CN214568780U - Framework feeding assembly and automatic feeding and winding production line - Google Patents

Abstract

The utility model provides a framework feeding assembly and an automatic feeding and winding production line, wherein the framework feeding assembly comprises an inclined plate, a nail removing assembly, a sliding track, a bolt assembly and a turnover assembly, and the bottom of the inclined plate is provided with a through hole; the nail removing assembly is arranged at the through hole of the inclined plate and comprises a nail removing pin and a nail removing driving device, and the nail removing driving device drives the nail removing pin to be inserted into the through hole; the sliding material track is obliquely arranged along the oblique direction of the oblique plate, and the nail removing assembly is arranged between the top of the oblique plate and the sliding material track; the bolt component is arranged at the bottom of the sliding material track and comprises a bolt and a bolt driving device, and the bolt driving device drives the bolt to penetrate through the sliding material track; the upset subassembly includes the material piece and connects material piece drive assembly, connects to be provided with on the material piece and connects the silo, connects material piece drive assembly drive to connect the material piece to move to the orbital below of smooth material, adopts above structure, need not to pour out the skeleton in the feed cylinder, places the feed cylinder and can realize the material loading of skeleton on the hang plate.

Description

Framework feeding assembly and automatic feeding and winding production line

Technical Field

The utility model relates to an inductance coils preparation equipment field specifically is to a skeleton material loading subassembly and automatic feeding wire winding production line.

Background

With the development of science and technology and economy, the market has higher requirements on the production rate and the production precision of products, so that the existing production line gradually improves the automation, manual intervention is reduced, and the production efficiency and precision are improved. In inductance coil production line, realize the automatic feeding of skeleton through the vibration dish, with the skeleton dispersion on the vibration dish, through a plurality of skeletons of vibration drive neatly arrange on the track of vibration dish, the rethread conveying assembly transmits the skeleton one by one to realize the automatic feeding of skeleton. But when the frameworks of part models leave the factory, a plurality of frameworks load the feed cylinder to adopt the nail of sealing to lock the export of feed cylinder on the feed cylinder, in order to avoid the framework roll-off in the feed cylinder. If use the vibration dish to realize the material loading of feed cylinder inner frame, operating personnel need earlier get rid of the nail that seals, pours the skeleton in the feed cylinder into the vibration dish again, and the step is loaded down with trivial details.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a first purpose provides a skeleton material loading subassembly suitable for feed cylinder.

The utility model discloses a second aim at provides an automatic feeding wire winding production line including above-mentioned skeleton material loading subassembly.

In order to realize the first purpose, the framework feeding assembly provided by the utility model comprises an inclined plate, a nail removing assembly, a sliding track, a bolt assembly and a turnover assembly, wherein the inclined plate is arranged in an inclined manner and is used for placing a material cylinder provided with a framework, and the bottom of the inclined plate is provided with a through hole; the nail removing assembly is arranged at a through hole on the inclined plate and comprises a nail removing pin and a nail removing driving device, and the nail removing driving device drives the nail removing pin to be inserted into the through hole; the sliding material track is obliquely arranged along the oblique direction of the oblique plate, and the nail removing assembly is arranged between the top of the oblique plate and the sliding material track; the bolt component is arranged at the bottom of the sliding material track and comprises a bolt and a bolt driving device, and the bolt driving device drives the bolt to penetrate through the sliding material track; the overturning assembly comprises a material receiving block and a material receiving block driving assembly, a material receiving groove is formed in the material receiving block, and the material receiving block driving assembly drives the material receiving block to move to the position below the material sliding rail.

According to the technical scheme, the framework material cylinder is placed on the inclined plate, the framework material cylinder is placed in an inclined mode, the nail removing driving device drives the nail removing pin to move, the nail removing pin moves to penetrate through the through hole to remove sealing nails on the material cylinder, the framework in the material cylinder slides to the material sliding rail, the bolt on the material sliding rail penetrates through the material sliding rail to block the framework on the material sliding rail, the single framework drops to the material receiving groove of the material receiving block one by one, the material receiving block driving assembly drives the material receiving block to move, feeding of a feeding trolley in a winding production line is facilitated, in the process, the framework in the material cylinder does not need to be poured out, and the material cylinder is placed on the inclined plate to achieve feeding of the framework.

