CN211991207U

CN211991207U - Flute mouth-blowing pipe aligning device

Info

Publication number: CN211991207U
Application number: CN202020559041.5U
Authority: CN
Inventors: 徐树军; 刘珈旭; 潘跃强
Original assignee: Tianjin Jinbao Musical Instruments Co Ltd
Current assignee: Tianjin Jinbao Musical Instruments Co Ltd
Priority date: 2020-04-15
Filing date: 2020-04-15
Publication date: 2020-11-24
Anticipated expiration: 2030-04-15

Abstract

The utility model discloses a flute mouth-blowing pipe aligning device, which comprises an operation platform, a feeding mechanism, a pushing mechanism, a clamping and conveying mechanism, a cutting mechanism and a blanking chute, wherein the feeding mechanism, the pushing mechanism, the clamping and conveying mechanism, the cutting mechanism and the blanking chute are integrated on the operation platform; the feeding mechanism is used for conveying the workpiece to the pushing mechanism, the pushing mechanism conveys the workpiece to the clamping and conveying mechanism, the clamping and conveying mechanism clamps the workpiece and then conveys the workpiece to the cutting mechanism, wherein the two ends of the workpiece are exposed outside the clamping and conveying mechanism after the workpiece is clamped, the cutting mechanism comprises two symmetrically-arranged cutting machines, in the process of conveying the workpiece by the clamping and conveying mechanism, the two cutting machines cut the two ends of the workpiece to realize flush processing, the clamping and conveying mechanism then carries the processed workpiece to reset and loosen the workpiece, the workpiece is pushed to the discharging chute by the pushing mechanism, and the workpiece slides into the discharging tray through the discharging chute. The device can simultaneously cut and process the two ends of the workpiece, has high efficiency and high yield, and reduces the production cost.

Description

Flute mouth-blowing pipe aligning device

Technical Field

The utility model relates to a musical instrument processing equipment, especially a flute mouthpiece pipe aligning device.

Background

The flute mouth-blowing pipe needs to be cut at two ends after diameter reduction treatment so as to finish the flush processing. The existing method is as follows: the flute mouth-blowing pipe is fixedly connected with one end of the flute mouth-blowing pipe through the clamp, the flute mouth-blowing pipe is suspended, the cutting machine is used for cutting the suspended end of the flute mouth-blowing pipe, and then the positions of the flute mouth-blowing pipe and the flute mouth-blowing pipe are exchanged, so that the cutting processing of the other end of the flute mouth-blowing pipe is completed. The mode has the advantages of high labor intensity, time and labor waste, and the aligning effect mainly depends on the experience of technicians, so that more defective products are easily produced, the rejection rate is increased, and the production cost is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned technical problem and provide a flute blows neat mouthful device of oral siphon of mouth scientific and reasonable and efficient.

In order to solve the technical problem, the utility model discloses a following technical scheme:

a flute mouthpiece pipe aligning device comprises an operating platform, and a feeding mechanism, a pushing mechanism, a clamping and conveying mechanism, a cutting mechanism and a blanking chute which are integrated on the operating platform; the feeding mechanism is used for conveying the workpiece to the pushing mechanism, the pushing mechanism conveys the workpiece to the clamping and conveying mechanism, the clamping and conveying mechanism clamps the workpiece and then conveys the workpiece to the cutting mechanism, wherein the two ends of the workpiece are exposed outside the clamping and conveying mechanism after the workpiece is clamped, the cutting mechanism comprises two symmetrically-arranged cutting machines, in the process of conveying the workpiece by the clamping and conveying mechanism, the two cutting machines cut the two ends of the workpiece to realize flush processing, the clamping and conveying mechanism then carries the processed workpiece to reset and loosen the workpiece, the workpiece is pushed to the discharging chute by the pushing mechanism, and the workpiece slides into the discharging tray through the discharging chute.

