CN111496915A

CN111496915A - Automatic processing method and device for small PVC short pipe

Info

Publication number: CN111496915A
Application number: CN202010314349.8A
Authority: CN
Inventors: 田桂涛
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-20
Filing date: 2020-04-20
Publication date: 2020-08-07

Abstract

The utility model provides a little PVC nozzle stub automated processing method and device, belong to mechanical automation equipment field, by the vibration dish, ejection of compact track, material counting mechanism, the processing base, locating hole processing agency, the controller is constituteed, ejection of compact track is installed in the export of vibration dish, material counting mechanism installs on ejection of compact track, the processing pedestal is installed at ejection of compact orbital end, locating hole processing agency installs on the processing base, the controller is installed in the below of vibration dish, the device can realize the automatic intermittent type material loading of nozzle stub, automatic processing locating hole, automatic unloading, it all uses same power supply to compress tightly and the unloading, realize saving cost through the chronogenesis linkage and reduce the fault rate.

Description

Automatic processing method and device for small PVC short pipe

Technical Field

The invention relates to an automatic processing method and device for a small PVC short pipe, and belongs to the field of mechanical automation equipment.

Background

The PVC short pipe is widely applied to the mechanical industry and is often used for connection, a positioning hole is often needed to assist workers in positioning in order to ensure the assembly precision in order to facilitate the assembly of the workers on a production line, and the conventional short pipe positioning small hole is usually processed by the workers through a hole tapping machine, so that the manual processing efficiency is low, and the workers are extremely easily injured; and the inner wall of the short pipe is usually required to be cut for a section due to the size requirement of the end part to be assembled so as to meet the interference assembly requirement between the short pipe and the adapter. The series of processes are generally finished by workers operating step by step on the processing table according to requirements, and are time-consuming and labor-consuming.

Disclosure of Invention

Aiming at the defects, the invention provides an automatic processing method and device for a small PVC short pipe.

The invention is realized by the following technical scheme: a method for automatically machining small PVC short pipes includes vibrating a short pipe continuously by a vibrating disk, feeding the short pipe by a material counting mechanism at intervals of a certain time, sliding the short pipe to a machining base through a feeding track, driving a tapping head to downwards probe by a stepping motor, pressing the short pipe with a good position by a pressing gasket in a downwards probing process, then tapping the hole by the tapping head, driving a polishing head by a feed scale stepping motor of a feed scale polishing and grinding mechanism in a positioning hole compressing and tapping process, polishing and grinding the inner wall of the end part of the short pipe by a set length, driving the polishing head to retract by the feed scale stepping motor after tapping and polishing are finished, driving the tapping head to rise by the stepping motor, gradually releasing downward force on the short pipe by a spring until all short pipes are loosened, and pushing the short pipe out by an upward pushing ball head through an upward pushing port along with continuous reverse rotation of the stepping motor.

The utility model provides an automatic processingequipment of little PVC nozzle stub, comprises vibration dish, ejection of compact track, material counting mechanism, processing base, locating hole processing mechanism, controller, and ejection of compact track is installed in the export of vibration dish, and material counting mechanism installs on ejection of compact track, and processing pedestal mounting is at ejection of compact orbital end, and locating hole processing mechanism installs on processing base, and the below at the vibration dish is installed to the controller.

The material counting mechanism is composed of a speed reduction direct current motor and a material counting fan wheel, and the speed reduction direct current motor is installed on the discharging rail and drives the material counting fan wheel to rotate.

The processing base comprises a charging chute processing opening, an upward pushing rod reserved opening and a rear baffle, the charging chute processing opening is reserved at the front end of the processing base, the upward pushing opening is formed in the bottom of the rear end of the processing base, the upward pushing rod reserved opening is formed in the side face of the processing base, the rear baffle is arranged at the rear end of the processing base, the processing base is inclined backward by 10 degrees, and short pipes falling off due to sliding are attached to the rear baffle backward.

