CN216029098U - Automatic screw feeding equipment - Google Patents

Abstract

The utility model relates to the technical field of automatic screw feeding equipment, in particular to automatic screw feeding equipment. It includes the frame shell, sets up a plurality of automatic feed mechanisms in the frame shell, sets up at the feed conveyer belt of screw automatic feed mechanism front side, sets up a plurality of work material boxes on the feed conveyer belt, setes up and gets the material mouth on the frame shell, automatic feed mechanism includes feed mechanism, sets up at the screw screening mechanism of feed mechanism exit, connects in the transmission mechanism of feed mechanism exit, sets up the vibrations mechanism, the connection of transmission mechanism bottom and screw screening mechanism's motor control mechanism, supplementary transport mechanism and sets up the terminal numerical control mechanism at transmission mechanism, numerical control mechanism is fixed mounting still on vibrations mechanism, supplementary transport mechanism passes through the drive of motor control mechanism and uses, and cooperates the supplementary transmission of transmission mechanism. The utility model has the advantages that: simple structure, degree of automation is high, and production efficiency is high.

Description

Automatic screw feeding equipment

Technical Field

The utility model relates to the technical field of automatic screw feeding equipment, in particular to automatic screw feeding equipment.

Background

The development of screw machine in market has very big potentiality, and especially more and more enterprises now focus on utilizing the high-tech to improve production efficiency, can also reduce the cost of manpower simultaneously, has improved the accuracy of installation again, lets the product quality who produces more the first floor.

In the prior art, the screening of screws is inconvenient, a large amount of time is consumed, and therefore a screw automatic feeding device needs to be designed to solve the problems.

Disclosure of Invention

The utility model aims to provide automatic screw feeding equipment to overcome the defects in the prior art.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a screw automatic feed equipment, its includes the frame shell, set up a plurality of automatic feed mechanisms in the frame shell, set up at the feed conveyer belt of screw automatic feed mechanism front side, set up a plurality of work material boxes on the feed conveyer belt, set up and get the material mouth on the frame shell, automatic feed mechanism includes feed mechanism, sets up at the screw screening mechanism of feed mechanism exit, connects in the transmission device of feed mechanism exit, sets up the vibration mechanism in the transmission device bottom, connects motor control mechanism, the supplementary transport mechanism and the terminal quantity control mechanism of setting at transmission device of screw screening mechanism, quantity control mechanism still fixed mounting is on vibration mechanism, supplementary transport mechanism passes through motor control mechanism drive and uses, and cooperates the supplementary transmission of transmission mechanism.

Preferably, the feeding mechanism comprises a turning bin, a turning plate connected to the end part of the turning bin, a discharging shell arranged at the outlet of the turning bin, and a guide plate arranged in the discharging shell, the guide plate is also arranged at the outlet of the turning bin, the screw screening mechanism comprises a shifting sheet, two ends of which are arranged in the discharging shell through fixing blocks, a transmission gear arranged at one end of the shifting sheet, an auxiliary transmission block meshed with the transmission gear, a connecting rod connected with the auxiliary transmission block through a pin shaft, a swing arm connected with the connecting rod through a fixing block, and a cam arranged at the end part of the swing arm, the transmission mechanism comprises a screw transmission groove arranged below the discharge port of the discharging shell, and guide plates arranged at the left side and the right side of the front end of the screw transmission groove, the vibration mechanism comprises a vibration motor arranged at the bottom of the screw transmission groove and an installation bottom plate used for fixedly installing the vibration motor, the motor control mechanism comprises a driving motor, a driving shaft connected with the driving motor driving end, a second cam arranged on the driving shaft in a sleeved mode, a straight gear arranged at the end part of the driving shaft, and a helical gear arranged on the second cam in a sleeved mode, wherein the straight gear is installed in a matched mode with the driving shaft and the driving motor driving end, the helical gear is arranged at the end part of the driving shaft, the helical gear is arranged on the second cam in a sleeved mode, the auxiliary transmission mechanism comprises a helical gear transmission shaft arranged on the installation base plate, a second helical gear arranged on the helical gear transmission shaft, a third helical gear arranged in a meshed mode with the second helical gear, an auxiliary transmission shaft arranged in a matched mode with the third helical gear, and an auxiliary transmission wheel arranged on the auxiliary transmission shaft in a sleeved mode, one end of the second helical gear is arranged in a meshed mode with the helical gear, the auxiliary transmission wheel is arranged right above the screw transmission groove, the number control mechanism comprises an electromagnetic installation rack fixedly arranged on the installation base plate, an electromagnetic switch arranged on the electromagnetic installation rack, The front end of the electromagnetic switch is provided with a blocking needle and an optical fiber sensor arranged on the blocking needle.

