure, a buffering structure and a feeding structure, wherein the conveying structure for conveying pipes is arranged at the top ends of the four support rods for supporting and mounting other parts; the pipe feeding device comprises a conveying structure, a material distributing structure, a buffering structure and a feeding structure, wherein the material distributing structure is used for separating and extracting pipes on the conveying structure, the buffering structure is used for buffering the pipes, and the feeding structure is used for conveying the separated pipes.

Specifically, the transportation structure comprises a mounting plate, a first chain wheel, a first chain, a fixed plate, a first motor, a fixed sleeve, a rotating shaft, a first belt and a second belt, two of the four supporting rods form a group, two mounting plates which are in parallel are fixed at the top ends of the two groups of supporting rods, the two ends of the two mounting plates are respectively and rotationally connected with the first chain wheels, and the two first chain wheels are driven by the first chains, one end of one of the support rods is fixed with the fixed plate, the top end of the fixed plate is fixed with the first motor, the fixing sleeves are fixed at the same end of the two support rods, the rotating shaft is rotatably connected between the two fixing sleeves, and the rotating shaft is connected with the first motor in a rotating way through the first belt, and the rotating shaft is connected with the first chain wheels in a rotating way through the second belt.

Specifically, lubricating structure includes batch oil tank, oil pipe, sponge, ejector pin, clamp plate, gasbag, first spring, collecting vat and collecting box, the batch oil tank is located the one end of fixed cover the bottom mounting of mounting panel the sponge, just the sponge with pass through between the batch oil tank oil pipe connects, just oil pipe with the inside of batch oil tank communicates with each other the inside of fixed cover the outside of pivot is fixed the ejector pin, just the ejector pin with fixed cover rotates to be connected the inside sliding connection of fixed cover has the clamp plate with centre gripping between the fixed cover the gasbag the clamp plate with the centre gripping is fixed between the fixed cover first spring, just the inside of gasbag with the inside of batch oil tank communicates with each other, is two sets ofly the equal fixed cross-section in the inside of bracing piece is "concave" shape structure the collecting vat, the bottom ends of the two collecting grooves are both fixedly provided with the collecting boxes in inverted trapezoid structures.

The material distributing structure comprises a material blocking plate, a transverse plate, a cylinder, a material distributing plate and a material receiving plate, wherein the top end of the mounting plate is mounted on the material blocking plate, one end of a supporting rod is fixed to the transverse plate, two bottom ends of the transverse plate are fixed to the cylinder and are in symmetrical relation, the cylinder is fixed to the same end of the cylinder and is in an L-shaped structure, the material distributing plate deviates from one end of the cylinder and is of a triangular structure, the central position of the material distributing plate is fixed to the material receiving plate, and the material receiving plate and the material distributing plate are 30-degree included angles.

Specifically, buffer structure is including accomodating groove, buffer board, round pin axle and second spring, is the rectangle structure accomodate the groove and locate connect the flitch the inside of accomodating the groove is equipped with the buffer board, just the buffer board passes through the round pin axle with connect the flitch to rotate and connect the buffer board with it is fixed to connect the centre gripping between the flitch the second spring.

Specifically, feed structure includes support, stand, bull stick, roller, second sprocket, second chain, first belt pulley, third belt, second belt pulley and second motor, the support is located the one end of bracing piece the fixed multiunit two in top of support are a set of the stand, every group all rotate between the stand the bull stick the external fixation of bull stick the roller the external fixation of bull stick the second sprocket, and a plurality of the second sprocket all passes through the second chain carries out the transmission, at one of them the external fixation of bull stick first belt pulley the one end of support is fixed the second motor the one end of second motor is fixed the second belt pulley, just first belt pulley with the second belt pulley passes through the third belt rotates to be connected.

