CN109412707B - Uninterrupted power-on wireless communication test equipment - Google Patents

Abstract

The invention discloses uninterrupted power-on wireless communication test equipment, which comprises a return board lifter, an electric cabinet and a double-layer conveying line, wherein the double-layer conveying line consists of a plurality of segmented conveying lines; the plate returning lifters are arranged at two ends of the double-layer conveying line and are used for feeding and discharging products; the electric cabinet is arranged on the side wall of the double-layer conveying line; the double-layer conveying line combined by the plurality of segmented conveying lines is matched with the return plate lifter, so that continuous testing of multiple products can be carried out. The uninterrupted power supply wireless communication testing equipment has an automatic testing completion notification function, can test a plurality of products at the same time, and greatly improves the working efficiency.

Description

Uninterrupted power-on wireless communication test equipment

Technical Field

The invention belongs to the technical field of wireless communication, and particularly relates to uninterrupted power-on wireless communication test equipment.

Background

At present, the power-on test equipment basically adopts a support to place a product test mode, a product to be tested is manually conveyed onto the support, a test cable of the product is connected onto a corresponding contact or socket, then a button is operated to test, the time of manual checking is needed to find out the abnormality and progress condition, the abnormality needs to be repaired in time, and the test is completed and needs to be replaced in time. The power-on test equipment is very original, the operation is time-consuming and labor-consuming, the test process cannot be monitored remotely, the test abnormality cannot be found easily, the test result cannot be timely, accurately and effectively reflected, the test content is limited, and the limitation is great.

Because the conventional test product adopts a stent placement method, the following problems easily occur due to the factors of the self structure:

1. The labor is required to climb up and down to take materials before walking, and the labor intensity is high;

2. whether the test product NG is not well confirmed easily causes untimely confirmation, and quick product replacement cannot be performed, so that the production beat is influenced;

3. The wireless test can not be performed, and the method is only suitable for simple power-on aging test, for example, the product test of multiple signals and multiple data volumes is performed, and communication cables are required to be additionally arranged, so that the space is wasted and the operation is complicated;

4. the test process can not be accurately known, and misoperation is easy to occur;

5. The test is in an open state, so that electric shock accidents are easy to occur, and potential safety hazards exist.

Disclosure of Invention

Aiming at the problems existing in the prior art, the invention provides uninterrupted power-on wireless communication test equipment.

The technical scheme of the invention is as follows:

The uninterrupted power-on wireless communication test equipment comprises a return board lifter, an electric cabinet and a double-layer conveying line, wherein the double-layer conveying line consists of a plurality of segmented conveying lines; the plate returning lifters are arranged at two ends of the double-layer conveying line and are used for feeding and discharging products; the electric cabinet is arranged on the side wall of the double-layer conveying line; the double-layer conveying line combined by the plurality of segmented conveying lines is matched with the return plate lifter, so that continuous testing of multiple products can be carried out.

Preferably, the return board lifter comprises a first frame, an operation panel, a safety grating, a tooling board, a conveying line, an RFID read-write head, an alarm lamp, a guide rail and a conductive rail, wherein the operation panel, the safety grating and the alarm lamp are all arranged at the top of the first frame; the tooling plate, the conveying line, the RFID read-write head, the guide rail and the conductive rail are all arranged in the first frame, and the tooling plate is arranged in the middle of the first frame; the guide rail and the conductive rail are both arranged on one side wall of the frame; the guide rail is arranged below the tooling plate and used for moving the tooling plate up and down; the conveying line is arranged at the bottom of the tooling plate and used for conveying the tooling plate to the next station, and the RFID read-write head is arranged at the bottom of the tooling plate and used for reading the test information.

Preferably, the sectional transportation line comprises a second frame, a tooling plate, a conductive rail and a wireless receiving and transmitting end, wherein a partition board is arranged in the second frame to divide the second frame into an upper layer and a lower layer, and the tooling plate, the conductive rail and the wireless receiving and transmitting end are arranged on the upper layer and the lower layer of the second frame; the conductive rail and the wireless receiving and transmitting end are both fixed on the inner side wall of the rack II; the tooling plate is arranged in the middle of the second frame, and the position of the tooling plate is consistent with the tooling plate on the plate returning lifter and is used for receiving transported products.

Preferably, the tooling plate comprises a product material frame, a tooling body and an RFID chip, wherein the product material frame is arranged on the tooling body and is used for placing a test product; the RFID chip is arranged at the bottom of the tool body and used for recording the test information of the product.

Preferably, a fan is further installed on the side wall of the sectional transportation line for heat dissipation.

The technical scheme of the invention has the following beneficial effects:

1. the feeding and discharging ends are arranged, so that continuous testing of multiple products can be performed, and the production efficiency is improved;

2. the keyboard and the display device are arranged at the feeding end and the discharging end, so that the product testing state can be conveniently known manually;

3. The RFID device is arranged, so that the identity of the tooling plate can be automatically identified, and the tooling plate to be processed can be effectively processed in time;

4. The wireless communication device is arranged, so that the testing state of the product on the tool can be known in real time;

5. The automatic conducting device is arranged, so that wiring action is not required to be performed manually, and the safety and the effectiveness are realized;

6. The five-color lamp alarm device is arranged, so that the running state of the whole set of equipment can be known in real time, and real-time reminding can be carried out when a product is in place;

7. the conveying line is provided with the protective cover mechanism, so that the running state of a product can be observed in real time manually, the protective cover is provided with the safety switch, the protective cover can be opened manually to perform power-off protection, and safety accidents caused by the fact that the protective cover is not contacted with the product manually are protected;

8. The plate returning lifter is provided with a safety grating, and the manual operation can perform power-off protection.

