CN111701878A

CN111701878A - Ceramic perforation recognition device

Info

Publication number: CN111701878A
Application number: CN202010626459.8A
Authority: CN
Inventors: 袁方
Original assignee: Wuhan Sensairui Technology Co ltd
Current assignee: Wuhan Sensairui Technology Co ltd
Priority date: 2020-07-02
Filing date: 2020-07-02
Publication date: 2020-09-25

Abstract

The invention discloses a ceramic perforation recognition device which comprises a vibration feeding device, a groove disc device, a grooved wheel feeding device, a perforation detection device and a pneumatic sorting device, wherein the front end of the grooved wheel feeding device is provided with a direct vibration feeding device so as to realize that materials accurately fall into the groove disc device for detection; the punching detection device is of a crank rocker structure, and the motor moves circularly to drive the probe to reciprocate so as to detect whether the central hole of the ceramic part meets the size requirement; pneumatic sorting device is two sets ofly, screens the material that meets the requirements and does not meet the requirements respectively, and the solenoid valve blows off high-pressure air according to the judgement below, blows in the pipe of top with the material in, realizes the letter sorting operation. The invention changes the manual detection means into the identification by utilizing mechanical motion, has high speed, accurate identification, simple structure and high stability, and is convenient to use in production.

Description

Ceramic perforation recognition device

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of perforation detection, in particular to a ceramic perforation identification device.

[ background of the invention ]

Chinese manufacture develops very rapidly, and has the characteristics of large yield and wide variety. Therefore, the presence of size variations and plugging defects in the central bore of the part is often unavoidable. In the production and manufacturing process of the parts, the defects in the holes of the parts are detected and found in time, so that the defective parts can be prevented from being used in the assembly of the whole mechanical system, and the system fault caused by the manufacturing problem of the parts can be eliminated.

In the prior art, through a traditional manual detection method, a worker manually identifies whether a material hole has a flaw, but the manual identification method is limited by subjective evaluation and energy of the worker and has the defects of instability, unreliability and low speed. In addition, the ceramic material cannot be well applied to the detection of the defects in the holes of the parts based on the material because the nondestructive detection methods such as eddy current and ultrasonic have the problems of low sensitivity, poor detection precision and the like.

[ summary of the invention ]

In view of the above, in order to overcome the defects in the prior art, the invention provides a ceramic perforation recognition device, which performs recognition by adopting mechanical motion, and has the advantages of high speed, accurate recognition, simple structure and high stability.

In order to achieve the purpose, the technical scheme of the invention is as follows:

the ceramic perforation recognition device comprises a vibration feeding device, a grooved pulley feeding device, a groove disc device, a perforation detection device and a pneumatic sorting device, wherein the vibration feeding device and the grooved pulley feeding device perform feeding actions, the groove disc device and the perforation detection device perform material detection recognition, and the pneumatic sorting device performs material sorting.

The front end of the vibration feeding device is provided with a vibration disc feeding device, the grooved pulley feeding device is arranged at the rear end, and after materials reach the grooved pulley of the grooved pulley feeding device through the vibration feeding device, the grooved pulley respectively sends the materials to the discharge ports through rotation and accurately falls into the groove disc device; the perforation detection device is provided with a probe, the perforation detection device is installed above the groove disc device, when the materials reach the position below the probe, the probe moves downwards to realize perforation action detection, and when the materials reach the pneumatic sorting device, the materials enter the material storage part after being sorted.

Further, the vibration feeding device comprises a vibration power structure and a fixed mounting base, the vibration feeding device is provided with a mode adjusting device, and a feeding port of the vibration feeding device is connected with a feeding port of the grooved pulley feeding device.

The grooved wheel feeding device comprises a power rotating device, a material tray conveying device, a sorting material arranging chassis, a linear feeding device and a material tray fixing base, the grooved wheel feeding device is provided with a feeding hole and a discharging hole, and the discharging hole of the grooved wheel feeding device is connected with the groove disc device through the material tray conveying device.

The groove disc device comprises a chassis, a connecting piece and a groove disc, and the groove disc device is fixedly connected with the grooved wheel feeding device.

Preferably, the upper surface of the groove disc device is provided with grooves with the same size and the same distance.

