CN111482522B - Feeding device for pressing anti-skid lines on iron cans - Google Patents

Abstract

The invention relates to a feeding device, in particular to a feeding device for pressing anti-skid lines on an iron can. The technical problem to be solved is as follows: the utility model provides a can replace the manual work, on the device of suppression antiskid line with the iron can cover automatically, reduce manual operation, the iron can suppression antiskid line loading attachment of automatic collection iron can. The technical scheme of the invention is as follows: the utility model provides a can suppression antiskid line loading attachment, includes: the side part of the base is provided with a motor, and a rotary drum is arranged on the base at one side far away from the motor; the discharging frame is installed on the side portion, close to one side of the motor, of the base, and the first supporting platform is arranged on the base below the discharging frame. According to the anti-skid device, the iron cans can be automatically conveyed to the front of the rotary drum through the feeding mechanism, the iron cans are not required to be manually placed below the rotary drum, the iron cans positioned in front of the rotary drum can be automatically sleeved on the rotary drum through the pushing mechanism, the work of pressing anti-skid lines on the iron cans is completed, and manual operation steps are reduced.

Description

Feeding device for pressing anti-skid lines on iron cans

Technical Field

The invention relates to a feeding device, in particular to a feeding device for pressing anti-skid lines on an iron can.

Background

At present, the iron can surface is too smooth after production, and in order to prevent when taking, the iron pipe can not the landing, and the producer can suppress one deck anti-skidding line on the iron can surface usually, at the in-process of suppression anti-skidding line, needs the workman to overlap the iron can one by one on the device of suppression anti-skidding line, after having suppressed anti-skidding line, the workman takes off the iron can again, sheathes another iron can of treating the suppression.

Mode inefficiency of above manual work with the iron ladle cover on the smooth line device of suppression needs the manual work to ceaselessly repeat the operation, easily causes workman fatigue, for solving these problems, needs to design one kind and can replace the manual work, overlaps the iron ladle on the device of suppression antiskid line automatically, accomplishes the iron ladle suppression antiskid line loading attachment that the iron ladle was collected.

Disclosure of Invention

In order to overcome the defects that the efficiency is low and the labor is easy to fatigue when an iron can is sleeved on a device for pressing anti-skid lines manually, the technical problem to be solved is as follows: the utility model provides a can replace the manual work, on the device of suppression antiskid line with the iron can cover automatically, reduce manual operation, the iron can suppression antiskid line loading attachment of automatic collection iron can.

The technical scheme of the invention is as follows: the utility model provides a can suppression antiskid line loading attachment, includes:

the side part of the base is provided with a motor, and a rotary drum is arranged on the base at one side far away from the motor;

the feeding frame is mounted on the side part, close to one side of the motor, of the base, and the first supporting platform is arranged on the base below the feeding frame;

the feeding mechanism is arranged between the side part of the base close to one side of the discharging frame and the top of the first supporting table;

the second supporting platform is arranged on the side part of the base, which is far away from one side of the discharging frame, and the top of the second supporting platform is provided with a second sliding rail;

and the second sliding block is arranged in the second sliding rail in a sliding manner, and the side part of the second sliding block close to one side of the rotating drum is provided with an ejection rotating rod.

Preferably, the feeding mechanism comprises:

the first tooth-missing big gear is arranged on an output shaft of the motor, and a first rotating shaft is rotatably arranged on the side part of the base close to one side of the motor;

the first full-tooth pinion is arranged at the end part of the first rotating shaft close to one side of the first gear wheel with missing teeth, and the first full-tooth pinion can be meshed with the first gear wheel with missing teeth;

the end part of the first rotating shaft, which is far away from one side of the motor, of the first rotating rod is connected with the first rotating rod, and the tail end of the first rotating rod is rotatably provided with a connecting rod;

the first sliding rail is connected to the side part of the first supporting table, and the middle part of the first sliding rail close to one side of the first rotating shaft is provided with a first sliding chute;

the first sliding block is arranged on the first sliding rail in a sliding mode, and the side part, close to one side of the motor, of the connecting rod passes through the first sliding groove to be rotatably connected with the side part, close to the first sliding block, of the connecting rod;

the fixed plate is rectangular and is arranged on the side part of the first sliding block close to one side of the rotary drum, the middle part of the fixed plate is rotatably provided with a supporting plate, and the side part of the supporting plate far away from one side of the rotary drum penetrates through the fixed plate;

and a spring is connected between the top of the supporting plate close to one side of the first sliding block and the bottom of the first sliding block close to the supporting plate.

