CN211997817U - Pipe material distributing and pushing device - Google Patents

Abstract

The utility model relates to the technical field of pipe production and processing, in particular to a pipe material distribution and pushing device, which comprises a bracket, a first pushing structure, a second pushing structure, a rolling structure, a transportation structure, a lubricating structure and a lifting structure; through the setting of first pushing structure, can make things convenient for the different width's of centre gripping piling up the good tubular product, setting through elevation structure, can be with the good tubular product of piling up propelling movement layer upon layer, the cooperation that deuterogamies second pushing structure is used, just can go out the tubular product propelling movement that first pushing structure was piled up, thereby accomplish the material pushing work of tubular product, thereby do not need external equipment to hoist tubular product, and can also realize lasting material loading, thereby can greatly increased pushes away material efficiency, and the setting of cooperation rolling structure, can also reduce the frictional force between tubular product and the support, thereby can avoid tubular product to take place the dead condition of card when piling up, thereby can improve piling up efficiency greatly.

Description

Pipe material distributing and pushing device

Technical Field

The utility model relates to a tubular product production and processing technology field, specific tubular product cloth blevile of push that says so.

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.

At present in the production and processing process to tubular product, various tubular products that trade such as building engineering, mine construction, bridge construction used, in order to prevent to corrode, increase of service life need scribble the coating on the tubular product surface, in order to carry out the coating work with the tubular product surface, generally need carry out single transport with the tubular product of piling, but when the tubular product of piling carries out single transport at present, generally adopt the mode of lifting by crane to carry out single separation, waste time and energy, and the continuity is high inadequately, will reduce the machining efficiency of tubular product.

SUMMERY OF THE UTILITY MODEL

To the problem among the prior art, the utility model provides a tubular product material cloth blevile of push.

The utility model provides a technical scheme that its technical problem adopted is: a pipe material distributing and pushing device comprises a support, a first pushing structure, a second pushing structure, a rolling structure, a conveying structure, a lubricating structure and a lifting structure, wherein the first pushing structure used for pushing and jacking piled pipes is arranged at one end of the support, which is used for supporting and installing other parts; the second pushing structure used for pushing the pipe jacked by the first pushing structure out is mounted at one end of the support, and the rolling structure used for placing the pipe and facilitating rolling is mounted inside the support; the transportation structure for transporting the pushed pipe to the next process is arranged at one end of the support, the lubricating structure for lubricating the transportation structure is arranged at the bottom end of the transportation structure, and the lifting structure for lifting the pipe is arranged at one end of the support.

Specifically, the first material pushing structure comprises four first guide sleeves, two first guide pillars, four first push plates and four first air cylinders, the two first guide sleeves are a group, the two first guide sleeves are symmetrically installed at two ends of the support respectively, the four first guide pillars are respectively connected inside the four first guide sleeves in a sliding mode, the first push plates are fixedly connected to one ends of the two first guide pillars respectively, the first air cylinders are fixed to the middle positions of the two first guide sleeves respectively, and the two first air cylinders are fixedly connected with the two first push plates respectively.

Specifically, the second pushing structure comprises two second guide sleeves, two second guide pillars, two second push plates and two second cylinders, the two second guide sleeves are fixed at two ends of the support respectively, the second guide pillars are connected inside the two second guide sleeves in a sliding mode respectively, one second push plate is fixed at one end of each of the two second guide pillars respectively, the second cylinders are fixed at two ends of the support respectively, and the two second cylinders are fixedly connected with the two second push plates respectively.

Specifically, the rolling structure is including placing board, fixed slot, gyro wheel, spout, slider and first spring, it is equipped with two to place the board, two it is fixed in respectively to place the board and be the symmetric relation the both ends of support place the inside of board be equipped with the fixed slot the inside of fixed slot is equipped with the spout the inside sliding connection of spout has the slider, two it is connected with to rotate between the slider the gyro wheel the slider with place between the board the centre gripping fixed first spring.