The further scheme is that the framework feeding assembly comprises a material shifting barrel assembly, the material shifting barrel assembly is arranged at the middle part of the inclined plate, the material shifting barrel assembly comprises a material shifting block and a material shifting driving device, a through groove is formed in the inclined plate, the material shifting block penetrates through the through groove, the material shifting driving device drives the material shifting block to move, and the moving direction of the material shifting block is intersected with the inclined direction of the inclined plate.

Therefore, the plurality of material cylinders are stacked on the inclined plate, and after the material cylinder at the lowest position completes the blanking of the framework, the material stirring driving device drives the material stirring block penetrating through the through groove to stir the material cylinder completing the framework loading away from the inclined plate, so that the framework in the next material cylinder can be loaded conveniently.

The further scheme is that two placing positions are arranged on the inclined plate, each placing position is provided with a through groove, and the two through grooves are arranged in parallel; the quantity of the material stirring blocks is two, the quantity of the material stirring driving devices is two, the two material stirring blocks are respectively connected with the material stirring driving devices in a one-to-one correspondence mode, and the two material stirring blocks penetrate through the two through grooves in a one-to-one correspondence mode.

It can be seen that two are placed and are provided with a plurality of feed cylinders on the position respectively, and two are placed the position and carry out the material loading of skeleton simultaneously, and two are dialled material drive arrangement and drive two and dial the feed cylinder that the material piece one-to-one will be placed on the position and dial away two simultaneously, effectively improve work efficiency.

The material receiving block driving assembly comprises a rotating assembly and a translation assembly, the rotating assembly comprises at least two rotating cylinders, and driving rods of the rotating cylinders are hinged with the material receiving block; the translation assembly comprises a first mounting block, a first translation driving cylinder, a second mounting block and a second translation driving cylinder, the rotating assembly is arranged on the first mounting block, the first translation driving cylinder drives the first mounting block to move along a first direction, the first mounting block and the first translation driving cylinder are mounted on the second mounting block, the second translation driving cylinder drives the second mounting block to move along a second direction, and the first direction is perpendicular to the second direction.

It is obvious, connect the material piece drive assembly drive to connect the material piece to remove to the orbital below department of smooth material, when the actuating lever that rotates the cylinder removed, because the actuating lever that rotates the cylinder with connect the material piece articulated, the removal of actuating lever drove the rotation of material piece to connect the silo that connects on the material piece to remove to the orbital below of smooth material, catch the skeleton of following the orbital landing of smooth material, translation subassembly drive connects the material piece to remove, is convenient for the pay-off get off the material.

The further scheme is that the framework feeding assembly comprises a pressure barrel assembly, the pressure barrel assembly is arranged at the top of the inclined plate and comprises a pressure block and a pressure block driving device, the pressure block driving device drives the pressure block to move towards the middle of the inclined plate, and the moving direction of the pressure block is the same as the inclined direction of the inclined plate.

Therefore, the pressing block driving device drives the pressing block to press the material barrel on the inclined plate, and the material barrel is prevented from shifting in the process of sliding of the framework.

The framework feeding assembly comprises a material blocking assembly, the material blocking assembly comprises a plurality of baffles and a baffle driving device, the baffles are arranged on two opposite sides of the inclined plate in the inclined direction along the inclined plate respectively, and the baffle driving device drives the baffles to move.

It can be seen that the baffle driving device drives the baffle to move, and the baffle is arranged to prevent the charging barrel from falling from the inclined plate along two sides of the delay direction of the inclined plate.

The further scheme is that the two opposite sides of the inclined plate along the inclined direction of the inclined plate are respectively provided with a collecting box and a guide inclined plate, and the guide inclined plate is arranged between the inclined plate and the collecting box.

Therefore, after one material cylinder finishes the feeding of the framework, the empty material cylinder is pulled away from the inclined plate and slides into the collecting box through the guide inclined plate, and the discharging of the empty material cylinder is quickly realized.

In order to realize the second purpose, the utility model provides an automatic feeding wire winding production line includes if according to above-mentioned skeleton material loading subassembly.

The automatic feeding and winding production line comprises two framework feeding assemblies, a feeding assembly and a winding assembly, wherein the feeding assembly comprises a feeding trolley, a feeding track and a feeding driving assembly, the feeding trolley moves along the extending direction of the feeding track, and the feeding driving assembly drives the feeding trolley to move between the framework feeding assemblies and the winding assembly.