Furthermore, the feeding mechanism comprises two side vertical plates, a feeding cylinder, a guide rail I, a sliding plate and two feeding claws which are symmetrically arranged; wherein, the opposite surfaces of the two side vertical plates are symmetrically provided with feeding grooves for conveying workpieces; the feeding cylinder is horizontally and longitudinally arranged at the front end of the operating platform, and a cylinder rod of the feeding cylinder is fixedly connected at the front end of the sliding plate; the guide rail I is longitudinally and fixedly connected on the operating platform; the sliding plate can be arranged on the guide rail I in a front-back sliding mode and is positioned between the two side vertical plates; the two feeding claws are symmetrically and fixedly connected to the tail end of the sliding plate, grooves for bearing workpieces are formed in the upper ends of the two feeding claws, and the positions of the two grooves correspond to the positions of the lower ports of the two feeding grooves when the two feeding claws are at initial positions, so that the workpieces can directly slide into the two grooves;

the two ends of the workpiece are placed into the two feeding grooves in a one-to-one correspondence mode, the workpiece slides from the upper port to the lower port of the feeding grooves under the action of self gravity, then enters the grooves of the two feeding claws, the workpiece is pushed to the working position of the pushing mechanism by the feeding air cylinder, in the process, the two feeding claws carry one workpiece to leave, and other workpieces are limited between the two feeding grooves by the sliding plate.

Further, the feeding groove is in a V shape in a lying mode.

Furthermore, push mechanism includes the propelling movement cylinder, and the horizontal setting of propelling movement cylinder is in one side middle part of operation panel, and the cylinder pole free end of propelling movement cylinder adopts the reducing to handle and can the cartridge in a port of work piece and carry the work piece to move towards the opposite side of operation panel to carry the work piece to corresponding work position.

Furthermore, the clamping and conveying mechanism comprises a conveying cylinder, a guide rail II, a base body, an upper fixed block, a lower movable block and a clamping cylinder; wherein, the conveying cylinder is horizontally and longitudinally arranged at the front part of the upper end of the operating platform; the guide rail II is longitudinally and fixedly connected on the operating platform; the base body can be arranged on the guide rail II in a front-back sliding manner, and a rectangular cavity is formed in the middle of the base body in a transverse penetrating manner; the upper fixed block is fixedly connected to the top surface of the rectangular cavity, and an upper semicircular groove is formed in the lower end face of the upper fixed block in a transverse penetrating mode; the clamping cylinder is vertically and fixedly connected to the bottom surface of the rectangular cavity; the lower end of the lower movable block is fixedly connected with a cylinder rod of the clamping cylinder, a lower semicircular groove is formed on the upper end surface of the lower movable block, and the upper semicircular groove and the lower semicircular groove are arranged in an up-down symmetrical mode;

the pushing cylinder conveys the workpiece into the upper semicircular groove, two ends of the workpiece are exposed outside the base body, the clamping cylinder drives the lower movable block to press the upper fixed block so that the lower semicircular groove and the upper semicircular groove are spliced and clamp the workpiece, and then the pushing cylinder resets; the conveying cylinder drives the base body to carry the workpiece to move between the two cutting machines, the two cutting machines synchronously cut two ends of the workpiece in the process to realize flush processing, and then the base body is reset; the clamping cylinder moves downwards, the workpiece is arranged in the lower semicircular groove and moves downwards along with the lower movable block, the cylinder rod of the pushing cylinder extends out again and abuts against the upper half part of the port of the workpiece and pushes the workpiece out of the lower semicircular groove until the workpiece enters the blanking chute, and then the pushing cylinder resets.

Further, still include the cylinder buffer, the cylinder buffer level is vertically installed at the rear end of operation panel and is set up with transport cylinder relatively, and the output top of the in-process cylinder buffer that cuts at the work piece is on the base member in order to guarantee to accomplish neat mouthful processing steadily.

Furthermore, a waste material chute is respectively arranged below the saw discs of the two cutting machines, and the cut waste materials fall into the waste material chute and slide into the waste material disc through the waste material chute.

The utility model has the advantages that: the utility model designs a brand-new aligning device which can simultaneously cut and process two ends of a workpiece, and has high efficiency and high yield; and the utility model discloses degree of automation is high, simple structure, and is rationally distributed, has reduced manufacturing cost.

Drawings

Fig. 1 is a schematic top view of the flute mouthpiece pipe aligning device of the present invention;

fig. 2 is a schematic diagram of a right-side view structure of the feeding mechanism (the right side vertical plate and the feeding cylinder are removed) in the present invention;

fig. 3 is a schematic view of the structure of the pushing mechanism, the base and the discharging chute.

The automatic feeding device comprises an operation table 1, a side vertical plate 21, a feeding groove 211, a feeding cylinder 22, a feeding cylinder 23, a guide rail I, a sliding plate 24, a feeding claw 25, a groove 251, a pushing cylinder 31, a conveying cylinder 41, a guide rail II 42, a base 43, an upper fixed block 44, an upper semicircular groove 441, a lower movable block 45, a lower semicircular groove 451, a clamping cylinder 46, a cutting machine 51, a waste chute 52, a waste tray 53, a waste chute 61, a waste tray 62, a waste tray 71, a cylinder buffer and a workpiece 8.

