CN111272080B

CN111272080B - Full-automatic laser scanning tester

Info

Publication number: CN111272080B
Application number: CN202010253883.2A
Authority: CN
Inventors: 南龙云
Original assignee: Shenzhen Smart Hengdi Technology Co ltd
Current assignee: Shenzhen Smart Hengdi Technology Co ltd
Priority date: 2020-02-13
Filing date: 2020-04-02
Publication date: 2021-06-01
Anticipated expiration: 2040-04-02
Also published as: CN111272080A

Abstract

The invention discloses a full-automatic laser scanning tester, which comprises a rack, a scanning device, a material loading device, a first plasma fan, a second plasma fan, a testing device and a receiving device, wherein the scanning device is arranged in the rack, the material loading device is arranged on the rack, a testing cover is arranged above the material loading device, the bottom of the testing cover is arranged on the rack, the testing device is arranged at the top in the testing cover, the receiving device is arranged on the testing device and connected with the testing device, the first plasma fan and the second plasma fan are respectively arranged in the testing cover, the fixed end of the first plasma fan is arranged at the rear side surface of the testing cover, the fixed end of the second plasma fan is arranged at the right side surface of the testing cover, the front side surface of the testing cover is provided with a display screen, and the testing device is connected with the display screen, the production cost is reduced, the production efficiency is reduced, the precision size is high, and the market application value is good.

Description

Full-automatic laser scanning tester

Technical Field

The invention relates to the field of product testing and processing, in particular to a full-automatic laser scanning tester.

Background

In current life, along with daily life's continuous improvement, people's quality of life is also constantly improving, current laser tester, a dimension for measuring the testee, laser tester on the current market is through artifical placing the product to the detection zone, artifical manual the going on detecting, at the in-process of making with the test like this, the placing of product and the installation of scanning mirror are all more troublesome, artifical test is with the process of installation, the error appears easily, the actual precision size that can lead to being leaned on the product like this has the mistake, can cause to install at the back and the use aspect effect not good, manual operation easily the mistake appears, lead to badly, and is with high costs, the precision is low, it is inconvenient to use.

The prior art has defects and needs to be improved.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a full-automatic laser scanning tester.

The technical scheme provided by the invention is that the full-automatic laser scanning tester comprises a rack, a scanning device, a material loading device, a first plasma fan, a second plasma fan, a testing device and a receiving device, wherein the scanning device is arranged in the rack, the material loading device is arranged on the rack, a testing cover is arranged above the material loading device, the bottom of the testing cover is arranged on the rack, the testing device is arranged at the inner top of the testing cover, the receiving device is arranged on the testing device and connected with the testing device, the first plasma fan and the second plasma fan are respectively arranged in the testing cover, the fixed end of the first plasma fan is arranged at the rear side surface of the testing cover, the fixed end of the second plasma fan is arranged at the right side surface of the testing cover, and a display screen is arranged at the front side surface of the testing cover, the testing device is connected with the display screen.

Preferably, scanning device includes scanning support, scanner and signal transmission ware, scanning support bottom mounting is in inside the frame, the scanner stiff end set up in on the scanning support, install on the scanner signal transmission ware.

Preferably, carry the material device including carrying the material bottom plate, carrying the material fixture block, carrying the material regulating plate, carrying the material regulating block and module regulating plate, carry the material bottom plate lower surface set up in the frame, carry the material fixture block with carry the material regulating block set up relatively in carry on the material bottom plate, carry and set up on the material regulating block and carry the material regulating plate, carry and set up the module regulating plate on the material regulating plate, the module regulating plate is connected to carry in the material fixture block.

Preferably, the first plasma fan comprises a fan bottom plate, a fan support and a plasma fan, the inner surface of the fan bottom plate is arranged inside the test cover, the fan support is arranged on the outer surface of the fan bottom plate, the wind ion fan is arranged on the fan support, the output end of the plasma fan is located above the material loading device, and the second plasma fan and the first plasma fan are identical in structure.