The further scheme is that a rack is arranged on the feeding track, a gear and a rotating motor are arranged on the feeding trolley, the rotating motor is connected with the gear, and the gear is meshed with the rack.

It can be seen that, because the rotating motor is connected with the gear, when the rotating motor drives the gear to rotate, the rotation of the gear drives the feeding trolley to move along the extending direction of the rack because the gear is meshed with the rack.

Drawings

Fig. 1 is a structural diagram of a framework feeding assembly in an embodiment of an automatic feeding and winding production line of the utility model.

Fig. 2 is a structural diagram of the component arrangement on the inclined plate in the framework feeding assembly in the embodiment of the automatic feeding and winding production line.

Fig. 3 is a structural diagram of the upper part of the inclined plate of the framework feeding assembly in the embodiment of the automatic feeding and winding production line of the utility model with another angle.

Figure 4 is the structure diagram of the material poking component in the framework material loading component in the embodiment of the automatic material loading and winding production line.

Figure 5 is the structure diagram of the turnover component in the framework feeding component in the embodiment of the automatic feeding and winding production line.

Fig. 6 is a structural diagram of a feeding trolley in an embodiment of the automatic feeding and winding production line of the utility model.

The present invention will be further explained with reference to the drawings and examples.

Detailed Description

The utility model discloses a skeleton material loading subassembly is applicable to the material loading of skeleton before the wire winding in the inductance coils, through placing the feed cylinder on the hang plate, skeleton slope landing in the feed cylinder to on the smooth material track to catch the skeleton that drops on the smooth material track through the upset subassembly, thereby realize the material loading of skeleton.

Referring to fig. 1, the framework feeding assembly comprises an installation platform 1, an inclined plate 2, a nail removing assembly 3, a material sliding rail 4, a bolt assembly 5, a material shifting barrel assembly 6, a material pressing barrel assembly 7, a material blocking assembly 8 and a turning assembly 9, wherein the inclined plate 2, the material sliding rail 4 and the turning assembly 9 are arranged on the installation end surface of the installation platform 1, the inclined plate 2 is arranged on the installation end surface of the installation platform 1 in an inclined mode, and the inclined plate 2 is used for placing a material barrel provided with a framework. In the present embodiment, referring to fig. 2 and 3, two placing locations 21 are provided on the inclined plate 2, a plurality of cartridges are placed on the placing locations 21, respectively, and the cartridges on each placing location 21 are stacked.

A material pressing barrel assembly 7, a material blocking assembly 8, a material shifting barrel assembly 6 and a nail removing assembly 3 are sequentially arranged on the inclined plate 2 from the top of the inclined plate 2 to the bottom of the inclined plate 2.

The pressure barrel assembly 7 is arranged at the top of the inclined plate 2, the pressure barrel assembly 7 comprises a pressure block 71 and a pressure block driving device 72, the pressure block driving device 72 drives the pressure block 71 to move towards the middle of the inclined plate 2, and the middle of the inclined plate 2 is arranged between the top and the bottom of the inclined plate 2; the moving direction of the pressure piece 71 is the same as the tilting direction of the tilting plate 2. The lateral wall of the pressing block 71 facing the inclined plate 2 is provided with a limiting groove 73, when the pressing block driving device 72 drives the pressing block 71 to press the charging barrel on the inclined plate 2, one end of the charging barrel along the length direction of the charging barrel is arranged in the limiting groove 73, and the situation that the charging barrel shifts in the process of the framework sliding can be avoided. The bottom of the inclined plate 2 is provided with a limiting block 28, the side wall of the limiting block 28 facing the pressing block 71 is also provided with a limiting groove 281, and the other end of the charging barrel along the length direction of the charging barrel is arranged in the limiting groove 281. In this embodiment, two pressure cylinder assemblies 7 are arranged on the top of the inclined plate 2, one pressure cylinder assembly 7 presses the material cylinders in one placing position 21 in a one-to-one correspondence manner, and the pressure block 71 driving assembly is a cylinder.