Preferably, the apparatus further comprises an ejecting mechanism, the ejecting mechanism comprising:

the second tooth-missing big gear is arranged on an output shaft of the motor, and a second rotating shaft is rotatably arranged on the side part of the base close to one side of the motor;

the end part of the second rotating shaft, which is close to one side of the second gear-lacking big gear, of the second full-tooth pinion is provided with the second full-tooth pinion, and the second full-tooth pinion can be meshed with the second gear-lacking big gear;

the first conical gear is arranged at the end part of the second rotating shaft at one side far away from the first supporting platform;

the transmission shaft is rotatably arranged on the side part of the base close to one side of the first conical gear, a second conical gear is arranged at the end part of the transmission shaft close to one side of the first conical gear, and the second conical gear is meshed with the first conical gear;

the third rotating shaft is rotatably arranged on the side part of the base close to one side of the second supporting table, and a belt transmission assembly is connected between the end part of the third rotating shaft close to one side of the first conical gear and the end part of the second rotating shaft close to the end part of the third rotating shaft;

the rotary table is arranged at the end part of the third rotating shaft close to one side of the second support table, and the side part of the rotary table close to one side of the second sliding rail is rotatably provided with a push-pull rod;

and the end part of the push-pull rod close to one side of the second supporting platform passes through the second chute and is rotatably connected with the side part of the second sliding block close to the second sliding platform.

Preferably, the device further comprises a discharging mechanism, wherein the discharging mechanism comprises:

the side part of the second sliding rail close to one side of the rotary drum is provided with a third sliding chute;

the fixed sliding block is arranged in the third sliding groove in a sliding mode, and the side part of the fixed sliding block close to one side of the second sliding rail is connected with the side part of the second sliding block far away from one side of the rotary table;

the material pulling rod is arranged on the side part of the fixed sliding block.

Preferably, the method further comprises the following steps:

and the collecting box is placed on the base right below the rotary drum and is used for collecting the pressed iron cans.

Compared with the prior art, the invention has the following advantages: 1. through feeding mechanism, can send the iron can dead ahead to the rotary drum automatically, need not the manual work and place the iron can in the rotary drum below.

2. Through the push-out mechanism, the iron can positioned in front of the rotary drum can be automatically sleeved on the rotary drum, so that the work of pressing anti-skid lines on the iron can is completed, and the manual operation steps are reduced.

3. Through shedding mechanism, make the iron can of the good antiskid line of suppression drop automatically, simultaneously, the collecting box of rotary drum below can collect the iron can that drops, need not the manual work and collects.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the motor, the first support table, the discharge frame and the feeding mechanism of the present invention.

Fig. 3 is a schematic perspective view of the pushing mechanism, the motor and the second support platform according to the present invention.

FIG. 4 is a schematic perspective view of the second slide rail, the second slide block, the discharging mechanism, the collecting box and the rotary drum of the present invention.

Fig. 5 is a schematic separated perspective view of the fixing plate, the spring and the support plate according to the present invention.

The meaning of the reference symbols in the figures: 1: base, 2: a motor, 3: drum, 4: discharge frame, 41: first support table, 42: second support table, 5: feeding mechanism, 51: first missing-tooth gearwheel, 52: first rotating shaft, 53: first full-tooth pinion, 54: first rotating lever, 55: connecting rod, 56: first slide rail, 57: first runner, 58: first slider, 59: a fixing plate, 510: pallet, 511: spring, 611: second slide rail, 613: second slider, 614: ejecting rotating rod, 6: ejection mechanism, 61: second missing-tooth gearwheel, 62: second rotation shaft, 63: second full-tooth pinion, 64: first bevel gear, 65: drive shaft, 66: second bevel gear, 67: belt drive assembly, 68: third rotating shaft, 69: a turntable, 610: push-pull rod, 612: second runner, 7: discharge mechanism, 71: third runner, 72: fixed slider, 73: material pulling rod, 8: and a collection box.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the invention is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the invention.