The invention has the beneficial effects that:

(1) the automatic pipe feeding and steel distributing device has the advantages that through the arrangement of the conveying structure, the automatic pipe feeding and steel distributing device not only can play a role in conveying pipes, but also can carry out tiling work on the pipes, so that the subsequent pipe processing technology can be conveniently carried out, in addition, the conveying structure can synchronously drive the lubricating structure to work while carrying out conveying work, through the work of the lubricating structure, the full oiling work can be carried out on the conveying structure, the clamping of the conveying structure can be avoided, the service life of the conveying structure can be prolonged, namely, the first chain wheels are respectively rotated at the two ends of the two mounting plates, the first chain wheels are transmitted through the first chains, and the two first chain wheels are rotatably connected with the rotating shaft through the second belt, namely, the rotating shaft is rotated, and the first motor is rotatably connected with the rotating shaft through the first belts, therefore, when the first motor works, the rotation of the two first chains can be realized, when the pipes are pushed to the two first chains, the pipes on the first chains move along with the rotation of the first chains, and due to the continuous rotation of the first chains, the pipes on the first chains can be ensured to be in a flat state, so that the subsequent pipe processing is convenient, when the rotating shaft works, the rotating shaft can drive the ejector rod fixed outside the rotating shaft to rotate, the ejector rod rotates, and then the pressing plate can reciprocate in the fixed sleeve under the action of the elastic force of the first spring clamped between the pressing plate and the fixed sleeve, so that the air bag can be continuously extruded, the air bag is inflated, because the air bag is connected with the inside of the oil storage tank, the gas generated by the air bag can enter the inside of the oil storage tank, and the internal air pressure of the oil storage tank is increased at the moment, just can pass through oil pipe extrusion to the sponge with the inside lubricating oil of batch oil tank, the sponge just can lubricate first chain to guarantee the normal work of first chain, through the collecting vat that sets up in first chain bottom, can concentrate the collection to the lubricating oil that drips, at the bottom mounting collecting box of collecting vat, can carry out interim storage to the lubricating oil of collecting and recycle.

(2) The automatic pipe feeding and steel separating device can extract the pipes tiled on the conveying structure singly through the arrangement of the material separating structure, thereby avoiding the condition that the pipes cannot be discharged or a plurality of materials are separated during material separation, improving the one-by-one material separating efficiency of the pipes, achieving the effect of improving the production rhythm, and also arranging the buffer structure on the material separating structure, fully buffering the pipes rolled from the material separating structure through the arrangement of the buffer structure, thereby avoiding the impact damage caused by the direct rolling of the pipes, playing the role of protecting the pipes, rolling the pipes into the feeding structure, vertically conveying the pipes through the feeding structure, ensuring that the spraying production line is a one-by-one pipe spraying production line, achieving the one-by-one conveying of the pipes uniformly distributed on a material distributing bed, and greatly improving the spraying efficiency and quality, the baffle plate is installed on the top end of the mounting plate, tiled pipes on the first chain wheel can be blocked, and therefore the pipes can be prevented from directly rolling off, when the pipes need to be subjected to single material distribution, the air cylinder works, because the air cylinder and the material distribution plate are fixedly connected, the air cylinder acts to drive the material distribution plate to move upwards, the material distribution plate can be inserted from the gap of the two pipes, the material distribution plate continuously rises to jack the pipes on the first chain wheel, when the material distribution plate jacks up to the position where the pipes are not blocked by the baffle plate, the pipes roll down along the material receiving plate at the moment, and therefore the single material distribution work of the pipes is completed, the subsequent spraying is guaranteed, the spraying quality and the spraying efficiency are improved, the buffer plate is rotatably connected to the material receiving plate and forms a certain angle with the material receiving plate, the second spring is fixedly clamped between the buffer plate and the material receiving plate, and the pipes rolling from the material receiving plate can be fully buffered through the elastic force of the second spring Thereby can avoid tubular product directly to roll down and cause the damage of tubular product, when tubular product rolls into the roller from connecing the flitch on, just can carry tubular product one by one, because two fixed multiunit stands that are a set of on the top of support, rotate the bull stick between every group stand, and the outside fixed roller of bull stick, through the setting of a plurality of rollers, can carry out vertical transport with tubular product, because the outside of every bull stick all fixes the second sprocket, and the second sprocket all passes through second chain drive, only need a bull stick to rotate promptly, can realize the synchronous rotation of a plurality of bull sticks, and at the outside fixed first belt pulley of one of them bull stick, at the outside fixed second belt pulley of second motor, and first belt pulley and second belt pulley rotate through the third belt and connect, consequently, the second motor work can realize carrying one by one of roller to tubular product.