The perforation detection device comprises a fixed base, a rotating device, a base connecting plate, a crank rocker mechanism, an upper sliding block device, a lower sliding block device and a probe, wherein the probe is fixed on a fixed probe port on the upper sliding block device and the lower sliding block device, and the upper sliding block device and the lower sliding block device are driven by the rotating device and the crank rocker mechanism to move up and down to detect materials.

Further, the pneumatic sorting device comprises a first sorting base, a first sorting pipeline fixing part, a first pneumatic device, a second sorting base, a second sorting pipeline fixing part and a second pneumatic device;

the air outlets of the first pneumatic device and the second pneumatic device respectively correspond to the opening positions facing the lower portion of the groove disc device, and the feeding positions of the first sorting pipeline and the second sorting pipeline respectively correspond to the opening positions facing the upper portion of the groove disc device. And the air outlets of the pneumatic devices face the corresponding sorting pipelines so as to put the screened materials into the storage box.

The invention has the beneficial effects that the technical scheme utilizes the motor to drive the probe to reciprocate by the circular motion so as to detect whether the central hole of the ceramic piece meets the size requirement or not, the ceramic central hole is rapidly detected, the material is respectively detected after the position of the material is arranged by the feeding arrangement device, and then the material is sorted and screened by the sorting device. From the material to the screening completion, fast, the sorting rate is high, and simple structure stability is high, is convenient for use in production.

[ description of the drawings ]

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of the invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a schematic view of the construction of the vibratory feeding apparatus;

fig. 4 is a schematic structural diagram of a sheave feeding device;

FIG. 5 is a schematic structural view of a fluted disc device;

FIG. 6 is a schematic view of the configuration of the perforation detection apparatus;

fig. 7 is a schematic structural view of the pneumatic sorting apparatus.

In the figure, 1, a vibration feeding device, 2, a sheave feeding device, 3, a groove disc device, 4, a perforation detection device, 5, a pneumatic sorting device, 6, a linear feeding device, 7, a sorting and material arrangement chassis, 8, a material disc fixing base, 9, a power rotating device, 10, a material disc conveying device, 11, a groove disc, 12, a groove disc connecting piece, 13, a chassis, 14, a probe, 15, a probe fixing device, 16, an upper and lower sliding block device, 17, a crank rocker mechanism, 18, a base connecting piece, 19, a rotating device, 20, a first pneumatic device, 21, a first sorting pipeline, 22, a first sorting base, 23, a first sorting pipeline fixing piece, 24, a second pneumatic device, 25, a second sorting base, 26, a second sorting pipeline fixing piece, 27 and a second sorting pipeline.

[ detailed description ] embodiments

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.

Referring to fig. 1 to 7, a ceramic perforation recognition device includes a vibration feeding device 1, a sheave feeding device 2, a groove disc device 3, a perforation detection device 4, and a pneumatic sorting device 5, wherein the vibration feeding device 1 and the sheave feeding device 2 perform feeding, the groove disc device 3 and the perforation detection device 4 perform material detection recognition, and the pneumatic sorting device 5 performs material sorting.

The front end of the vibration feeding device 1 is provided with a vibration disc feeding device, the grooved pulley feeding device 2 is arranged at the rear end, and after materials reach the grooved pulley of the grooved pulley feeding device 2 through the vibration feeding device 1, the grooved pulley respectively sends the materials to a discharge port through rotation, and the materials accurately fall into the groove disc device 3; the perforation detection device 4 is provided with a probe 14, the perforation detection device 4 is installed above the fluted disc device 3, when the materials reach the lower part of the probe 14, the probe 14 moves downwards to realize perforation action detection, and when the materials reach the pneumatic sorting device 5, the materials are sorted and then enter the material storage part.

The vibration feeding device 1 comprises a vibration power structure and a fixed mounting base, the vibration feeding device 1 is provided with a mode adjusting device, and a feeding port of the vibration feeding device 1 is connected with a feeding port of the grooved pulley feeding device 2.

Referring to fig. 4, the sheave feeding device 2 comprises a power rotating device 9, a tray conveying device 10, a sorting and material-finishing chassis 7, a linear feeding device 6 and a tray fixing base 8, the sheave feeding device 2 is provided with a feeding port and a discharging port, and the discharging port of the sheave feeding device 2 is connected with the groove disc 11 device through the tray conveying device 10.

The groove disc device 3 comprises a chassis 13, a groove disc 12 connecting piece and a groove disc 11, and the groove disc device 3 is fixedly connected with the grooved wheel feeding device 2.

