CN217920000U - Waste pipe feeding device in metal packing belt production line - Google Patents

Abstract

The utility model relates to the waste pipe processing field, and provides a waste pipe feeding device in a metal packing belt production line, which comprises a storage unit, a feeding unit and a transmission unit in sequence; the storage unit comprises a support frame, a support plate and a fence, wherein the support plate sequentially comprises an inclined surface, a support surface I, a transverse surface and a support surface II, the inclined surface is inclined in the direction from the support surface I to the support surface II and tends to incline downwards, and a limiting block is arranged on the inclined surface and is close to the intersection of the support surface II and the inclined surface; a plurality of feeding units with the same structure are fixed on the support frame and the edge of the limiting block at intervals, each feeding unit comprises a base, a hydraulic cylinder and a supporting plate connected with a piston rod of the hydraulic cylinder, and the top surface of each supporting plate is inclined; the conveying unit comprises a conveying plate and a bracket; the top surface of one end of the conveying plate is lower than the bottom surface of the supporting plate and is close to the supporting plate, the other end of the conveying plate is aligned to a feeding groove of the feeding mechanism, and the conveying plate is inclined downwards from the supporting plate to the feeding groove; has the advantages that: realize waste pipe automatic feeding, improved work efficiency.

Description

Waste pipe feeding device in metal packing belt production line

Technical Field

The utility model belongs to the waste pipe field of handling especially relates to a waste pipe loading attachment in metal packing area production line.

Background

At the early stage, no good treatment method is available for the steel pipe with defects, the steel pipe is generally sold according to waste products after being manually cut, flattened and packed, and the annual output value of the applicant is huge, so that the quantity of waste pipes generated every year is large, and the traditional method wastes resources and manpower. Based on the reasons that a packing belt needs to be purchased additionally for packing the finished steel pipe, the applicant independently develops a set of production line for producing the metal packing belt by using the waste pipe, the production line comprises a feeding mechanism, a pipe breaking mechanism, an extruding mechanism, a pipe unfolding mechanism, a cutting mechanism and the like, and the waste steel pipe is fed, broken, flattened and cut into a strip of packing belt through the processes. The storage rack of the applicant at the earlier stage is a common rack, one waste pipe is placed on the storage rack, when the waste pipe needs to be fed, two persons are required to lift the waste pipe into a feeding groove of a feeding mechanism together because the waste pipe is long and heavy, and the waste pipe is pushed to advance and then is broken and the like. During the period, the two workers need to stand on two sides of the storage rack respectively to wait for lifting the waste pipe into the feeding groove next time, so that the rack only plays a role of enabling the workers to conveniently lift the waste pipe, the process is labor-consuming, the working efficiency is low, and the problem is solved through the application.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a practice thrift manpower, improve waste pipe loading attachment in work efficiency's metal packing area production line.

The technical scheme of the utility model is that:

a waste pipe feeding device in a metal packing belt production line sequentially comprises a storage unit, a feeding unit and a conveying unit;

the storage unit comprises a support frame, a plurality of support plates which are fixed on the support frame and used for placing waste pipes and arranged side by side, a fence with the top higher than the support plates and used for blocking three peripheries of the support plates, the support plates sequentially comprise inclined planes used for placing the waste pipes, a support surface I which is connected with the inclined planes and fixedly connected with one of the fences, a cross plane which is connected with the support surface I and fixedly connected with a bottom support frame, and a support surface II which is connected with the cross plane and lower than the support surface I, further, the inclined plane from the support surface I to the support surface II is inclined downwards, a limiting block is arranged on the inclined planes, and the limiting block is close to the intersection of the support surface II and the inclined planes;

furthermore, in an included angle formed by the inclined surface and one surface of the fence, the acute angle is between 54 and 84 degrees;

furthermore, the number of the waste pipes on the supporting plate is one row each time;

furthermore, a threaded hole is formed in the inclined surface of the supporting plate, a threaded column is welded at the bottom of the limiting block, the limiting block is connected with the supporting plate through threads, the height of the limiting block is 1cm-12cm, and the limiting blocks with different heights can be replaced according to waste pipes with different heights;