The positioning hole processing mechanism comprises a support, a stepping motor, a ball screw, a screw slide rail, a nut slide block plate, a front end plate, a direct current motor, a tapping screw head, a lower end plate, a spring, a pressing gasket, an upward pushing connecting rod and an upward pushing ball head, wherein the support is arranged on a discharging track and a processing base, the stepping motor is arranged on the support, the stepping motor drives the ball screw to rotate, the screw slide rail is arranged on two sides of the ball screw post, the nut slide block plate is arranged on the ball screw and the screw slide rail, the front end plate is arranged at the front end of the nut slide block plate, the direct current motor is arranged on the front end plate and drives the tapping screw head to rotate at high speed, the lower end plate is arranged below the front end plate, the pressing gasket is connected with the lower end plate through a pressing spring, the upward pushing connecting rod is arranged on the side face of the lower end plate, and the upward pushing ball.

The core of the controller is an 80C52 singlechip which controls the coordinated operation of the whole device.

The footage polishing and grinding mechanism is composed of a support, a footage stepping motor, a front support plate, a footage lead screw, a footage slide rail, a nut slide block, a high-speed polishing and grinding motor, a polishing and grinding head and a rear support plate, wherein the footage stepping motor is installed on the support, the footage stepping motor drives the footage lead screw to rotate, the footage slide rail is installed between the front support plate and the rear support plate, the high-speed polishing and grinding motor is installed on the nut slide block, the nut slide block is installed on the footage lead screw and the footage slide rail, and the high-speed polishing and grinding motor drives the polishing and grinding head to.

The material of the push-up ball head is polyurethane with good elasticity, and a layer of anti-skid rubber is attached to the lower end of the lower pressing gasket.

The invention has the advantages that: the device can realize automatic intermittent feeding, automatic positioning hole processing, automatic discharging, pressing and discharging of the short pipe, and the same power source is used for all the short pipe, so that the cost is saved and the failure rate is reduced through time sequence linkage; the stepping motor enables the tapping screw head to have accurate footage, and short pipes with different wall thicknesses can be processed, so that the device has better applicability; before the short pipe is tapped, the short pipe is pressed in advance by pressing the gasket downwards, the spring always provides pressing force, the spring reaches larger compression amount when being processed, F is kx, and the pressing force is the largest at the moment, so that the short pipe is prevented from moving when being processed, a special power source is not used for providing the pressing force when the short pipe is modified, the spring is ingeniously used for replacing, energy is saved, and cost is reduced; after the positioning hole is machined, the stepping motor drives the tapping screw head and the lower pressing gasket to rise and drives the upper pushing ball head to rise, so that the upper pushing ball head pushes the machined short pipe through the upper pushing opening, the unloading can be realized through linkage, a special unloading power source is not used, and the cost is saved; the footage polishing mechanism can accurately control the footage cutting length of the inner wall of the short pipe, and meet the multi-scene assembly requirement; the polishing head can be replaced, and the polishing head with different diameters can be replaced according to the cutting diameters of different short pipes, so that the device has stronger applicability; the process of tapping and cutting the end inner wall into the ruler is simultaneously realized in the pressing process of the pressing gasket, the processing time is saved, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of a material counting mechanism;

FIG. 3 is a schematic view of a processing base;

FIG. 4 is a schematic view of a positioning hole processing mechanism;

FIG. 5 is a schematic view of a footage polishing mechanism;

FIG. 6 is a controller main control circuit diagram;

FIG. 7 is a schematic view showing the completion of the cutting process of the positioning hole and the inner wall of the short pipe;

fig. 8 is a schematic view of the machining base tilted backward by 10 °.

In the figure, a vibrating disk 1, a discharging rail 2, a material counting mechanism 3, a processing base 4, a positioning hole processing mechanism 5, a controller 6, a deceleration direct current motor 301, a material counting fan wheel 302, a charging chute processing port 401, an upward pushing port 402, an upward pushing rod reserved port 403, a rear baffle 404, a support 501, a stepping motor 502, a ball screw 503, a screw slide rail 504, a nut slide plate 505, a front end plate 506, a direct current motor 507, a tapping screw head 508, a lower end plate 509, a spring 510, a downward pressing gasket 511, an upward pushing connecting rod 512, an upward pushing ball head 513, a support 701, a footage stepping motor 702, a front support plate 703, a footage screw rod 704, a footage slide rail 705, a nut slide block 706, a high-speed polishing motor 707, a polishing head 708 and a rear support plate 709.