Example 1

A feeding device for pressing anti-skid lines on iron cans is shown in figures 1-4 and comprises a base 1, a motor 2, a rotary drum 3, a material placing frame 4, a first supporting table 41, a second supporting table 42, a feeding mechanism 5, a second sliding rail 611, a second sliding block 613 and an ejection rotary rod 614, wherein the motor 2 is installed on the front portion of the right side of the base 1, the rotary drum 3 is installed on the rear portion of the left side of the base 1, the material placing frame 4 is arranged on the rear side of the right portion of the base 1, the first supporting table 41 is installed on the base 1 below the material placing frame 4, the feeding mechanism 5 is arranged on the front side of the right portion of the base 1 and the first supporting table 41, the second supporting table 42 is arranged on the front side of the left portion of the base 1, the second sliding rail 611 is installed on the top of the second supporting table 42, the second sliding block 613 is arranged in the second sliding manner, and the ejection rotary rod 614 is connected to the rear side of the second sliding block 613.

When the anti-skid veins need to be pressed on the iron cans, the equipment is placed on the front side of a device for pressing the anti-skid veins, a rotary drum 3 is positioned under the device for pressing the anti-skid veins, then a plurality of iron cans are transversely placed on a material placing frame 4, the iron cans slide on parts of a feeding mechanism 5 along with the rotary drum, then a motor 2 is started, the parts in the feeding mechanism 5 on an output shaft of the motor 2 rotate along with the rotary drum, when the parts in the feeding mechanism 5 are meshed, the motor 2 drives the feeding mechanism 5 to operate, and the feeding parts in the feeding mechanism 5 move left and right along with the rotary drum; when a feeding component in the feeding mechanism 5 moves leftwards, the iron can moves leftwards to the front side of the rotary drum 3 along with the feeding component, at the moment, the component in the feeding mechanism 5 is disengaged, the feeding component in the feeding mechanism 5 stops moving, then the second slide block 613 is manually pushed backwards, the second slide block 613 drives the ejection rotating rod 614 to move backwards, the ejection rotating rod 614 moves backwards to contact the iron can and drive the iron can to move backwards, the iron can is sleeved on the rotary drum 3 along with the ejection rotating rod, a device for pressing anti-skid grains above the rotary drum 3 presses the iron can along with the ejection rotating rod, and after pressing is finished, the iron can is manually taken down from the rotary drum 3; when the iron cans are sleeved on the rotary drum 3 and parts in the feeding mechanism 5 are meshed again, the feeding parts in the feeding mechanism 5 start to move rightwards to reset, when the feeding parts in the feeding mechanism 5 move rightwards to reset, the parts in the feeding mechanism 5 are disengaged, the next iron can to be pressed in the feeding frame 4 drops on the feeding parts in the feeding mechanism 5, and automatic single intermittent feeding during iron can pressing can be realized by repeating the operations.