Preferably, the cam is rotatable about the spur gear.

Preferably, the feeding conveyor belt comprises a motor driving shaft, a conveyor belt sleeved on the motor driving shaft, and a material collecting box arranged on the conveyor belt.

Preferably, still be provided with the touch screen on the frame shell, set up the scram button in the touch screen below, set up the ware of punching the card about the scram button, the end and the material taking mouth of feeding mechanism transmission band are put through mutually, frame shell rear side is provided with the pan feeding mouth, the pan feeding mouth is corresponding the turnover bin sets up.

The utility model has the beneficial effects that: the automatic screw feeding device realizes the automatic feeding function through automatic screw screening and automatic screw conveying, has the advantages of simple structure, high automation degree and high production efficiency, can reduce the cost of manpower, improves the mounting accuracy, and ensures that the quality of the produced products is higher than that of the first floor.

Drawings

FIG. 1 is a schematic structural diagram of an automatic screw feeding device according to the present invention;

FIG. 2 is an exploded view of an automatic feeding mechanism of an automatic screw feeding apparatus according to the present invention;

FIG. 3 is a schematic view of a feeding mechanism of an automatic screw feeding device according to the present invention;

FIG. 4 is a schematic view of a screw screening mechanism of an automatic screw feeding apparatus according to the present invention;

FIG. 5 is a schematic view of a conveying mechanism of an automatic screw feeding device according to the present invention;

FIG. 6 is a schematic view of a vibration mechanism of an automatic screw feeding device according to the present invention;

FIG. 7 is a schematic view of a motor control mechanism of an automatic screw feeding device according to the present invention;

FIG. 8 is a schematic view of an auxiliary conveying mechanism of an automatic screw feeding device according to the present invention;

FIG. 9 is a schematic view of a quantity control mechanism of an automatic screw feeding device according to the present invention;

FIG. 10 is a schematic view of a feeding belt of an automatic screw feeding apparatus according to the present invention;

in the figure: 1. a rack housing; 2. an automatic feeding mechanism; 21. a feeding mechanism; 211. turning over the bin; 212. a turnover plate; 213. a discharging shell; 214. a guide plate; 22. a screw screening mechanism; 221. a fixed block; 222. a shifting sheet; 223. a transmission gear; 224. an auxiliary transmission block; 225. A pin shaft; 226. a connecting rod; 227. swinging arms; 228. a cam; 23. a transport mechanism; 231. a screw transmission slot; 232. a guide plate; 24. a vibration mechanism; 241. a vibration motor; 242. mounting a bottom plate; 25. a motor control mechanism; 251. a drive motor; 252. a drive shaft; 253. a second cam; 254. a spur gear; 255. a helical gear; 26. an auxiliary transport mechanism; 261. a helical gear transmission shaft; 262. a second helical gear; 263. a third bevel gear; 264. an auxiliary transmission shaft; 265. an auxiliary transmission wheel; 27. a number control mechanism; 271. an electromagnetic mounting bracket; 272. an electromagnetic switch; 273. blocking the needle; 274. an optical fiber sensor; 3. a feed conveyor; 4. a work material box; 5. a material taking port; 6. a touch screen; 7. an emergency stop button; 8. a card reader.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

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

Referring to fig. 1 to 2, the present embodiment is an automatic screw feeding device, which includes a rack housing 1, a plurality of automatic feeding mechanisms 2 disposed in the rack housing 1, a feeding conveyor belt 3 disposed in front of the automatic screw feeding mechanisms 2, a plurality of work material boxes 4 disposed on the feeding conveyor belt 3, and a material taking port 5 disposed on the rack housing 1, wherein the automatic feeding mechanisms 2 include a feeding mechanism 21, a screw screening mechanism 22 disposed at an outlet of the feeding mechanism 21, a transmission mechanism 23 connected to an outlet of the feeding mechanism 21, a vibration mechanism 24 disposed at a bottom of the transmission mechanism 23, a motor control mechanism 25 connected to the screw screening mechanism 22, an auxiliary transmission mechanism 26, and a quantity control mechanism 27 disposed at a tail end of the transmission mechanism 23, the quantity control mechanism 27 is further fixedly mounted on the vibration mechanism 24, the auxiliary transmission mechanism 26 is driven by the motor control mechanism 25, and the transmission is assisted by the transmission mechanism 23.

