CN212607857U - Intelligent metal pipe collecting device - Google Patents

Abstract

The utility model belongs to the technical field of automation equipment, concretely relates to metal tubular product intelligence collection device. The stacking device is used for clamping the pipes sent by the counting pipe arranging device and sending the stacked pipes to the transverse moving device, and the transverse moving device transports the stacked pipes to the next process. The utility model discloses can realize the full-automatic stack of tubular product, whole journey need not the manual work, has improved work efficiency, has reduced intensity of labour, has liberated the labour.

Description

Intelligent metal pipe collecting device

Technical Field

The utility model belongs to the technical field of automation equipment, concretely relates to metal tubular product intelligence collection device.

Background

With the rapid development of national economy in China, the explosive growth of infrastructure and the increasing demand on pipes, the output of pipes in China is increasing day by day, and a stacking area which is one of the bottlenecks of a pipe production line is a crucial link in intelligent production of pipes, so that the automatic production efficiency of the pipes is directly influenced. The current collecting device for the pipe stack has many defects: 1. although the existing collecting device realizes the rotation transmission of the pipes and the manual intervention stacking, the manual operation and the cooperation are needed in the pipe feeding stage, so that more operators are needed, and the production cost is high; 2. when pipes of different specifications are collected and processed, the related execution parts of the equipment also need to be replaced and adjusted manually; 3. because of the problems of counting stability, unconnected equipment linkage and the like in other stacking modes, the stacked pipes are easy to collide and scratch, and the overall logistics transportation of the pipes is seriously influenced. It will thus be seen that the prior art is susceptible to further improvement and enhancement.

SUMMERY OF THE UTILITY MODEL

The utility model provides a metal tubular product intelligence collection device to above-mentioned problem.

In order to achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a metal pipe intelligence collection device, includes material feeding unit, hoisting device, count calandria device, bunching device and sideslip device, material feeding unit is that the tubular product that the production line sent is unstacked and is arranged, hoisting device promotes the tubular product that material feeding unit arranged and carries to count calandria device, count calandria device is that the tubular product that hoisting device carried is counted, arrange according to the quantity that the stack needs to carry to the bunching device with arranging, the bunching device is used for clamping the tubular product that count calandria device sent to send to the sideslip device with the tubular product that the stack is good, the sideslip device is with the transport of the tubular product that the stack is good to next process.

Further, the feeding device comprises a plurality of feeding tables arranged side by side, a first upright post and a second upright post are arranged below the feeding tables and used for supporting the feeding tables, one side of each feeding table, which is connected with the second upright post, is inclined downwards, a material blocking block is rotatably arranged at the rear part of each feeding table, the material blocking block is an eccentrically arranged arc-shaped conical surface, an adjusting motor arranged side by side with the material blocking block is installed on one side of the material blocking block, a connecting rod coaxially installed with the material blocking block is arranged below the material blocking block, a connecting rod is also installed on an output shaft of the adjusting motor, the connecting rods are jointly hinged on a moving shaft, a material coming sensor is arranged above the material blocking block, a bearing seat is arranged on one side of the second upright post, a second shaft is installed in the bearing seat, and a material stirring barrel and a swing arm are in keyed connection with the second shaft, the stirring cylinder is fixedly connected with a material stirring plate through a material stirring plate, the rear part of the material stirring plate is arranged in a downward inclined mode, a material blocking plate is arranged at the rear part of the material stirring plate, a material blocking sensor is arranged on the front surface of the material blocking plate, the other end of a swing arm is hinged to a first shaft, one end of the first shaft is hinged to a piston rod of a first air cylinder, a cylinder body of the first air cylinder is hinged to an installation column, so that the first shaft is driven to move left and right through the stretching of the first air cylinder, the material stirring plate is finally driven to turn over through the swing arm, a V-shaped roller symmetrical to a second shaft is arranged on the other side of the second stand column, the V-shaped roller and the tail end of the material stirring plate are located on the same horizontal line, an installation shaft on the V-shaped roller is connected with a gear key on a worm stepping motor, the V-shaped roller is driven to rotate through the first worm, and the safety baffle is arranged side by side with the V-shaped roller, and a baffle sensor is arranged on the safety baffle and used for detecting whether the pipe conveyed by the V-shaped roller 11 is abutted against the safety baffle or not to be treated as the pipe flush.

Still further, the lifting device comprises a plurality of chain lifting structures arranged side by side and a third shaft for realizing synchronous rotation of the plurality of chain lifting structures, the chain lifting structures comprise a chain wheel support and a motor support, a fourth transmission chain wheel is arranged on the chain wheel support, a second motor is arranged on one motor support, a first transmission chain wheel is arranged on an output shaft of the second motor, a mounting frame is arranged between the chain wheel support and the motor support, a tensioning wheel is arranged at the lower part of the mounting frame, the third shaft is rotatably arranged at the upper part of the mounting frame, a second transmission chain wheel corresponding to the first transmission chain wheel and a third transmission chain wheel corresponding to the fourth transmission chain wheel are arranged on the third shaft, the first transmission chain wheel and the second transmission chain wheel are connected through a first chain so as to drive the third shaft to rotate, no. three drive sprocket, No. four drive sprocket and take-up pulley are last to install No. two chains No. two evenly be provided with a plurality of material loading baffles on the chain.

