CN217984811U - Automatic feeding and assembling device for flat copper wires of new energy motors - Google Patents

Abstract

The utility model provides an automatic material loading assembly quality of new forms of energy motor flat copper line, the on-line screen storage device comprises a base, the interval is provided with the feed bin subassembly more than two in the base, the downside of feed bin subassembly is provided with one and pushes away the material subassembly, it includes two jacking cylinders to push away the material subassembly, the upside of jacking cylinder is provided with the bottom plate, the piston rod and the bottom plate of jacking cylinder are connected, be provided with the guide rail on the bottom plate, the length direction of guide rail is on a parallel with the length direction of bottom plate, be provided with the slider on the guide rail, be provided with the scraping wings on the slider, the below of feed bin subassembly is provided with a transport assembly, transport assembly includes drive arrangement, initiative synchronization assembly and passive synchronization assembly. The device can be used on a flat wire motor stator production line. This device accessible feed bin subassembly, material pushing component and transport assembly can carry out full process automation material loading to the copper line, and the material loading process is very accurate high-efficient, has improved the production efficiency of flat copper line, has improved flat copper line former effective utilization.

Description

Automatic feeding and assembling device for flat copper wires of new energy motors

Technical Field

The utility model relates to the field of machinary, especially, automatic material loading assembly quality of new forms of energy motor flat copper line relates to new energy automobile.

Background

New forms of energy motor of automobile parts enterprise on the market adopts flat type copper line to wind for promoting the groove fullness rate, and the forming process of flat type copper line is essential.

Most of the forming process of flat copper line that uses among the prior art is manual frock material loading, at material loading ring festival manually operation, need pass through multiple operating procedure in the forming process who carries out flat copper line, and the process has respectively: the flat copper wire is taken manually, the flat copper wire is placed into a forming die manually, the flat copper wire forming die is pressed manually, and the formed flat copper wire is taken out. The above operation is not only time-consuming and laborious, but also risks of damaging the flat copper wire.

Disclosure of Invention

An object of the utility model is to provide an automatic material loading assembly quality of new forms of energy motor flat copper line, this kind of automatic material loading assembly quality of new forms of energy motor flat copper line solve among the prior art manual not only waste time and energy and still have the technical problem who harms the risk of flat copper line to flat copper line material loading.

The utility model relates to an automatic feeding and assembling device for flat copper wires of a new energy motor, which comprises a base, more than two stock bin assemblies are arranged in the base at intervals, any one stock bin assembly comprises a front back plate and a back plate respectively, the front back plate is arranged in parallel at the front side of the back plate, a first slideway and a second slideway are arranged between the front back plate and the back plate, the upper end of the first slideway and the lower end of the second slideway are respectively provided with an opening, the first slideway is arranged at the front side of the second slideway, the rear side of the lower end of the first slideway is communicated with the front side of the upper end of the second slideway,

a material pushing assembly is arranged in the base and at the lower side of the stock bin assembly and comprises two jacking cylinders, a bottom plate is arranged at the upper side of each jacking cylinder, a piston rod of each jacking cylinder is connected with the bottom plate, the length direction of each bottom plate is parallel to the length direction of the base, a guide rail is arranged on each bottom plate, the length direction of each guide rail is parallel to the length direction of each bottom plate, a slide block is arranged on each guide rail, a material pushing plate is arranged on each slide block, at least two pushing blocks are arranged on each material pushing plate at intervals along the length direction of each material pushing plate, any one of the pushing blocks respectively penetrates through one front back plate and extends into a first slide way, material pushing cylinders are arranged on the bottom plate and at the front side of each guide rail, and piston rods of the material pushing cylinders are connected with the material pushing plates,

the conveying assembly is arranged in the base and below the stock bin assembly and comprises a driving device, an active synchronous assembly and a passive synchronous assembly, the power output end of the driving device is connected with the active synchronous assembly through a first transmission mechanism, and the active synchronous assembly is connected with the passive synchronous assembly through a second transmission mechanism.

Further, the base on be provided with the fixed subassembly of feed bin, the fixed subassembly of feed bin includes left riser and right riser, is provided with at least three baffle along base length direction interval arrangement between left riser and the right riser, all constitutes a mounting groove between two arbitrary adjacent baffles separately, arbitrary one the feed bin subassembly all set up separately in one the mounting groove in, both sides all are provided with an installed part separately around arbitrary feed bin subassembly, the left and right-hand equipartition of arbitrary feed bin subassembly do not is provided with a left kicking block and a right kicking block, left kicking block and baffle fixed connection, right kicking block constitutes the sliding pair that is on a parallel with mounting groove length direction with the baffle, the both ends of installed part contact with left kicking block and right kicking block respectively, on right riser, the right side of arbitrary right kicking block all is provided with a locking device separately.