Preferably, the receiving device includes a receiving module, a signal receiver and a signal output line, the receiving module is disposed on the testing device, the signal receiver is disposed in the receiving module, the signal receiver is connected to one end of the signal output line, and the other end of the signal output line passes through the receiving module and is connected to the testing device.

Preferably, testing arrangement includes test module, treater, a plurality of pillars, multiport transponder and test converter, a plurality of pillars install respectively in top in the test cover, test module set up in on a plurality of pillars, the treater set up in the test module, multiport transponder set up in a plurality of pillar sides, test module front side face installation the test converter stiff end, test converter output connects the display screen, multiport transponder one end is connected the treater, the treater is connected the test converter.

Preferably, a heat radiation fan is arranged on the rear side surface of the test cover.

Preferably, a frame plate is mounted above the rack, and the frame plate is transparent.

Preferably, a plurality of guide wheels are arranged at the bottom of the machine frame.

Compared with the prior art, the full-automatic feeding and discharging device has the advantages that the full-automatic feeding and discharging device can automatically adjust products, automatically perform laser scanning on the products, and is provided with the plasma fan to eliminate bacteria, purify air and reduce manual burden, errors caused by manual movement in the product testing process can be avoided, errors in product precision and size can be avoided, and the subsequent use effect is not good.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the loading device according to the present invention;

FIG. 3 is a schematic structural diagram of a testing apparatus according to the present invention;

FIG. 4 is a schematic view of a scanning device according to the present invention.

Detailed Description

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

In order to facilitate an understanding of the invention, the invention is described in more detail below with reference to the accompanying drawings and specific examples. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The present invention will be described in detail with reference to the accompanying drawings.

One embodiment as shown in fig. 1 to 4: a full-automatic laser scanning tester comprises a rack 1, a scanning device, a material loading device 2, a first plasma fan 3, a second plasma fan 4, a testing device 5 and a receiving device, wherein the scanning device is arranged inside the rack 1, the material loading device 2 is arranged on the rack 1, a testing cover 6 is arranged above the material loading device 2, the bottom of the testing cover 6 is arranged on the rack 1, the testing device 5 is arranged at the inner top of the testing cover 6, the receiving device is arranged on the testing device 5 and is connected with the testing device 5, the first plasma fan 3 and the second plasma fan 4 are respectively arranged in the testing cover 6, the fixed end of the first plasma fan 3 is arranged at the rear side face of the testing cover 6, the fixed end of the second plasma fan 4 is arranged at the right side face of the testing cover 6, the front side face of the testing cover 6 is provided with a display screen 7, the testing device 5 is connected with the display screen 7, firstly, a loading robot places processed products on the material loading device 2, the material loading device 2 adjusts and fixes the processed products, then the first plasma fan 3, the second plasma fan 4 and the scanning device start to process the products on the material loading device 2 at the same time, the two plasma fans purify the products and air in the testing cover 6, then the scanning device scans the products on the material loading device 2 comprehensively, after the scanning is finished, the scanned information is transmitted to the receiving device, the receiving device transmits the information to the testing device 5, the testing device 5 tests and inspects the products, after the testing and inspecting, the information is transmitted to the display screen 7, and then the worker knows that the products are good and bad as a whole through the testing results displayed on the display screen 7.

The scanning device comprises a scanning support 101, a scanner 102 and a signal transmitter 103, wherein the bottom end of the scanning support 101 is fixed inside the rack 1, the fixed end of the scanner 102 is arranged on the scanning support 101, the signal transmitter 103 is arranged on the scanner 102, firstly, the scanner 102 scans products comprehensively, then, the scanner 102 transmits signals to the signal transmitter 103, and the signal transmitter 103 transmits the signals.

Carry material device 2 including carrying material bottom plate 21, carrying material fixture block 22, carrying material regulating plate 24, carrying material regulating block 23 and module regulating plate 25, carry material bottom plate 21 lower surface set up in frame 1, carry material fixture block 22 and carry material regulating block 23 set up relatively in carry on material bottom plate 21, carry and set up on the material regulating block 23 and carry material regulating plate 24, carry and set up module regulating plate 25 on the material regulating plate 24, module regulating plate 25 is connected to carry in the material fixture block 22.