Furthermore, the counting tube bank device comprises a plurality of inclined plates arranged side by side, the front ends of the inclined plates are fixedly connected with the motor support, the rear ends of the inclined plates are fixedly arranged on the plate support, the rear ends of the inclined plates are arranged in a downward inclined manner, the front ends of the inclined plates are flush with the highest point of the second chain, the front ends and the highest point of the second chain are connected to enable the second chain to lift pipes to roll onto the inclined plates, a front material blocking hook and a rear material blocking hook are respectively arranged at the front part and the rear part of each inclined plate, the front ends of the front material blocking hook and the rear material blocking hook are hinged on the inclined plates, a second air cylinder is respectively arranged below the front material blocking hook and the rear material blocking hook, the second air cylinders are hinged on the inclined plates, telescopic rods of the two second air cylinders are respectively hinged with the middle parts of the front material blocking hook and the rear material blocking hook and are positioned below the front material blocking hook and the rear material blocking hook, a first sensor and a second sensor are respectively embedded in the middle parts of the front material blocking hook and the rear material blocking hook, the first sensor is used for counting, the second sensor is used for transmitting signals, the lower part of the inclined material plate is also provided with a chain transmission mechanism driven by a third motor, the upper surface of the chain transmission mechanism is hinged with a shovel plate, the front end of the shovel plate is hinged with the chain transmission mechanism, a material blocking bulge is arranged in the middle of the shovel plate, a fourth cylinder is arranged below the rear end of the inclined material plate, the upper end of the piston rod of the fourth cylinder is provided with a roller which is contacted with the lower surface of the shovel plate so as to control the lifting of the rear end of the shovel plate through the expansion and contraction of the fourth cylinder, and a third cylinder is arranged on one side of the counting pipe arranging device, and an alignment baffle is arranged at the end part of a telescopic rod of the third cylinder so as to align the pipes on the rear material blocking hook.

Furthermore, the stacking device comprises a plurality of chain lifting mechanisms which are arranged side by side and take a fourth motor as power, the chain lifting mechanisms comprise an upper chain wheel and a lower chain wheel which are arranged at the upper part and the lower part of the flitch support and a third chain which is sleeved on the upper chain wheel and the lower chain wheel, the plurality of lower chain wheels which are arranged side by side realize synchronous transmission through a transmission shaft which is arranged on the chain lifting mechanisms, the transmission shaft is connected with an output shaft of the fourth motor through a coupler, a material receiving platform is fixedly arranged on the chain of the chain lifting mechanisms, a sixth cylinder is arranged at the front part of the material receiving platform, the upper end of the sixth cylinder is forwards inclined, the lower end of the sixth cylinder is backwards inclined, the upper end of the sixth cylinder is lower than the upper surface of the material receiving platform, a stacking material front shaping plate which is parallel to the sixth cylinder is arranged at one side of the sixth cylinder, and the upper end of the stacking material front shaping, the material receiving platform is provided with two fixed sliding blocks corresponding to the first sliding groove, the first sliding groove is matched with the fixed sliding blocks to limit the moving path of the material stacking front shaping plate, the rear part of the material receiving platform is hinged with a material stacking rear shaping plate, the lower part of the material stacking rear shaping plate is provided with a connecting block, the connecting block is hinged with a piston rod of a seventh air cylinder, a cylinder body of the seventh air cylinder is hinged on the material receiving platform, the middle part and the upper part of the rear side of the material stacking rear shaping plate are respectively provided with the same mounting blocks, a first lead screw is mounted on the two mounting blocks, a first movable nut is arranged on the first lead screw, a sliding plate is fixedly connected to the first movable nut, and the sliding plate can slide up and down along the fifth sliding groove on the material stacking rear shaping plate to meet the specification requirement of material stacking, the upper portion and the lower portion of slide articulated respectively have the cylinder body and the supplementary shaping plate of No. eight cylinders, the piston rod of No. eight cylinders is articulated with the upper end of supplementary shaping plate after, and the angle change of supplementary shaping plate after eight cylinders concertina movement can be realized, satisfies the angle demand of buttress material limit portion No. two spouts still are provided with in the front portion of flitch support slide No. two spouts and slide and be provided with the rack No. one in the spout No. two the front portion of flitch support still is provided with No. six motor, No. six motor drives No. two transmission shafts through chain drive and rotates No. two be provided with a plurality of and a plurality of gears of rack one-to-one meshing on the transmission shaft No. two to change the rotary motion of No. six motor into the linear motion of rack No. one, No. one the rack rear end is fixed and is provided with front side scraping wings for arrangement tubular.