Preferably, the feeding mechanism 21 includes a turning bin 211, a turning plate 212 connected to an end of the turning bin 211, a discharging shell 213 disposed at an outlet of the turning bin 211, and a guiding plate 214 disposed in the discharging shell 213, the guiding plate 214 is further disposed at the outlet of the turning bin 211, the screw screening mechanism 22 includes a dial 222 having two ends mounted in the discharging shell 213 through a fixing block 221, a transmission gear 223 disposed at one end of the dial 222, an auxiliary transmission block 224 engaged with the transmission gear 223, a connecting rod 226 connected to the auxiliary transmission block 224 through a pin 225, a swing arm 227 connected to the connecting rod 226 through a fixing block, and a cam 228 disposed at an end of the swing arm 227, the cam 228 is disposed on a spur gear 254, the spur gear 254 rotates to drive the cam 228 to rotate, so that the swing arm 227 swings, and the swing arm 227 swings to drive the connecting rod 226 to make reciprocating motion by back and forth extension, the auxiliary transmission block 224 drives the transmission gear 223 to reciprocate, the transmission gear 224 drives the shifting piece 222 to rotate, the shifting piece 222 swings back and forth in the discharging shell 213, screws which are not placed orderly in the lower conveying groove are shifted back into the storage bin, and the screws which are orderly and qualified in size are transmitted to the screw transmission groove 231.

The transmission mechanism 23 includes a screw transmission slot 231 disposed below the discharge port of the discharge housing 213, and guide plates 232 disposed at the left and right sides of the front end of the screw transmission slot 231, the screw falls into the transmission slot after being scratched from the guide plates, the guide plates at the two sides prevent the screw from falling out, and then the vibration motor drives the whole screw transmission slot 231 to vibrate to slowly deliver the screw to the outlet, the vibration mechanism 24 includes a vibration motor 241 disposed at the bottom of the screw transmission slot 231 and a mounting base plate 242 for fixedly mounting the vibration motor 241, the motor control mechanism 25 includes a driving motor 251, a driving shaft 252 connected to the driving end of the driving motor 251, a second cam 253 disposed on the driving shaft 252, a spur gear 254 disposed at the end of the driving shaft 252, and a helical gear 255 disposed on the second cam 253, the spur gear 254 is disposed in cooperation with the cam 228, the driving motor 252 drives the driving shaft 252 to rotate, and drives the second cam 253, the spur gear 254 and the helical gear 255 to rotate.

The auxiliary transmission mechanism 26 includes a helical gear transmission shaft 261 provided on the mounting base plate 242, a second helical gear 262 provided on the helical gear transmission shaft 261, a third helical gear 263 disposed to be engaged with the second helical gear 262, an auxiliary transmission shaft 264 provided to be engaged with the third helical gear 263, an auxiliary transmission wheel 265 fitted over the auxiliary transmission shaft 264, one end of the second bevel gear 262 is engaged with the bevel gear 255, the auxiliary transmission wheel 265 is disposed right above the screw transmission groove 231, the bevel gear 255 rotates to drive the second bevel gear 262 to rotate, the second bevel gear 262 rotates to drive the third bevel gear 263, thereby driving the auxiliary transmission shaft 264 to rotate, and the auxiliary transmission wheel 265 to rotate, after the screw is transmitted to the screw transmission groove 231, the auxiliary transmission wheel 265 rotates to drive the screw on the screw transmission groove 231 to move for auxiliary transmission.

The quantity control mechanism 27 includes an electromagnetic mounting frame 271 fixedly mounted on the mounting base 242, an electromagnetic switch 272 mounted on the electromagnetic mounting frame 271, a stopper pin 273 provided at a front end of the electromagnetic switch 272, and an optical fiber sensor 274 mounted on the stopper pin 273. The optical fiber sensor can detect the number of the passing screws, and when the number reaches a set value, the electromagnetic switch is turned on, the front blocking needle extends out, and the rest screws are blocked.