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

Concrete, lubricating structure includes batch oil tank, oil pipe, sponge, ejector pin, clamp plate, gasbag and second spring, 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 is connected, just oil pipe with the inside of batch oil tank communicates with each other the inside of fixed cover the external fixation of pivot 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 centre gripping is fixed between the fixed cover the second spring, just the inside of gasbag with the inside of batch oil tank communicates with each other.

Specifically, elevation structure includes stand, second motor, lifter plate, lead screw, bearing and guide pin bushing the one end of support is fixed the stand the top of stand is fixed the second motor the inside of stand is equipped with the lead screw, just the lead screw passes through the bearing with the stand rotates to be connected, just the top of lead screw with second motor fixed connection the outside threaded connection of lead screw has the guide pin bushing, just the guide pin bushing with stand sliding connection the one end of guide pin bushing is fixed the lifter plate, just the lifter plate with stand sliding connection.

The utility model has the advantages that:

(1) the utility model relates to a tubular product distributing and pushing device, which can conveniently clamp the stacked tubular products with different widths through the arrangement of a first pushing structure, can push the stacked tubular products up layer by layer through the arrangement of a lifting structure, and can push the stacked tubular products out through the arrangement of a second pushing structure in cooperation with the use of the lifting structure, thereby completing the pushing work of the tubular products, thereby not needing external equipment to lift the tubular products, and realizing continuous feeding, thereby greatly increasing the pushing efficiency, and reducing the friction between the tubular products and a bracket through the arrangement of a rolling structure, thereby avoiding the tubular products from being blocked when being stacked, thereby greatly improving the stacking efficiency, namely, because the sliding of a first push plate is realized through the sliding of two first guide pillars in the first guide sleeve, therefore, the moving smoothness of the first push plate can be ensured, the arrangement of the two first guide posts can also prevent the first push plate from being staggered when sliding, so that the normal work of pushing materials can be ensured, when the first cylinder works, the first push plate can be pushed to move, the first push plate can extrude and stack stacked pipes well by moving, so that the stacking work of the pipes is completed, the efficiency of stacking the pipes can be greatly improved, when the second motor works, the lead screw can be driven to rotate, because the guide sleeve is connected with the outer thread of the lead screw and slides in the upright post, the lead screw rotates, the lifting plate can be driven by the guide sleeve to ascend, the stacked pipes can be pushed upwards layer by layer, so that the pushing efficiency can be improved, pipes with different widths can be clamped, and the second push plate works at the moment, the second push plate passes through second guide pin bushing and second guide pillar and support sliding connection, and the fixed action of second cylinder is deuterogamied, also can play the condition of fixed second push plate and preventing the dislocation of second push plate, the tubular product propelling movement that the second cylinder work just can push away the lifter plate propelling movement, thereby accomplish the material pushing work of tubular product, time saving and labor saving, and can realize the continuity and push away the material, and because a plurality of gyro wheels pass through between slider and the support rotating connection in the inside of placing the board, thereby can reduce the frictional force of tubular product and support, thereby can avoid tubular product and support to take place the dead condition of card.

(2) The pipe material distributing and pushing device of the utility model can transport the pipe material to the next process by the second pushing structure, and not only can play the role of transporting the pipe material by the arrangement of the transporting structure, but also can tile the pipe material again, thereby being convenient for the subsequent pipe material processing technology, and the transporting structure can synchronously drive the lubricating structure to work while transporting, and can fully oil the transporting structure by the work of the lubricating structure, thereby not only avoiding the jamming of the transporting structure, but also prolonging the service life of the transporting structure, namely, as the chain wheels are rotated at the two ends of the two mounting plates, and the chain wheels are driven by chains, and as the two chain wheels are rotationally connected with the rotating shaft by the second belt, namely, the rotation of the rotating shaft can realize the rotation of the two chains, because the first motor is rotationally connected with the rotating shaft through the first belt, when the first motor works, the rotation of the two chains can be realized, when the second push plate pushes the pipes onto the two chains, the pipes on the chains can move along with the rotation of the chains, and because of the continuous rotation of the chains, the pipes on the chains can be ensured to be in a flat state, thereby facilitating the subsequent pipe processing, and when the rotating shaft works, the second push plate can drive the ejector rod fixed outside the rotating shaft to rotate, the ejector rod rotates, and then the elastic action of the second spring clamped between the press plate and the fixed sleeve is matched, so that the press plate can reciprocate in the fixed sleeve, the air bag can be continuously extruded, thereby the air bag is inflated, because the air bag is connected with the inner part of the oil storage tank, the gas that the gasbag produced will get into the inside of batch oil tank, and the inside atmospheric pressure of batch oil tank increases this moment, just can pass through oil pipe extrusion to the sponge with the inside lubricating oil of batch oil tank, and the sponge just can lubricate the work to the chain to guarantee the normal work of chain.