the feeding units with the same structure are fixed on the supporting frame and the edge of the limiting block at intervals, each feeding unit comprises a base, a hydraulic cylinder and a supporting plate, the base is connected with the supporting frame through screws, the hydraulic cylinder is fixed on the base, the supporting plate is connected with a piston rod of the hydraulic cylinder, the top surface of the supporting plate is inclined, the inclination direction of the supporting plate is consistent with the inclination direction of the inclined surface, further, the top surface of the supporting plate is lower than or parallel to the inclined surface under the condition that the piston rod does not rise, after the hydraulic cylinder is started, the piston rod drives the supporting plate to support a waste pipe on the inclined surface, and when the waste pipe is supported to a certain height until the bottom surface of the waste pipe is higher than the top surface of the limiting block, the waste pipe slides down along the inclination direction of the supporting plate due to the effects of inclination and gravity;

furthermore, the device also comprises a terminal controller, wherein the terminal controller is electrically connected with the hydraulic cylinder and can control the lifting height of a piston rod in the hydraulic cylinder;

further, a groove is formed in the supporting plate, a threaded hole penetrating through the supporting plate is formed in the bottom of the groove, a threaded hole is formed in the piston rod, a screw penetrates through the threaded hole in the piston rod after penetrating through the threaded hole in the supporting plate, the supporting plate and the piston rod are fixedly connected, after the connection, the top surface of the screw is parallel to or lower than the top surface of the supporting plate, and further, the supporting plates with different sizes can be replaced according to the diameters of the waste pipes with different specifications;

the conveying unit comprises a conveying plate for receiving waste pipes sliding down from the top surface of the supporting plate and a bracket which is arranged at the bottom of the conveying plate, used for supporting the conveying plate and fixed on the supporting frame; the top surface of one end of the conveying plate is lower than the bottom surface of the supporting plate and is close to the supporting plate, the downward inclined end of the supporting plate vertically extends and falls onto the conveying plate, the other end of the supporting plate vertically extends upwards and falls onto a first waste pipe tightly attached to the limiting block, namely, only one waste pipe can be supported by the supporting plate each time, the other end of the conveying plate is aligned to a feeding groove of the feeding mechanism, and the conveying plate is inclined downwards from the supporting plate to the feeding groove;

further, a position sensor is arranged at the front end of the feed chute, the position sensor is electrically connected with a terminal controller, and when the information transmitted to the terminal controller by the position sensor is that the last waste pipe is completely transmitted, the terminal controller controls the hydraulic cylinder to transmit the next waste pipe;

furthermore, protection plates with a certain height are arranged on two sides of the supporting plate, and the height of each protection plate is higher than the height of the top surface of the upper waste pipe of the supporting plate after the supporting plate is lifted; the two protection plates are butted with the two parallel fences, namely the transverse extension directions of the inner surfaces of the two protection plates and the transverse extension direction of the inner surface of the fence are on the same horizontal line;

furthermore, the bottom of the support frame is fixed with a universal wheel through a screw, the universal wheel effectively increases the mobility of the device, the device is convenient to move, the device is fixed through a support plate after being moved, and the stability is good.

The utility model has the advantages that:

the utility model discloses a conveying plate, including the backup pad, the piston rod drives the layer board and rises, and the layer board has held up a waste tube, because the top surface of layer board is the slope form, consequently breaks away from the limiting displacement back of stopper when the waste tube, along the decline direction landing of layer board to the conveying plate, because the layer board is the trend of declining to the feed chute direction conveying plate, consequently, the waste tube falls into the feed chute along the layer board decline direction in, the material loading finishes. Above-mentioned process need not artifical transport, has saved the manpower, has improved work efficiency.

Because be equipped with the screw hole on the inclined plane of backup pad, the welding of stopper bottom has the screw thread post, the stopper passes through the screw thread and is connected with the backup pad, consequently can be according to the waste pipe of co-altitude, changes co-altitude stopper and satisfies the material loading demand of different diameter waste pipes. Because the supporting plate is provided with the groove, the bottom of the groove is provided with the threaded hole penetrating through the supporting plate, and the screw penetrates into the threaded hole in the piston rod after penetrating through the threaded hole in the supporting plate, the supporting plate is fixedly connected with the piston rod, so that the supporting plates with different sizes can be replaced according to waste pipes with different diameters to meet requirements.

Fence and guard plate prevent that the waste pipe from following this loading attachment landing, have ensured the security of work.

The universal wheel effectively increases the mobility of the device, is convenient to move, is fixed through the support plate after being moved, and has good stability.

The terminal controller and the position sensor are arranged, so that the automation degree of the device is enhanced.

