CN219791889U - Deflection feeder capable of feeding double material belts - Google Patents

Abstract

The utility model discloses a deflection feeder capable of feeding double material belts, which comprises a first feeding mechanism, a second feeding mechanism, a first deflection mechanism, a second deflection mechanism, a shifting mechanism, a feeding machine body and a machine table, wherein the shifting mechanism is arranged on the machine table, the feeding machine body is arranged on the shifting mechanism, the first feeding mechanism, the second feeding mechanism and a stopping mechanism are all arranged on the feeding machine body, the first feeding mechanism is connected with the first deflection mechanism, the second feeding mechanism is connected with the second deflection mechanism, the first feeding mechanism is provided with a first feeding area and a second feeding area, the second feeding mechanism is provided with a third feeding area and a fourth feeding area, the first feeding area is communicated with the third feeding area, and the second feeding area is communicated with the fourth feeding area. The utility model is suitable for conveying double material belts, and simultaneously can convey single material belts, and has strong use flexibility.

Description

Deflection feeder capable of feeding double material belts

Technical Field

The utility model relates to the field of mechanical design, in particular to a deflection feeder capable of feeding double material belts.

Background

In mechanical automation processing, automated feeding is an indispensable procedure, and for some parts of the material tape, such as metal material tape, feeding is mostly realized by means of a material tape feeder. The common material belt feeder is provided with a plurality of conveying rollers which are parallel up and down, and the material belt is driven to move between the upper conveying roller and the lower conveying roller by means of the rolling of the conveying rollers, so that the feeding of the material belt is realized.

However, the conventional material belt feeder can usually only carry a single material belt, and the conveying efficiency is low due to the small conveying amount, so that when two material belts are required to be conveyed, two feeders are often required to be arranged, and the cost is high.

On the other hand, the common material strip feeder is difficult to adjust in feeding position after being arranged, if the feeding position of the feeding machine is not easy to change, the feeding position is difficult to be effectively matched with the material strip feeder, the material strip cannot be effectively fed out, a large amount of manpower and time are required to be spent for carrying or debugging the machine, the market competitiveness is weak, and even if the machining position is inaccurate in machining, when the mechanical position is required to be adjusted, the mechanical position cannot be effectively adjusted due to the fact that the material strip is continuously fed out.

Disclosure of Invention

The present utility model aims to provide a deflection feeder capable of feeding double material belts, which can solve one or more of the above problems.

According to one aspect of the utility model, a deflection feeder capable of feeding double material belts is provided, and the deflection feeder comprises a first feeding mechanism, a second feeding mechanism, a first deflection mechanism, a second deflection mechanism, a shifting mechanism, a feeding machine body and a machine table, wherein the shifting mechanism is arranged on the machine table, the feeding machine body is arranged on the shifting mechanism, the first feeding mechanism, the second feeding mechanism and a stopping mechanism are all arranged on the feeding machine body, the first feeding mechanism is connected with the first deflection mechanism, the second feeding mechanism is connected with the second deflection mechanism, the first feeding mechanism is provided with a first feeding area and a second feeding area, the second feeding mechanism is provided with a third feeding area and a fourth feeding area, the first feeding area is communicated with the third feeding area, and the second feeding area is communicated with the fourth feeding area.

The beneficial effects of the utility model are as follows: in the utility model, the first feeding mechanism and the second feeding mechanism are arranged to ensure that the double-material-belt conveying device can still have enough conveying capacity, the first feeding area and the third feeding area can be used as a space for conveying one material belt, and the second feeding area and the fourth feeding area can be used as a space for conveying the other material belt, so that the double-material-belt conveying device can be suitable for conveying double material belts, and meanwhile, the single-material-belt conveying device can also be used for conveying single material belt, and has high use flexibility. In addition, the utility model is also provided with a shifting mechanism which is convenient for automatically changing the feeding position of the utility model, and the first deflection mechanism and the second deflection mechanism are also provided for conveniently stopping the feeding work of the first feeding mechanism and the second feeding mechanism so as to avoid the wrong feeding work under the condition of changing the feeding position of the utility model.

