CN219131408U - Vibration disc type double-pulling-piece screw feeding device - Google Patents

Abstract

The utility model discloses a vibration disc type double-pulling-piece screw feeding device which comprises a vibration feeding disc and a pulling-out assembly, wherein the vibration feeding disc comprises a feeding disc and a feeding track arranged on the feeding disc, the pulling-out assembly comprises a sliding rail, one side of the sliding rail is connected with a discharging end of the feeding track and is provided with a first feeding port, a first sliding groove is arranged in the sliding rail, a sliding block is arranged in the first sliding groove, one end of the sliding block is connected with a driving device for driving the sliding block to slide in the first sliding groove, two second sliding grooves are arranged at the top of the sliding block, pulling-out pieces are arranged in the two second sliding grooves, clamping grooves are formed at one ends of the two pulling-out pieces, which are close to the first feeding port, guide blocks are arranged at the tops of the two pulling-out pieces, and a guide plate is arranged at the tops of the sliding rail. The beneficial effects of the utility model include: the utility model provides a vibration disc type double-pulling-piece screw feeding device, which has high feeding efficiency compared with the traditional single-pulling-piece screw feeding device, so that a great amount of time is saved.

Description

Vibration disc type double-pulling-piece screw feeding device

Technical Field

The utility model relates to the technical field of screw feeding devices, in particular to a vibration disc type double-pulling-piece screw feeding device.

Background

The screw machine is a small machine for automatically locking screws, the action structure of the screw machine can be generally divided into a feeding part and an electric screwdriver part, the feeding part is responsible for screening and providing the screws, the electric screwdriver part is responsible for taking the screws and locking the screws, and the production of the screw machine not only improves the operation efficiency, but also reduces the manual operation intensity. The traditional screw machine generally adopts single plectrum feed, and feeding efficiency is low, has consequently wasted a large amount of time.

Disclosure of Invention

The utility model aims to overcome the technical defects, and provides a vibrating disc type double-pulling-piece screw feeding device which solves the technical problems in the background art.

In order to achieve the technical purpose, the technical scheme of the utility model provides a vibration disc type double-pulling-piece screw feeding device, which comprises a vibration feeding disc and a pulling-out assembly, wherein the vibration feeding disc comprises a feeding disc and a feeding track arranged on the feeding disc, the pulling-out assembly comprises a sliding rail, one side of the sliding rail is connected with a discharging end of the feeding track and is provided with a first feeding port, a first sliding groove is arranged in the sliding rail, a sliding block is arranged in the first sliding groove, one end of the sliding block and a driving device for driving the sliding block to slide in the first sliding groove are arranged at the top of the sliding block, two second sliding grooves are arranged in the two second sliding grooves, pulling-out pieces are respectively arranged in one ends of the two pulling-out pieces, which are close to the first feeding port, of the two pulling-out pieces, guide blocks are respectively arranged at the tops of the two pulling-out pieces, guide plates are respectively arranged on the tops of the sliding rail, arc-shaped guide holes matched with the two guide blocks are respectively arranged on the guide plates, the second feeding port is arranged above the first feeding port, strip-shaped guide holes are respectively arranged at the inner ends of the second feeding port, the two second sliding grooves are respectively, the two ends, which are close to the first feeding port, the discharging holes are respectively, and discharging pipes are respectively arranged at the two ends of the bottoms of the sliding rail.

Further, the driving device is a cylinder.

Further, one end of the feeding track, which is close to the feeding disc, is arranged at the top of the feeding disc, and an air tap is arranged at one side of the feeding track, which is close to one end of the feeding disc and is far away from the inside of the feeding disc.

Further, a baffle plate is arranged above one end of the feeding track, which is far away from the feeding disc.

Further, the baffle is installed in regulating plate one side, rotates on the regulating plate and installs the nut, and nut internal thread connection has adjusting bolt, and adjusting bolt lower extreme is fixed on the fixed plate.

Further, the two ends of the first feeding hole are provided with stop blocks, the positions of the guide plates, which are opposite to the two stop blocks, are provided with strip-shaped sliding holes, fixing bolts are arranged in the strip-shaped sliding holes, and the stop blocks are fixed in the first feeding hole through the fixing bolts.