Drawings

FIG. 1 is a schematic view of a waste pipe feeding device in a metal packing belt production line of the present invention;

FIG. 2 is a left side view of a waste pipe feeding device in the metal packing belt production line;

FIG. 3 is a schematic view of a support plate and a loading unit;

FIG. 4 is a right side view of a waste pipe feeding device in the metal packing belt production line;

FIG. 5 is a schematic view of a stop;

FIG. 6 is a schematic view of a waste pipe loading device in a metal strapping band production line equipped with 2 waste pipes;

in the figure:

1. storage unit 2, material loading unit 3, conveying unit

1-1, support frame 1-2, support plate 1-3 and fence

1-2-1, inclined surface 1-2-2, supporting surface I1-2-3 and transverse surface

1-2-4, support surface II 1-4, limiting block 1-5 and threaded column

2-1, base 2-2, hydraulic cylinder 2-3 and supporting plate

2-3-1, 2-3-2 grooves, 3-1 screws and a transmission plate

3-2 parts of support 4, 3-3 parts of feed chute and protection plate

3-3-1, inner surface 5, universal wheel

Detailed Description

In this embodiment, a waste pipe feeding device in a metal packing belt production line sequentially comprises a storage unit 1, a feeding unit 2 and a conveying unit 3;

the storage unit 1 comprises a support frame 1-1, a plurality of support plates 1-2 which are fixed on the support frame 1-1 and used for placing waste pipes and arranged side by side, and a fence 1-3 which is higher than the support plates 1-2 in top and used for blocking three peripheries of the support plates 1-2; the universal wheel 5 is fixed at the bottom of the support frame 1-1 through a screw, the universal wheel 5 effectively increases the mobility of the device, is convenient to move, is fixed through a support plate after being moved, and is good in stability.

As shown in fig. 3, the supporting plate 1-2 sequentially comprises an inclined surface 1-2-1 for placing a waste pipe, a supporting surface i 1-2-2 connected with the inclined surface 1-2-1 and fixedly connected with one fence 1-3, a cross surface 1-2-3 connected with the supporting surface i 1-2-2 and fixedly connected with a bottom supporting frame 1-1, and a supporting surface ii 1-2-4 connected with the cross surface 1-2-3 and lower than the supporting surface i 1-2-2, wherein the inclined surface 1-2-1 is inclined downwards from the supporting surface i 1-2-2 to the supporting surface ii 1-2-4, a limiting block 1-4 is arranged on the inclined surface 1-2-1, and the limiting block 1-4 is close to the intersection of the supporting surface ii 1-2-4 and the inclined surface 1-2-1;

furthermore, an acute angle in an included angle formed by the inclined surface 1-2-1 and one surface of the fence 1-3 is 68 degrees, and the acute angle just enables the waste pipe to roll from a high position to a low position under the action of gravity and a slope and can not roll out of the supporting plate 1-2 due to too large gradient;

a threaded hole is formed in the inclined surface 1-2-1 of the supporting plate 1-2, as shown in fig. 5, a threaded column 1-5 is welded at the bottom of the limiting block 1-4, the limiting block 1-4 is connected with the supporting plate 1-2 through threads, and the height of the limiting block 1-4 is 3cm;

as shown in fig. 6, 5 feeding units 2 with the same structure are all fixed on a support frame 1-1 and at the edge of a limiting block 1-4 at intervals, each feeding unit 2 comprises a base 2-1 for being connected with the support frame 1-1 through a screw 2-3-2, a hydraulic cylinder 2-2 fixed on the base 2-1, and a supporting plate 2-3 connected with a piston rod of the hydraulic cylinder 2-2, the top surface of the supporting plate 2-3 is inclined, the inclination direction of the supporting plate is consistent with the inclination direction of the inclined surface 1-2-1, further, the top surface of the supporting plate 2-3 is lower than or parallel to the inclined surface 1-2-1 under the condition that the piston rod is not lifted, after the hydraulic cylinder 2-2 is started, the piston rod drives the supporting plate 2-3 to support waste pipes on the inclined surface 1-2-1, and when the waste pipes are supported to a certain height until the bottom surfaces of the waste pipes are higher than the top surfaces of the limiting blocks 1-4, the waste pipes slide off from the top surfaces of the supporting plate 2-3 due to the effects of inclination and gravity;

further, a groove 2-3-1 is formed in the supporting plate 2-3, a threaded hole penetrating through the supporting plate 2-3 is formed in the bottom of the groove 2-3-1, a threaded hole is formed in the piston rod, a screw 2-3-2 penetrates through the threaded hole in the supporting plate 2-3 and then penetrates into the threaded hole in the piston rod, so that the supporting plate 2-3 is fixedly connected with the piston rod, after connection, the top surface of the screw 2-3-2 is parallel to or lower than the top surface of the supporting plate 2-3, and further, the supporting plates 2-3 with different sizes can be replaced according to diameters of waste pipes with different specifications;

