CN114537751A - Production line for manufacturing pipes and operation method - Google Patents

Abstract

The application discloses manufacturing tubular product production line and operating method, it includes: the frame is arranged after the metal pipe cutting process; the conveying device is arranged on the rack and used for conveying the cut metal pipe to a preset position; a plurality of inclined plates which are arranged on the frame and the extending direction of which is vertical to the conveying direction of the conveying device; the bearing device is arranged at a preset position on one side of the inclined plate, which is far away from the conveying device, and is used for bearing the metal pipe; and the feeding device is arranged on the rack and used for pushing the metal pipe on the conveying device into the bearing device along the inclined plate. This application can replace artifical automatic realization to the collection and the arrangement of metal tubular product when using, and can effectual reduction staff's the amount of labour, improves work efficiency.

Description

Production line for manufacturing pipes and operation method

Technical Field

The invention relates to the field of pipe manufacturing production lines, in particular to a pipe manufacturing production line and an operation method.

Background

With the development of society, the use of metal pipes can be seen in many fields, such as the transportation of tap water, fire-fighting pipelines for coating red paint on basements and the like, and the traditional metal pipes generally need to undergo a plurality of processes before leaving factories.

At present, the metal pipe is generally processed by conveying a steel belt with a predetermined width into a forming device through a conveying device, welding the steel belt along a butt joint of the steel belt through a welding device when the steel belt is rolled into a cylinder by the forming device, polishing and grinding the welding position of the formed metal pipe through a grinding device to remove welding slag on the surface of the metal pipe, conveying the steel belt to a cutting device through the conveying device, and cutting the steel belt according to a predetermined size to form a section of metal pipe.

After the metal pipes are cut into preset sizes, a conveying device is arranged in a traditional workshop after the process of cutting equipment to convey the metal pipes to preset positions for stacking, then the metal pipes are aligned and bound together through manpower or equipment, and finally the metal pipes are conveyed to a warehouse through a forklift and stacked.

For the related technical situation, the inventor thinks that after the metal pipe is processed, a large amount of manpower is needed to arrange and carry, the process is not only inefficient, but also if the carried metal pipe is heavy, the worker is easy to be injured, and the situation needs to be further improved.

Disclosure of Invention

The application aims to provide a production line and an operation method for manufacturing pipes, which can replace manual and automatic collection and arrangement of metal pipes, effectively reduce the labor amount of workers and improve the working efficiency.

The application provides a make tubular product production line adopts following technical scheme:

a manufacturing line for tubing, comprising: the frame is arranged after the metal pipe cutting process; the conveying device is arranged on the rack and used for conveying the cut metal pipe to a preset position; a plurality of inclined plates which are arranged on the frame and the extending direction of which is vertical to the conveying direction of the conveying device; the bearing device is arranged at a preset position on one side of the inclined plate, which is far away from the conveying device, and is used for bearing the metal pipe; and the feeding device is arranged on the rack and used for pushing the metal pipe on the conveying device into the bearing device along the inclined plate.

Through adopting above-mentioned technical scheme, the conveyor who sets up can carry predetermined position with the metal tubular product after the cutting, and the material feeding unit of setting can be with the direction propelling movement of carrying the metal tubular product of coming toward the hang plate for metal tubular product can roll along the hang plate and collect in bearing the device, and this scheme can effectual replacement manual work, reduces staff's the amount of labour, improves work efficiency.

The present application further provides that the conveying device comprises: the supporting plate is arranged on the rack, and the extending direction of the supporting plate is consistent with the conveying direction of the conveying device; a plurality of mounting seats mounted on the support plate; the conveying roller is arranged on the mounting seat, and the length direction of the conveying roller is vertical to the length direction of the supporting plate; and a first driving assembly mounted on the support plate for driving the conveying roller to rotate.

Through adopting above-mentioned technical scheme, open first drive assembly, can drive the conveying roller and rotate for the metal tubular product of cutting equipment completion cutting that the conveyer pipe can be very convenient is carried, and this operation can effectual replacement manual work transport metal tubular product.

The application further provides that the diameter of the conveyor roller gradually increases from the middle to both ends.