Furthermore, any one of the left top blocks is provided with a detection switch.

Further, the driving device comprises a motor.

Furthermore, the driving synchronization assembly comprises two first vertical plates, a driving shaft is arranged between the two first vertical plates, a first driving belt pulley and two second driving belt pulleys are arranged on the driving shaft, the driven synchronization assembly comprises two second vertical plates, a driven shaft is arranged between the two second vertical plates, two driven belt pulleys are arranged on the driven shaft, the first transmission mechanism comprises a first belt, the first driving belt pulley is connected with a power output end of the driving device through the first belt, the second transmission mechanism comprises two second belts, the two second driving belt pulleys are respectively connected with the two driven belt pulleys through one second belt, and the material pushing assembly is arranged between the two second belts.

Compared with the prior art, the utility model, its effect is positive and obvious.

1. The device can be used on a flat wire motor stator production line. This device accessible feed bin subassembly, material pushing component and transport assembly can carry out full process automation material loading to the copper line, and the material loading process is very accurate high-efficient, has improved the production efficiency of flat copper line, has improved flat copper line former effective utilization.

2. The stock bin assembly is matched with the material pushing assembly to store and feed the flat copper wire, and the flat copper wire can be protected from being damaged during feeding.

3. During the mounting groove was put into to the feed bin subassembly, locking device pushed up right kicking block left tightly, and right kicking block pushes up feed bin subassembly and left kicking block tightly, fixes the feed bin subassembly in the mounting groove, therefore the feed bin fixed subassembly can fix a position fast and press from both sides tightly fixed to the feed bin subassembly, and the installation is dismantled conveniently. The number of the bin assemblies can be increased or reduced according to the needs, and the adaptability of the flat copper wire feeding device is improved. Whether the silo component is installed in place can be detected by the detection switch.

Drawings

Fig. 1 is the utility model discloses a first stereogram of automatic material loading assembly quality of new forms of energy motor flat copper line.

Fig. 2 is the utility model discloses a second perspective drawing of automatic material loading assembly quality of new forms of energy motor flat copper line.

Fig. 3 is the utility model discloses an inside schematic diagram of an automatic material loading assembly quality of new forms of energy motor flat copper line.

Fig. 4 is the utility model discloses a feed bin subassembly sketch map in the automatic loading device of new forms of energy motor flat copper line.

Fig. 5 is a schematic sectional view of a stock bin assembly in the automatic feeding device for a flat copper wire of a new energy motor of the present invention.

Fig. 6 is a partially enlarged view of fig. 5.

Fig. 7 is the utility model discloses a material pushing component schematic diagram in the automatic loading and assembling device of new forms of energy motor flat copper line.

Fig. 8 is the utility model discloses a conveying component schematic diagram in the automatic loading and assembling device of new forms of energy motor flat copper line.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples, but the present invention is not limited to the examples, and all similar structures and similar variations of the present invention can be adopted to fall into the protection scope of the present invention. The utility model provides an upper and lower, preceding, back, left and right equidirectional use only for the description convenience, it is not right the technical scheme's of the utility model restriction.

As shown in fig. 1-8, the automatic feeding and assembling device for a flat copper wire of a new energy motor of the present invention comprises a base 10, wherein two or more bin assemblies 11 are arranged at intervals in the base 10, each of the bin assemblies 11 comprises a front back plate 1 and a back plate 2, the front back plate 1 is arranged in parallel at the front side of the back plate 2, a first slide way 3 and a second slide way 4 are arranged between the front back plate 1 and the back plate 2, the extending direction of the first slide way 3 and the second slide way 4 is perpendicular to the horizontal direction, the first slide way 3 is arranged at the front side of the second slide way 4, the lower end of the first slide way 3 is communicated with the upper end of the second slide way 4,

a material pushing component 12 is arranged in the base 10 and at the lower side of the stock bin component 11, the material pushing component 12 comprises two jacking cylinders 13, a bottom plate 14 is arranged at the upper side of each jacking cylinder 13, a piston rod of each jacking cylinder 13 is connected with the bottom plate 14, the length direction of each bottom plate 14 is parallel to the length direction of the base 10, a guide rail 15 is arranged on each bottom plate 14, the length direction of each guide rail 15 is parallel to the length direction of each bottom plate 14, a sliding block is arranged on each guide rail 15, a material pushing plate 16 is arranged on each sliding block, at least two pushing blocks 37 are arranged on each pushing plate 16 at intervals along the length direction of each pushing plate, any one pushing block 37 respectively penetrates through one front back plate 1 and extends into the first slide way 3, a material pushing cylinder 17 is arranged on the bottom plate 14 and at the front side of each guide rail 15, and a piston rod of each material pushing cylinder 17 is connected with each pushing plate 16,