Furthermore, a third sliding groove is formed in the middle of the material receiving platform, a second lead screw is arranged in the third sliding groove, a second movable nut is arranged on the second lead screw, a sliding block is arranged on one side of the second movable nut, and the stacking rear shaping plate and the seventh air cylinder are both arranged on the sliding block.

Furthermore, the traversing device comprises a plurality of tracks and a chain bed conveyor, the tracks are arranged at the rear part of the counting tube arranging device, a material conveying trolley is arranged on the tracks, the material conveying trolleys synchronously rotate through a third transmission shaft, one end of the third transmission shaft is provided with a second worm stepping motor, the second worm stepping motor drives the material conveying trolleys to rotate, a lifting material platform is arranged above the material conveying trolleys, an electric telescopic rod is arranged between the lifting material platform and the material conveying trolleys so as to realize the lifting of the lifting material platform, the front part of the lifting material platform is fixedly provided with a front material baffle plate, the lifting material platform is also provided with a chute, a third lead screw is arranged in the chute, a sliding pressure plate is arranged on a third movable nut on the third lead screw, the sliding pressure plate can move along with the third movable nut, and a rear material baffle plate is fixedly arranged at the rear end of the sliding pressure plate, chain bed conveyer sets up at orbital rear portion the below at chain bed conveyer middle part is provided with a plurality of pressure sensors be provided with the bearing plate on the pressure sensor, be provided with No. three sensors on the bearing plate symmetry guide bar around being provided with the multiunit on the bearing plate side by side is provided with the layer board on the common slip of every group guide bar, is provided with No. nine cylinders between every group guide bar for hold up No. nine cylinders, weigh to the stack that lies in chain bed conveyer chain finally.

Compared with the prior art, the utility model has the advantages of it is following:

1. the utility model can realize the full-automatic stacking of the pipes, does not need manpower in the whole process, improves the working efficiency, reduces the labor intensity and liberates the labor force;

2. the utility model can adjust the rear stacking shaping plate and the auxiliary rear shaping plate as required, thereby satisfying the collection of pipes with different specifications, avoiding the complex work of replacing the shaping plates and improving the work efficiency;

drawings

Fig. 1 is a top view of the overall structure of the present invention;

fig. 2 is a side view of the overall structure of the present invention;

fig. 3 is a schematic structural view of the feeding device of the present invention;

FIG. 4 is an enlarged view of a portion of frame A of FIG. 1 according to the present invention;

fig. 5 is a front view of the feeding device of the present invention;

FIG. 6 is an enlarged view of a portion of frame C of FIG. 5 according to the present invention;

FIG. 7 is a view taken along line A-A of FIG. 5 in accordance with the present invention;

fig. 8 is a top view of the lifting device of the present invention;

fig. 9 is a schematic structural view of a circle B in fig. 8 according to the present invention;

FIG. 10 is a view taken along line A-A of FIG. 8 in accordance with the present invention;

fig. 11 is a side view of the counting rack pipe device of the present invention;

fig. 12 is a side view of the counting rack pipe device of the present invention;

fig. 13 is a side view of the stacking apparatus of the present invention;

fig. 14 is a schematic view of the kinematic connection of the front side stripper plate of the present invention;

FIG. 15 is a side view of the traversing apparatus of the present invention;

in the figure, a feeding device-01, a lifting device-02, a counting tube arranging device-03, a stacking device-04, a transverse moving device-05, a feeding platform-1, a first upright post-2, a second upright post-4, a feeding sensor-5, a material blocking block-6, a swing arm-7, a first shaft-8, a first air cylinder-9, a first worm stepping motor-10, a V-shaped roller-11, a material turning plate-12, a second shaft-13, a material shifting plate-14, a material shifting barrel-15, a material blocking plate-16, a material blocking sensor-17, a safety baffle-18, a baffle sensor-19, a second motor-20, a first transmission sprocket-21, a second transmission sprocket-22, a third transmission sprocket-23, a third shaft-24, a sprocket support-25, a fourth transmission sprocket-26, a feeding baffle-27, a second chain-28, a tension pulley-29, a motor support-30, an inclined plate-31, a third motor-32, a third motor-24, a material blocking plate, Chain transmission mechanism-33, second cylinder-34, front material blocking hook-35, first sensor-36, shovel plate-37, material plate support-38, rear material blocking hook-39, second sensor-40, fourth cylinder-41, roller-42, third cylinder-43, aligning baffle-44, fourth motor-45, chain lifting mechanism-46, front side material pushing plate-48, sixth cylinder-49, stacking material front shaping plate-50, material receiving platform-51, seventh cylinder-52, stacking material rear shaping plate-53, auxiliary rear shaping plate-54, eighth cylinder-55, sliding plate-56, first lead screw-57, material conveying trolley-60, second stepping worm motor-61, third transmission shaft-62, lifting material platform-63, rail-64, chain bed conveyor-65, electric telescopic rod-66, front material blocking plate-67, third lead screw-68, sliding plate-69, adjusting motor-70, Connecting rod-71, removal axle-72, back striker plate-73, fender arch-74, a spout-75, fixed slider-76, installation piece-77, a movable nut-78, No. six motor-79, No. one gear-80, No. one rack-81, No. two transmission shaft-82, No. two lead screw-83, pressure-sensitive device-84, bearing plate-85, No. three sensor-86, guide bar-87, layer board-88, No. nine cylinder-89.