the conveying unit 3 comprises a conveying plate 3-1 for receiving waste pipes sliding from the top surface of the supporting plate 2-3 and a bracket 3-2 which is arranged at the bottom of the conveying plate 3-1, is used for supporting the conveying plate 3-1 and is fixed on the supporting frame 1-1; the top surface of one end of the conveying plate 3-1 is lower than the bottom surface of the supporting plate 2-3 and is close to the supporting plate 2-3, the downward-inclined end of the supporting plate 2-3 vertically extends downwards and falls onto the conveying plate 3-1, the other end of the supporting plate 2-3 vertically extends upwards and falls onto 4/3 of a first waste pipe tightly attached to the limiting block 1-4, namely only one waste pipe can be supported by the supporting plate 2-3 each time, the other end of the conveying plate 3-1 is aligned with the feeding groove 4 of the feeding mechanism, and the conveying plate 3-1 is inclined downwards from the supporting plate 2-3 to the feeding groove 4;

furthermore, protection plates 3-3 with certain heights are arranged on two sides of the supporting plate 2-3, and the heights of the protection plates 3-3 are higher than the top surface height of the waste pipe at the upper part of the supporting plate 2-3 after the supporting plate 2-3 is lifted; the two protection plates 3-3 are butted with the two parallel fences 1-3, namely the transverse extension directions of the inner surfaces 3-3-1 of the two protection plates 3-3 and the inner surfaces 3-3-1 of the fences 1-3 are on a horizontal line;

before working, workers stack the waste pipes according to the diameters of the pipes, process the waste pipes with different diameters in batches, and replace limiting blocks 1-4 with different heights and supporting plates 2-3 with different thicknesses and sizes according to the waste pipes with different diameters in the later period;

after the waste pipes are classified, workers convey a plurality of rusted and rustless waste pipes with the diameter of 10cm to the supporting plates 1-2 through a crane or manually, 5 supporting plates 1-2 support the waste pipes together, the waste pipes are neatly and tightly arranged on the supporting plates 1-2 under the action of gravity, and after the supporting plates 1-2 are fully distributed with a row of waste pipes, subsequent work is carried out;

as shown in fig. 6, the terminal controller controls a piston rod of the hydraulic cylinder 2-2, the piston rod drives the supporting plate 2-3 to ascend, when the supporting plate 2-3 ascends to a certain height, that is, the bottom surface of the waste pipe is higher than the top surface of the limiting block 1-4, the waste pipe slides off the top surface of the supporting plate 2-3 along the declination direction of the supporting plate 2-3 due to the action of inclination and gravity, at this time, the piston rod drives the supporting plate 2-3 to return to the original position, the supporting plate 2-3 cannot ascend too high, when the limitation of the waste pipe is removed, the waste pipe can return to the original position through the driving action of the piston rod, in the process, when the limitation of the first waste pipe is not completely removed by the limiting block 1-4, the first waste pipe prevents the second waste pipe from moving forwards, after the first waste pipe is removed from limitation, because the supporting plate 2-3 has a certain thickness, the thick end of the supporting plate 2-3 limits the next waste pipe from rolling forwards, meanwhile, the piston rod drives the push plate to descend, when the supporting plate 2-3 returns to the original position, namely the top surface of the supporting plate 2-3 is parallel to or lower than the top surface of the supporting plate 2-3, the next waste pipe has no blocking effect, the next waste pipe rolls towards the direction of the limiting block 1-4 under the action of a slope and gravity until being limited by the limiting block 1-4, the subsequent waste pipe can roll forwards, and when the position sensor detects that no waste pipe exists at the front end of the feeding groove 4, the position sensor transmits information to the terminal controller: and when the last waste pipe is conveyed, the terminal controller controls the hydraulic cylinder 2-2 to convey the next waste pipe, and the like until all the waste pipes on the supporting plate 1-2 are completely fed.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in fig. 1, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Claims (10)