a conveying assembly 18 is arranged in the base 10 and below the stock bin assembly 11, the conveying assembly 18 comprises a driving device 19, an active synchronous assembly and a passive synchronous assembly, the power output end of the driving device 19 is connected with the active synchronous assembly through a first transmission mechanism, and the active synchronous assembly is connected with the passive synchronous assembly through a second transmission mechanism.

Further, a bin fixing assembly is arranged on the base 10 and comprises a left vertical plate 29 and a right vertical plate 30, at least three partition plates 31 which are arranged at intervals along the length direction of the base 10 are arranged between the left vertical plate 29 and the right vertical plate 30, a mounting groove is formed between any two adjacent partition plates 31, any one bin assembly 11 is arranged in one mounting groove, an installation part 8 is arranged on each of the front side and the rear side of any one bin assembly 11, a left ejector block 33 and a right ejector block 34 are arranged on each of the left side and the right side of any one bin assembly 11, the left ejector block 33 is fixedly connected with the partition plates 31, the right ejector block 34 and the partition plates 31 form a sliding pair which is parallel to the length direction of the mounting groove, two ends of the installation part 8 are in contact with the left ejector block 33 and the right ejector block 34 respectively, and a locking device 35 is arranged on the right vertical plate 30 and on the right side of any one right ejector block 34.

Further, any one of the left top blocks 33 is provided with a detection switch 36.

Further, the driving device 19 includes a motor.

Further, the driving synchronizing assembly comprises two first vertical plates 20, a driving shaft 21 is arranged between the two first vertical plates 20, a first driving belt pulley 22 and two second driving belt pulleys 23 are arranged on the driving shaft 21, the driven synchronizing assembly comprises two second vertical plates 24, a driven shaft 25 is arranged between the two second vertical plates 24, two driven belt pulleys 26 are arranged on the driven shaft 25, the first transmission mechanism comprises a first belt 27, the first driving belt pulley 22 is connected with the power output end of the driving device 19 through the first belt 27, the second transmission mechanism comprises two second belts 28, the two second driving belt pulleys 23 are respectively connected with the two driven belt pulleys 26 through the second belt 28, and the pushing assembly 12 is arranged between the two second belts 28.

Specifically, the jacking cylinder 13, the material pushing cylinder 17, the driving device 19, the driving synchronization component, the passive synchronization component, the transmission mechanism, the belt pulley, the belt, the locking device 35, the detection switch 36, and the like in this embodiment all adopt known solutions in the prior art, and those skilled in the art will know that these solutions are not described herein again.

The working principle of the embodiment is as follows:

loading flat copper wires 9 to be formed from the upper end of a first slide 3, enabling the copper wires 9 to fall into the bottom of the first slide 3 and stop on the bottom end face of the first slide 3, subsequently loading more flat copper wires 9, stacking the flat copper wires 9 along the extending direction of the first slide 3, starting a material pushing assembly 12, jacking a bottom plate 14 by a jacking cylinder 13, enabling a pushing block 37 on a material pushing plate 16 to be aligned with the copper wires 9 at the lowest layer in the first slide 3, enabling a piston rod of a material pushing cylinder 17 to extend out, pushing the material pushing plate 16 forwards along a guide rail 15, pushing the pushing block 37 on the material pushing plate 16 to respectively push the copper wires 9 at the lowest layer in the first slide 3 into a second slide 4, enabling the copper wires 9 to be taken off from a bin assembly 11 along the second slide 4 and fall on a second belt 28 of a conveying assembly 18, then retracting the piston rod of the jacking cylinder 13, enabling the material pushing plate 16 to descend, giving a space to the conveying assembly 18, starting a motor, driving a first driving belt pulley 22 to rotate by a driven belt pulley 26 by the motor, and enabling the second belt 28 to feed the copper wires 9, and completing the feeding of the copper wires 9.

The utility model has the characteristics that:

1. the device can be used on a flat wire motor stator production line. This device accessible feed bin subassembly 11, material pushing component and conveying component 18 can carry out full process automation material loading to the copper line, and the material loading process is very accurate high-efficient, has improved the production efficiency of flat copper line, has improved flat copper line former effective utilization.