Detailed Description

In order to further illustrate the technical solution of the present invention, the present invention is further explained by the following embodiments.

As shown in fig. 1 and 2, an intelligent collecting device for metal pipes comprises a feeding device 01, a lifting device 02, a counting pipe arranging device 03, a stacking device 04 and a traversing device 05, wherein the feeding device 01 unstacks and arranges pipes sent from a production line, the lifting device 02 lifts and conveys the pipes arranged by the feeding device 01 to the counting pipe arranging device 03, the counting pipe arranging device 03 counts the pipes conveyed by the lifting device 02, arranges the pipes according to the number required by stacking and conveys the arranged pipes to the stacking device 04, the stacking device 04 is used for clamping the pipes sent by the counting pipe arranging device 03 and conveying the stacked pipes to the traversing device 05, and the traversing device 05 conveys the stacked pipes to the next process.

As shown in fig. 3 to 7, the feeding device 01 includes a plurality of feeding tables 1 arranged side by side, a first upright column 2 and a second upright column 4 are arranged below the feeding tables 1 for supporting the feeding tables 1, one side of the feeding tables 1 connected with the second upright column 4 is inclined downward, a material blocking block 6 is rotatably arranged at the rear part of the feeding tables 1, the material blocking block 6 is an arc-shaped conical surface arranged eccentrically, an adjusting motor 70 arranged side by side with the material blocking block 6 is installed at one side of the material blocking block 6, a connecting rod 71 coaxially installed with the material blocking block 6 is arranged below the material blocking block 6, a connecting rod 71 is also installed on an output shaft of the adjusting motor 70, the connecting rods 71 are hinged on a moving shaft 72 together, a material sensor 5 is arranged above the material blocking block 6, and a bearing seat is arranged at one side of the second upright column 4, a second shaft 13 is installed in the bearing seat, a stirring cylinder 15 and a swing arm 7 are connected to the second shaft 13 through keys, the stirring cylinder 15 is fixedly connected with a material stirring plate 12 through a stirring plate 14, the rear part of the material stirring plate 12 is arranged in a downward inclined manner, a material blocking plate 16 is arranged at the rear part of the material stirring plate 12, a material blocking sensor 17 is arranged on the front surface of the material blocking plate 16, the other end of the swing arm 7 is hinged to a first shaft 8, one end of the first shaft 8 is hinged to a piston rod of a first air cylinder 9, a cylinder body of the first air cylinder 9 is hinged to an installation column, so that the first shaft 8 is driven to move left and right through the expansion of the first air cylinder 9, the material stirring plate 12 is finally driven to turn over through the swing arm 7, a V-shaped roller 11 symmetrical to the second shaft 13 is arranged on the other side of the second upright column 4, and the tail ends of the V-shaped roller 11 and, installation axle on the V type roller 11 and the gear key-type connection on the worm step motor 10 to drive V type roller 11 through a worm step motor 10 and rotate one side of material feeding unit 01 is provided with safety shield 18, just safety shield 18 sets up with V type roller 11 side by side be provided with baffle sensor 19 on the safety shield 18, be used for detecting whether the tubular product that is transported by V type roller 11 conflicts safety shield 18, handles as the flush head of tubular product.

As shown in fig. 8 to 10, the lifting device 02 includes a plurality of chain lifting structures arranged side by side and a third shaft 24 for realizing synchronous rotation of the plurality of chain lifting structures, the chain lifting structure includes a sprocket support 25 and a motor support 30, a fourth driving sprocket 26 is arranged on the sprocket support, a second motor 20 is arranged on one motor support 30, a first driving sprocket 21 is arranged on an output shaft of the second motor 20, a mounting frame is arranged between the sprocket support 25 and the motor support 30, a tension wheel 29 is arranged on a lower portion of the mounting frame, the third shaft 24 is rotatably arranged on an upper portion of the mounting frame, a second driving sprocket 22 corresponding to the first driving sprocket 21 and a third driving sprocket 23 corresponding to the fourth driving sprocket 26 are arranged on the third shaft 24, the first driving sprocket 21 and the second driving sprocket 22 are connected by a first chain, thereby driving the third shaft 24 to rotate, the second chain 28 is installed on the third transmission chain wheel 23, the fourth transmission chain wheel 26 and the tension wheel 29, and a plurality of feeding baffles 27 are evenly arranged on the second chain 28.