1. The utility model provides a waste pipe loading attachment in metal packing area production line which characterized in that: the device sequentially comprises a material storage unit, a material loading unit and a conveying unit;

the storage unit comprises a support frame, a plurality of support plates which are fixed on the support frame and used for placing waste pipes and arranged side by side, a fence with the top higher than the support plates and used for blocking three peripheries of the support plates, the support plates sequentially comprise inclined planes used for placing the waste pipes, a support surface I which is connected with the inclined planes and fixedly connected with one of the fences, a transverse plane which is connected with the support surface I and fixedly connected with a bottom support frame, and a support surface II which is connected with the transverse plane and lower than the support surface I, further, the inclined plane from the support surface I to the support surface II is inclined downwards, a limiting block is arranged on the inclined plane, and the limiting block is close to the intersection of the support surface II and the inclined plane;

the feeding units with the same structure are fixed on the supporting frame and the edge of the limiting block at intervals, each feeding unit comprises a base, a hydraulic cylinder and a supporting plate, the base is connected with the supporting frame through screws, the hydraulic cylinder is fixed on the base, the supporting plate is connected with a piston rod of the hydraulic cylinder, the top surface of the supporting plate is inclined, the inclination direction of the supporting plate is consistent with the inclination direction of the inclined surface, the top surface of the supporting plate is lower than or parallel to the inclined surface under the condition that the piston rod does not ascend, after the hydraulic cylinder is started, the piston rod drives the supporting plate to support a waste pipe on the inclined surface, when the waste pipe is supported to a certain height until the bottom surface of the waste pipe is higher than the top surface of the limiting block, and the waste pipe slides down along the inclination direction of the supporting plate due to the effects of inclination and gravity;

the conveying unit comprises a conveying plate for receiving waste pipes sliding down from the top surface of the supporting plate and a bracket which is arranged at the bottom of the conveying plate, used for supporting the conveying plate and fixed on the supporting frame; the top surface of one end of the conveying plate is lower than the bottom surface of the supporting plate and is close to the supporting plate, the other end of the conveying plate is aligned to a feeding groove of the feeding mechanism, and the conveying plate is inclined downwards from the supporting plate to the feeding groove.

2. The waste pipe feeding device in the metal packing belt production line as claimed in claim 1, wherein: the inclined plane of backup pad is equipped with the screw hole, the welding of stopper bottom has the screw thread post, the stopper passes through the screw thread and is connected with the backup pad.

3. The waste pipe feeding device in the metal packing belt production line as claimed in claim 1 or 2, wherein: the supporting plate is provided with a groove, the bottom of the groove is provided with a threaded hole penetrating through the supporting plate, the piston rod is provided with a threaded hole, a screw penetrates through the threaded hole in the piston rod after penetrating through the threaded hole in the supporting plate, the supporting plate is fixedly connected with the piston rod, and after the connection, the top surface of the screw is parallel to or lower than the top surface of the supporting plate.

4. The waste pipe feeding device in the metal packing belt production line as claimed in claim 3, wherein: the end that declines of layer board is on falling into the conveying board perpendicularly extending direction, the layer board other end perpendicular upwards extending direction falls into hug closely the stopper on the first waste pipe, and the layer board can only hold up a waste pipe promptly every time.

5. The device for feeding the waste pipe in the metal packing belt production line as claimed in claim 4, wherein: and protection plates with a certain height are arranged on two sides of the supporting plate, and the height of each protection plate is higher than the top surface height of the upper waste pipe of the supporting plate after the supporting plate is lifted.

6. The device as claimed in claim 5, wherein the device comprises: the two protection plates are butted with the two parallel fences, namely the transverse extension directions of the inner surfaces of the two protection plates and the transverse extension direction of the inner surface of the fence are on the same horizontal line.

7. The device as claimed in claim 6, wherein the device comprises: the bottom of the support frame is fixed with universal wheels through screws, and the support frame is fixed through a support plate after being moved.

8. The device of claim 7, wherein the device comprises: the device also comprises a terminal controller, wherein the terminal controller is electrically connected with the hydraulic cylinder and can control the lifting height of a piston rod in the hydraulic cylinder;

the front end of the feeding groove is provided with a position sensor, the position sensor is electrically connected with a terminal controller, and when the information transmitted to the terminal controller by the position sensor is that the last waste pipe is completely transmitted, the terminal controller controls the hydraulic cylinder to transmit the next waste pipe.

9. The waste pipe feeding device in the metal packing belt production line as claimed in claim 8, wherein: the acute angle of an included angle formed by the inclined surface and one surface of the fence is 54-84 degrees.

10. The waste pipe feeding device in the metal packing belt production line as claimed in claim 9, wherein: the height of the limiting block is between 1cm and 12 cm.

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