In some embodiments, the first feeding mechanism comprises a first roller, a second roller, a first power device, a first transmission device and a first gear set, wherein the first power device is installed on the feeding machine body and is connected with the second roller through the first transmission device, the first roller and the second roller are connected through the first gear set, the first roller is provided with a first section and a second section, a first feeding area is formed between the first section and the second roller, and a second feeding area is formed between the second section and the second roller. Therefore, the first power device can drive the second roller to rotate through the first transmission device, and the second roller can drive the first roller to rotate through the first gear set, so that the two material belts can respectively pass through the first feeding area and the second feeding area under the drive of the first roller and the second roller.

In some embodiments, the first deflection mechanism includes a first stop block, a first connecting shaft and a first cylinder, the first stop block is provided with a first arm and a second arm, the first stop block is rotatably installed on the feeder body, a rotation center of the first stop block on the feeder body is located between the first arm and the second arm, the first arm is connected with the first roller, the second arm is connected with the first connecting shaft, the first cylinder is installed on the feeder body, and the first cylinder is connected with the first connecting shaft. Therefore, the first cylinder can swing the first stop block through the first connecting shaft, the first stop block presses the first roller, so that the first roller is offset, and the first gear set between the first roller and the second roller is pressed and cannot normally rotate, so that the rotation of the first roller and the second roller is stopped.

In some embodiments, the second feeding mechanism comprises a third roller, a fourth roller, a second power device, a second transmission device and a second gear set, the second power device is installed on the feeding machine body, the second power device is connected with the fourth roller through the second transmission device, the third roller and the fourth roller are connected through the second gear set, the third roller is provided with a third section and a fourth section, a third feeding area is formed between the third section and the fourth roller, and a fourth feeding area is formed between the fourth section and the fourth roller. Therefore, the second power device can drive the third roller to rotate through the second transmission device, and the rotation of the third roller can drive the third roller to also rotate through the second gear set, so that the two material belts can respectively pass through the third feeding area and the fourth feeding area under the drive of the third roller and the fourth roller.

In some embodiments, the first deflection mechanism includes a second stop block, a second connecting shaft and a second air cylinder, the second stop block is provided with a third arm and a fourth arm, the second stop block is rotatably installed on the feeder body, the rotation center of the second stop block on the feeder body is located between the third arm and the fourth arm, the third arm is connected with the third roller, the fourth arm is connected with the second connecting shaft, the second air cylinder is installed on the feeder body, and the second air cylinder is connected with the second connecting shaft. Therefore, the second cylinder can swing the second stop block through the second connecting shaft, the second stop block presses the third roller, so that the third roller is offset, and the second gear set between the third roller and the fourth roller is pressed and cannot normally rotate, so that the rotation of the third roller and the fourth roller is stopped.

In some embodiments, the displacement mechanism comprises a screw, a nut, a slider, a guide rail and a motor, wherein the guide rail is fixedly installed on the machine table, the nut is installed on the screw through a threaded fit, the nut and the slider are both connected with the feeding machine body, the slider is slidably installed on the guide rail, the screw is rotatably installed on the machine table, and the motor is connected with the screw. Therefore, the motor can drive the screw rod to rotate so that the feeding machine body moves linearly along the screw rod to adjust the position of the feeding machine body, so as to meet different feeding requirements.

In some embodiments, the displacement mechanism comprises a guide belt and a belt seat, wherein the belt seat is installed on the machine table, the belt seat is provided with a guide groove, the guide belt is embedded on the guide groove, and one end of the guide belt is connected with the feeding machine body. Therefore, the movement of the feeding machine body can be guided by the movement of the guide belt, so that the accuracy of the movement of the feeding machine body is ensured.