Example 2

Specifically, as shown in fig. 1-2 and fig. 5, the feeding mechanism 5 includes a first gear-lacking large gear 51, a first rotating shaft 52, a first full-gear small gear 53, a first rotating rod 54, a connecting rod 55, a first sliding rail 56, a first sliding block 58, a fixing plate 59, a supporting plate 510 and a spring 511, the first gear-lacking large gear 51 is disposed on an output shaft of the motor 2, the first rotating shaft 52 is rotatably mounted on a front portion of the right side of the base 1, the first rotating shaft 52 is located on the right rear side of the motor 2, the first full-gear small gear 53 is disposed at the front end of the first rotating shaft 52, the first full-gear small gear 53 is capable of meshing with the first gear-lacking large gear 51, the first rotating rod 54 is rotatably connected to the rear end of the first rotating shaft 52, the connecting rod 55 is rotatably connected to the tail end of the first rotating rod 54, the first sliding rail 56 is mounted on the top of the first supporting table 41, the first sliding rail 56 is provided with a first sliding slot 57 in the middle, the first sliding block 58 is provided with a first sliding block 58, the left side of the connecting rod 55 passes through the first sliding chute 57 and is rotatably connected with the right part of the front side of the first sliding block 58, the rectangular fixing plate 59 is installed at the left part of the first sliding block 58, the supporting plate 510 is rotatably arranged in the middle of the rectangular fixing plate 59, the right side of the supporting plate 510 passes through the fixing plate 59, and the spring 511 is connected between the top of the right side of the supporting plate 510 and the bottom of the left side of the first sliding block 58.

After a plurality of iron cans are transversely placed on the discharging frame 4, the iron can at the lowest side drops on the supporting plate 510 along the discharging frame 4, after the motor 2 is started, the output shaft of the motor 2 drives the first gear-lacking big gear 51 to rotate, when the first gear-lacking big gear 51 is meshed with the first full-gear small gear 53, the first full-gear small gear 53 rotates to drive the first rotating shaft 52 to rotate, the first rotating shaft 52 drives the first rotating rod 54 to rotate, and the first rotating rod 54 drives the connecting rod 55 to move left and right; when the connecting rod 55 moves left, the first sliding block 58 drives the fixing plate 59 and the supporting plate 510 to move left, the supporting plate 510 drives the iron can to move left, and at this time, the iron can in the material placing frame 4 cannot fall under the blocking effect of the first sliding block 58. When the iron cans move to the front of the rotary drum 3, the first toothless big gear 51 is disengaged from the first full-tooth small gear 53, the first slider 58 and the fixing plate 59 stop moving, at the moment, the second slider 613 is manually pushed backwards, and the ejection rotating rod 614 moves backwards along with the second slider to push the iron cans on the supporting plate 510 backwards, so that the iron cans are sleeved on the rotary drum 3; the can is then pressed by the anti-slip device above the drum 3. When the first gear-lacking bull gear 51 is engaged with the first full-tooth pinion 53 again, the connecting rod 55 moves rightwards, the first slider 58, the fixing plate 59 and the support plate 510 move rightwards accordingly, and the support plate 510 and the fixing plate 59 are rotatably connected, and the support plate 510 can move rightwards smoothly to reset under the action of the spring 511. When the first slide block 58 is reset, the first gear wheel 51 with missing teeth is disengaged from the first pinion gear 53 with full teeth, and the next iron can automatically falls on the supporting plate 510.

Example 3

As can be seen particularly by referring to fig. 1 and the illustrations of fig. 3-4, the apparatus further comprises a pushing mechanism 6, the pushing mechanism 6 comprises a second gear-lacking large gear 61, a second rotating shaft 62, a second full-gear small gear 63, a first bevel gear 64, a transmission shaft 65, a second bevel gear 66, a belt transmission assembly 67, a third rotating shaft 68, a rotating disc 69 and a push-pull rod 610, the second gear-lacking large gear 61 is arranged on an output shaft of the motor 2, the second rotating shaft 62 is rotatably mounted on the right of the front side of the base 1, the second rotating shaft 62 is located on the left side of the motor 2, the second full-gear small gear 63 is arranged at the rear end of the second rotating shaft 62, the second full-gear small gear 63 can be meshed with the second gear-lacking large gear 61, the first bevel gear 64 is mounted at the front end of the second rotating shaft 62, the transmission shaft 65 is arranged at the front of the right of the base 1, the transmission shaft 65 is located at the front left of the second rotating shaft 62, the second bevel gear 66 is mounted at the right end of the transmission shaft 65, the second bevel gear 66 is engaged with the first bevel gear 64, a third rotating shaft 68 is rotatably disposed on the left side of the front portion of the base 1, a belt transmission assembly 67 is disposed between the right end of the third rotating shaft 68 and the left end of the second rotating shaft 62, a rotating disc 69 is disposed on the left end of the third rotating shaft 68, a push-pull rod 610 is rotatably mounted on the left side of the rotating disc 69, a second sliding groove 612 is formed in the middle of the right wall of the second sliding rail 611, and the left end of the push-pull rod 610 penetrates through the second sliding groove 612 and is rotatably connected with the right wall of the second sliding block 613.