A setting barrel assembly 6 is provided at the middle of the inclined plate 2. Referring to fig. 4, the material shifting barrel assembly 6 comprises a material shifting block 61 and a material shifting driving device 62, a through groove 22 is formed in the inclined plate 2, the material shifting block 61 penetrates through the through groove 22, the material shifting driving device 62 drives the material shifting block 61 to move, and the moving direction of the material shifting block 61 is intersected with the inclined direction of the inclined plate 2. Each placing position 21 is provided with a through groove 22, and the two through grooves 22 are arranged in parallel; the number of the material stirring blocks 61 is two, the number of the material stirring driving devices 62 is two, the two material stirring blocks 61 are respectively connected with the material stirring driving devices 62, the two material stirring blocks 61 penetrate through the two through grooves 22 in a one-to-one correspondence manner, and the material stirring driving devices 62 drive the two material stirring blocks 61 to move towards or away from each other. After the charging barrel at the lowest position on the inclined plate 2 finishes the blanking of the framework, the material shifting driving device 62 drives the material shifting block 61 penetrating through the through groove 22 to shift the charging barrel which finishes the loading of the framework away from the inclined plate 2, so that the loading of the framework in the next charging barrel is facilitated; pneumatic clamping jaw drives two material pieces 61 simultaneously and dials away two feed cylinders of placing on the position 21 one-to-one, effectively improves work efficiency.

The two opposite sides of the inclined plate 2 along the inclination direction of the inclined plate 2 are respectively provided with a collecting box 23 and a guide inclined plate 24, and the guide inclined plate 24 is arranged between the inclined plate 2 and the collecting box 23. After the feeding of the framework is completed by one material cylinder, the empty material cylinder is pulled away from the inclined plate 2 and slides into the collecting box 23 through the guide inclined plate 24, and the discharging of the empty material cylinder is rapidly realized.

In this embodiment, the inclined guide plate 23 is provided with an avoiding groove 25, and the two opposite sides of the inclined plate 2 along the inclined direction of the inclined plate 2 are respectively provided with a plurality of material blocking assemblies 8. The material blocking assembly 8 comprises a plurality of baffles 81 and baffle driving devices 82, the baffles 81 are respectively arranged on two opposite sides of the inclined plate 2 along the inclined direction of the inclined plate 2, the baffle driving devices 82 drive the baffles 81 to move, and the baffles 81 are positioned in the avoiding grooves 25. The shutter drive device 82 drives the shutter 81 to move, and the shutter 81 is provided to prevent the cartridge from falling on both sides from the inclined plate 2 in the direction of distraction of the inclined plate 2.

The bottom of hang plate 2 is provided with through-hole 27, and the subassembly 3 that goes to follow closely sets up in hang plate 2 and sets up in through-hole 27 department, and the subassembly 3 that goes to follow closely sets up between the top of hang plate 2 and smooth material track 4. The nail removing assembly 3 comprises a nail removing pin 31 and a nail removing driving device 32, and the nail removing driving device 32 drives the nail removing pin 31 to be inserted into the through hole 27, so that the sealing nails on the barrel are removed, and the framework slides off the barrel.

The sliding track 4 is obliquely arranged along the oblique direction of the inclined plate 2, and the sliding track 4 is used for receiving the framework which slides down from the inclined plate 2. The bolt component 5 is arranged at the bottom of the sliding material track 4 close to the sliding material track 4, and the bolt component 5 comprises a bolt 51 and a bolt driving device 52, and the bolt driving device drives the bolt to penetrate through the sliding material track 4. In this embodiment, two latch assemblies 5 are provided on the bottom of the inclined plate 2, and the two latch assemblies 5 are arranged in the inclined direction of the inclined plate 2. The sliding rail 4 is provided with a through groove 41, and the pins 51 of the two pin assemblies 5 penetrate through the through groove 41. When the frameworks slide down to the sliding rail 4, the two pins 51 can penetrate through the through grooves 41 to position the two frameworks at the bottommost part of the sliding rail 4.