Detailed Description

The utility model provides an automatic processingequipment of little PVC nozzle stub, by vibration dish 1, ejection of compact track 2, count feed mechanism 3, processing base 4, locating hole processing agency 5, controller 6 and constitute, ejection of compact track 2 is installed in the export of vibration dish 1, count feed mechanism 3 and install on ejection of compact track 2, processing base 4 installs the end at ejection of compact track 2, locating hole processing agency 5 installs on processing base 4, controller 6 installs the below at vibration dish 1.

The material counting mechanism 3 is composed of a deceleration direct current motor 301 and a material counting fan wheel 302, wherein the deceleration direct current motor 301 is installed on the discharging track and drives the material counting fan wheel 302 to rotate.

Processing base 4 constitute by chute processing mouth 401, push up mouth 402, push up rod reservation mouth 403, backplate 404, processing base 4 front end reservation has chute processing mouth 401 to be provided with push up mouth 402 in the rear end bottom, the side of processing base 4 is provided with push up rod reservation mouth 403, backplate 404 sets up the rear end at processing base 4, processing base 4 inclines 10 backward for the nozzle stub that the landing got off hugs closely on the backplate backward.

The positioning hole processing mechanism 5 is composed of a bracket 501, a stepping motor 502, a ball screw 503, a screw slide rail 504, a nut slide plate 505, a front end plate 506, a direct current motor 507, a tapping screw head 508, a lower end plate 509, a spring 510, a lower pressing gasket 511, an upper pushing connecting rod 512 and an upper pushing ball head 513, wherein the bracket 501 is arranged on the discharging track 2 and the processing base 4, the stepping motor 502 is arranged on the bracket 501, the stepping motor 502 drives the ball screw 503 to rotate, the screw slide rail 504 is arranged on two sides of the ball screw post 503, the nut slide plate 505 is arranged on the ball screw 503 and the screw slide 504 rail, the front end plate 506 is arranged at the front end of the nut slide plate 505, the direct current motor 507 is arranged on the front end plate 506 and drives the tapping screw head 508 to rotate at a high speed, the lower end plate 509 is arranged below the front end plate 506, the lower pressing gasket 511 is connected with the lower end plate 509 through the lower pressing, a push-up link 512 is mounted on the side of the lower end plate 509 and a push-up ball 513 is mounted on the end of the push-up link 512.

The core of the controller 6 is an 80C52 singlechip which controls the coordinated operation of the whole device.

The footage polishing mechanism is composed of a support 701, a footage stepping motor 702, a front support plate 703, a footage lead screw 704, a footage slide rail 705, a nut slider 706, a high-speed polishing motor 707, a polishing head 708 and a rear support plate 709, wherein the footage stepping motor 702 is installed on the support 701, the footage stepping motor 702 drives the footage lead screw 704 to rotate, the footage slide rail 705 is installed between the front support plate 703 and the rear support plate 709, the high-speed polishing motor 707 is installed on the nut slider 706, the nut slider 706 is installed on the footage lead screw 704 and the footage slide rail 705, and the high-speed polishing motor 707 drives the polishing head 708 to rotate at a high speed.

The material of the push-up ball head 513 is polyurethane with good elasticity, and a layer of anti-slip rubber is attached to the lower end of the lower pressing gasket 511.

Further, the short pipe is continuously vibrated out by the vibrating disk 1, the short pipe is fed by the material counting mechanism 2 at intervals according to a certain time length, the short pipe slides down to the processing base 4 through the feeding track, the stepping motor 502 drives the tapping screw head 508 to probe downwards, in the downward detection process, the short pipe which is well positioned is pressed by the downward pressing gasket, then the tapping screw head 508 taps the positioning hole, in the process of pressing and tapping the positioning hole, the footage stepping motor 702 of the footage polishing mechanism 7 drives the polishing head 708, the inner wall of the end part of the short pipe is polished to a set length, after tapping and polishing are finished, the stepping motor 702 of the scale drives the polishing head 708 to retract, the stepping motor 502 drives the tapping screw head 508 to rise, the spring gradually releases the downward pressure on the short pipe until the short pipe is completely released, and as the stepping motor 502 continuously rotates reversely, the push-up ball head 513 pushes out the processed short pipe through the push-up port 402.