After the motor 2 is started, the output shaft of the motor 2 drives the second gear-lacking big gear 61 to rotate, when the second gear-lacking big gear 61 is meshed with the second full-tooth pinion 63, the second full-tooth pinion 63 rotates to drive the second rotating shaft 62 to rotate, the first bevel gear 64 rotates along with the second gear-lacking big gear, the first bevel gear 64 drives the second bevel gear 66 to rotate, the second bevel gear 66 drives the transmission shaft 65 to rotate, the transmission shaft 65 drives the third rotating shaft 68 to rotate through the belt transmission component 67, the rotating disc 69 rotates along with the second gear-lacking big gear, and the rotating disc 69 drives the push-pull rod 610 to move back and forth; when the second toothless big gear 61 is engaged with the second full-tooth pinion 63, the push-pull rod 610 moves backwards, the second slide block 613 and the ejection rotating rod 614 move backwards accordingly, at the moment, the iron can moves to the right front of the rotary drum 3, the first toothless big gear 51 is disengaged from the first full-tooth pinion 53, the ejection rotating rod 614 moves backwards to contact the iron can and sleeve the iron can on the rotary drum 3, the iron can is completely sleeved on the rotary drum 3, the toothless big gear 61 is disengaged from the second full-tooth pinion 63, the iron can is stationary, at the moment, the pressing work of the iron can be carried out, the first toothless big gear 51 is engaged with the first full-tooth pinion 53 again, the supporting plate 510 moves backwards to reset, the first toothless big gear 51 is disengaged from the first full-tooth pinion 53 during resetting, the toothless big gear 61 is engaged with the second full-tooth pinion 63 again, the push-pull rod 610 moves forwards to drive the second slide block 613 and the rotating rod 614 to move forwards to reset, after the second slider 613 is reset, the second toothless gearwheel 61 is disengaged from the second full-tooth pinion 63, and the first toothless gearwheel 51 is engaged with the first full-tooth pinion 53 again to perform the above steps, and the above steps are repeated to realize the automatic discharging and the automatic feeding of the iron cans.

The device further comprises a discharging mechanism 7, wherein the discharging mechanism 7 comprises a fixed sliding block 72 and a pulling rod 73, a third sliding groove 71 is formed in the left wall of the second sliding rail 611, a fixed sliding block 72 is arranged in the third sliding groove 71 in a sliding manner, the right part of the fixed sliding block 72 is connected with the rear side of the left part of the second sliding block 613, and the pulling rod 73 is connected with the rear side of the fixed sliding block 72.

When the second slider 613 moves backwards, the second slider 613 drives the fixed slider 72 to move backwards, the material pulling rod 73 and the iron can move backwards, the material pulling rod 73 is located at the rear side of the iron can, after the anti-skid patterns are pressed on the iron can, the second slider 613 moves forwards to drive the material pulling rod 73 to move backwards, the material pulling rod 73 moves backwards to enable the pressed iron can to fall down, and the fallen iron can is collected manually.

The device also comprises a collecting box 8, and the collecting box 8 is placed on the base 1 right below the rotary drum 3.

When the material pulling rod 73 moves backwards, the material pulling rod drives the iron cans to move backwards, and the iron cans fall into the collecting box 8 along with the material pulling rod.

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.