Drawings

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

FIG. 1 is a structural diagram illustrating the overall structure of a preferred embodiment of the automatic pipe feeding and steel separating device provided by the present invention;

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

FIG. 3 is a schematic view of the connection of the transport structure and the lubricating structure shown in FIG. 1;

FIG. 4 is an enlarged view of the portion B shown in FIG. 1;

fig. 5 is an enlarged schematic view of the portion C shown in fig. 1.

In the figure: 1. support rod, 2, transportation structure, 21, mounting plate, 22, first chain wheel, 23, first chain, 24, fixing plate, 25, first motor, 26, fixing sleeve, 27, rotating shaft, 28, first belt, 29, second belt, 3, lubricating structure, 31, oil storage tank, 32, oil pipe, 33, sponge, 34, ejector rod, 35, pressing plate, 36, air bag, 37, first spring, 38, collecting tank, 39, collecting tank, 4, material separating structure, 41, material baffle, 42, transverse plate, 43, air cylinder, 44, material separating plate, 45, material receiving plate, 5, buffer structure, 51, receiving groove, 52, buffer plate, 53, pin shaft, 54, second spring, 6, feeding structure, 61, support, 62, upright column, 63, rotating rod, 64, roller shaft, 65, second chain wheel, 66, second chain, 67, first belt wheel, 68, third belt, 69, second belt wheel, 69a, a second motor.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-5, the automatic pipe feeding and steel distributing device according to the present invention includes a support rod 1, a transportation structure 2, a lubrication structure 3, a material distributing structure 4, a buffering structure 5, and a feeding structure 6, wherein the transportation structure 2 for transporting pipes is installed at the top ends of four support rods 1 for supporting and installing other components; the pipe separating and feeding device is characterized in that a material separating structure 4 used for separating and extracting pipes on the transportation structure 2 is installed at one end of the transportation structure 2, a buffering structure 5 used for buffering the pipes is installed at one end of the material separating structure 4, and a feeding structure 6 used for conveying the separated pipes is installed at one end of the transportation structure 2.

Specifically, transportation structure 2 includes mounting panel 21, first sprocket 22, first chain 23, fixed plate 24, first motor 25, fixed cover 26, pivot 27, first belt 28 and second belt 29, four bracing piece 1 two is a set of, and is two sets of two are all fixed two on the top of bracing piece 1 parallel relation mounting panel 21, two the both ends of mounting panel 21 are all rotated and are connected with first sprocket 22, and two pass through between the first sprocket 22 through the transmission of first chain 23, at one of them the one end of bracing piece 1 is fixed plate 24 the top of fixed plate 24 is fixed first motor 25, two the same end of bracing piece 1 is all fixed cover 26, two rotate between the fixed cover 26 and be connected with pivot 27, just pivot 27 passes through first belt 28 with first motor 25 rotates and is connected, the rotating shaft 27 is rotatably connected to two of the first chain wheels 22 through the second belt 29, since the first chain wheels 22 are rotatably connected to two ends of the two mounting plates 21, and the first chain wheels 22 are driven by the first chains 23, and since two of the first chain wheels 22 are rotatably connected to the rotating shaft 27 through the second belt 29, that is, the rotating shaft 27 rotates to rotate the two first chains 23, since the first motor 25 is rotatably connected to the rotating shaft 27 through the first belt 28, when the first motor 25 operates, the two first chains 23 can rotate, and when a tube is pushed to the two first chains 23, the tube on the first chain 23 moves along with the rotation of the first chains 23, and due to the continuous rotation of the first chains 23, the pipes on the first chain 23 can be guaranteed to be in a flat laying state, so that subsequent pipe processing is convenient to perform.