Referring to fig. 5, the turnover assembly 9 includes a material receiving block 91 and a material receiving block driving assembly, a material receiving groove 911 is provided on the material receiving block 91, and the material receiving block driving assembly drives the material receiving block 91 to move to the lower side of the material sliding rail 4. Connect material piece drive assembly to include runner assembly 92 and translation subassembly 93, runner assembly 92 includes two at least rotation cylinder 921, connects material piece 91 to be rectangular shape, and two rotation cylinders 912 connect the both ends of material piece 91 along connecing material piece 91 length direction respectively. The actuating lever of rotating cylinder 921 passes through connecting block 922 with connecing material piece 91 to be connected in an articulated manner, connects material piece 91 and connecting block 922 fixed connection, and connecting block 922 is connected with the actuating lever of rotating cylinder 921 in an articulated manner. The driving rod of the rotating cylinder 921 drives the connecting block 922 to rotate, driving the connecting block 91 to rotate. The translation assembly 93 includes a first mounting block 931, a first translation driving cylinder 932, a second mounting block 933, and a second translation driving cylinder 934, the rotation assembly 92 is provided at the first mounting block 921, and the first translation driving cylinder 932 drives the first mounting block 921 to move in a first direction extending horizontally. The first mounting block 921 and the first translation driving cylinder 922 are mounted on the second mounting block 923, the second translation driving cylinder 924 drives the second mounting block 923 to move along the second direction, the second direction extends along the vertical direction, and the first direction is perpendicular to the second direction. In this embodiment, when the receiving block driving assembly drives the receiving block 91 to move to the bottom of the sliding rail 4, the receiving groove 911 on the receiving block 91 is located in the extending direction of the sliding rail 4, so as to receive the framework sliding off from the sliding rail 4. Be provided with baffle 912 on connecing the piece 91, the quantity of baffle 912 is the same with the quantity that connects silo 911, connects silo 911 to set up between sliding material track 4 and baffle 912, and the setting of baffle 912 can avoid connecing silo 911 to catch the skeleton after, and the skeleton drops from connecing silo 911.

The material receiving block driving assembly drives the material receiving block 91 to move to the position below the material sliding track 4, when the driving rod of the rotating cylinder 921 moves, the driving rod of the rotating cylinder 921 is hinged to the material receiving block 91, the driving rod moves to drive the material receiving block 91 to rotate, so that the material receiving groove 911 on the material receiving block 91 moves to the position below the material sliding track 4 to receive a framework sliding from the material sliding track 4, the material receiving block 91 is driven to move by the translation assembly, and feeding, discharging and material taking are facilitated.

The framework material cylinder is placed on the inclined plate 2, the framework material cylinder is placed in an inclined mode, the nail removing driving device drives the nail removing pin 31 to move, the nail removing pin 31 moves to penetrate through the through hole 27 to remove sealing nails on the material cylinder, the framework in the material cylinder slides to the material sliding rail 4, the bolt 51 on the material sliding rail 4 penetrates through the material sliding rail 4 to block the framework on the material sliding rail 4, the single framework drops to the material receiving groove 911 of the material receiving block 91 one by one, the material receiving block driving assembly drives the material receiving block 91 to move, feeding of a feeding trolley in a winding production line is facilitated, in the process, the framework in the material cylinder does not need to be poured out, and the material cylinder is placed on the inclined plate 2 to achieve feeding of the framework.

The utility model discloses an automatic material loading wire winding production line includes two skeleton material loading subassemblies, pay-off subassembly and wire winding subassembly, and the pay-off subassembly includes pay-off dolly 10, pay-off track 101 and pay-off drive assembly, and pay-off dolly 10 removes along the extending direction of pay-off track 101, and pay-off drive assembly drive pay-off dolly 10 removes between skeleton material loading subassembly and wire winding subassembly. The feeding track 101 is provided with a rack 102, referring to fig. 6, the feeding trolley 10 is provided with a plurality of material taking shafts 104, gears and a rotating motor 103, the material taking shafts 104 are used for grabbing a framework on the overturning component, the rotating motor 13 is connected with the gears, and the gears are meshed with the rack. Because the rotating motor 103 is connected with the gear, when the rotating motor 103 drives the gear to rotate, the rotation of the gear drives the feeding trolley 10 to move along the extending direction of the rack 102 because the gear is meshed with the rack.

Finally, it should be emphasized that the above-described embodiments are merely preferred examples of the present invention, and are not intended to limit the invention, as those skilled in the art will appreciate that various changes and modifications may be made, and any and all modifications, equivalents, and improvements made, while remaining within the spirit and principles of the present invention, are intended to be included within the scope of the present invention.