It will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in the embodiments described above without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims.

Claims

1. An automatic processing method of a small PVC short pipe is characterized in that: the vibrating disk continuously shakes out the short pipe, the material counting mechanism feeds the short pipe at a certain time interval, the short pipe slides down to the processing base through the feeding track, the stepping motor drives the tapping screw head to downwards probe, in the downward probing process, the downward pressing gasket compresses the well-positioned short pipe, the tapping screw head is used for tapping a positioning hole, in the process of compressing and tapping the positioning hole, the stepping motor of the stepping polishing and grinding mechanism drives the polishing and grinding head, the inner wall of the end part of the short pipe is polished and ground to a set length, after tapping and polishing and grinding are finished, the stepping motor drives the polishing and grinding head to retract, the stepping motor drives the tapping screw head to rise, the spring gradually releases downward force on the short pipe until the short pipe is completely loosened, and along with continuous reverse rotation of the stepping motor, the upward pushing ball head pushes out the processed short pipe through the upward pushing opening.

2. The utility model provides a little automatic processingequipment of PVC nozzle stub, is by vibration dish, ejection of compact track, number material mechanism, processing base, locating hole processing agency, controller, footage polish and grind the mechanism and constitute, its characterized in that: the discharging track is installed at the outlet of the vibrating disc, the material counting mechanism is installed on the discharging track, the processing base is installed at the tail end of the discharging track, the positioning hole processing mechanism is installed on the processing base, the controller is installed below the vibrating disc, and the footage polishing and grinding mechanism is installed at the front end of the processing base.

3. The automatic small PVC pipe spool processing device of claim 2, wherein: the material counting mechanism is composed of a speed reduction direct current motor and a material counting fan wheel, and the speed reduction direct current motor is installed on the discharging rail and drives the material counting fan wheel to rotate.

4. The automatic small PVC pipe spool processing device of claim 2, wherein: the processing base comprises a charging conduit processing opening, an upward pushing rod reserved opening and a rear baffle, the charging conduit processing opening is reserved at the front end of the processing base, the upward pushing opening is formed in the bottom of the rear end of the processing base, the upward pushing rod reserved opening is formed in the side face of the processing base, and the rear baffle is arranged at the rear end of the processing base.

5. The automatic small PVC pipe spool processing device of claim 2, wherein: the positioning hole processing mechanism comprises a support, a stepping motor, a ball screw, a screw slide rail, a nut slide block plate, a front end plate, a direct current motor, a tapping screw head, a lower end plate, a spring, a pressing gasket, an upward pushing connecting rod and an upward pushing ball head, wherein the support is arranged on a discharging track and a processing base, the stepping motor is arranged on the support, the stepping motor drives the ball screw to rotate, the screw slide rail is arranged on two sides of the ball screw post, the nut slide block plate is arranged on the ball screw and the screw slide rail, the front end plate is arranged at the front end of the nut slide block plate, the direct current motor is arranged on the front end plate and drives the tapping screw head to rotate at high speed, the lower end plate is arranged below the front end plate, the pressing gasket is connected with the lower end plate through a pressing spring, the upward pushing connecting rod is arranged on the side face of the lower end plate, and the upward pushing ball.

6. The automatic small PVC pipe spool processing device of claim 2, wherein: the core of the controller is an 80C52 singlechip which controls the coordinated operation of the whole device.

7. The automatic small PVC pipe spool processing device of claim 2, wherein: the footage polishing and grinding mechanism is composed of a support, a footage stepping motor, a front support plate, a footage lead screw, a footage slide rail, a nut slide block, a high-speed polishing and grinding motor, a polishing and grinding head and a rear support plate, wherein the footage stepping motor is installed on the support, the footage stepping motor drives the footage lead screw to rotate, the footage slide rail is installed between the front support plate and the rear support plate, the high-speed polishing and grinding motor is installed on the nut slide block, the nut slide block is installed on the footage lead screw and the footage slide rail, and the high-speed polishing and grinding motor drives the polishing and grinding head to.

8. The automatic small PVC pipe spool processing device of claim 4, wherein: the material of the push-up ball head is polyurethane with good elasticity, and a layer of anti-skid rubber is attached to the lower end of the lower pressing gasket.