Through adopting above-mentioned technical scheme, the shape of restriction conveying roller can increase the area of contact of conveying roller and metal tubular product, can also restrict metal tubular product simultaneously, reduces the condition of metal tubular product roll-off from the conveying roller to can improve whole metal tubular product's transport stability.

The application further provides that the feeding device comprises: a plurality of supporting seats mounted on the supporting plate; the bottom of the feeding plate is hinged to the top of the supporting seat, and the extending direction of the feeding plate is consistent with the extending direction of the supporting plate; and the second driving assembly is arranged on the rack and used for driving the feeding plate to rotate so as to dump the metal pipe onto the inclined plate, and the feeding plate is provided with a plurality of through holes for exposing the preset parts of the conveying rollers.

Through adopting above-mentioned technical scheme, the delivery sheet of setting can bear metal tubular product for the conveying roller carries metal tubular product along the loading end of delivery sheet, when treating to carry predetermined position, opens second drive assembly, can empty the metal tubular product on the delivery sheet to the hang plate on, design benefit, the effect is showing.

The application further provides that the middle of the feeding plate is sunken towards one side of the supporting plate, and two sides in the length direction are bent towards one side of the ground to form bent parts.

Through adopting above-mentioned technical scheme, the depressed part of setting can increase the area of contact with metal tubular product to improve the stability that metal tubular product carried, and the flexion that sets up then can reduce when propelling movement metal tubular product, reduces the resistance that the delivery sheet led to the fact metal tubular product, is favorable to the quick transport of metal tubular product to bearing device in.

The application further provides that the carrying device comprises: a backing plate arranged along the conveying direction of the conveying device; a plurality of groups of symmetrical material limiting plates are vertically arranged on the backing plate; the carrying plate is arranged between the material limiting plates in a sliding mode along the vertical direction; and the buffer assembly is arranged between the loading plate and the base plate.

Through adopting above-mentioned technical scheme, when metal tubular product carried the loading board along the hang plate, the limit flitch of setting can follow both sides and restrict metal tubular product for metal tubular product is stable on the loading board, and the buffering subassembly that sets up can play the buffering guard action to loading board and metal tubular product, reduces metal tubular product and receives the collision and warp.

The present application further provides that the buffer assembly comprises: the sliding rod is arranged on the inner side of the material limiting plate along the vertical direction; the sliding block is sleeved on the sliding rod in a sliding manner and is fixed with the carrying plate; and the movable sleeve is sleeved on the sliding rod, one end of the movable sleeve is abutted to the bottom of the sliding block, the other end of the movable sleeve is abutted to the buffer spring on the backing plate, and the inner side of the material limiting plate is provided with a containing groove for accommodating the sliding rod.

Through adopting the above technical scheme, the buffer spring of setting can play the cushioning effect to the sliding block, and the loading board can be given with the transmission of buffer power to the sliding block for the loading board plays the buffering guard action to metal tubular product, and the holding tank that sets up, itself can play the holding effect to the sliding rod, in order to avoid the sliding rod to influence the lift of loading board, and simultaneously, can also restrict the height that the sliding block rises, in order to avoid the condition of sliding block roll-off slide bar to appear.

The application further provides that the height of the material limiting plate far away from the conveying device is higher than that of the material limiting plate close to the conveying device.

By adopting the technical scheme, the height of the material limiting plate on one side is limited, the condition that the metal pipe rolls on the inclined plate and is pushed out of the bearing device due to overlarge impact force can be reduced, and the metal pipe is stably collected on the bearing plate.

The application further provides that one end of the inclined plate, which is far away from the conveying device, is slidably provided with an extension plate, the extension direction of which is consistent with the extension direction of the inclined plate, and the bottom of the inclined plate is provided with a third driving assembly for driving the extension plate to extend out of the inclined plate.

Through adopting above-mentioned technical scheme, the third driving piece that sets up can drive the extension board, stretches out and draws back along the extending direction of hang plate, can further increase the transport scope that the hang plate carried metal tubular product, improves the application scope of this application.