2. The stock bin assembly 11 and the pushing assembly 12 are matched to store and feed the flat copper wires, and the flat copper wires can be protected from being damaged during feeding.

3. During the mounting groove was put into to feed bin subassembly 11, locking device 35 pushed up right kicking block 34 tight left, and right kicking block 34 pushes up feed bin subassembly 11 and left kicking block 33 tightly, fixes feed bin subassembly 11 in the mounting groove, so the feed bin fixed subassembly can fix a position fast and press from both sides tightly fixed feed bin subassembly 11, and the installation is dismantled conveniently. The number of the bin assemblies 11 can be increased or reduced according to needs, and the adaptability of the flat copper wire feeding device is improved. The detection switch 36 can be used to detect whether the bin assembly 11 is installed in place.

Claims (5)

1. The utility model provides an automatic material loading assembly quality of new forms of energy motor flat copper line, includes the base, its characterized in that: more than two stock bin assemblies are arranged in the middle of the base at intervals, each stock bin assembly respectively comprises a front back plate and a back plate, the front back plates are arranged on the front sides of the back plates in parallel, a first slide way and a second slide way are arranged between the front back plates and the back plates, the upper end of the first slide way and the lower end of the second slide way are respectively provided with an opening, the first slide way is arranged on the front side of the second slide way, the rear side of the lower end of the first slide way is communicated with the front side of the upper end of the second slide way,

a material pushing assembly is arranged in the base and at the lower side of the stock bin assembly and comprises two jacking cylinders, a bottom plate is arranged at the upper side of each jacking cylinder, a piston rod of each jacking cylinder is connected with the bottom plate, the length direction of each bottom plate is parallel to the length direction of the base, a guide rail is arranged on each bottom plate, the length direction of each guide rail is parallel to the length direction of each bottom plate, a slide block is arranged on each guide rail, a material pushing plate is arranged on each slide block, at least two pushing blocks are arranged on each material pushing plate at intervals along the length direction of each material pushing plate, any one of the pushing blocks respectively penetrates through one front back plate and extends into a first slide way, material pushing cylinders are arranged on the bottom plate and at the front side of each guide rail, and piston rods of the material pushing cylinders are connected with the material pushing plates,

a conveying assembly is arranged in the base and below the stock bin assembly, the conveying assembly comprises a driving device, an active synchronous assembly and a passive synchronous assembly, the power output end of the driving device is connected with the active synchronous assembly through a first transmission mechanism, and the active synchronous assembly is connected with the passive synchronous assembly through a second transmission mechanism.

2. The automatic feeding and assembling device for the flat copper wire of the new energy motor as claimed in claim 1, characterized in that: the base on be provided with the fixed subassembly of feed bin, the fixed subassembly of feed bin includes left riser and right riser, is provided with at least three baffle along base length direction interval arrangement between left riser and the right riser, all constitutes a mounting groove between two arbitrary adjacent baffles separately, arbitrary one the feed bin subassembly all set up separately in one the mounting groove, both sides all are provided with an installed part separately around arbitrary feed bin subassembly, the left and right-hand of arbitrary feed bin subassembly are equallyd divide and do not are provided with a left kicking block and a right kicking block, left kicking block and baffle fixed connection, right kicking block constitutes the sliding pair that is on a parallel with mounting groove length direction with the baffle, the both ends of installed part contact with left kicking block and right kicking block respectively, on right riser, the right side of arbitrary right kicking block all is provided with a locking device separately.

3. The automatic feeding and assembling device for the flat copper wire of the new energy motor as claimed in claim 2, characterized in that: and the left top block is respectively provided with a detection switch.

4. The automatic feeding and assembling device for the flat copper wire of the new energy motor as claimed in claim 1, characterized in that: the driving device comprises a motor.

5. The automatic feeding assembly quality of new forms of energy motor flat copper line of claim 1, characterized in that: the driving synchronous component comprises two first vertical plates, a driving shaft is arranged between the two first vertical plates, a first driving belt pulley and two second driving belt pulleys are arranged on the driving shaft, the driven synchronous component comprises two second vertical plates, a driven shaft is arranged between the two second vertical plates, two driven belt pulleys are arranged on the driven shaft, the first transmission mechanism comprises a first belt, the first driving belt pulley is connected with a power output end of the driving device through the first belt, the second transmission mechanism comprises two second belts, the two second driving belt pulleys are respectively connected with the two driven belt pulleys through one second belt, and the material pushing component is arranged between the two second belts.

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