Preferably, the upper surface of the groove disc device 3 is provided with grooves with the same size and the same interval.

Referring to fig. 6, the perforation detection device 4 comprises a rotation device 19, a base connection member 18, a crank and rocker structure 17, an up-down slider device 16, a probe 14 and a probe fixing device 15, wherein the perforation detection device 4 comprises the rotation device 19.

The rotating device 19 is fixedly connected with the base connecting piece 18, the rotating device 19 is tightly connected with the crank rocker mechanism 17 in a staring mode, the crank rocker mechanism 17 is driven to do reciprocating circular motion and is connected with the upper sliding block device and the lower sliding block device 16 to drive the upper sliding block device and the lower sliding block device 16 to move up and down, the probe 14 and the probe fixing device 15 are fixedly connected with the upper sliding block device and the lower sliding block device 16 to drive the probe 14 to do reciprocating motion up and down, and the purpose of detecting a material center hole.

The pneumatic sorting device 5 comprises a first sorting base 22, a first sorting duct 21, a first sorting duct fixture 23, a first pneumatic device 20, a second sorting base 25, a second sorting duct 27, a second sorting duct fixture 26, a second pneumatic device 24.

The air outlets of the first pneumatic device 20 and the second pneumatic device 24 are respectively corresponding to the openings facing the lower side of the fluted disc device 3, and the feeding positions of the first sorting pipe 21 and the second sorting pipe 27 are respectively corresponding to the openings facing the upper side of the fluted disc device 3. And the air outlets of the pneumatic devices face the corresponding sorting pipelines so as to put the screened materials into the storage box.

The working principle of the pneumatic sorting device 5 is that the identified material is blown from bottom to top by the first pneumatic device 20 or the second pneumatic device 24, and the identified material passes through the first sorting pipeline 21 or the second sorting pipeline 27 to enter the material storage device, and the perforation detection process is completed.

The invention utilizes the circular motion of the motor to drive the probe to reciprocate so as to detect whether the center hole of the ceramic piece meets the size requirement or not, the ceramic center hole is rapidly detected, the material is respectively detected after the position of the material is arranged by the feeding arranging device, and then the material is sorted and screened by the sorting device. From the material to the screening completion, fast, the sorting rate is high, and simple structure stability is high, is convenient for use in production.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The ceramic perforation recognition device is characterized by comprising a vibration feeding device, a grooved pulley feeding device, a groove disc device, a perforation detection device and a pneumatic sorting device, wherein the vibration feeding device and the grooved pulley feeding device perform feeding actions, the groove disc device and the perforation detection device perform material detection recognition, and the pneumatic sorting device performs material sorting;

2. The ceramic perforation identification device according to claim 1, wherein the vibration feeding device comprises a vibration power structure and a fixed mounting base, the vibration feeding device is provided with a mode adjusting device, and a feeding port of the vibration feeding device is connected with a feeding port of the grooved pulley feeding device.

3. The ceramic perforation identification device according to claim 1, wherein the sheave loading device comprises a power rotating device, a tray conveying device, a sorting monolith chassis, a linear feeding device and a tray fixing base, the sheave loading device is provided with a feeding port and a discharging port, and the discharging port of the sheave loading device is connected with the groove disc device through the tray conveying device.

4. The ceramic perforation identification device according to claim 1, wherein the fluted disc device comprises a chassis, a connecting piece and a fluted disc, and the fluted disc device is fixedly connected with the sheave feeding device.

5. The ceramic perforation identification device according to claim 4, wherein the grooved disc means has grooves with the same size and the same pitch on the upper surface.

6. The ceramic perforation recognition device according to claim 1, wherein the perforation detection device comprises a fixed base, a rotating device, a base connecting plate, a crank rocker mechanism, an up-down slider device and a probe, the probe is fixed on a fixed probe port of the up-down slider device, and the rotating device and the crank rocker mechanism drive the up-down slider device to move up and down the probe so as to detect the material.

7. The ceramic via identifying device of claim 1, wherein the pneumatic sorting device comprises a first sorting base, a first sorting conduit fixture, a first pneumatic device, a second sorting base, a second sorting conduit fixture, a second pneumatic device;

the air outlets of the first pneumatic device and the second pneumatic device respectively correspond to the opening positions facing the lower portion of the groove disc device, and the feeding positions of the first sorting pipeline and the second sorting pipeline respectively correspond to the opening positions facing the upper portion of the groove disc device.