Further, the discharge pipe is sleeved with an annular inductor.

The beneficial effects of the utility model include: the utility model provides a vibrating disc type double-pulling-piece screw feeding device, wherein a driving device can drive a sliding block to slide in a first sliding groove, when a clamping groove on one pulling piece is aligned with a first feeding hole, a screw enters the clamping groove of one pulling piece through the first feeding hole, meanwhile, the head of the screw enters a strip-shaped guide hole through a second feeding hole, after the screw enters the clamping groove, the driving device drives a moving block to continuously slide, meanwhile, the two pulling pieces can slide in two second sliding grooves through the matching of the guide block and an arc-shaped guide hole, meanwhile, the head of the screw can slide in the strip-shaped guide hole, in the process that one pulling piece slides in the second sliding groove, the screw can be separated from the clamping groove and falls down through a discharging hole and the second discharging hole, meanwhile, the clamping groove on the other pulling piece is aligned with the first feeding hole, the driving device reversely drives the sliding block to slide in the sliding groove, and the screw in the clamping groove of the other pulling piece enters a discharging pipe to fall down through the discharging hole, and the screw is fed in sequence, so that the feeding efficiency is high, and a large amount of time is saved compared with the traditional single-pulling-piece screw.

Drawings

FIG. 1 is a schematic diagram of a vibrating tray type double-pulling-out screw feeding device according to an embodiment of the present utility model;

FIG. 2 is a view showing another state of a vibrating plate type double-pulling-piece screw feeding device according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a disassembled guide plate structure of a vibrating tray type double-pulling-out screw feeding device according to an embodiment of the present utility model;

FIG. 4 is an enlarged view at A of FIG. 2;

FIG. 5 is an enlarged view at B of FIG. 3;

in the figure: 1. vibrating the feeding tray; 11. a feeding tray; 12. a feeding rail; 13. an air tap; 14. a baffle; 15. an adjusting plate; 16. a nut; 17. an adjusting bolt; 18. a fixing plate; 2. a stirring assembly; 21. a slide rail; 211. a first feed port; 212. a first chute; 213. a second discharge hole; 22. a slide block; 221. a second chute; 222. a discharge hole; 23. a driving device; 24. a pulling piece; 241. a clamping groove; 242. a guide block; 25. a guide plate; 251. an arc-shaped guide hole; 252. a second feed hole; 253. a bar-shaped guide hole; 254. a bar-shaped slide hole; 26. a stop block; 27. a fixing bolt; 28. a discharge pipe; 29. a ring inductor.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 1-5, the utility model provides a vibration disc type double-pulling-piece screw feeding device, which comprises a vibration feeding disc 1 and a pulling piece assembly 2, wherein the vibration feeding disc 1 comprises a feeding disc 11 and a feeding track 12 arranged on the feeding disc 1, the pulling piece assembly 2 comprises a sliding rail 21, one side of the sliding rail 21 is connected with a discharging end of the feeding track 12 and is provided with a first feeding hole 211, a first sliding groove 212 is arranged in the sliding rail 21, a sliding block 22 is arranged in the first sliding groove 211, one end of the sliding block 22 and a driving device 23 for driving the sliding block 22 to slide in the first sliding groove 212 are arranged in the first sliding groove 211, two second sliding grooves 221 are arranged at the top of the sliding block 22, pulling pieces 24 are respectively arranged in the two second sliding grooves 221, clamping grooves 241 are respectively arranged at one ends of the two pulling pieces 24 close to the first feeding hole 211, guide blocks 242 are respectively arranged at the tops of the two pulling pieces 24, a guide plate 25 is arranged at the top of the sliding rail 21, arc-shaped guide holes 251 matched with the two guide blocks 242 are respectively arranged on the guide plates 25, a second feeding hole 252 is arranged above the first feeding hole 211, a guide plate 252 is arranged at the inner end of the second feeding hole 252, a guide pipe 253 is respectively, two ends of the guide holes 252 are respectively arranged at the bottoms of the two ends of the two pulling pieces are respectively close to the bottoms of the first sliding grooves 21, and two ends of the guide holes are respectively arranged at the bottoms of the two ends of the guide holes and respectively.