Detailed Description

The invention will be described in further detail with reference to the accompanying drawings:

as shown in fig. 1 to 3, the utility model discloses a flute mouthpiece pipe aligning device includes operation panel 1 and integrated feed mechanism, push mechanism, the tight conveying mechanism of clamp, cylinder buffer 71, cutting mechanism, waste material spout 52 and unloading spout 61 on operation panel 1. The feeding mechanism is used for conveying the workpiece 8 to the pushing mechanism, the pushing mechanism conveys the workpiece 8 to the clamping and conveying mechanism, the clamping and conveying mechanism conveys the workpiece 8 to the cutting mechanism after clamping the workpiece 8, wherein the two ends of the workpiece 8 are exposed outside the clamping and conveying mechanism after being clamped, the cutting mechanism comprises two symmetrically-arranged cutting machines 51, in the process of conveying the workpiece 8 by the clamping and conveying mechanism, the two cutting machines 51 cut the two ends of the workpiece 8 to realize flush processing, then the clamping and conveying mechanism carries the processed workpiece 8 to reset and loosen the workpiece 8, the workpiece 8 is pushed to the discharging chute 61 by the pushing mechanism, and the workpiece 8 slides into the discharging disc 62 through the discharging chute 61.

As shown in fig. 1 and 2, the feeding mechanism includes two side vertical plates 21, a feeding cylinder 22, a guide rail i 23, a sliding plate 24 and two feeding claws 25, which are symmetrically arranged. The feeding grooves 211 for conveying the workpieces 8 are symmetrically formed on the opposite surfaces of the two side vertical plates 21, the feeding grooves 211 vertically penetrate through the inner sides of the side vertical plates 21, the upper end openings of the feeding grooves 211 are used for allowing the workpieces 8 to be placed in, the lower end openings of the feeding grooves 211 correspond to the feeding claws 25 in the initial state, the feeding grooves 211 can be vertical grooves or V-shaped grooves which are arranged in a flat manner, and preferably, the feeding grooves 211 are V-shaped grooves which are arranged in a flat manner, so that more workpieces 8 can be accommodated; the feeding cylinder 22 is horizontally and longitudinally fixedly connected to the front end of the operating platform 1, and a cylinder rod of the feeding cylinder 22 is fixedly connected to the front end of the sliding plate 24; the guide rail I23 is longitudinally and fixedly connected to the operating table 1; the bottom of the sliding plate 24 is arranged on the guide rail I23 through a sliding block and can slide back and forth under the driving of the feeding cylinder 22, and the sliding plate 24 is positioned between the two side vertical plates 21; the two feeding claws 25 are symmetrically and fixedly connected at the tail end of the sliding plate 24, grooves 251 for bearing the workpieces 8 are formed at the upper ends of the two feeding claws 25, and the positions of the two grooves 251 correspond to the positions of the lower ports of the two feeding grooves 211 in the initial position, so that the workpieces 8 conveyed by the feeding grooves 211 can directly slide into the two grooves 251.

The two ends of the workpiece 8 are correspondingly placed into the two feeding grooves 211 from the upper end ports of the feeding grooves 211 one by one, the workpiece 8 slides from the upper end ports to the lower end ports of the feeding grooves 211 under the action of self gravity, then enters the grooves 251 of the two feeding claws 25, the sliding plate 24, the two feeding claws 25 and the workpiece 8 are driven by the feeding cylinder 22 to move backwards together, the workpiece 8 is pushed to the working position of the pushing mechanism, in the process, the two feeding claws 25 carry one workpiece 8 to leave, the sliding plate 24 moves to the initial position of the two feeding claws 25, and other workpieces 8 can be limited between the two feeding grooves 211 of the two side vertical plates 21 by the sliding plate 24 and cannot slide off; after the pushing mechanism conveys the workpiece 8 to reset, the sliding plate 24 and the two feeding claws 25 reset again under the driving of the feeding cylinder 22 so as to convey the next workpiece.