The present application also provides a method of operating a production line for manufacturing tubing, comprising the steps of:

the method comprises the following steps: starting a conveying device to convey the cut metal pipe to a preset position;

step two: starting a feeding device to drive a feeding plate to rotate by a preset angle so as to convey the metal pipe to the carrying plate along the inclined plate;

step three: after the metal pipe on the carrying plate is filled, binding the metal pipe by using a binding belt;

step four: and transferring the bound metal pipe to a preset position in a workshop by using a forklift.

In summary, the present application includes at least one of the following beneficial technical effects:

the cut metal pipe can be conveyed to a preset position through the arranged conveying device, and then the metal pipe on the conveying device is conveniently conveyed into the bearing device along the inclined plate by opening the feeding device, so that the scheme can effectively replace manpower and improve the working efficiency;

through the buffering subassembly that sets up, can cushion the shock attenuation to the loading board when metal tubular product is collected to the loading board to can play the guard action to metal tubular product, reduce the impact force and lead to the fact the condition of striking deformation for metal tubular product area.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a conveying device and a feeding device in an embodiment of the present application;

fig. 3 is a schematic structural diagram of a carrying device in an embodiment of the present application.

Description of reference numerals: 1. a frame; 11. a support plate; 12. a mounting seat; 13. a conveying roller; 14. a supporting seat; 15. a feeding plate; 150. a port; 16. positioning a plate; 2. an inclined plate; 21. an extension plate; 22. a buffer block; 3. a base plate; 30. a calibration plate; 31. a material limiting plate; 32. a loading plate; 33. a slide bar; 34. a slider; 35. a buffer spring; 4. a base; 41. a support bar; 42. a support cylinder; 5. a servo motor; 51. a limiting strip; 6. a pressure sensor.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses a manufacturing line for pipes, as shown in fig. 1 and 2, includes: the frame 1 that sets up behind metal tubular product cutting process installs conveyor on frame 1, and conveyor's feed end and cutting equipment's discharge end butt joint for metal tubular product can directly carry preset position through conveyor after accomplishing the cutting.

In this embodiment, the conveying device includes: install and be banding backup pad 11 on frame 1, install a plurality of mount pads 12 on the loading end of backup pad 11, mount pad 12 distributes along the extending direction of backup pad 11, installs conveying roller 13 on every mount pad 12, and the length direction of conveying roller 13 is unanimous with the width direction of backup pad 11, still installs first drive assembly in backup pad 11, and first drive assembly is used for driving conveying roller 13 and rotates.

After the cutting of the metal pipe is completed, the end of the metal pipe can be pushed to the bearing surface of the conveying roller 13, and the first driving assembly can be started to drive the conveying roller 13 to rotate, so that the metal pipe which is cut to be completed and is convenient to replace manually can be conveyed to a preset position along the length direction of the supporting plate 11.

In order to reduce the situation that the metal pipe slides out of the conveying roller 13 during the conveying process, in this embodiment, it should be noted that the diameter of the conveying roller 13 gradually increases from the middle to the two ends, and this arrangement has the advantage that the conveying roller 13 can increase the contact area with the metal pipe to improve the conveying stability.

Wherein, be provided with hang plate 2 in one side of backup pad 11 length direction, hang plate 2 is predetermined inclination and installs in frame 1, still install the load-bearing device that bears the weight of metal tubular product and use on frame 1, load-bearing device is located hang plate 2 and keeps away from one side of conveyor, in addition, still install material feeding unit on frame 1, when metal tubular product was carried predetermined position, can utilize material feeding unit to push the metal tubular product on the conveying roller 13 to hang plate 2, at this moment, the metal tubular product that is pushed to on hang plate 2 can roll along hang plate 2 and fall to load-bearing device in, in order to accomplish the collection of whole metal tubular product.

In this embodiment, material feeding unit includes: install a plurality of supporting seats 14 on backup pad 11, be provided with feed plate 15 in the top of supporting seat 14, the extending direction of feed plate 15 is unanimous with the extending direction of backup pad 11, and the bottom of feed plate 15 articulates on supporting seat 14, and simultaneously, the tip that is located feed plate 15 at frame 1 still is provided with the second drive assembly, the upset of whole feed plate 15 can be driven to the second drive assembly, it should be said, a plurality of openings 150 have been seted up with conveying roller 13 corresponding position in the bottom of feed plate 15, make conveying roller 13 can expose predetermined part from corresponding opening 150, carry metal tubular product along feed plate 15 with the convenience.