Specifically, lubricating structure 3 includes batch oil tank 31, oil pipe 32, sponge 33, ejector pin 34, clamp plate 35, gasbag 36, first spring 37, collecting vat 38 and collecting box 39, batch oil tank 31 is located the one end of fixed cover 26 the bottom mounting of mounting panel 21 sponge 33, just sponge 33 with pass through between the batch oil tank 31 oil pipe 32 connects, just oil pipe 32 with the inside of batch oil tank 31 communicates with each other the inside of fixed cover 26 the external fixation of pivot 27 ejector pin 34, just ejector pin 34 with fixed cover 26 rotates and connects the inside sliding connection of fixed cover 26 has clamp plate 35 with centre gripping between the fixed cover 26 gasbag 36 clamp plate 35 with between the fixed cover 26 first spring 37, just the inside of gasbag 36 with the inside of batch oil tank 31 communicates with each other, the collecting grooves 38 with the concave-shaped cross section are fixed inside the two sets of support rods 1, the collecting boxes 39 with the inverted trapezoid-shaped structures are fixed at the bottom ends of the two collecting grooves 38, when the rotating shaft 27 works, the push rods 34 fixed outside the rotating shaft 27 are driven to rotate, the push rods 34 rotate, and then are matched with the elastic action of the first springs 37 clamped between the pressing plate 35 and the fixing sleeve 26, so that the pressing plate 35 can reciprocate inside the fixing sleeve 26, the air bags 36 can be continuously extruded, the air bags 36 are inflated, gas generated by the air bags 36 enters the inside of the oil storage tank 31 due to the internal connection of the air bags 36 and the oil storage tank 31, at the moment, the internal air pressure of the oil storage tank 31 is increased, and lubricating oil inside the oil storage tank 31 can be extruded to the sponge 33 through the oil pipe 32, the sponge 33 can lubricate the first chain 23, so as to ensure the normal operation of the first chain 23, the collection groove 38 arranged at the bottom end of the first chain 23 can collect the dropped lubricating oil in a centralized manner, the collection box 39 is fixed at the bottom end of the collection groove 38, and the collected lubricating oil can be temporarily stored and reused.

Specifically, the distributing structure 4 includes a material blocking plate 41, a transverse plate 42, a cylinder 43, a material distributing plate 44 and a material receiving plate 45, the material blocking plate 41 is installed at the top end of the installing plate 21, the transverse plate 42 is fixed at one end of the supporting rod 1, two cylinders 43 in a symmetrical relationship are fixed at the bottom end of the transverse plate 42, the material distributing plate 44 in an L-shaped structure is fixed at the same end of each of the two cylinders 43, one end of the material distributing plate 44 departing from the cylinder 43 is in a triangular structure, the material receiving plate 45 is fixed at the central position of the material distributing plate 44, the material receiving plate 45 and the material distributing plate 44 are in an included angle of 30 degrees, the material blocking plate 41 is installed at the top end of the installing plate 21, pipes on the first chain wheel 22 can be flatly laid and blocked, so that the pipes can be prevented from directly rolling off, when the pipes need to be singly distributed, the air cylinder 43 works, because the air cylinder 43 is fixedly connected with the material distributing plate 44, the air cylinder 43 acts to drive the material distributing plate 44 to move upwards, the material distributing plate 44 is inserted into a gap between two pipes, the material distributing plate 44 can jack the pipes on the first chain wheel 22 after continuously rising, and when the material distributing plate 44 jacks to the material stopping plate 41 to stop the pipes, the pipes roll down along the material receiving plate 45, so that the single material distributing work of the pipes is completed, the subsequent spraying is ensured to be sprayed one by one, and the spraying quality and efficiency are improved.