After being thrown from a feeding port, the screw flows into the turnover bin along an inclined plane, the turnover bin drives the turnover plate to rotate clockwise along with the screw, the screw is conveyed into the guide plate, the spur gear 254 rotates to drive the cam 228 to rotate, so that the swing arm 227 swings, the swing arm 227 swings to drive the connecting rod 226 to stretch back and forth to reciprocate, the auxiliary transmission block 224 drives the transmission gear 223 to reciprocate, the transmission gear 224 drives the plectrum 222 to rotate, the plectrum 222 swings back and forth in the discharging shell 213, the screws which are not arranged in the conveying groove below are pushed back into the storage bin, the screws which are arranged in order and qualified in size are transmitted to the screw transmission groove 231, the driving shaft 252 is driven to rotate by the driving motor 252, the second cam 253, the spur gear 254 and the helical gear 255 are driven to rotate, the second helical gear 262 rotates to drive the third helical gear 263, so that the auxiliary transmission shaft 264 is driven to rotate, and the rotation of the auxiliary transmission wheel 265, after the screw is transmitted to the screw transmission groove 231, the auxiliary transmission wheel 265 rotates to drive the screw on the screw transmission groove 231 to move, the transmission is assisted, meanwhile, the vibration motor can drive the whole screw transmission groove 231 to vibrate, the screw is slowly transmitted to an outlet, the number of the passed screws can be detected by the optical fiber sensor at the outlet, when the number reaches a set value, the electromagnetic switch is turned on, the front stop needle extends out, the rest screws are stopped, and the transmitted screws can fall into the material receiving box.

The cam 288 is able to rotate about the spur gear 254.

The feeding conveyor belt 3 comprises a motor driving shaft 31 and a conveyor belt 32 sleeved on the motor driving shaft 31, and the material collecting box 4 is arranged on the conveyor belt 32. The motor driving shaft 31 rotates to drive the conveying belt 32 to rotate, and the material collecting box 4 is conveyed.

Still be provided with touch-sensitive screen 6 on the frame shell 1, set up emergency stop button 7 in touch-sensitive screen 6 below, set up the ware of punching the card 8 about emergency stop button 7, the end of feed conveyer belt 3 is put through with getting material mouth 5 mutually, frame shell 1 rear side is provided with the pan feeding mouth, the pan feeding mouth is corresponding the upset storehouse sets up. The touch screen 6 performs the number of screws required for control operation and displays the condition of the internal screws or performs corresponding operation control. The end of the material conveying belt 3 is communicated with the material taking port 5, and screws can be directly taken out of the material receiving box 4, or the material receiving box 4 is driven to the material taking port 5 through the material conveying belt 3, and the screws are taken out of the material taking port.

In the implementation of the embodiment, the screw is fed from the feeding port and flows into the turnover bin along the inclined plane, then the turnover bin drives the turnover plate to rotate clockwise, the screw is conveyed into the guide plate, the spur gear 254 rotates to drive the cam 228 to rotate, so that the swing arm 227 swings, the swing arm 227 swings to drive the connecting rod 226 to extend back and forth and reciprocate, the auxiliary transmission block 224 drives the transmission gear 223 to reciprocate, the transmission gear 224 drives the dial piece 222 to rotate, the dial piece 222 swings back and forth in the discharge shell 213, the screws which are unevenly arranged in the lower conveying groove are dialed back, the regular and qualified storage bins are conveyed to the screw conveying groove 231, the driving motor 252 drives the driving shaft 252 to rotate, the second cam 253, the spur gear 254 and the helical gear 255 are driven to rotate, the second helical gear 262 is driven to rotate, the second helical gear 262 rotates to drive the third helical gear 263, thereby drive the rotation of auxiliary transmission axle 264, and the rotation of auxiliary transmission wheel 265, the screw transmits the back on the screw transmission groove 231, auxiliary transmission wheel 265 rotates the screw that drives on the screw transmission groove 231 and removes, auxiliary transmission, simultaneously the shock motor can drive whole screw transmission groove 231 vibrations, slowly carry the screw to the export, optical fiber sensor can detect the screw quantity that passes through in the exit, when quantity reaches the setting value, electromagnetic switch opens, the place ahead keeps off the needle and stretches out, block remaining screw, the screw that spreads out can drop in the collecting box, the end of material conveyer belt 3 communicates with gets material mouth 5, can directly take the screw from the collecting box 4, or will receive material box 4 transmission to get material mouth 5 through material conveyer belt 3, take the screw from getting material mouth.