As shown in fig. 11 and 12, the counting tube arranging device 03 includes a plurality of inclined material plates 31 arranged side by side, the front ends of the inclined material plates 31 are fixedly connected to the motor bracket 30, the rear ends of the inclined material plates 31 are fixedly arranged on the material plate bracket 38, the rear ends of the inclined material plates 31 are arranged in a downward inclined manner, the front ends of the inclined material plates 31 are flush with the highest point of the second chain 28, the two links up to enable the tubes lifted by the second chain 28 to roll onto the inclined material plates 31, the front portions and the rear portions of the inclined material plates 31 are respectively provided with a front material blocking hook 35 and a rear material blocking hook 39, the front ends of the front material blocking hook 35 and the rear material blocking hook 39 are hinged to the inclined material plates 31, the lower portions of the front material blocking hook 35 and the rear material blocking hook 39 are respectively provided with a second air cylinder 34, the second air cylinders 34 are hinged to the inclined material plates 31, and the telescopic rods of the two second air cylinders 34 are hinged to the middle portions of the front material blocking hook 35 and the rear material blocking hook 39 and located in A first sensor 36 and a second sensor 40 are respectively embedded in the middle of the front material blocking hook 35 and the rear material blocking hook 39 below the material blocking hook 35 and the rear material blocking hook 39, the first sensor 36 is used for counting, the second sensor 40 is used for transmitting signals, when the number of the pipes counted by the first sensor 36 meets the requirement, the front material blocking hook 35 extends to block the pipes from continuing to advance, at the moment, the shovel plate 37 moves backwards and extends under the action of the chain transmission mechanism 33 and the fourth cylinder 41 to take the pipes on the rear material blocking hook 39 away and convey the pipes to the stacking device 04, when the second sensor 40 does not sense the pipes, a signal is sent, the front material blocking hook 35 falls down, the pipes continue to advance to the rear material blocking hook 39, the chain transmission mechanism 33 driven by the third motor 32 is further arranged at the lower part of the inclined plate 31, and the shovel plate 37 is hinged to the upper surface of the chain transmission mechanism 33, the front end of shovel board 37 is articulated with chain drive 33 shovel board 37's middle part is provided with keeps off the material protruding 74 the below of slope flitch 31 rear end is provided with No. four cylinders 41 the upper end of No. four cylinders 41 piston rod is provided with gyro wheel 42, gyro wheel 42 and shovel board 37's lower surface contact to the lift of flexible control shovel board 37 rear end through No. four cylinders 41 one side of count calandria device 03 is provided with No. three cylinders 43 the tip of No. three cylinders 43 telescopic link is provided with aligns baffle 44 to keep off the tubular product alignment on the material hook 39 after with.

As shown in fig. 13 and 14, the stacking device 04 includes a plurality of chain lifting mechanisms 46 which are arranged side by side and powered by a fourth motor 45, the chain lifting mechanisms 46 are composed of an upper chain wheel and a lower chain wheel which are arranged at the upper part and the lower part of the flitch support 38, and a third chain which is sleeved on the upper chain wheel and the lower chain wheel, the plurality of lower chain wheels arranged side by side realize synchronous transmission through a first transmission shaft which is arranged on the chain lifting mechanisms 46, the first transmission shaft is connected with an output shaft of the fourth motor 45 through a coupler, a material receiving platform 51 is fixedly arranged on the chain of the chain lifting mechanisms 46, a sixth cylinder 49 is arranged at the front part of the material receiving platform 51, the upper end of the sixth cylinder 49 inclines forwards and the lower end inclines backwards, the upper end of the sixth cylinder 49 is lower than the upper surface of the material receiving platform 51, a stacking material front shaping plate 50 which is parallel to the sixth cylinder 49 is arranged at one side of the, the upper end of the stacking material front shaping plate 50 is fixedly connected with a piston of a sixth air cylinder 49, a first sliding groove 75 is arranged on the stacking material front shaping plate 50, two fixed sliding blocks 76 corresponding to the first sliding groove 75 are arranged on the material receiving platform 51, the first sliding groove 75 is matched with the fixed sliding blocks 76 to limit the moving path of the stacking material front shaping plate 50, a stacking material rear shaping plate 53 is hinged to the rear portion of the material receiving platform 51, a connecting block is arranged on the lower portion of the stacking material rear shaping plate 53 and is hinged to a piston rod of a seventh air cylinder 52, a cylinder body of the seventh air cylinder 52 is hinged to the material receiving platform 51, identical mounting blocks 77 are respectively arranged on the middle portion and the upper portion of the rear side of the stacking material rear shaping plate 53, a first lead screw 57 is mounted on the two mounting blocks 77, a first movable nut 78 is arranged on the first lead screw 57, a sliding plate 56 is fixedly connected to the first movable nut 78, the sliding plate 56 can slide up and down along a fifth sliding groove on the stacking material rear shaping plate 53 to meet the specification requirement of stacking materials, the upper part and the lower part of the sliding plate 56 are respectively hinged with a cylinder body of an eight-number cylinder 55 and an auxiliary rear shaping plate 54, a piston rod of the eight-number cylinder 55 is hinged with the upper end of the auxiliary rear shaping plate 54, the angle change of the auxiliary rear shaping plate 54 can be realized by the telescopic motion of the eight-number cylinder 55 to meet the angle requirement of the edge part of the stacking materials, a second sliding groove is also arranged at the front part of the material plate support 38, a first rack 81 is arranged in the second sliding groove in a sliding manner, a sixth motor 79 is also arranged at the front part of the material plate support 38, the sixth motor 79 drives a second transmission shaft 82 to rotate through chain transmission, a plurality of first gears 80 which are meshed with a plurality of first racks 81 in a one-to-one correspondence manner are arranged on the second transmission shaft 82 to convert the rotary motion of the sixth motor 79, and a front side material pushing plate 48 is fixedly arranged at the rear end of the first rack 81 and is used for arranging the pipes. A third sliding groove is formed in the middle of the material receiving platform 51, a second lead screw 83 is arranged in the third sliding groove, a second movable nut is arranged on the second lead screw 83, a sliding block is arranged on one side of the second movable nut, and the material stacking rear shaping plate 53 and the seventh air cylinder 52 are both arranged on the sliding block.