The first plasma fan 3 comprises a fan bottom plate, a fan support and a plasma fan, the inner surface of the fan bottom plate is arranged inside the test cover 6, the fan support is arranged on the outer surface of the fan bottom plate, the wind ion fan is arranged on the fan support, the output end of the plasma fan is positioned above the material loading device 2, and the second plasma fan 4 and the first plasma fan 3 are identical in structure.

The receiving device comprises a receiving module, a signal receiver and a signal output line, the receiving module is arranged on the testing device 5, the signal receiver is arranged in the receiving module and connected with one end of the signal output line, the other end of the signal output line penetrates through the receiving module to be connected with the testing device 5, firstly, the signal receiver receives signals transmitted by the signal transmitter 103, and then the signal output line transmits the received signals out again.

The testing device 5 comprises a testing module 51, a processor, a plurality of pillars 52, a multi-port repeater 53 and a testing converter 54, wherein the plurality of pillars 52 are respectively installed above the top in the testing cover 6, the testing module 51 is arranged on the plurality of pillars 52, the processor is arranged in the testing module 51, the multi-port repeater 53 is arranged on the side surface of the plurality of pillars 52, the fixed end of the testing converter 54 is installed on the front side surface of the testing module 51, the output end of the testing converter 54 is connected with the display screen 7, one end of the multi-port repeater 53 is connected with the processor, the processor is connected with the testing converter 54, firstly, the multi-port repeater 53 is connected with the processor through a radio signal, the processor receives the signal transmitted from the signal output end, performs high-level testing analysis, and then after the analysis is completed, the electrical signal is transmitted to a test converter 54, the test converter 54 converts the tested structure to the display screen 7, and the display screen 7 projects the structure.

The second embodiment is different from the above, in that the multiport repeater 53 is configured as an intelligent HUB.

The third embodiment is different from the above embodiments in that a speed regulating valve, a pressure gauge and a pressure regulating button are respectively arranged in the frame 1, the pressure regulating button is connected with the pressure gauge, and the pressure gauge is connected with the speed regulating valve.

The fourth embodiment is different from the above, and the display screen 7 is an LED multifunctional display screen.

The fifth embodiment is different from the above embodiments in that a left-eye safety grating and a right-eye safety grating are respectively arranged on two sides of the front side surface of the test cover 6.

Sixth embodiment is different from the above-described embodiments in that at least two or more of the plurality of pillars 52 are provided.

The seventh embodiment is different from the above embodiments in that the scanning support 101 is provided with an intelligent regulator, and the intelligent regulator automatically adjusts according to different sizes and different positions of products on the rack, so that the scanner 102 on the scanning support 101 can rapidly scan.

The working principle of the invention is as follows: firstly, a loading robot places processed products on a loading device 2, the loading device 2 comprises a loading bottom plate 21, a loading clamping block 22, a loading adjusting plate 24, a loading adjusting block 23 and a module adjusting plate 25, the lower surface of the loading bottom plate 21 is arranged on the rack 1, the loading clamping block 22 and the loading adjusting block 23 are oppositely arranged on the loading bottom plate 21, the loading adjusting block 23 is provided with the loading adjusting plate 24, the loading adjusting plate 24 is provided with the module adjusting plate 25, the module adjusting plate 25 is connected into the loading clamping block 22, the loading device 2 adjusts and fixes the loading bottom plate, then a second plasma fan 3, a second plasma fan 4 and a scanning device simultaneously start to process the products on the loading device 2, the two plasma fans, the first plasma fan 3 comprises a fan bottom plate, a fan bracket and a plasma fan, the inner surface of the fan bottom plate is arranged in the test cover 6, the outer surface of the fan bottom plate is provided with the fan bracket, the fan bracket is provided with the wind ion fan, the output end of the plasma fan is positioned above the material loading device 2, the second plasma fan 4 and the second plasma fan have the same structure, simultaneously, the product and the air in the test cover 6 are purified, then the product on the material loading device 2 is comprehensively scanned by the scanning device, the product is comprehensively scanned by the scanner 102, then the signal is transmitted to the signal transmitter 103 by the scanner 102, the signal is transmitted out by the signal transmitter 103, the signal transmitted by the signal transmitter 103 is received by the signal receiver, then the received signal is transmitted out again by the signal output line, and after the scanning is finished, the scanned information is transmitted into the receiving device, the receiving device transmits information to the testing device 5, the testing device 5 tests and inspects the information, the multi-port transponder 53 is connected with the processor through a radio signal, the processor receives signals transmitted by the signal output end, high-level test analysis is carried out, then after the analysis is completed, electric signals are transmitted to the testing converter 54, the testing converter 54 converts a tested structure onto the display screen 7, the display screen 7 shows the structure, after the test and inspection are completed, the information is transmitted to the display screen 7, and a worker can know the integrity and the defect of the product through a testing result displayed on the display screen 7.