In some embodiments, the utility model further comprises a guide roller, a roller seat and a limiting block, wherein the roller seat is connected with one side of the feeding machine body, the guide roller is arranged on the roller seat, and the limiting block is arranged on the guide roller seat. The arrangement of the limiting block can be convenient for limiting the width of the material belt conveyed by the utility model.

In some embodiments, the utility model further comprises a limiting plate and a pallet, wherein the pallet is connected with the feeding body, and the limiting plate is arranged on the pallet. The limiting plate and the supporting block can limit the thickness of the material belt passing through the limiting plate so as to avoid incorrect conveying of the material belt.

Drawings

Fig. 1 is a schematic structural diagram of a deflection feeder capable of feeding with double material belts according to an embodiment of the present utility model.

Fig. 2 is a left side view of a schematic structural diagram of a partial table of a deflection feeder capable of feeding with double material belts and a housing of a feeder body according to an embodiment of the present utility model when not installed.

Fig. 3 is a left side view of a schematic structural diagram of a partial machine table of a deflection feeder capable of feeding double material belts and a housing of a feeder body, a first stop block of a first deflection mechanism, and a second stop block of a second deflection mechanism according to an embodiment of the present utility model when not arranged.

Fig. 4 is a schematic structural view of a first feeding mechanism and a second feeding mechanism of a partial frame of a deflection feeder capable of feeding with double material belts according to an embodiment of the present utility model.

In the figure: 1. a first feed mechanism, 2, second feed mechanism, 3, first swing mechanism, 4, second swing mechanism, 5, shift mechanism, 6, feed body, 7, bench, 8, guide roll, 9, roll stand, 10, stop block, 20, stop plate, 30, pallet, 11, first roll, 12, second roll, 13, first power device, 14, first transmission, 15, first gear set, 111, first section, 112, 113, first feed zone, 114, second feed zone, 21, third roll, 22, fourth roll, 23, second power device, 24, second transmission, 25, second gear set, 211, third section, 212, fourth section, 213, third feed zone, 214, fourth feed zone, 31, first stop block, 32, first connecting shaft, 33, first cylinder, 311, 312, second arm, 41, second stop block, 42, second connecting shaft, 43, third arm 412, third arm, 571, guide screw, guide rail, 54, guide screw, and guide groove, 55, 53, and guide screw.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

Referring to fig. 1, 2, 3 and 4, the deflection feeder capable of feeding double material belts of the present utility model comprises a first feeding mechanism 1, a second feeding mechanism 2, a first deflection mechanism 3, a second deflection mechanism 4, a shifting mechanism 5, a feeding body 6 and a machine table 7.

The displacement mechanism 5 includes a screw 51, a nut 52, a slider 53, a guide rail 54, and a motor 55. The fuselage of motor 55 passes through bolt fastening and installs on board 7, the pivot of motor 55 is connected with lead screw 51, make motor 55 can drive lead screw 51 rotation, lead screw 51 passes through the bearing frame and installs on board 7, make lead screw 51 can rotate on board 7, nut 52 passes through the screw thread fit suit on lead screw 51, nut 52 and the bottom of pay-off fuselage 6 pass through bolt fastening, slider 53 also passes through bolt fastening with the bottom of pay-off fuselage 6, guide rail 54 passes through bolt fastening and installs on board 7, guide rail 54 and lead screw 51 parallel arrangement, slider 53 slidable cover is established on guide rail 54.

The shift mechanism 5 further comprises a guide belt 56 and a belt seat 57, the side part of the belt seat 56 is fixedly connected with the machine table 7 through bolts, a guide groove 571 is formed in the belt seat 57, the guide belt 56 is embedded in the guide groove 571, one end of the guide belt 56 is fixed in the guide groove 571, the guide belt 56 can move along the guide groove 571 but cannot be completely separated from the guide groove 571, and the other end of the guide belt 56 is fixedly connected with the feeding machine body 6 through bolts.