As shown in fig. 15, the traverse device 05 includes a plurality of rails 64 and a chain bed conveyor 65, the rails 64 are arranged behind the counting and pipe arranging device 03, a material conveying trolley 60 is arranged on the rails 64, the plurality of material conveying trolleys 60 synchronously rotate through a third transmission shaft 62, one end of the third transmission shaft 62 is provided with a second worm stepping motor 61 and is driven to rotate through the second worm stepping motor 61, a lifting platform 63 is arranged above the material conveying trolley 60, an electric telescopic rod 66 is arranged between the lifting platform 63 and the material conveying trolleys 60 to realize the lifting of the lifting platform 63, a front material blocking plate 67 is fixedly arranged at the front part of the lifting platform 63, a sliding chute is arranged on the lifting platform 63, a third lead screw 68 is arranged in the sliding chute, a sliding pressure plate 69 is arranged on a third movable nut on the third lead screw 68, sliding pressure plate 69 can remove along with No. three movable nut sliding pressure plate 69's rear end is fixed and is provided with back striker plate 73, chain bed conveyer 65 sets up the rear portion at track 64 the below at chain bed conveyer 65 middle part is provided with a plurality of pressure sensors 84 be provided with bearing plate 85 on the pressure sensors 84, be provided with No. three sensor 86 on the bearing plate 85 be provided with symmetry guide bar 87 around the multiunit side by side on the bearing plate 85, slide jointly on every group guide bar 87 and be provided with layer board 88, be provided with No. nine cylinders 89 between every group guide bar 87 for hold up No. nine cylinders 89, finally weigh to the stack that lies in on chain bed conveyer 65 chain.

The essential features and advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides a metal tubular product intelligence collection device which characterized in that: the pipe stacking device comprises a feeding device (01), a lifting device (02), a counting pipe arranging device (03), a stacking device (04) and a transverse moving device (05), wherein the feeding device (01) unstacks and arranges pipes sent by a production line, the lifting device (02) lifts and conveys the pipes arranged by the feeding device (01) to the counting pipe arranging device (03), the counting pipe arranging device (03) counts the pipes conveyed by the lifting device (02), the pipes are arranged according to the number required by stacking, the arranged pipes are conveyed to the stacking device (04), the stacking device (04) is used for clamping the pipes sent by the counting pipe arranging device (03) and conveying the stacked pipes to the transverse moving device (05), and the transverse moving device (05) conveys the stacked pipes to the next process.

2. The intelligent metal pipe collecting device according to claim 1, wherein: the feeding device (01) comprises a plurality of feeding tables (1) arranged side by side, a first upright post (2) and a second upright post (4) are arranged below the feeding tables (1) and used for supporting the feeding tables (1), one side of the feeding tables (1) connected with the second upright post (4) is inclined downwards, a material blocking block (6) is rotatably arranged at the rear part of the feeding tables (1), the material blocking block (6) is an eccentrically arranged arc-shaped conical surface, an adjusting motor (70) arranged side by side with the material blocking block (6) is arranged on one side of the material blocking block (6), a connecting rod (71) coaxially arranged with the material blocking block (6) is arranged below the material blocking block (6), a connecting rod (71) is also arranged on an output shaft of the adjusting motor (70), and the connecting rods (71) are jointly hinged on a moving shaft (72), a material sensor (5) is arranged above the material blocking block (6), a bearing seat is arranged on one side of the second stand column (4), a second shaft (13) is installed in the bearing seat, a material stirring barrel (15) and a swing arm (7) are connected to the upper key of the second shaft (13), the material stirring barrel (15) is fixedly connected with a material stirring plate (12) through a material stirring plate (14), the rear part of the material stirring plate (12) is arranged in a downward inclined mode, a material blocking plate (16) is arranged at the rear part of the material stirring plate (12), a material blocking sensor (17) is arranged on the front surface of the material blocking plate (16), the other end of the swing arm (7) is hinged to the first shaft (8), one end of the first shaft (8) is hinged to a piston rod of the first cylinder (9), a cylinder body of the first cylinder (9) is hinged to an installation column, and therefore the first shaft (8) is driven to move left and right through the expansion of the first cylinder (9), the material turning plate is driven to turn over through a swing arm (7), a V-shaped roller (11) which is symmetrical to a second shaft (13) is arranged on the other side of the second upright post (4), the tail end of the V-shaped roller (11) and the tail end of the material turning plate (12) are located on the same horizontal line, a mounting shaft on the V-shaped roller (11) is connected with a gear key on a worm stepping motor (10) to drive the V-shaped roller (11) to rotate through the worm stepping motor (10), a safety baffle (18) is arranged on one side of the feeding device (01), the safety baffle (18) and the V-shaped roller (11) are arranged side by side, and a baffle sensor (19) is arranged on the safety baffle (18) and used for detecting whether a pipe conveyed by the V-shaped roller (11) collides with the safety baffle (18) or not to be processed as pipe alignment.