When the clamping groove 241 on one of the paddles 24 is aligned with the first feeding hole 211, a screw enters the clamping groove 241 of one of the paddles 24 through the first feeding hole 211, meanwhile, the head of the screw enters the strip-shaped guide hole 253 through the second feeding hole 252, after the screw enters the clamping groove 241, the driving device 25 drives the moving block 21 to continue sliding, and simultaneously, the two paddles 24 can slide in the two second sliding grooves 221 through the matching of the guide block 242 and the arc-shaped guide hole 251, meanwhile, the head of the screw can slide in the strip-shaped guide hole 253, and in the process that one of the paddles 24 slides in the second sliding groove 221, the screw can be separated from the clamping groove 241 and falls down through the discharging hole 222 and the second discharging hole 213, meanwhile, the clamping groove 241 on the other paddle 24 is aligned with the first feeding hole 211, and the driving device 23 reversely drives the sliding block 22 to slide in the sliding groove 241 of the other paddle 24, so that the screw in the clamping groove 241 of the other paddle 24 enters the discharging pipe 26 through the discharging hole 222 and falls down in sequence, and the screw is fed in the feeding pipe 26, and the conventional single-paddle feeding device has high efficiency, and compared with the conventional screw feeding efficiency.

In this embodiment, the driving device 25 is a cylinder.

The driving device 25 only needs to be capable of driving the sliding block 22 to slide in the first sliding groove 211, and thus, the driving device is not limited to a cylinder, for example, in other embodiments, the driving device 25 adopts a driving member such as a hydraulic cylinder or an electric telescopic rod capable of driving the sliding block 22 to slide in the first sliding groove 211.

In this embodiment, one end of the feeding rail 12 close to the feeding tray 11 is mounted on the top of the feeding tray 11, and one side of the feeding rail 12 close to the feeding tray 11 and far from the inside of the feeding tray 11 is mounted with an air tap 13. In the feeding process of the feeding track 12, the screws which are not arranged on the feeding track 12 can swing, and the screws which are not arranged on the feeding track 12 can be blown into the feeding tray 11 through the air tap 13 for recycling, so that the screws which are not arranged on the feeding track are prevented from influencing the conveying of the screws.

In this embodiment, a baffle 14 is mounted above the end of the feed rail 12 remote from the feed tray 11. Screws that are not aligned on the feeding rail 12 can be blocked by the blocking plate 14, so that the screws that are not aligned on the feeding rail 12 are prevented from being output from the feeding rail 12.

Preferably, the baffle 14 is mounted on one side of the adjusting plate 15, a nut 16 is rotatably mounted on the adjusting plate 15, an adjusting bolt 17 is connected with the nut 16 in a threaded manner, and the lower end of the adjusting bolt 17 is fixed on the fixing plate 18. The height of the baffle plate 14 can be adjusted by adjusting the height of the plate 15 through the cooperation of the bolt 17 and the nut 16, and the baffle plate is suitable for blocking screws with different sizes.

In this embodiment, two ends of the first feeding hole 211 are provided with stop blocks 27, the positions of the guide plate 25 opposite to the two stop blocks 27 are provided with bar-shaped sliding holes 254, fixing bolts 28 are arranged in the bar-shaped sliding holes 254, and the stop blocks 27 are fixed in the first feeding hole 211 through the fixing bolts 28. The first feed opening 211 can be adjusted in size by adjusting the two stoppers 27, so that it is applicable to screws of different sizes passing through the first feed opening 211.

In this embodiment, the discharge pipe 26 is sleeved with a ring-shaped inductor 29. The annular sensor 29 senses that the screw in the discharging pipe 26 flows through to send a signal, and sends the signal to the driving device 25 to control the sliding block 22 to slide in the first sliding groove 211.