Claims (10)

1. Skeleton material loading subassembly, its characterized in that includes:

the inclined plate is obliquely arranged and used for placing a charging barrel provided with a framework, and a through hole is formed in the bottom of the inclined plate;

the nail removing assembly is arranged at the through hole on the inclined plate and comprises a nail removing pin and a nail removing driving device, and the nail removing driving device drives the nail removing pin to be inserted into the through hole;

the material sliding rail is obliquely arranged along the oblique direction of the oblique plate, and the nail removing assembly is arranged between the top of the oblique plate and the material sliding rail;

the bolt component is arranged at the bottom of the sliding material track and comprises a bolt and a bolt driving device, and the bolt driving device drives the bolt to penetrate through the sliding material track;

the turnover assembly comprises a material receiving block and a material receiving block driving assembly, wherein a material receiving groove is formed in the material receiving block, and the material receiving block driving assembly drives the material receiving block to move to the position below the material sliding rail.

2. The carcass feeding assembly of claim 1, wherein:

the framework feeding assembly comprises a material shifting barrel assembly, the material shifting barrel assembly is arranged in the middle of the inclined plate and comprises a material shifting block and a material shifting driving device, a through groove is formed in the inclined plate, the material shifting block penetrates through the through groove, the material shifting driving device drives the material shifting block to move, and the moving direction of the material shifting block is intersected with the inclined direction of the inclined plate.

3. The carcass feeding assembly of claim 2, wherein:

two placing positions are arranged on the inclined plate, each placing position is provided with one through groove, and the two through grooves are arranged in parallel;

the material poking device comprises two material poking blocks, two material poking driving devices, wherein the two material poking blocks are connected with the material poking driving devices in a one-to-one correspondence mode, and penetrate through the through grooves in a one-to-one correspondence mode.

4. The carcass feeding assembly of claim 1, wherein:

the material receiving block driving assembly comprises a rotating assembly and a translation assembly, the rotating assembly comprises at least two rotating cylinders, and driving rods of the rotating cylinders are hinged with the material receiving block;

the translation assembly comprises a first mounting block, a first translation driving cylinder, a second mounting block and a second translation driving cylinder, the rotating assembly is arranged on the first mounting block, the first translation driving cylinder drives the first mounting block to move along a first direction, the first mounting block and the first translation driving cylinder are mounted on the second mounting block, the second translation driving cylinder drives the second mounting block to move along a second direction, and the first direction is perpendicular to the second direction.

5. The carcass feeding assembly of claim 1, wherein:

the framework feeding assembly comprises a pressure barrel assembly, the pressure barrel assembly is arranged at the top of the inclined plate and comprises a pressure block and a pressure block driving device, the pressure block driving device drives the pressure block to move towards the middle of the inclined plate, and the moving direction of the pressure block is the same as the inclined direction of the inclined plate.

6. The carcass feeding assembly of claim 1, wherein:

the framework feeding assembly comprises a material blocking assembly, the material blocking assembly comprises a plurality of baffles and a baffle driving device, the baffles are arranged on two opposite sides of the inclined direction of the inclined plate respectively, and the baffle driving device drives the baffles to move.

7. The carcass feeding assembly of any one of claims 1 to 6, wherein:

the two opposite sides of the inclined plate along the inclined direction of the inclined plate are respectively provided with a collecting box and a guide inclined plate, and the guide inclined plate is arranged between the inclined plate and the collecting box.

8. Automatic material loading wire winding production line, its characterized in that: comprising a carcass feeding assembly according to any one of claims 1 to 7.

9. The automatic feeding and winding production line of claim 8, wherein:

the automatic feeding and winding production line comprises two framework feeding assemblies, a feeding assembly and a winding assembly, wherein the feeding assembly comprises a feeding trolley, a feeding track and a feeding driving assembly, the feeding trolley moves along the extending direction of the feeding track, and the feeding driving assembly drives the feeding trolley to move between the framework feeding assemblies and the winding assembly.

10. The automatic feeding and winding production line according to claim 9, characterized in that:

the feeding trolley is characterized in that a rack is arranged on the feeding track, a gear and a rotating motor are arranged on the feeding trolley, the rotating motor is connected with the gear, and the gear is meshed with the rack.

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