The first feeding mechanism 1 comprises a first roller 11, a second roller 12, a first power device 13, a first transmission device 14 and a first gear set 15. The first power device 13 is preferably a motor, the first power device 13 is fixedly installed on the feeding machine body 6 through bolts, the first transmission device 14 is preferably a belt transmission device, the first power device 13 is connected with the second roller 12 through the first transmission device 14, the second roller 12 is further arranged on the feeding machine body 6 through a bearing, the first power device 13 can drive the second roller 12 to rotate on the feeding machine body 6, the first roller 11 and the second roller 12 are connected through a first gear set 15, namely, the power received by the second roller 12 can be transmitted into the first roller 11 through the gear set to drive the first roller 11 to rotate together, the first roller 11 and the second roller 12 are arranged in parallel, a first section 111 and a second section 112 are arranged on the first roller 11, a first feeding area 113 is formed between the first section 111 and the second roller 12 after arrangement, and a second feeding area 114 is formed between the second section 112 and the second roller 12.

The first yaw mechanism 3 includes a first stop 31, a first connecting shaft 32, and a first cylinder 33. The number of the first stop blocks 31 can be two, the first stop blocks 31 are provided with a first arm 311 and a second arm 312, and the first arm 311 and the second arm 312 are arranged nearly vertically. The two first stop blocks 31 are rotatably installed on the feeding body 6 through a rotating shaft, the rotation center of the first stop blocks 31 on the feeding body 6 is located between the first arm 311 and the second arm 312, two ends of the first roller 11 are connected with the first arms 311 of the two first stop blocks 31 in a one-to-one correspondence mode through sleeving, the second arms 312 of the two first stop blocks 31 are sleeved on the first connecting shaft 32 to be connected with the first connecting shaft 32, the cylinder body of the first cylinder 33 is fixedly installed on the feeding body 6 through bolts, and the piston rod of the first cylinder 33 is connected with the first connecting shaft 32, so that the first cylinder 33 can drive the first connecting shaft 32 to move.

The second feeding mechanism 2 comprises a third roller 21, a fourth roller 22, a second power device 23, a second transmission device 24 and a second gear set 25. The second power device 23 is preferably a motor, the second power device 23 is fixedly mounted on the feeding machine body 6 through bolts, the second transmission device 24 is preferably a belt transmission device (transmission belt is not drawn), the second power device 23 is connected with the fourth roller 22 through the second transmission device 24, the fourth roller 22 is further arranged on the feeding machine body 6 through a bearing, the second power device 23 can drive the fourth roller 22 to rotate on the feeding machine body 6, the third roller 21 and the fourth roller 22 are connected through a second gear set 25, namely, the power received by the fourth roller 22 can be transmitted into the third roller 21 through the gear set to drive the third roller 21 to rotate together, the third roller 21 and the fourth roller 22 are arranged in parallel, a third section 211 and a fourth section 212 are arranged on the third roller 21, a third feeding area 213 is formed between the third section 211 and the fourth roller 22 after arrangement, and a fourth feeding area 214 is formed between the fourth section 212 and the fourth roller 22.

The second yaw mechanism 4 includes a second stop 41, a second coupling 42, and a second cylinder 43. Wherein the number of the second stop blocks 41 can be two, the second stop blocks 41 are provided with a third arm 411 and a fourth arm 412, and the third arm 411 and the fourth arm 412 are arranged nearly vertically. The two second stop blocks 41 are rotatably installed on the feeding machine body 6 through a rotating shaft, the rotation center of the second stop blocks 41 on the feeding machine body 6 is located between the third arm 411 and the fourth arm 412, two ends of the third roller 21 are connected with the third arms 411 of the two second stop blocks 41 in one-to-one correspondence through sleeving, the fourth arms 412 of the two second stop blocks 41 are sleeved on the second connecting shaft 42 to be connected with the second connecting shaft 42, the cylinder body of the second air cylinder 43 is fixedly installed on the feeding machine body 6 through bolts, and the piston rod of the second air cylinder 43 is connected with the second connecting shaft 42, so that the second air cylinder 43 can drive the second connecting shaft 42 to move.