The specific principle is as follows: when the screw feeding device is used, screws are poured into the feeding tray 11 in advance, after the power switch is started, the screws in the feeding tray 11 flow upwards to the positions of the two rails 12 along with the spiral grooves in the feeding tray and are arranged in the direction, the baffle 14 can block the screws which are not arranged, the screws which are not arranged can be blown into the feeding tray 11 to be recovered, the driving device 23 can drive the sliding block 22 to slide in the first sliding groove 211, when the clamping groove 241 on one of the sliding blocks 24 is aligned with the first feeding port 211, the screws enter the clamping groove 241 of one of the sliding blocks 24 through the first feeding port 211, the heads of the screws enter the strip-shaped guide holes 253 through the second feeding port 252, after the screws enter the clamping groove 241, the air cylinder 25 drives the moving block 21 to slide continuously, and simultaneously is matched with the arc-shaped guide holes 251 through the guide blocks 241, the two sliding blocks 24 slide in the two second sliding grooves 221, the heads of the screws can slide in the strip-shaped guide holes 253, the sliding block 24 can slide in the second sliding grooves 221, the screws can be separated from the clamping groove 241 and fall into the clamping groove 241, the other sliding groove 24 through the second sliding groove 221, and the other sliding groove 24 falls into the other sliding groove 24 through the clamping groove 211, and the other sliding groove 24 through the second feeding port 29, and the other sliding block 24 falls into the clamping groove 24, and the other sliding groove 24 falls into the other sliding groove 211, and the other sliding groove is sequentially, and then falls into the clamping groove 211, and enters the other sliding groove 24, and enters the guide groove and enters the guide groove and is 22.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made in accordance with the technical idea of the present utility model shall be included in the scope of the claims of the present utility model.

Claims (7)

1. The utility model provides a shake two piece screw feedway that pulls out of tray, its characterized in that, including vibrations feeding tray and stirring subassembly, vibrations feeding tray includes the feeding tray and installs the pay-off track on the feeding tray, stirring subassembly includes the slide rail, slide rail one side is connected with the orbital discharge end of pay-off and is equipped with first feed inlet, be equipped with first spout in the slide rail, be equipped with the slider in the first spout, slider one end is with being used for driving slider gliding drive arrangement in first spout, the slider top is equipped with two second spouts, two all be equipped with the plectrum in the second spout, two the plectrum is close to the one end of first feed inlet all is equipped with the draw-in groove, two the plectrum top all is equipped with the guide block, the deflector is installed at the slide rail top, be equipped with on the deflector with two guide block matched with arc guiding hole, the deflector is located first feed inlet top and is equipped with the second feed inlet, be equipped with the slider in the first spout, two second feed inlet inner is equipped with the bar guiding hole, two the second spout is close to the bottom of first feed inlet all is equipped with the both ends of slide rail.

2. The vibration plate type double-pulling-out screw feeding device according to claim 1, wherein the driving device is an air cylinder.

3. The vibration plate type double-pulling-out screw feeding device according to claim 1, wherein one end of the feeding rail, which is close to the feeding plate, is arranged at the top of the feeding plate, and an air tap is arranged on one side, which is close to one end of the feeding plate and is far away from the inside of the feeding plate, of the feeding rail.

4. The vibration plate type double-pulling-out screw feeding device according to claim 1, wherein a baffle plate is arranged above one end of the feeding track away from the feeding plate.

5. The vibration disc type double-pulling-out screw feeding device according to claim 4, wherein the baffle is arranged on one side of the adjusting plate, a nut is rotatably arranged on the adjusting plate, an adjusting bolt is connected with the nut in an internal thread manner, and the lower end of the adjusting bolt is fixed on the fixing plate.

6. The vibration disc type double-pulling-out screw feeding device according to claim 1, wherein the two ends of the first feeding hole are provided with stop blocks, the positions of the guide plates, which are opposite to the two stop blocks, are provided with strip-shaped sliding holes, fixing bolts are arranged in the strip-shaped sliding holes, and the stop blocks are fixed in the first feeding hole through the fixing bolts.

7. The vibration plate type double-pulling-piece screw feeding device according to claim 1, wherein the annular inductor is sleeved on the discharging pipe.

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