In addition, in order to accurately judge that the metal pipe is conveyed to the preset position, in the embodiment, a positioning plate 16 is installed at one end of the frame 1 far away from the cutting equipment, the positioning plate 16 is installed on the frame 1 through bolts, so that the installation position of the positioning plate 16 can be determined according to the length of the metal pipe, and meanwhile, a travel switch is installed at one side of the positioning plate 16 close to the conveying device and is also electrically connected with the second driving assembly.

When the conveying roller 13 conveys the metal pipe forward, the end of the metal pipe can be abutted to the positioning plate 16, at the moment, the travel switch can transmit the detected signal to the second driving assembly, and the second driving assembly can drive the feeding plate 15 to overturn by a preset angle, so that the metal pipe on the feeding plate 15 is pushed to the inclined plate 2 until the metal pipe slides down to the bearing device along the inclined plate 2.

In this embodiment, in order to further improve the stability that metal tubular product carried, simultaneously, make things convenient for the transport of metal tubular product, the middle part of delivery sheet 15 sets the form of caving in to backup pad 11 one side, and the length direction both sides of delivery sheet 15 are formed with the flexion to ground one side bending, the benefit that sets up like this lies in, the bearing area to metal tubular product can be increased to the sunken part, in order to improve stability, and the flexion then can reduce the resistance that causes metal tubular product at the in-process of rotatory delivery sheet 15.

As shown in fig. 1 and 3, the carrier device includes: a backing plate 3 arranged on the side of the inclined plate 2 far away from the conveying device, the backing plate 3 is placed on the ground when in use, the length direction of the backing plate 3 of the embodiment is consistent with the length direction of the supporting plate 11, a plurality of groups of material limiting plates 31 are vertically arranged on the backing plate 3, two material limiting plates 31 are arranged on each group, and a plurality of groups of material limiting plates 31 are arranged along the length direction of the backing plate 3, an accommodating groove is arranged on the opposite inner side of the material limiting plate 31 along the vertical direction, a sliding rod 33 is arranged in the accommodating groove along the vertical direction, a sliding block 34 is sleeved on the sliding rod 33 in a sliding way, meanwhile, a buffer spring 35 is also sleeved on the sliding rod 33, one end of the buffer spring 35 is abutted on the backing plate 3, the other end is abutted on the bottom of the sliding block 34, and be provided with between the positive limit flitch 31 and carry thing board 32, carry thing board 32 and be the setting of arc form, and carry the bottom side of thing board 32 and pass through bolted connection with sliding block 34.

When metal tubular product when 2 landing along the hang plate, can direct landing to carrying on the thing board 32, at this moment, buffer spring 35 that sets up can play certain buffering cushioning effect to carrying thing board 32, thereby can play the guard action to carrying the metal tubular product on the thing board 32, and the condition that causes metal tubular product to warp is in order to reduce the collision, in addition, in order to further improve the buffering effect to metal tubular product, the bearing face facing of carrying thing board 32 is equipped with the buffer layer of rubber material preparation, the buffer layer of rubber material itself has good elasticity, it can mutually support together with buffer spring 35, play buffering guard action to metal tubular product.

It should be noted that, in each group of material limiting plates 31 of the embodiment, the height of the material limiting plate 31 far away from the conveying device is higher than the height of the material limiting plate 31 near the conveying device, so that the advantage of reducing the situation that the metal pipe falls off the inclined plate 2 and the impact force is too large to flush out the bearing device is provided.

In practice, in order to further increase the application range of the inclined plate 2, so that the inclined plate 2 can convey the metal pipe to a farther predetermined position, in this embodiment, an extending plate 21 is slidably mounted on a side of the bottom of the inclined plate 2, which is far away from the conveying device, the extending direction of the extending plate 21 is consistent with the extending direction of the inclined plate 2, a third driving assembly is further disposed at the bottom of the inclined plate 2, an output end of the third driving assembly is fixed to the extending plate 21, and when the extending plate 21 needs to be used, only the third driving assembly needs to be started to drive the extending plate 21 to slide out from the bottom of the inclined plate 2 to the predetermined position.