Specifically, the buffer structure 5 includes a receiving groove 51, a buffer plate 52, a pin 53 and a second spring 54, the receiving groove 51 having a rectangular structure is disposed on the material receiving plate 45, the buffer plate 52 is arranged in the accommodating groove 51, the buffer plate 52 is rotatably connected with the material receiving plate 45 through the pin shaft 53, the second spring 54 is clamped and fixed between the buffer plate 52 and the receiving plate 45, because the material receiving plate 45 is rotatably connected with the buffer plate 52, and the buffer plate 52 and the material receiving plate 45 form a certain angle, the second spring 54 is clamped and fixed between the buffer plate 52 and the receiving plate 45, the tube rolling from the material receiving plate 45 can be fully buffered by the elastic force of the second spring 54, so that the tube can be prevented from directly rolling down to cause the damage of the tube.

Specifically, the feeding structure 6 includes a bracket 61, a vertical column 62, a rotating rod 63, a roller shaft 64, a second sprocket 65, a second chain 66, a first pulley 67, a third belt 68, a second pulley 69 and a second motor 69a, the bracket 61 is disposed at one end of the supporting rod 1, multiple sets of two sets of the vertical columns 62 are fixed at the top end of the bracket 61, the rotating rod 63 rotates between the vertical columns 62 in each set, the roller shaft 64 is fixed outside the rotating rod 63, the second sprocket 65 is fixed outside the rotating rod 63, the second sprockets 65 are driven by the second chain 66, the first pulley 67 is fixed outside one of the rotating rods 63, the second motor 69a is fixed at one end of the bracket 61, the second pulley 69 is fixed at one end of the second motor 69a, the first belt pulley 67 and the second belt pulley 69 are rotatably connected through the third belt 68, so that when the pipes roll into the roller shaft 64 from the material receiving plate 45, the pipes can be conveyed one by one, because a plurality of groups of two upright posts 62 are fixed at the top end of the bracket 61, the rotating rods 63 are rotated between the upright posts 62 in each group, the roller shafts 64 are fixed outside the rotating rods 63, the pipes can be vertically conveyed through the arrangement of a plurality of roller shafts 64, because the second chain wheel 65 is fixed outside each rotating rod 63 and the second chain wheels 65 are driven by the second chain 66, namely, only one rotating rod 63 is required to rotate, the synchronous rotation of the plurality of rotating rods 63 can be realized, the first belt pulley 67 is fixed outside one rotating rod 63, and the second belt pulley 69 is fixed outside the second motor 69a, and the first belt pulley 67 and the second belt pulley 69 are rotatably connected through the third belt 68, so that the second motor 69a works to realize that the roll shaft 64 conveys the pipes one by one.