As shown in fig. 1 and 3, the pushing mechanism includes a pushing cylinder 31, the pushing cylinder 31 is horizontally and transversely fixed in the middle of the right side of the operating platform 1, the free end of the cylinder rod of the pushing cylinder 31 is subjected to reducing treatment, that is, the front part of the free end is small in diameter and then gradually large in diameter, the free end of the cylinder rod of the pushing cylinder 31 can be inserted into one port of the workpiece 8 and carries the workpiece 8 to move towards the left side of the operating platform 1, so as to convey the workpiece 8 to the corresponding working position. The pushing cylinder 31 mainly has two functions, one is to send the workpiece 8 to the clamping and conveying mechanism and clamp the workpiece by the clamping and conveying mechanism, and the other is to push the processed workpiece 8 into the discharging chute 61.

As shown in fig. 1 and 3, the clamping and conveying mechanism is arranged on the left side of the feeding mechanism, and the clamping and conveying mechanism comprises a conveying cylinder 41, a guide rail ii 42, a base 43, an upper fixed block 44, a lower movable block 45 and a clamping cylinder 46. Wherein, the conveying cylinder 41 is horizontally and longitudinally fixedly connected at the front part of the upper end of the operating platform 1; the guide rail II 42 is longitudinally and fixedly connected on the operating platform 1; the bottom of the base body 43 is arranged on the guide rail II 42 through a sliding block and can slide back and forth under the driving of the conveying cylinder 41, the base body 43 is of a rectangular block structure, and a rectangular cavity is formed in the middle of the base body 43 in a transverse penetrating mode; the upper fixed block 44 is fixedly connected to the top surface of the rectangular cavity, and an upper semicircular groove 441 transversely penetrates through the lower end surface of the upper fixed block 44; the clamping cylinder 46 is vertically and fixedly connected to the bottom surface of the rectangular cavity; the lower end of the lower movable block 45 is fixedly connected with a cylinder rod of the clamping cylinder 46, a lower semicircular groove 451 is formed on the upper end surface of the lower movable block 45, the upper semicircular groove 441 and the lower semicircular groove 451 are vertically and symmetrically arranged, and the upper semicircular groove 441 and the lower semicircular groove 451 can be matched to clamp the workpiece 8 after being spliced together.

The pushing cylinder 31 conveys the workpiece 8 into the upper semicircular groove 441, two ends of the workpiece 8 are exposed outside the substrate 43, the clamping cylinder 46 drives the lower movable block 45 to press the upper fixed block 44 so as to enable the lower semicircular groove 451 and the upper semicircular groove 441 to be spliced and clamp the workpiece 8, and then the pushing cylinder 31 is reset; the conveying cylinder 41 drives the substrate 43 to carry the workpiece 8 to move between the two cutting machines 51 of the cutting mechanism, in the process, the two cutting machines 51 synchronously cut the two ends of the workpiece 8 to realize flush processing, and then the substrate 43 resets; the clamping cylinder 46 moves downwards, the workpiece 8 is placed in the lower semi-circular groove 451 and moves downwards along with the lower movable block 45, the cylinder rod of the pushing cylinder 31 extends out again and abuts against the upper half part of the port of the workpiece 8, the workpiece 8 is ejected out of the lower semi-circular groove 451 until the workpiece 8 falls into the blanking chute 61, and then the pushing cylinder 31 resets.

As shown in fig. 1, the cylinder buffer 71 is horizontally and longitudinally installed at the rear end of the operating table 1 and is arranged opposite to the conveying cylinder 41, and the output end of the cylinder buffer 71 is pressed against the base 43 in the process of cutting the workpiece 8 to ensure that the workpiece 8 can smoothly complete the flush processing.

As shown in fig. 1, the cutting mechanism includes two cutting machines 51 symmetrically fixed to the rear portion of the upper end of the operating platform 1, a waste chute 52 is further disposed below the saw disc of each of the two cutting machines 51, and the cut waste falls into the waste chute 52 and slides into the waste tray 53 through the waste chute 52, so as to facilitate the centralized collection of the waste. The waste chute 52 is disposed obliquely, and has a high end close to the cutting machine 51 and a low end close to the waste tray 53, so that the waste can smoothly slide into the waste tray 53 by its own weight.

As shown in fig. 1 and 3, the blanking chute 61 is obliquely arranged in the middle of the left side of the upper end of the operating platform 1, and has a higher end close to the clamping and conveying mechanism and a lower end close to the blanking tray 62, so that the processed workpiece 8 can smoothly slide into the blanking tray 62 by means of its own gravity.

The utility model designs a brand-new aligning device which can simultaneously cut and process two ends of a workpiece 8, and has high efficiency and high yield; and the utility model discloses degree of automation is high, simple structure, and is rationally distributed, has reduced manufacturing cost.