In this embodiment, in order to adjust the inclination of the inclined plate 2 according to actual conditions, a height-adjustable support assembly is provided at the bottom of the inclined plate 2, and the support assembly includes: a plurality of bases 4; a support bar 41 hinged to the bottom of the inclined plate 2; and a supporting cylinder 42 with one end screwed on the base 4 and the other end screwed on one end of the supporting rod 41 far away from the inclined plate 2.

In addition, the buffer block 22 is rotatably installed at one end, far away from the inclined plate 2, of the extension plate 21, the torsion spring is installed between the buffer block 22 and the extension plate 21, when the extension plate is in a static state, the top of the buffer block 22 exposes a predetermined part of the bearing surface of the extension plate 21, when the metal pipe rolls down along the extension plate 21, the arranged buffer block 22 can play a role in buffering and decelerating the metal pipe under the action of the torsion spring, and the impact force of the metal pipe is further reduced.

In this embodiment, there is calibration board 30 at the both ends slidable mounting of backing plate 3, the slip direction of calibration board 30 is unanimous with the length direction of backing plate 3, and simultaneously, tip at backing plate 3 still is provided with the fourth drive subassembly, the output of fourth drive subassembly is fixed mutually with calibration board 30, when carrying a plurality of tubular metal resonator material of placing on thing board 32, can open the fourth drive subassembly and drive calibration board 30 and be close to each other, two calibration boards 30 will carry out the butt to tubular metal resonator material's tip from both sides, make tubular metal resonator material can be orderly put things in good order on carrying thing board 32, in order to save this process of follow-up artifical arrangement tubular metal resonator material.

In addition, still be provided with multistage limit material device on hang plate 2, in this embodiment, multistage limit material device includes: install two at least servo motor 5 at the length direction side of hang plate 2, every servo motor 5's output shaft extending direction is unanimous with conveyor's direction of delivery mutually, and still install spacing 51 on servo motor 5's the output shaft, in practice, multistage material limiting device can not use always, when needs use multistage material limiting device, can drive spacing 51 rotatoryly through opening servo motor 5, make spacing 51 rotatory to with hang plate 2 looks vertically position, multistage material limiting device's use, can let the tubular metal resonator on the hang plate 2 landing one by one to the load-bearing device in, and simultaneously, can also reduce tubular metal resonator's impact force.

In addition, install pressure sensor 6 in the position that backing plate 3 is located and carries thing board 32 below, pressure sensor 6 is connected with servo motor 5 electricity, when carrying thing board 32 and descend, when pressure sensor 6 detected to carry the metal tubular product on the thing board 32 and reach predetermined weight, can give servo motor 5 with signal transmission, servo motor 5 can drive spacing 51 rotatory, make the metal tubular product of carrying on the conveyor and coming can temporarily be stored on hang plate 2, at this moment, the staff just can bind the metal tubular product that fills up on carrying thing board 32, then utilize lifting equipment or fork truck to carry away the metal tubular product of binding, in order to make things convenient for carrying thing board 32 to continue work.

In this embodiment, it should be noted that the first driving assembly may be a combination of a motor and a chain, the motor is used for providing a power source, the chain is connected to the end portions of the plurality of conveying rollers 13, and all the conveying rollers 13 can be driven to rotate by the motor; the second driving assembly can be a plurality of groups of vertically arranged hydraulic cylinders, two hydraulic cylinders in each group are arranged below the feeding plate 15 side by side, and when the second driving assembly is used, only one of the hydraulic cylinder piston rods in each group needs to extend and the other hydraulic cylinder piston rod needs to retract; the third component assembly can be a cylinder or an electric push rod; the fourth drive assembly may be a hydraulic cylinder.