When in use, the first motor 25 and the second motor 69a are electrically connected with an external power supply, then the cylinder 43 is connected with an external air pipe, one end of the bracket 61 is connected with a spraying line, so as to ensure that pipes can enter the spraying line, the first chain wheels 22 are rotated at two ends of the two mounting plates 21, the first chain wheels 22 are driven by the first chains 23, and the two first chain wheels 22 are rotatably connected with the rotating shaft 27 through the second belts 29, namely, the rotating shaft 27 rotates to realize the rotation of the two first chains 23, and the first motor 25 is rotatably connected with the rotating shaft 27 through the first belts 28, so that when the first motor 25 works, the rotation of the two first chains 23 can be realized, when the pipes are pushed to the two first chains 23, the pipes on the first chain 23 move along with the rotation of the first chain 23, and due to the continuous rotation of the first chain 23, the pipes on the first chain 23 can be ensured to be in a flat state, so that the subsequent pipe processing is facilitated; when the rotating shaft 27 works, the push rod 34 fixed outside the rotating shaft 27 is driven to rotate, the push rod 34 rotates, the pressing plate 35 can reciprocate in the fixing sleeve 26 under the action of the elastic force of the first spring 37 between the pressing plate 35 and the fixing sleeve 26, the air bag 36 can be continuously extruded, the air bag 36 is inflated, the air bag 36 is connected with the inside of the oil storage tank 31, the gas generated by the air bag 36 enters the inside of the oil storage tank 31, the internal air pressure of the oil storage tank 31 is increased, the lubricating oil in the oil storage tank 31 can be extruded to the sponge 33 through the oil pipe 32, and the sponge 33 can lubricate the first chain 23, so as to ensure the normal work of the first chain 23, the collection groove 38 arranged at the bottom end of the first chain 23 can be used for collecting the dropped lubricating oil in a centralized manner, and the collection box 39 is fixed at the bottom end of the collection groove 38 and can be used for temporarily storing and reusing the collected lubricating oil; the material baffle plate 41 is arranged at the top end of the mounting plate 21, the flat pipes on the first chain wheel 22 can be blocked, so that the pipes can be prevented from directly rolling off, when the pipes need to be subjected to single material distribution, the air cylinder 43 works, because the air cylinder 43 is fixedly connected with the material distribution plate 44, the air cylinder 43 acts to drive the material distribution plate 44 to move upwards, the material distribution plate 44 can be inserted into the gap between the two pipes, the material distribution plate 44 can jack the pipes on the first chain wheel 22 after continuously rising, and when the material distribution plate 44 jacks up until the material baffle plate 41 does not block the pipes any more, the pipes can roll down along the material receiving plate 45, so that the single material distribution work of the pipes is completed, the subsequent spraying is ensured, and the spraying quality and efficiency are improved; the material receiving plate 45 is rotatably connected with the buffer plate 52, the buffer plate 52 and the material receiving plate 45 form a certain angle, the second spring 54 is clamped and fixed between the buffer plate 52 and the material receiving plate 45, and the pipe rolling from the material receiving plate 45 can be fully buffered by the elastic force of the second spring 54, so that the damage of the pipe caused by the direct rolling of the pipe can be avoided; when the pipes roll into the roller shafts 64 from the material receiving plate 45, the pipes can be conveyed one by one, because a plurality of groups of two upright columns 62 are fixed at the top end of the bracket 61, one group of two upright columns 62 are arranged between each group of upright columns 62, the rotating rods 63 are rotated, the roller shafts 64 are fixed outside the rotating rods 63, the pipes can be vertically conveyed through the arrangement of a plurality of roller shafts 64, because the second chain wheel 65 is fixed outside each rotating rod 63, and the second chain wheel 65 is driven by the second chain 66, namely only one rotating rod 63 is needed to rotate, the synchronous rotation of the rotating rods 63 can be realized, the first belt pulley 67 is fixed outside one rotating rod 63, the second belt pulley 69 is fixed outside the second motor 69a, and the first belt pulley 67 and the second belt pulley 69 are rotatably connected through the third belt 68, therefore, the second motor 69a works to realize the one-by-one conveying of the tubes by the roller shaft 64.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a tubular product automatic feeding divides steel ware which characterized in that: the pipe conveying device comprises supporting rods (1), a conveying structure (2), a lubricating structure (3), a material distributing structure (4), a buffering structure (5) and a feeding structure (6), wherein the conveying structure (2) for conveying pipes is arranged at the top ends of the four supporting rods (1) for supporting and mounting other parts; the pipe separating and feeding device is characterized in that a material separating structure (4) used for separating and extracting pipes on the conveying structure (2) is installed at one end of the conveying structure (2), a buffering structure (5) used for buffering the pipes is installed at one end of the material separating structure (4), and a feeding structure (6) used for conveying the separated pipes is installed at one end of the conveying structure (2).

