CN219652123U - Pneumatic feeding device for full-automatic stud production - Google Patents

Abstract

This full-automatic double-screw bolt production pneumatic feeding device, including the pay-off passageway, power supply is installed to pay-off passageway one end, be connected with extending structure on the power supply, extending structure is deep to the pay-off passageway inside, extending structure top is connected with the pay-off cylinder, the pay-off push rod is installed on the pay-off cylinder top, the last induction structure that installs of extending structure, the induction structure top is close to pay-off passageway bottom, treat the double-screw bolt through the pay-off passageway and play better guide effect, the telescopic structure is flexible in the inside of pay-off cylinder through induction structure control after the pay-off passageway feeding, the pay-off push rod of drive pay-off cylinder other end, the pay-off push rod will get into the inside double-screw bolt promotion pay-off of pay-off passageway, make mutual contact between the double-screw bolt arrange compactly, continuous production when being convenient for conveying processing, promote production efficiency and practice thrift manufacturing time greatly.

Description

Pneumatic feeding device for full-automatic stud production

Technical Field

The utility model relates to the technical field of fastener machining, in particular to a pneumatic feeding device for full-automatic stud production.

Background

Stud refers to a cylindrical fastener with threads at both ends. The method is widely applied to electric power, chemical industry, oil refining, valves, railways, bridges, steel structures, steam friction accessories, machinery, boiler steel structures, hanging towers, large-span steel structures, large-scale buildings and the like.

In the production of the existing stud, a conveyor belt is generally used for conveying and feeding in the feeding process, but gaps are often reserved between stud materials due to uneven feeding in the process of feeding to the conveyor belt, so that the materials on the conveyor belt are different in conveying frequency, continuous conveying cannot be performed, intermittent production is easy in the middle, and the production efficiency of the stud is reduced.

Therefore, aiming at the defects in the prior art, it is necessary to provide a pneumatic feeding device for full-automatic stud production to solve the defects in the prior art.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide a full-automatic pneumatic stud production feeding device, which plays a better guiding role on a stud to be processed through a feeding channel, controls a telescopic structure to stretch in a feeding cylinder through an induction structure after feeding the stud to drive a feeding push rod at the other end of the feeding cylinder, and the feeding push rod pushes the stud entering the feeding channel to feed, so that the studs are closely contacted and arranged, continuous production during conveying and processing is facilitated, the production efficiency is greatly improved, and the production time is saved.

The above object of the present utility model is achieved by the following means.

The utility model provides a pneumatic feeding device of full-automatic double-screw bolt production, including the pay-off passageway, power supply is installed to pay-off passageway one end, is connected with extending structure on the power supply, extending structure deep into the pay-off passageway is inside, and extending structure top is connected with the pay-off cylinder, and the pay-off push rod is installed on the pay-off cylinder top, installs the response structure on the extending structure, and response structure top is close to the pay-off passageway bottom;

the telescopic structure comprises a variable frequency motor, a rotating rack is arranged on the variable frequency motor, a rotating gear is connected to the rotating rack, a transverse rotating rod is sleeved in the rotating gear, a fixed pipe is sleeved on the transverse rotating rod, a thread structure is arranged at the center of the transverse rotating rod, and a telescopic rod is integrally formed at the top of the transverse rotating rod.

Specifically, the induction structure comprises a feeding inductor, an induction cover is arranged at the top end of the feeding inductor, a transmission line is connected to the feeding inductor, and the transmission line is connected to the variable frequency motor.

Specifically, a feeding port is formed in the top of the feeding channel, an induction window is formed in the bottom end of the feeding channel corresponding to the feeding port, and the induction window corresponds to the feeding sensor.

Specifically, the feeding push rod comprises a connecting rod, a feeding head is arranged at the top end of the connecting rod and is of a U-shaped structure, and an anti-collision pad is arranged inside the feeding head.

Specifically, the feeding cylinder internally provided with a cylinder piston A and a cylinder piston B, the cylinder piston A is fixedly connected to the bottom of the connecting rod, and the cylinder piston B is fixedly connected to the top end of the telescopic rod.