3. The intelligent metal pipe collecting device according to claim 1, wherein: the lifting device (02) comprises a plurality of chain lifting structures arranged side by side and a third shaft (24) used for realizing synchronous rotation of the chain lifting structures, the chain lifting structures comprise chain wheel brackets (25) and motor brackets (30), a fourth transmission chain wheel (26) is arranged on each chain wheel bracket, a second motor (20) is arranged on one motor bracket (30), a first transmission chain wheel (21) is arranged on an output shaft of the second motor (20), a mounting frame is arranged between each chain wheel bracket (25) and each motor bracket (30), a tension wheel (29) is arranged on the lower portion of the mounting frame, the third shaft (24) is rotatably arranged on the upper portion of the mounting frame, a second transmission chain wheel (22) corresponding to the first transmission chain wheel (21) and a third transmission chain wheel (23) corresponding to the fourth transmission chain wheel (26) are arranged on the third shaft (24), a drive sprocket (21) and No. two drive sprocket (22) realize connecting through a chain to drive No. three axle (24) and rotate No. three drive sprocket (23), No. four drive sprocket (26) and take-up pulley (29) are last to install No. two chains (28) evenly be provided with a plurality of material loading baffles (27) on No. two chains (28).

4. The intelligent metal pipe collecting device according to claim 3, wherein: the counting pipe arranging device (03) comprises a plurality of inclined plates (31) arranged side by side, the front ends of the inclined plates (31) are fixedly connected with the motor support (30), the rear ends of the inclined plates (31) are fixedly arranged on the plate support (38), the rear ends of the inclined plates (31) are arranged in a downward inclined mode, the front ends of the inclined plates (31) are flush with the highest point of a second chain (28), the two inclined plates are connected to enable pipes lifted by the second chain (28) to roll onto the inclined plates (31), a front material blocking hook (35) and a rear material blocking hook (39) are respectively arranged at the front portion and the rear portion of the inclined plates (31), the front end of the front material blocking hook (35) and the front end of the rear material blocking hook (39) are hinged on the inclined plates (31), a second material blocking cylinder (34) is respectively arranged below the front material blocking hook (35) and the rear material blocking hook (39), the second cylinder (34) is hinged on the inclined material plate (31), telescopic rods of the two second cylinders (34) are hinged with the middle parts of the front material blocking hook (35) and the rear material blocking hook (39) respectively and are located below the front material blocking hook (35) and the rear material blocking hook (39), a first sensor (36) and a second sensor (40) are inlaid in the middle parts of the front material blocking hook (35) and the rear material blocking hook (39) respectively, the first sensor (36) is used for counting, the second sensor (40) is used for transmitting signals, a chain transmission mechanism (33) driven by a third motor (32) is further arranged on the lower part of the inclined material plate (31), a shovel plate (37) is hinged to the upper surface of the chain transmission mechanism (33), the front end of the shovel plate (37) is hinged with the chain transmission mechanism (33), a material blocking bulge (74) is arranged in the middle part of the shovel plate (37), be provided with No. four cylinder (41) below slope flitch (31) rear end the upper end of No. four cylinder (41) piston rod is provided with gyro wheel (42), the lower surface contact of gyro wheel (42) and shovel board (37) to the lift of flexible control shovel board (37) rear end through No. four cylinder (41) one side of calandria count device (03) is provided with No. three cylinder (43) the tip of No. three cylinder (43) telescopic link is provided with aligns baffle (44) to keep off the material with the back and collude the tubular product alignment on (39).