The automatic screw feeding device has the advantages that the automatic screw feeding function is realized by automatically screening screws and automatically conveying screws, the structure is simple, the automation degree is high, the production efficiency is high, the labor cost can be reduced, the mounting accuracy is improved, and the quality of the produced products is higher than that of the first floor.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (5)

1. The utility model provides a screw automatic feed equipment which characterized in that: it includes the frame shell, sets up a plurality of automatic feed mechanisms in the frame shell, sets up at the feed conveyer belt of screw automatic feed mechanism front side, sets up a plurality of work material boxes on the feed conveyer belt, setes up and gets the material mouth on the frame shell, automatic feed mechanism includes feed mechanism, sets up at the screw screening mechanism of feed mechanism exit, connects in the transmission mechanism of feed mechanism exit, sets up the vibrations mechanism, the connection of transmission mechanism bottom and screw screening mechanism's motor control mechanism, supplementary transport mechanism and sets up the terminal numerical control mechanism at transmission mechanism, numerical control mechanism is fixed mounting still on vibrations mechanism, supplementary transport mechanism passes through the drive of motor control mechanism and uses, and cooperates the supplementary transmission of transmission mechanism.

2. The automatic screw feeding device according to claim 1, characterized in that: the feeding mechanism comprises a turnover bin, a turnover plate connected to the end part of the turnover bin, a discharge shell arranged at the outlet of the turnover bin, and a guide plate arranged in the discharge shell, the guide plate is also arranged at the outlet of the turnover bin, the screw screening mechanism comprises a shifting sheet, a transmission gear, an auxiliary transmission block, a connecting rod, a swing arm and a cam, the two ends of the shifting sheet are arranged in the discharge shell through fixing blocks, the transmission gear is arranged at one end of the shifting sheet, the auxiliary transmission block is meshed with the transmission gear, the connecting rod is connected with the auxiliary transmission block through a pin shaft, the swing arm is connected with the connecting rod through a fixing block, the cam is arranged at the end part of the swing arm, the transmission mechanism comprises a screw transmission groove and guide plates, the screw transmission groove is arranged below the discharge port of the discharge shell, the guide plates are arranged at the left side and the right side of the front end of the screw transmission groove, the vibration mechanism comprises a vibration motor and an installation bottom plate, the vibration motor is fixedly arranged at the bottom of the screw transmission groove, the motor control mechanism comprises a driving motor, a driving shaft connected with the driving motor driving end, a second cam arranged on the driving shaft in a sleeved mode, a straight gear arranged at the end part of the driving shaft, and a helical gear arranged on the second cam in a sleeved mode, wherein the straight gear is installed in a matched mode with the driving shaft and the driving motor driving end, the helical gear is arranged at the end part of the driving shaft, the helical gear is arranged on the second cam in a sleeved mode, the auxiliary transmission mechanism comprises a helical gear transmission shaft arranged on the installation base plate, a second helical gear arranged on the helical gear transmission shaft, a third helical gear arranged in a meshed mode with the second helical gear, an auxiliary transmission shaft arranged in a matched mode with the third helical gear, and an auxiliary transmission wheel arranged on the auxiliary transmission shaft in a sleeved mode, one end of the second helical gear is arranged in a meshed mode with the helical gear, the auxiliary transmission wheel is arranged right above the screw transmission groove, the number control mechanism comprises an electromagnetic installation rack fixedly arranged on the installation base plate, an electromagnetic switch arranged on the electromagnetic installation rack, The front end of the electromagnetic switch is provided with a blocking needle and an optical fiber sensor arranged on the blocking needle.

3. The automatic screw feeding device according to claim 2, characterized in that: the cam is rotatable about the spur gear.

4. The automatic screw feeding device according to claim 1, characterized in that: the feeding conveyor belt comprises a motor driving shaft, a conveyor belt sleeved on the motor driving shaft, and a material collecting box arranged on the conveyor belt.

5. The automatic screw feeding device according to claim 1, characterized in that: still be provided with the touch screen on the frame shell, set up the scram button in the touch screen below, set up the ware of punching the card about the scram button, the end and the material taking mouth of feeding mechanism transmission band are put through mutually, frame shell rear side is provided with the pan feeding mouth.

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