The first feeding area 113 and the third feeding area 213 after being arranged are communicated, the second feeding area 114 and the fourth feeding area 214 are communicated, the first feeding area 113 and the third feeding area 213 can be used for conveying one material belt, and the second feeding area 114 and the fourth feeding area 214 can be used for conveying the other material belt.

The utility model also comprises a guide roller 8, a roller seat 9 and a limiting block 10, wherein the roller seat 9 is fixedly connected with one side of the feeding machine body 6 through bolts, the guide roller 8 is rotatably arranged on the roller seat 9 through a shaft, the limiting block 10 is arranged on the guide roller seat 9, a material belt to be conveyed can be guided into a third feeding area 213 or a fourth feeding area 214 through the guide roller 8, so that the position deviation of the material belt to be conveyed is reduced, and the limiting block 10 limits the width of the material belt passing through the limiting block.

The utility model also comprises a limiting plate 20 and a supporting plate 30, wherein the supporting plate 30 is fixedly connected with the other side of the feeding machine body 6 through bolts, the limiting plate 20 is fixedly arranged on the supporting plate 30 through bolts, and the conveyed material belt can be sent out through the upper part of the supporting plate 30 and the lower part of the limiting plate 20, namely, the thickness of the material belt passing through the limiting plate is limited.

The utility model can be used for feeding, particularly when double-material-belt feeding is carried out, the first power device 13 and the second power device 23 work, the first power device 13 drives the second roller 12 to rotate through the first transmission device 14, the second roller 12 can drive the first roller 11 to rotate through the first gear set 15, the second power device 23 can drive the fourth roller 22 to rotate through the second transmission device 24, the fourth roller 22 can drive the second roller 21 to rotate through the second gear set 25, so that one material belt can be conveyed through the first feeding area 113 and the third feeding area 213 under the driving of each roller, the other material belt can be conveyed through the second feeding area 114 and the fourth feeding area 214, namely, the conveying of two material belts is realized at the same time, for example, the two material belts can be different in hardness, and the utility model can also carry out single-material-belt feeding, particularly, any one of the first power device 13 or the second power device 23 can work, so that the material belt to be conveyed can be conveyed through the first feeding area 113 and the third feeding area 213 or the fourth feeding area 214.

When the conveying position of the material belt needs to be changed, the motor 55 can drive the screw rod 51 to rotate, so that the nut 52 can do linear motion along the screw rod 51, and the nut 52 is connected with the feeding machine body 6, and the feeding machine body 6 is also connected with the sliding block 53, so that the linear motion of the nut 52 can drive the linear motion of the feeding machine body 6, the change of the feeding position is realized, the sliding block 53 can be moved along with the movement of the feeding machine body 6, and the movement of the sliding block 53 can be limited and guided by the guide rail 54, so that the moving accuracy of the feeding machine body 6 is ensured.

In the process of changing the conveying position of the material belt, the mechanism damage caused by feeding error is not avoided, or feeding is required to be stopped in the feeding process, the first air cylinder 33 and the second air cylinder 43 can be started, so that the first air cylinder 33 drives the second arm 312 to move through the first connecting shaft 32, the second air cylinder 312 can correspondingly swing the first arm 311, the second roller 12 connected with the first arm 311 correspondingly moves, the first gear set 15 connected with the second roller 12 is pressed, the first roller 11 and the second roller 12 are not rotated any more, meanwhile, the second air cylinder 43 drives the fourth arm 412 to move through the second connecting shaft 42, the fourth arm 412 can correspondingly swing the third arm 411, the fourth roller 22 connected with the third arm 411 correspondingly moves, the second gear set 25 connected with the fourth roller 22 is pressed, the third roller 21 and the fourth roller 22 are not rotated any more, the conveying of the material belt is stopped, the conveying of the air cylinder needs to be restored, and the first air cylinder 33 and the second air cylinder 43 are reset, and the second stop block 31 and the second stop block 41 are not affected any more.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (9)