Claims

1. A full-automatic laser scanning tester is characterized by comprising a rack, a scanning device, a material loading device, a first plasma fan, a second plasma fan, a testing device and a receiving device, wherein the scanning device is arranged inside the rack, the material loading device is arranged on the rack, a testing cover is arranged above the material loading device, the bottom of the testing cover is arranged on the rack, a left-look safety grating and a right-look safety grating are respectively arranged on two sides of the front side surface of the testing cover, the testing device is arranged at the top inside the testing cover, the receiving device is arranged on the testing device and connected with the testing device, the first plasma fan and the second plasma fan are respectively arranged in the testing cover, the fixed end of the first plasma fan is arranged on the rear side surface of the testing cover, and the fixed end of the second plasma fan is arranged on the right side surface of the testing cover, the testing device is connected with the display screen, a speed regulating valve, a pressure gauge and a pressure regulating button are respectively arranged in the rack, the pressure regulating button is connected with the pressure gauge, and the pressure gauge is connected with the speed regulating valve;

the material loading device comprises a material loading bottom plate, a material loading clamping block, a material loading adjusting plate, a material loading adjusting block and a module adjusting plate, wherein the lower surface of the material loading bottom plate is arranged on the rack, the material loading clamping block and the material loading adjusting block are oppositely arranged on the material loading bottom plate, the material loading adjusting block is provided with the material loading adjusting plate, the material loading adjusting plate is provided with the module adjusting plate, and the module adjusting plate is connected into the material loading clamping block;

the testing arrangement includes test module, treater, a plurality of pillars, multiport transponder and test converter, a plurality of pillars install respectively in top in the test cover, test module set up in on a plurality of pillars, the treater set up in the test module, multiport transponder set up in a plurality of pillar sides, test module leading flank installation test converter stiff end, test converter output is connected the display screen, multiport transponder one end is connected the treater, multiport transponder is intelligent HUB, the treater is connected test converter.

2. The automatic laser scanning tester according to claim 1, wherein the scanning device comprises a scanning bracket, a scanner and a signal transmitter, the bottom end of the scanning bracket is fixed inside the machine frame, the fixed end of the scanner is arranged on the scanning bracket, and the signal transmitter is mounted on the scanner.

3. The automatic laser scanning tester of claim 1, wherein the first plasma fan comprises a fan base plate, a fan bracket and a plasma fan, the inner surface of the fan base plate is arranged inside the test cover, the fan bracket is arranged on the outer surface of the fan base plate, the plasma fan is arranged on the fan bracket, the output end of the plasma fan is positioned above the material loading device, and the second plasma fan and the first plasma fan have the same structure.

4. The automatic laser scanning tester according to claim 1, wherein the receiving device comprises a receiving module, a signal receiver and a signal output line, the receiving module is disposed on the testing device, the signal receiver is disposed in the receiving module, the signal receiver is connected to one end of the signal output line, and the other end of the signal output line passes through the receiving module and is connected to the testing device.

5. The automatic laser scanning tester as claimed in claim 1, wherein a heat dissipation fan is disposed on a rear side of the test housing.

6. The automatic laser scanning tester of claim 1 wherein a frame plate is mounted above the frame, the frame plate being transparent.

7. The automatic laser scanning tester of claim 1, wherein a plurality of guide wheels are provided at the bottom of the frame.