Drawings

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

Fig. 1 is a schematic structural diagram of the overall structure of a preferred embodiment of the pipe material pushing device provided by the present invention;

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

FIG. 3 is a schematic diagram of the scrolling structure shown in FIG. 1;

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

FIG. 5 is a schematic view of the connection of the transport structure and the lubricating structure shown in FIG. 1;

fig. 6 is a schematic structural view of the lifting structure shown in fig. 1.

In the figure: 1. a bracket, 2, a first pushing structure, 21, a first guide sleeve, 22, a first guide post, 23, a first pushing plate, 24, a first cylinder, 3, a second pushing structure, 31, a second guide sleeve, 32, a second guide post, 33, a second pushing plate, 34, a second cylinder, 4, a rolling structure, 41, a placing plate, 42, a fixing groove, 43, a roller, 44, a sliding groove, 45, a sliding block, 46, a first spring, 5, a transportation structure, 51, a support rod, 52, a mounting plate, 53, a chain wheel, 54, a chain, 55, a fixing plate, 56, a first motor, 57, a fixing sleeve, 58, a rotating shaft, 59, a first belt, 59a second belt, 6, a lubricating structure, 61, an oil storage tank, 62, an oil pipe, 63, a sponge, 64, a mandril, 65, a pressing plate, 66, an air bag, 67, a second spring, 7, a lifting structure, 71, a stand column, 72, a second motor, 73, a lifting plate, 74. screw mandrel 75, bearing 76 and guide sleeve.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-6, the tube material distributing and pushing device of the present invention comprises a bracket 1, a first pushing structure 2, a second pushing structure 3, a rolling structure 4, a transporting structure 5, a lubricating structure 6 and a lifting structure 7, wherein the first pushing structure 2 for pushing and jacking the stacked tubes is installed at one end of the bracket 1 for supporting and installing other components; the second pushing structure 3 for pushing out the pipe jacked by the first pushing structure 2 is installed at one end of the support 1, and the rolling structure 4 for placing the pipe and facilitating rolling is installed inside the support 1; the transport structure 5 for transporting the pushed-out pipe to the next process is installed at one end of the support 1, the lubricating structure 6 for lubricating the transport structure 5 is installed at the bottom end of the transport structure 5, and the lifting structure 7 for lifting up the pipe is installed at one end of the support 1.

Specifically, the first pushing structure 2 includes four first guide sleeves 21, two first guide posts 22, a first pushing plate 23 and first air cylinders 24, the number of the first guide sleeves 21 is four, two of the four first guide sleeves 21 are a group, two groups of the first guide sleeves 21 are symmetrically installed at two ends of the support 1, respectively, four first guide posts 22 are provided, the four first guide posts 22 are slidably connected inside the four first guide sleeves 21, one end of each of the two groups of the first guide posts 22 is fixedly connected with the first pushing plate 23, one first air cylinder 24 is fixed at a middle position of each of the two groups of the first guide sleeves 21, and the two first air cylinders 24 are fixedly connected with the two first pushing plates 23, because the sliding of the first pushing plate 23 is realized by the two first guide posts 22 sliding inside the first guide sleeves 21, therefore, the moving smoothness of the first push plate 23 can be guaranteed, the first push plate 23 can be prevented from being staggered when pushing materials due to the arrangement of the two first guide pillars 22, the normal work of pushing materials can be guaranteed, when the first air cylinder 24 works, the first push plate 23 can be pushed to move, the first push plate 23 can extrude and stack stacked pipes due to the movement of the first push plate 23, the stacking work of the pipes is completed, and the stacking efficiency can be greatly improved.