1. The utility model provides a beat feeder that can double-material area pay-off, its characterized in that includes first feeding mechanism, second feeding mechanism, first beat mechanism, second beat mechanism, shift mechanism, pay-off fuselage and board, shift mechanism installs on the board, the pay-off fuselage is installed on shift mechanism, first feeding mechanism, second feeding mechanism and stop gear are all installed on the pay-off fuselage, first feeding mechanism is connected with first beat mechanism, second feeding mechanism is connected with second beat mechanism, first feeding mechanism is equipped with first pay-off region and second pay-off region, second feeding mechanism is equipped with third pay-off region and fourth pay-off region, first pay-off region and third pay-off region are linked together, second pay-off region and fourth pay-off region are linked together.

2. The deflection feeder capable of feeding double material belts according to claim 1, wherein the first feeding mechanism comprises a first roller, a second roller, a first power device, a first transmission device and a first gear set, the first power device is installed on the feeder body and is connected with the second roller through the first transmission device, the first roller and the second roller are connected through the first gear set, the first roller is provided with a first section and a second section, a first feeding area is formed between the first section and the second roller, and a second feeding area is formed between the second section and the second roller.

3. The dual-belt pay-off yaw feeder of claim 2, wherein the first yaw mechanism includes a first stop block, a first connecting shaft and a first cylinder, the first stop block is provided with a first arm and a second arm, the first stop block is rotatably mounted on the feeder body, a rotation center of the first stop block on the feeder body is located between the first arm and the second arm, the first arm is connected with the first roller, the second arm is connected with the first connecting shaft, the first cylinder is mounted on the feeder body, and the first cylinder is connected with the first connecting shaft.

4. The deflection feeder capable of feeding double material belts according to claim 1, wherein the second feeding mechanism comprises a third roller, a fourth roller, a second power device, a second transmission device and a second gear set, the second power device is installed on the feeder body and is connected with the fourth roller through the second transmission device, the third roller and the fourth roller are connected through the second gear set, the third roller is provided with a third section and a fourth section, a third feeding area is formed between the third section and the fourth roller, and a fourth feeding area is formed between the fourth section and the fourth roller.

5. The dual-belt feeding yaw feeder of claim 4, wherein the first yaw mechanism includes a second stop block, a second connecting shaft and a second cylinder, the second stop block is provided with a third arm and a fourth arm, the second stop block is rotatably mounted on the feeder body, a rotation center of the second stop block on the feeder body is located between the third arm and the fourth arm, the third arm is connected with the third roller, the fourth arm is connected with the second connecting shaft, the second cylinder is mounted on the feeder body, and the second cylinder is connected with the second connecting shaft.

6. The deflection feeder capable of feeding double material strips according to claim 1, wherein the displacement mechanism comprises a screw rod, a nut, a sliding block, a guide rail and a motor, the guide rail is fixedly arranged on the machine table, the nut is arranged on the screw rod through threaded fit, the nut and the sliding block are connected with the feeding machine body, the sliding block is slidably arranged on the guide rail, the screw rod is rotatably arranged on the machine table, and the motor is connected with the screw rod.

7. The deflection feeder capable of feeding double material belts according to claim 6, wherein the shifting mechanism comprises a guide belt and a belt seat, the belt seat is installed on the machine table, the belt seat is provided with a guide groove, the guide belt is embedded in the guide groove, and one end of the guide belt is connected with the feeding machine body.

8. The deflection feeder capable of feeding double material belts according to claim 1, comprising a guide roller, a roller seat and a limiting block, wherein the roller seat is connected with one side of a feeding machine body, the guide roller is arranged on the roller seat, and the limiting block is arranged on the guide roller seat.

9. The deflection feeder capable of feeding with double material belts according to claim 1, comprising a limiting plate and a supporting plate, wherein the supporting plate is connected with the feeding machine body, and the limiting plate is arranged on the supporting plate.