2. The automatic pipe feeding and steel distributing device according to claim 1, wherein: the transportation structure (2) comprises a mounting plate (21), a first chain wheel (22), a first chain (23), a fixing plate (24), a first motor (25), a fixing sleeve (26), a rotating shaft (27), a first belt (28) and a second belt (29), four the two supporting rods (1) are in a group and are two sets of the mounting plate (21) which is in parallel relation with the two supporting rods (1) fixed on the top end of the two mounting plates (21) are connected with the first chain wheel (22) in a rotating way, the two supporting rods (1) are driven by the first chain (23) between the two first chain wheels (22), one end of each supporting rod (1) is fixed with the fixing plate (24), the top end of the fixing plate (24) is fixed with the first motor (25), and the two supporting rods (1) are fixed with the same end with the fixing sleeve (26), two it is connected with to rotate between fixed cover (26) pivot (27), just pivot (27) pass through first belt (28) with first motor (25) rotate and are connected, pivot (27) pass through second belt (29) with two of them first sprocket (22) rotate and are connected.

3. The automatic pipe feeding and steel distributing device according to claim 2, wherein: lubricating structure (3) includes oil storage tank (31), oil pipe (32), sponge (33), ejector pin (34), clamp plate (35), gasbag (36), first spring (37), collecting vat (38) and collecting box (39), oil storage tank (31) are located the one end of fixed cover (26) the bottom mounting of mounting panel (21) sponge (33), just sponge (33) with pass through between oil storage tank (31) oil pipe (32) are connected, just oil pipe (32) with the inside of oil storage tank (31) communicates with each other the inside of fixed cover (26), the external fixation of pivot (27) ejector pin (34), just ejector pin (34) with fixed cover (26) rotate to be connected the inside sliding connection of fixed cover (26) has clamp plate (35) with centre gripping between fixed cover (26) gasbag (36), the first spring (37) is clamped and fixed between the pressing plate (35) and the fixing sleeve (26), the inner part of the air bag (36) is communicated with the inner part of the oil storage tank (31), the collecting tanks (38) with concave-shaped cross sections are fixed in the two groups of supporting rods (1), and the collecting tanks (39) with inverted trapezoid structures are fixed at the bottom ends of the two collecting tanks (38).

4. The automatic pipe feeding and steel distributing device according to claim 2, wherein: divide material structure (4) to include striker plate (41), diaphragm (42), cylinder (43), divide flitch (44) and connect flitch (45) the top installation of mounting panel (21) striker plate (41) the one end of bracing piece (1) is fixed diaphragm (42) two bottom mounting of diaphragm (42) are symmetrical relation cylinder (43), two the same end of cylinder (43) is all fixed and is "L" shape structure divide flitch (44), just divide flitch (44) to deviate from the one end of cylinder (43) is the triangle-shaped structure divide the central point of flitch (44) to put fixedly connect flitch (45), just connect flitch (45) with divide flitch (44) to be 30 contained angles.

5. The automatic pipe feeding and steel distributing device according to claim 4, wherein: buffer structure (5) are the rectangle structure including accomodating groove (51), buffer board (52), round pin axle (53) and second spring (54) accomodate groove (51) and locate connect flitch (45) the inside of accomodating groove (51) is equipped with buffer board (52), just buffer board (52) pass through round pin axle (53) with connect flitch (45) to rotate and connect buffer board (52) with it is fixed to connect the centre gripping between flitch (45) second spring (54).

6. The automatic pipe feeding and steel distributing device according to claim 1, wherein: the feeding structure (6) comprises a support (61), stand columns (62), rotating rods (63), a roll shaft (64), a second chain wheel (65), a second chain (66), a first belt wheel (67), a third belt (68), a second belt wheel (69) and a second motor (69a), the support (61) is arranged at one end of the supporting rod (1), a plurality of groups of two stand columns (62) which are one group are fixed at the top end of the support (61), the rotating rods (63) are rotated between the stand columns (62) of each group, the roll shaft (64) is fixed outside the rotating rods (63), the second chain wheel (65) is fixed outside the rotating rods (63), the second chain wheels (65) are driven by the second chain (66), and the first belt wheel (67) is fixed outside one of the rotating rods (63), the second motor (69a) is fixed at one end of the bracket (61), the second belt pulley (69) is fixed at one end of the second motor (69a), and the first belt pulley (67) and the second belt pulley (69) are rotatably connected through the third belt (68).