Specifically, the second pushing structure 3 includes two second guide sleeves 31, two second guide posts 32, two second pushing plates 33 and two second cylinders 34, the two second guide sleeves 31 are respectively fixed at two ends of the support 1, the second guide posts 32 are respectively connected inside the two second guide sleeves 31 in a sliding manner, one second pushing plate 33 is respectively fixed at one end of each of the two second guide posts 32, the second cylinders 34 are respectively fixed at two ends of the support 1, the two second cylinders 34 are respectively fixedly connected with the two second pushing plates 33, when the lifting plate 73 extrudes a pipe to the upper portion, the second pushing plates 33 work, the second pushing plates 33 are slidably connected with the support 1 through the second guide sleeves 31 and the second guide posts 32, and the fixing action of the second cylinders 34 is matched, the second push plate 33 can be fixed, the second push plate 33 can be prevented from being dislocated, the second cylinder 34 can push the pipe extruded by the lifting plate 73 away when working, so that the pipe pushing work is completed, time and labor are saved, and continuous material pushing can be realized.

Specifically, the rolling structure 4 includes a placing plate 41, a fixing groove 42, a roller 43, a sliding groove 44, a sliding block 45 and a first spring 46, two placing plates 41 are provided, the two placing plates 41 are respectively fixed at both ends of the bracket 1 in a symmetrical relationship, the fixing groove 42 is formed inside the mounting plate 41, the sliding groove 44 is formed inside the fixing groove 42, the sliding blocks 45 are slidably connected inside the sliding grooves 44, the roller 43 is rotatably connected between the two sliding blocks 45, the first spring 46 is clamped and fixed between the sliding block 45 and the placing plate 41, since a plurality of the rollers 43 are rotatably connected with the bracket 1 through the sliding block 45 in the placing plate 41, therefore, the friction force between the pipe and the support 1 can be reduced, and the pipe and the support 1 can be prevented from being clamped.

Specifically, the transportation structure 5 includes a support rod 51, a mounting plate 52, a chain wheel 53, a chain 54, a fixing plate 55, a first motor 56, a fixing sleeve 57, a rotating shaft 58, a first belt 59 and a second belt 59a, four of the support rods 51 are disposed at one end of the bracket 1, four of the support rods 51 are in a group, two of the support rods 51 are fixed on the top end of the mounting plate 52 in parallel, the two ends of the two mounting plates 52 are rotatably connected with the chain wheel 53, and the two chain wheels 53 are driven by the chain 54, the fixing plate 55 is fixed at one end of one of the support rods 51, the first motor 56 is fixed on the top end of the fixing plate 55, the fixing sleeve 57 is fixed at the same end of the two support rods 51, and the rotating shaft 58 is rotatably connected between the two fixing sleeves 57, the rotating shaft 58 is rotatably connected to the first motor 56 through the first belt 59, the rotating shaft 58 is rotatably connected to two of the chain wheels 53 through the second belt 59a, the chain wheels 53 are rotatably arranged at two ends of the two mounting plates 52, the chain wheels 53 are driven by the chains 54, and the two chain wheels 53 are rotatably connected to the rotating shaft 58 through the second belt 59a, i.e., the rotating shaft 58 rotates to realize the rotation of the two chains 54, the first motor 56 is rotatably connected to the rotating shaft 58 through the first belt 59, so that when the first motor 56 operates, the rotation of the two chains 54 is realized, and when the second pushing plate 33 pushes the pipes onto the two chains 54, the pipes on the chains 54 move along with the rotation of the chains 54, and because the continuous rotation of the chain 54 can ensure that the pipes on the chain 54 are all in a flat state, the subsequent pipe processing is convenient to carry out.