According to the utility model, the stud to be processed plays a better guiding role through the feeding channel, the telescopic structure is controlled to stretch in the feeding cylinder through the sensing structure after the feeding channel feeds, the feeding push rod at the other end of the feeding cylinder is driven, the studs entering the feeding channel push the feeding, the studs are tightly arranged in a contact manner, the continuous production during conveying processing is facilitated, the production efficiency is greatly improved, and the production time is saved.

Drawings

The utility model is further illustrated by the accompanying drawings, which are not to be construed as limiting the utility model in any way.

FIG. 1 is a front view of a fully automated stud production pneumatic feed device of the present utility model.

FIG. 2 is an enlarged view of a portion of the telescoping structure of the pneumatic feed device of the present utility model for fully automatic stud production.

From fig. 1 to 2, it includes:

1. a feed channel;

2. a power supply;

3. a telescopic structure;

4. a feeding cylinder;

5. a feeding push rod;

6. an induction structure;

7. a variable frequency motor;

8. rotating the rack;

9. rotating the gear;

10. a transverse rotating rod;

11. a fixed tube;

12. a telescopic rod;

13. a feeding sensor;

14. an induction cover;

15. transmitting the electric route;

16. a feed inlet;

17. a sensing window;

18. a connecting rod;

19. a feeding head;

20. a crash pad;

21. a cylinder piston A;

22. and a cylinder piston B.

Detailed Description

The utility model will be further described with reference to the following examples.

Example 1.

As shown in figures 1-2, a pneumatic feeding device for full-automatic stud production comprises a feeding channel 1, wherein a power supply 2 is arranged at one end of the feeding channel 1, a telescopic structure 3 is connected to the power supply 2, the telescopic structure 3 stretches deep into the feeding channel 1, the top end of the telescopic structure 3 is connected with a feeding cylinder 4, a feeding push rod 5 is arranged at the top end of the feeding cylinder 4, an induction structure 6 is arranged on the telescopic structure 3, and the top end of the induction structure 6 is close to the bottom of the feeding channel 1.

When the screw feeding device is used, the screw to be processed is fed through the feeding channel 1, the induction structure 6 arranged at the bottom of the feeding channel 1 is used for inducing when materials enter the feeding structure, the power supply 2 is driven to provide kinetic energy for the movement of the telescopic structure 3, the combination of the telescopic structure 3 and the feeding cylinder 4 can push the feeding push rod 5 forwards, the materials in front are enabled to be more compact, the continuity of the materials is improved, and the feeding process is fully automatic.

The telescopic structure 3 comprises a variable frequency motor 7, a rotating rack 8 is arranged on the variable frequency motor 7, a rotating gear 9 is connected to the rotating rack 8, a transverse rotating rod 10 is sleeved in the rotating gear 9, a fixed pipe 11 is sleeved on the transverse rotating rod 10, a thread structure is arranged in the center of the transverse rotating rod 10, and a telescopic rod 12 is integrally formed at the top of the transverse rotating rod 10.

The variable frequency motor 7 in the telescopic structure 3 receives the control of induction structure 6, when induction structure 6 senses the material and goes on, variable frequency motor 7 works, variable frequency motor 7's rotation makes the pivoted rack 8 of installation rotate, because pivoted rack 8 and pivoted gear 9's engagement state, make pivoted gear 9 rotate, pivoted gear 9 inside transverse rotating pole 10 that cup joints can rotate along with pivoted gear 9's rotation, the helicitic texture and the fixed pipe 11 of transverse rotating pole 10 central authorities offer mutually support, the rotation of screw thread makes transverse rotating pole 10 can lateral shifting, the telescopic link 12 at transverse rotating pole 10 top also can carry out telescopic rotation.

The induction structure 6 comprises a feeding inductor 13, an induction cover 14 is arranged at the top end of the feeding inductor 13, a transmission circuit line 15 is connected to the feeding inductor 13, the transmission circuit line 15 is connected to the variable frequency motor 7, the material inductor is gathered through the induction cover 14 to induce whether the material enters the feeding channel 1 or not, when the material enters the feeding channel 1, the feeding inductor 13 transmits the state to the electric frequency motor through the transmission circuit line 15, so that the variable frequency motor 7 starts to work, and the material in the material channel is fed.