Claims (4)

1. The utility model provides an iron can suppression antiskid line loading attachment, characterized by includes:

the side part of the base is provided with a motor, and a rotary drum is arranged on the base at one side far away from the motor;

the feeding frame is mounted on the side part, close to one side of the motor, of the base, and the first supporting platform is arranged on the base below the feeding frame;

the feeding mechanism is arranged between the side part of the base close to one side of the discharging frame and the top of the first supporting table;

the second supporting platform is arranged on the side part of the base, which is far away from one side of the discharging frame, and the top of the second supporting platform is provided with a second sliding rail;

the second sliding block is arranged in the second sliding rail in a sliding way, and the side part of the second sliding block close to one side of the rotating drum is provided with an ejection rotating rod;

the feeding mechanism comprises:

the first tooth-missing big gear is arranged on an output shaft of the motor, and a first rotating shaft is rotatably arranged on the side part of the base close to one side of the motor;

the first full-tooth pinion is arranged at the end part of the first rotating shaft close to one side of the first gear wheel with missing teeth, and the first full-tooth pinion can be meshed with the first gear wheel with missing teeth;

the end part of the first rotating shaft, which is far away from one side of the motor, of the first rotating rod is connected with the first rotating rod, and the tail end of the first rotating rod is rotatably provided with a connecting rod;

the first sliding rail is connected to the side part of the first supporting table, and the middle part of the first sliding rail close to one side of the first rotating shaft is provided with a first sliding chute;

the first sliding block is arranged on the first sliding rail in a sliding mode, and the side part, close to one side of the motor, of the connecting rod passes through the first sliding groove to be rotatably connected with the side part, close to the first sliding block, of the connecting rod;

the fixed plate is rectangular and is arranged on the side part of the first sliding block close to one side of the rotary drum, the middle part of the fixed plate is rotatably provided with a supporting plate, and the side part of the supporting plate far away from one side of the rotary drum penetrates through the fixed plate;

and a spring is connected between the top of the supporting plate close to one side of the first sliding block and the bottom of the first sliding block close to the supporting plate.

2. The feeding device for pressing the anti-skid lines on the iron can as claimed in claim 1, which further comprises a push-out mechanism, wherein the push-out mechanism comprises:

the second tooth-missing big gear is arranged on an output shaft of the motor, and a second rotating shaft is rotatably arranged on the side part of the base close to one side of the motor;

the end part of the second rotating shaft, which is close to one side of the second gear-lacking big gear, of the second full-tooth pinion is provided with the second full-tooth pinion, and the second full-tooth pinion can be meshed with the second gear-lacking big gear;

the first conical gear is arranged at the end part of the second rotating shaft at one side far away from the first supporting platform;

the transmission shaft is rotatably arranged on the side part of the base close to one side of the first conical gear, a second conical gear is arranged at the end part of the transmission shaft close to one side of the first conical gear, and the second conical gear is meshed with the first conical gear;

the third rotating shaft is rotatably arranged on the side part of the base close to one side of the second supporting table, and a belt transmission assembly is connected between the end part of the third rotating shaft close to one side of the first conical gear and the end part of the second rotating shaft close to the end part of the third rotating shaft;

the rotary table is arranged at the end part of the third rotating shaft close to one side of the second support table, and the side part of the rotary table close to one side of the second sliding rail is rotatably provided with a push-pull rod;

and the end part of the push-pull rod close to one side of the second supporting platform passes through the second chute and is rotatably connected with the side part of the second sliding block close to the second sliding platform.

3. The feeding device for the pressed skid-proof grains of the iron can as claimed in claim 2, which is characterized by further comprising a discharging mechanism, wherein the discharging mechanism comprises:

the side part of the second sliding rail close to one side of the rotary drum is provided with a third sliding chute;

the fixed sliding block is arranged in the third sliding groove in a sliding mode, and the side part of the fixed sliding block close to one side of the second sliding rail is connected with the side part of the second sliding block far away from one side of the rotary table;

the material pulling rod is arranged on the side part of the fixed sliding block.

4. The feeding device for pressing the anti-skid lines on the iron can as claimed in claim 3, further comprising:

and the collecting box is placed on the base right below the rotary drum and is used for collecting the pressed iron cans.

Images