Specifically, lubricating structure 6 includes batch oil tank 61, oil pipe 62, sponge 63, ejector pin 64, clamp plate 65, gasbag 66 and second spring 67, batch oil tank 61 is located the one end of fixed cover 57 the bottom mounting of mounting panel 52 sponge 63, just sponge 63 with pass through between the batch oil tank 61 oil pipe 62 is connected, just oil pipe 62 with the inside of batch oil tank 61 communicates with each other the inside of fixed cover 57 the external fixation of pivot 58 ejector pin 64, just ejector pin 64 with fixed cover 57 rotates and connects the inside sliding connection of fixed cover 57 has clamp plate 65 with centre gripping between the fixed cover 57 gasbag 66 clamp plate 65 with the centre gripping is fixed between the fixed cover 57 second spring 67, just the inside of gasbag 66 with the inside of batch oil tank 61 communicates with each other, when the rotating shaft 58 works, the push rod 64 fixed outside the rotating shaft 58 is driven to rotate, the push rod 64 rotates and is matched with the elastic force action of the second spring 67 clamped between the press plate 65 and the fixed sleeve 57, so that the press plate 65 can reciprocate in the fixed sleeve 57, the air bag 66 can be continuously extruded, and the air bag 66 is inflated, due to the connection between the air bag 66 and the interior of the oil storage tank 61, the gas generated by the air bag 66 enters the interior of the oil storage tank 61, and the internal air pressure of the oil storage tank 61 is increased, so that the lubricating oil in the oil storage tank 61 can be extruded to the sponge 63 through the oil pipe 62, the sponge 63 can lubricate the chain 54, thereby ensuring the normal operation of the chain 54.

Specifically, the lifting structure 7 includes an upright post 71, a second motor 72, a lifting plate 73, a screw rod 74, a bearing 75 and a guide sleeve 76, the upright post 71 is fixed at one end of the bracket 1, the second motor 72 is fixed at the top end of the upright post 71, the screw rod 74 is arranged inside the upright post 71, the screw rod 74 is rotatably connected with the upright post 71 through the bearing 75, the top end of the screw rod 74 is fixedly connected with the second motor 72, the guide sleeve 76 is connected with the outer thread of the screw rod 74, the guide sleeve 76 is slidably connected with the upright post 71, the lifting plate 73 is fixed at one end of the guide sleeve 76, the lifting plate 73 is slidably connected with the upright post 71, when the second motor 72 works, the screw rod 74 can be driven to rotate, because the guide sleeve 76 is connected with the outer thread of the screw rod 74, and the guide sleeve 76 slides in the upright column 71, so that the guide sleeve 76 can drive the lifting plate 73 to ascend by rotating the screw rod 74, stacked pipes can be pushed upwards layer by layer, the material pushing efficiency can be improved, and pipes with different widths can be clamped.