The feeding port 16 is formed in the top of the feeding channel 1, the sensing window 17 is formed in the bottom end of the feeding channel 1 corresponding to the feeding port 16, the sensing window 17 corresponds to the feeding sensor 13, the feeding port 16 formed in the top of the feeding channel 1 can keep continuous feeding, and the sensing window 17 formed in the bottom after feeding is convenient for the feeding sensor to detect and sense materials, so that feeding action is fast performed.

The feeding push rod 5 includes connecting rod 18, and the stub bar 19 is installed on connecting rod 18 top, and stub bar 19 is U-shaped structure, and stub bar 19 internally mounted has crashproof pad 20, carries out the pushing away under the motion of holding of feeding push rod 5 through feeding cylinder 4 and extending structure 3, and the stub bar 19 reuse U-shaped structure of connecting rod 18 top installation, the stud surface of waiting to pay-off is laminated more, can more stably carry out the pushing away material pay-off, and because the speed is too big when promoting, in order to avoid causing damage to the stud material to send stub bar 19 internally mounted to have crashproof pad 20 of soft material thoroughly.

The feeding cylinder 4 is internally provided with a cylinder piston A21 and a cylinder piston B22, the cylinder piston A21 is fixedly connected to the bottom of the connecting rod 18, the cylinder piston B22 is fixedly connected to the top end of the telescopic rod 12, the telescopic rod 12 is linked with the connecting rod 18 through the cylinder piston A21 and the cylinder piston B22 in the feeding cylinder 4, and the stud materials are continuously fed in a pneumatic mode due to the cylinder movement of the telescopic cylinder.

The stud to be processed plays a better guiding role through the feeding channel 1, the telescopic structure 3 is controlled to stretch out and draw back in the feeding cylinder 4 through the sensing structure 6 after the feeding channel 1 feeds, the feeding push rod 5 at the other end of the feeding cylinder 4 is driven, the feeding push rod 5 pushes the stud entering the feeding channel 1 to feed, the studs are tightly arranged in a mutual contact manner, continuous production during conveying and processing is facilitated, the production efficiency is greatly improved, and the production time is saved.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the scope of the present utility model, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (5)

1. A full-automatic double-screw bolt production pneumatic feeding device which characterized in that: the feeding device comprises a feeding channel, wherein a power supply is arranged at one end of the feeding channel, a telescopic structure is connected to the power supply and goes deep into the feeding channel, the top end of the telescopic structure is connected with a feeding cylinder, a feeding push rod is arranged at the top end of the feeding cylinder, an induction structure is arranged on the telescopic structure, and the top end of the induction structure is close to the bottom of the feeding channel;

the telescopic structure comprises a variable frequency motor, a rotating rack is arranged on the variable frequency motor, a rotating gear is connected to the rotating rack, a transverse rotating rod is sleeved in the rotating gear, a fixed pipe is sleeved on the transverse rotating rod, a thread structure is arranged in the center of the transverse rotating rod, and the telescopic rod is integrally formed at the top of the transverse rotating rod.

2. The full-automatic stud production pneumatic feeding device according to claim 1, wherein: the induction structure comprises a feeding inductor, an induction cover is arranged at the top end of the feeding inductor, a transmission circuit line is connected to the feeding inductor, and the transmission circuit line is connected to the variable frequency motor.

3. The full-automatic stud production pneumatic feeding device according to claim 2, wherein: the feeding device is characterized in that a feeding hole is formed in the top of the feeding channel, an induction window is formed in the bottom end of the feeding channel, corresponding to the feeding hole, and the induction window corresponds to the feeding inductor.

4. The full-automatic stud production pneumatic feeding device according to claim 1, wherein: the feeding push rod comprises a connecting rod, a feeding head is arranged at the top end of the connecting rod, the feeding head is of a U-shaped structure, and an anti-collision pad is arranged inside the feeding head.

5. The full-automatic stud production pneumatic feeding device according to claim 4, wherein: the feeding cylinder is internally provided with a cylinder piston A and a cylinder piston B, the cylinder piston A is fixedly connected to the bottom of the connecting rod, and the cylinder piston B is fixedly connected to the top end of the telescopic rod.