The present invention also provides an operating method of a production line for manufacturing tubes, comprising the following steps:

the method comprises the following steps: starting a motor of the conveying device to convey the cut metal pipe towards a preset direction until the end of the metal pipe abuts against the positioning plate 16;

step two: starting a hydraulic cylinder of the feeding device, driving the feeding plate 15 to rotate by a preset angle, so as to convey the metal pipe to the carrying plate 32 along the inclined plate 2;

step three: after the metal pipe on the loading plate 32 is full, the metal pipe is bound by a binding belt;

step four: and transferring the bound metal pipe to a preset position of a workshop by using a forklift or hoisting equipment.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A production line for manufacturing tubes, comprising: a frame (1) arranged after the metal pipe cutting process;

the conveying device is arranged on the rack (1) and is used for conveying the cut metal pipe to a preset position;

a plurality of inclined plates (2) which are arranged on the frame (1) and the extending direction of which is vertical to the conveying direction of the conveying device;

the bearing device is arranged at a preset position on one side of the inclined plate (2) far away from the conveying device and is used for bearing the metal pipe;

and the feeding device is arranged on the rack (1) and used for pushing the metal pipe on the conveying device into the bearing device along the inclined plate (2).

2. A line for manufacturing tubes according to claim 1, characterized in that said conveying means comprise: a support plate (11) which is arranged on the frame (1) and the extension direction of which is consistent with the conveying direction of the conveying device; a plurality of mounting seats (12) mounted on the support plate (11); a conveying roller (13) which is arranged on the mounting seat (12) and the length direction of which is vertical to the length direction of the supporting plate (11); and a first driving component arranged on the supporting plate (11) and used for driving the conveying roller (13) to rotate.

3. A production line for tubes according to claim 2, characterized in that the conveying rollers (13) have a diameter that increases gradually from the middle towards the ends.

4. A line for manufacturing tubes according to claim 1, characterized in that said feeding device comprises: a plurality of support bases (14) mounted on the support plate (11); the bottom of the feeding plate (15) is hinged to the top of the supporting seat (14) and the extending direction of the feeding plate is consistent with the extending direction of the supporting plate (11); and the second driving assembly is arranged on the rack (1) and used for driving the feeding plate (15) to rotate so as to dump the metal pipe onto the inclined plate (2), and a plurality of through holes (150) for exposing the preset parts of the conveying rollers (13) are formed in the feeding plate (15).

5. A production line for manufacturing tubular products according to claim 4, characterized in that the feeding plate (15) has a middle portion recessed toward the support plate (11) side and both longitudinal sides bent toward the ground side to form bent portions.

6. A line for manufacturing tubes according to claim 1, characterized in that said carrying means comprise: a backing plate (3) arranged along the conveying direction of the conveying device; a plurality of groups of symmetrical material limiting plates (31) are vertically arranged on the backing plate (3); the loading plates (32) are arranged between the material limiting plates (31) in a sliding mode along the vertical direction; and a buffer component arranged between the loading plate (32) and the backing plate (3).

7. The manufacturing line of claim 6, wherein the buffer assembly comprises: a slide rod (33) installed inside the material limiting plate (31) along the vertical direction; a sliding block (34) which is sleeved on the sliding rod (33) in a sliding way and is fixed with the carrying plate (32); and the buffer spring (35) is movably sleeved on the sliding rod (33), one end of the buffer spring is abutted to the bottom of the sliding block (34), the other end of the buffer spring is abutted to the backing plate (3), and an accommodating groove for accommodating the sliding rod (33) is formed in the inner side of the material limiting plate (31).

8. A line for manufacturing tubes according to claim 1, characterized in that the height of the restrictor plate (31) remote from the conveyor is higher than the height of the restrictor plate (31) close to the conveyor.

9. A production line for manufacturing tubular products according to claim 1, characterized in that the end of the inclined plate (2) far away from the conveying device is slidably provided with an extension plate (21) having an extension direction consistent with the extension direction of the inclined plate (2), and the bottom of the inclined plate (2) is provided with a third driving component for driving the extension plate (21) to extend out of the inclined plate (2).

10. A method of operating a line for manufacturing tubes, based on a line for manufacturing tubes according to any one of claims 1 to 9, comprising the steps of:

the method comprises the following steps: starting a conveying device to convey the cut metal pipe to a preset position;

step two: starting a feeding device to drive a feeding plate (15) to rotate by a preset angle so as to convey the metal pipe to a carrying plate (32) along an inclined plate (2);

step three: after the metal pipe on the object carrying plate (32) is filled, binding the metal pipe by using a binding belt;

step four: and transferring the bound metal pipe to a preset position in a workshop by using a forklift.

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