When in use, the first air cylinder 24 and the second air cylinder 34 are firstly connected with an external air pipe, then the first motor 56 is electrically connected with an external power supply, because the sliding of the first push plate 23 is realized by the sliding of the two first guide posts 22 in the first guide sleeve 21, the moving smoothness of the first push plate 23 can be ensured, and the arrangement of the two first guide posts 22 can also prevent the first push plate 23 from being dislocated during pushing, so that the normal work of pushing can be ensured, when the first air cylinder 24 works, the first push plate 23 can be pushed to move, the first push plate 23 can be pushed to stack the stacked pipes by the movement of the first push plate 23, so that the stacking work of the pipes is completed, the stacking efficiency can be greatly improved, when the lifting plate 73 extrudes the pipes to the upper part, when the second motor 72 works, the screw rod 74 can be driven to rotate, because the guide sleeve 76 is connected to the outer thread of the screw rod 74, and the guide sleeve 76 slides inside the upright post 71, the screw rod 74 rotates, the guide sleeve 76 can drive the lifting plate 73 to ascend, and stacked pipes can be pushed upwards layer by layer, so that the pushing efficiency can be improved, pipes with different widths can be clamped, at the moment, the second pushing plate 33 works, the second pushing plate 33 is connected with the bracket 1 in a sliding manner through the second guide sleeve 31 and the second guide post 32, and the second pushing plate 33 can be fixed and prevented from being dislocated by matching with the fixing action of the second cylinder 34, and the pipes extruded by the lifting plate 73 can be pushed out by the second cylinder 34 working, the pushing work of the pipe is completed, time and labor are saved, continuous pushing can be realized, and the friction force between the pipe and the support 1 can be reduced because the plurality of rollers 43 in the placing plate 41 are rotatably connected with the support 1 through the sliding blocks 45, so that the pipe and the support 1 can be prevented from being locked; because the chain wheels 53 are arranged at the two ends of the two mounting plates 52 in a rotating manner, the chain wheels 53 are driven by the chains 54, and because the two chain wheels 53 are rotatably connected with the rotating shaft 58 through the second belt 59a, that is, the rotating shaft 58 rotates to realize that the two chains 54 rotate, because the first motor 56 is rotatably connected with the rotating shaft 58 through the first belt 59, when the first motor 56 works, the two chains 54 rotate, when the second pushing plate 33 pushes pipes onto the two chains 54, the pipes on the chains 54 move along with the rotation of the chains 54, and because of the continuous rotation of the chains 54, the pipes on the chains 54 are ensured to be in a flat state, thereby facilitating the subsequent pipe processing, and when the rotating shaft 58 works, the push rod 64 fixed outside the rotating shaft 58 is driven to rotate, the push rod 64 rotates and is matched with the elastic force action of the second spring 67 clamped between the press plate 65 and the fixed sleeve 57, so that the press plate 65 can reciprocate in the fixed sleeve 57, the air bag 66 can be continuously extruded, and the air bag 66 is inflated, due to the connection between the air bag 66 and the interior of the oil storage tank 61, the gas generated by the air bag 66 enters the interior of the oil storage tank 61, and the internal air pressure of the oil storage tank 61 is increased, so that the lubricating oil in the oil storage tank 61 can be extruded to the sponge 63 through the oil pipe 62, the sponge 63 can lubricate the chain 54, thereby ensuring the normal operation of the chain 54.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the description in the above embodiments and the specification is only for illustrating the principles of the present invention, and that there may be various changes and modifications without departing from the spirit and scope of the present invention, and these changes and modifications all fall within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a tubular product cloth blevile of push which characterized in that: the pipe pushing device comprises a bracket (1), a first material pushing structure (2), a second material pushing structure (3), a rolling structure (4), a conveying structure (5), a lubricating structure (6) and a lifting structure (7), wherein the first material pushing structure (2) for pushing and jacking the piled pipes is arranged at one end of the bracket (1) for supporting and installing other parts; the second pushing structure (3) used for pushing the pipe jacked by the first pushing structure (2) out is mounted at one end of the support (1), and the rolling structure (4) used for placing the pipe and facilitating rolling is mounted inside the support (1); the transportation structure (5) used for transporting the pushed pipe to the next process is arranged at one end of the support (1), the lubricating structure (6) used for lubricating the transportation structure (5) is arranged at the bottom end of the transportation structure (5), and the lifting structure (7) used for lifting the pipe is arranged at one end of the support (1).

2. The tubular material pushing apparatus as claimed in claim 1, wherein: the first material pushing structure (2) comprises four first guide sleeves (21), four first guide columns (22), a first push plate (23) and first air cylinders (24), the number of the first guide sleeves (21) is four, two of the four first guide sleeves (21) are in a group, the two groups of first guide sleeves (21) are symmetrically arranged at two ends of the support (1) respectively, the number of the first guide columns (22) is four, the four first guide columns (22) are connected inside the four first guide sleeves (21) in a sliding mode respectively, one end of each of the two groups of first guide columns (22) is fixedly connected with the first push plate (23), one first air cylinder (24) is fixed at the middle position of each of the two groups of first guide sleeves (21), and the two first air cylinders (24) are fixedly connected with the two first push plates (23) respectively.