5. The intelligent metal pipe collecting device according to claim 1, wherein: the stacking device (04) comprises a plurality of chain lifting mechanisms (46) which are arranged side by side and take a fourth motor (45) as power, the chain lifting mechanisms (46) consist of an upper chain wheel and a lower chain wheel which are arranged at the upper part and the lower part of a flitch support (38) and a third chain which is sleeved on the upper chain wheel and the lower chain wheel, the plurality of lower chain wheels arranged side by side realize synchronous transmission through a first transmission shaft which is arranged on the chain lifting mechanisms, the first transmission shaft is connected with an output shaft of the fourth motor (45) through a coupler, a material receiving platform (51) is fixedly arranged on the chain of the chain lifting mechanisms (46), a sixth air cylinder (49) is arranged at the front part of the material receiving platform (51), the upper end of the sixth air cylinder (49) is forwards inclined, the lower end of the sixth air cylinder (49) is backwards inclined, the upper end of the sixth air cylinder (49) is lower than the upper surface of the material receiving platform (51), a stacking material front shaping plate (50) which is parallel to the sixth air, the upper end of the stacking material front shaping plate (50) is fixedly connected with a piston of a sixth air cylinder (49), a first sliding groove (75) is arranged on the stacking material front shaping plate (50), two fixed sliding blocks (76) corresponding to the first sliding groove (75) are arranged on the material receiving platform (51), the first sliding groove (75) is matched with the fixed sliding blocks (76) to limit the moving path of the stacking material front shaping plate (50), a stacking material rear shaping plate (53) is hinged to the rear portion of the material receiving platform (51), a connecting block is arranged on the lower portion of the stacking material rear shaping plate (53), the connecting block is hinged to a piston rod of a seventh air cylinder (52), a cylinder body of the seventh air cylinder (52) is hinged to the material receiving platform (51), the same mounting blocks (77) are respectively arranged in the middle portion and the upper portion of the rear side of the stacking material rear shaping plate (53), and a lead screw (57) is mounted on the two mounting blocks (77), a first movable nut (78) is arranged on the first lead screw (57), a sliding plate (56) is fixedly connected to the first movable nut (78), the sliding plate (56) can slide up and down along a fifth sliding groove on the stacking material rear shaping plate (53) to meet the specification requirement of stacking materials, a cylinder body of an eight-cylinder (55) and an auxiliary rear shaping plate (54) are respectively hinged to the upper portion and the lower portion of the sliding plate (56), a piston rod of the eight-cylinder (55) is hinged to the upper end of the auxiliary rear shaping plate (54), the angle change of the auxiliary rear shaping plate (54) can be realized through the telescopic motion of the eight-cylinder (55), the angle requirement of the edge portion of the stacking materials is met, a second sliding groove is further arranged in the front portion of the flitch support (38), a first rack (81) is arranged in the second sliding groove, and a sixth motor (79) is further arranged in the front portion of the flitch support (38), no. six motor (79) drive No. two transmission shaft (82) through chain drive and rotate No. two transmission shaft (82) are provided with a plurality of and a plurality of gear (80) of rack (81) one-to-one meshing to change the rotary motion of No. six motor (79) into rack (81) linear motion No. one the rear end of rack (81) is fixed and is provided with front side scraping wings (48) for arrange in order tubular product.

6. The intelligent metal pipe collecting device according to claim 5, wherein: the middle of the material receiving platform (51) is provided with a third sliding groove, a second lead screw (83) is arranged in the third sliding groove, a second movable nut is arranged on the second lead screw (83), a sliding block is arranged on one side of the second movable nut, and the material stacking rear shaping plate (53) and the seven air cylinders (52) are both arranged on the sliding block.

7. The intelligent metal pipe collecting device according to claim 1, wherein: the transverse moving device (05) comprises a plurality of rails (64) and a chain bed conveyor (65), the rails (64) are arranged behind the counting and pipe arranging device (03), a conveying trolley (60) is arranged on the rails (64), the conveying trolleys (60) synchronously rotate through a third transmission shaft (62), one end of the third transmission shaft (62) is provided with a second worm stepping motor (61) and is driven to rotate through the second worm stepping motor (61), a lifting material platform (63) is arranged above the conveying trolleys (60), an electric telescopic rod (66) is arranged between the lifting material platform (63) and the conveying trolleys (60) to realize the lifting of the lifting material platform (63), a front material baffle plate (67) is fixedly arranged at the front part of the lifting material platform (63), and a sliding chute is further arranged on the lifting material platform (63), a third lead screw (68) is arranged in the sliding groove, a sliding pressure plate (69) is arranged on a third movable nut on the third lead screw (68), the sliding pressure plate (69) can move along with the third movable nut, a rear material baffle plate (73) is fixedly arranged at the rear end of the sliding pressure plate (69), the chain bed conveyor (65) is arranged at the rear part of the track (64), a plurality of pressure sensors (84) are arranged below the middle part of the chain bed conveyor (65), a bearing plate (85) is arranged on the pressure sensors (84), a third sensor (86) is arranged on the bearing plate (85), a plurality of groups of front and rear symmetrical guide rods (87) are arranged on the bearing plate (85) side by side, a supporting plate (88) is arranged on each group of guide rods (87) in a sliding mode, and a ninth air cylinder (89) is arranged between each group of guide rods (87), used for lifting a nine-cylinder (89) and finally weighing the stacks on the chain of the chain bed conveyor (65).

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