In summary, the present invention is not limited to the above embodiments, and those skilled in the art can provide other embodiments within the technical teaching of the present invention, but these embodiments are included in the scope of the present invention.

Claims

1. A flute mouthpiece pipe aligning device is characterized by comprising an operating platform, a feeding mechanism, a pushing mechanism, a clamping and conveying mechanism, a cutting mechanism and a blanking chute, wherein the feeding mechanism, the pushing mechanism, the clamping and conveying mechanism, the cutting mechanism and the blanking chute are integrated on the operating platform; the feeding mechanism is used for conveying the workpiece to the pushing mechanism, the pushing mechanism conveys the workpiece to the clamping and conveying mechanism, the clamping and conveying mechanism clamps the workpiece and then conveys the workpiece to the cutting mechanism, wherein the two ends of the workpiece are exposed outside the clamping and conveying mechanism after the workpiece is clamped, the cutting mechanism comprises two symmetrically-arranged cutting machines, in the process of conveying the workpiece by the clamping and conveying mechanism, the two cutting machines cut the two ends of the workpiece to realize flush processing, the clamping and conveying mechanism then carries the processed workpiece to reset and loosen the workpiece, the workpiece is pushed to the discharging chute by the pushing mechanism, and the workpiece slides into the discharging tray through the discharging chute.

2. The flute mouth-blowing pipe aligning device according to claim 1, wherein the feeding mechanism comprises two side vertical plates, a feeding cylinder, a guide rail I, a sliding plate and two feeding claws which are symmetrically arranged; wherein, the opposite surfaces of the two side vertical plates are symmetrically provided with feeding grooves for conveying workpieces; the feeding cylinder is horizontally and longitudinally arranged at the front end of the operating platform, and a cylinder rod of the feeding cylinder is fixedly connected at the front end of the sliding plate; the guide rail I is longitudinally and fixedly connected on the operating platform; the sliding plate can be arranged on the guide rail I in a front-back sliding mode and is positioned between the two side vertical plates; the two feeding claws are symmetrically and fixedly connected to the tail end of the sliding plate, grooves for bearing workpieces are formed in the upper ends of the two feeding claws, and the positions of the two grooves correspond to the positions of the lower ports of the two feeding grooves when the two feeding claws are at initial positions, so that the workpieces can directly slide into the two grooves;

3. The flute blowout pipe aligning device of claim 2, wherein the feed chute is in a V-shape arranged in a flat position.

4. The flute mouth-blowing pipe aligning device according to claim 2, wherein the pushing mechanism comprises a pushing cylinder, the pushing cylinder is horizontally and transversely arranged in the middle of one side of the operating platform, the free end of a cylinder rod of the pushing cylinder adopts reducing processing and can be inserted into one port of the workpiece and carry the workpiece to move towards the other side of the operating platform so as to convey the workpiece to a corresponding working position.

5. The flute mouth-blowing pipe aligning device according to claim 4, wherein the clamping and conveying mechanism comprises a conveying cylinder, a guide rail II, a base body, an upper fixed block, a lower movable block and a clamping cylinder; wherein, the conveying cylinder is horizontally and longitudinally arranged at the front part of the upper end of the operating platform; the guide rail II is longitudinally and fixedly connected on the operating platform; the base body can be arranged on the guide rail II in a front-back sliding manner, and a rectangular cavity is formed in the middle of the base body in a transverse penetrating manner; the upper fixed block is fixedly connected to the top surface of the rectangular cavity, and an upper semicircular groove is formed in the lower end face of the upper fixed block in a transverse penetrating mode; the clamping cylinder is vertically and fixedly connected to the bottom surface of the rectangular cavity; the lower end of the lower movable block is fixedly connected with a cylinder rod of the clamping cylinder, a lower semicircular groove is formed on the upper end surface of the lower movable block, and the upper semicircular groove and the lower semicircular groove are arranged in an up-down symmetrical mode;

6. The flute mouth-blowing pipe aligning device of claim 5, further comprising a cylinder buffer, wherein the cylinder buffer is horizontally and longitudinally arranged at the rear end of the operating platform and is arranged opposite to the conveying cylinder, and the output end of the cylinder buffer is propped against the base body in the process of cutting the workpiece so as to ensure that the mouth-aligning processing can be smoothly completed.

7. The flute mouth-blowing pipe aligning device according to any one of claims 1-6, wherein a scrap chute is provided below the saw discs of the two cutting machines, and the cut scrap falls into the scrap chute and slides into the scrap tray through the scrap chute.