3. The tubular material pushing apparatus as claimed in claim 1, wherein: the second pushing structure (3) comprises two second guide sleeves (31), two second guide columns (32), two second pushing plates (33) and two second air cylinders (34), the two second guide sleeves (31) are fixed at two ends of the support (1) respectively, the second guide columns (32) are connected inside the two second guide sleeves (31) in a sliding mode respectively, one second pushing plate (33) is fixed at one end of each of the two second guide columns (32), the second air cylinders (34) are fixed at two ends of the support (1) respectively, and the two second air cylinders (34) are fixedly connected with the two second pushing plates (33) respectively.

4. The tubular material pushing apparatus as claimed in claim 1, wherein: the rolling structure (4) comprises two placing plates (41), fixing grooves (42), rolling wheels (43), sliding grooves (44), sliding blocks (45) and first springs (46), the two placing plates (41) are symmetrically fixed to two ends of the support (1) respectively, the fixing grooves (42) are arranged inside the placing plates (41), the sliding grooves (44) are arranged inside the fixing grooves (42), the sliding blocks (45) are connected inside the sliding grooves (44) in a sliding mode, the rolling wheels (43) are connected between the two sliding blocks (45) in a rotating mode, and the first springs (46) are clamped and fixed between the sliding blocks (45) and the placing plates (41).

5. The tubular material pushing apparatus as claimed in claim 1, wherein: transportation structure (5) is including bracing piece (51), mounting panel (52), sprocket (53), chain (54), fixed plate (55), first motor (56), fixed cover (57), pivot (58), first belt (59) and second belt (59a), four bracing piece (51) are located the one end of support (1), four bracing piece (51) two are a set of, two sets of the top of bracing piece (51) is fixed two and is parallel relation mounting panel (52), two the both ends of mounting panel (52) are all rotated and are connected with sprocket (53), and two pass through between sprocket (53) chain (54) transmission, one of them the one end of bracing piece (51) is fixed plate (55) the top of fixed plate (55) is fixed first motor (56), two the same end of bracing piece (51) is all fixed cover (57), two it is connected with to rotate between fixed cover (57) pivot (58), just pivot (58) pass through first belt (59) with first motor (56) rotate and are connected, pivot (58) pass through second belt (59a) and two of them sprocket (53) rotate and are connected.

6. The tubular material pushing apparatus as claimed in claim 5, wherein: lubricating structure (6) includes oil storage tank (61), oil pipe (62), sponge (63), ejector pin (64), clamp plate (65), gasbag (66) and second spring (67), oil storage tank (61) are located the one end of fixed cover (57) the bottom mounting of mounting panel (52) sponge (63), just sponge (63) with pass through between oil storage tank (61) oil pipe (62) are connected, just oil pipe (62) with the inside of oil storage tank (61) communicates with each other the inside of fixed cover (57) the external fixation of pivot (58) ejector pin (64), just ejector pin (64) with fixed cover (57) rotate to be connected the inside sliding connection of fixed cover (57) has clamp plate (65) with centre gripping between fixed cover (57) gasbag (66), the second spring (67) is clamped and fixed between the pressure plate (65) and the fixed sleeve (57), and the interior of the air bag (66) is communicated with the interior of the oil storage tank (61).

7. The tubular material pushing apparatus as claimed in claim 1, wherein: the lifting structure (7) comprises an upright post (71), a second motor (72), a lifting plate (73), a screw rod (74), a bearing (75) and a guide sleeve (76), the upright post (71) is fixed at one end of the bracket (1), the second motor (72) is fixed at the top end of the upright post (71), the screw rod (74) is arranged inside the upright post (71), and the screw rod (74) is rotationally connected with the upright post (71) through the bearing (75), and the top end of the screw rod (74) is fixedly connected with the second motor (72), the guide sleeve (76) is connected with the outer thread of the screw rod (74) in a threaded manner, and the guide sleeve (76) is connected with the upright post (71) in a sliding manner, the lifting plate (73) is fixed at one end of the guide sleeve (76), and the lifting plate (73) is connected with the upright post (71) in a sliding mode.

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