Drawings

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

FIG. 2 is a schematic diagram of the return board elevator of the present invention;

FIG. 3 is a schematic view of a segmented transport line structure of the present invention;

FIG. 4 is a schematic diagram of a tooling plate structure of the present invention;

Fig. 5 is a partial view of the present invention.

The drawings are marked:

1. A return plate elevator; 2. an electric control box; 3. a segmented transport line; 4. a double-layer transport line; 5. a fan; 101. a first frame; 102. an operation panel; 103. a safety grating; 104. a tooling plate; 105. a conveying line; 106. an alarm lamp; 107. a guide rail; 108. a conductive rail; 109. an RFID read/write head; 301. a second frame; 302. a tooling plate; 303. a conductive rail; 304. a wireless receiving and transmitting end; 1041. a product frame; 1042. a tool body; 1043. an RFID chip.

Detailed Description

The invention will be further described with reference to the drawings and the specific examples.

Referring to fig. 1 to 5, the invention provides uninterrupted power supply wireless communication test equipment, which comprises a return board lifter 1, an electric cabinet 2 and a double-layer conveying line 4, wherein the double-layer conveying line 4 consists of a plurality of segmented conveying lines 3; the plate returning lifters 1 are arranged at two ends of the double-layer conveying line 4 and are used for feeding and discharging products; the electric cabinet 2 is arranged on the side wall of the double-layer conveying line 4; the double-layer conveying line 4 combined by the plurality of the segmented conveying lines 3 is matched with the return board lifter 1, so that continuous testing of multiple products can be performed.

The return board lifter 1 comprises a first frame 101, an operation panel 102, a safety grating 103, a tooling board 104, a conveying line 105, an RFID read-write head 109, an alarm lamp 106, a guide rail 107 and a conductive rail 108, wherein the operation panel 102, the safety grating 103 and the alarm lamp 106 are all arranged on the top of the first frame 101; the tooling plate 104, the conveying line 105, the RFID read-write 109 head, the guide rail 107 and the conductive rail 108 are all arranged in the first frame 101, and the tooling plate 104 is arranged in the middle of the first frame 101; the guide rail 107 and the conductor rail 105 are both arranged on the side wall of the first frame 101; the guide rail 107 is installed below the tooling plate 104 and is used for moving the tooling plate 104 up and down; the conveying line 105 is installed at the bottom of the tooling plate 104 and is used for conveying the tooling plate 104 to the next station, and the RFID read-write head 109 is installed at the bottom of the tooling plate 104 and is used for reading the test information.

The sectional transportation line 3 comprises a second rack 301, a tooling plate 302, a conductive rail 303 and a wireless receiving and transmitting end 304, wherein a partition plate 305 is arranged in the second rack 301 to divide the second rack 301 into an upper layer and a lower layer, and the tooling plate 302, the conductive rail 303 and the wireless receiving and transmitting end 304 are arranged on the upper layer and the lower layer of the second rack 301; the conductive rail 303 and the wireless receiving and transmitting end 304 are both fixed on the inner side wall of the second rack 301; the tooling plate 302 is installed in the middle of the second rack 301, and the position of the tooling plate is consistent with the tooling plate 104 on the return plate lifter 1, so as to be used for receiving transported products.

The tooling plate 104/302 comprises a product material frame 1041, a tooling body 1042 and an RFID chip 1043, wherein the product material frame 1041 is installed on the tooling body 1042 and used for placing a test product; the RFID chip 1043 is installed at the bottom of the tool body 1042, and is used for recording the test information of the product.

A fan 5 is also arranged on the side wall of the sectional transportation line 3 and used for heat dissipation.

The working principle of the invention is as follows:

1. Manually operating on a returning plate lifter 1, placing a product in a material frame 1041 of a test tool, and reading and writing information of an RFID chip 1043 of the tool plate by an RFID read-write head 109 arranged in a lifter conveying line;

2. the tooling plate 104/302 enters a double-layer conveying line 3, then the two-end plate returning lifter 1 is used for reciprocating between the upper layer conveying line and the lower layer conveying line of the tooling plate 104/302, and the tooling plate 104/302 is used for carrying out wireless real-time communication with a wireless transmitting and receiving end arranged on the double-layer conveying line 4 by a wireless transmitting and receiving end of the tooling plate 104/302, so that an upper computer can know the testing state of the tooling plate 104/302 in real time;

3. If the tooling plate is abnormal or the testing is finished, the tooling plate 104/302 can automatically cut off the power supply and report the testing condition to the upper computer, and the tooling plate 104/302 with which RFID information is installed can be specifically reported, the tooling plate 104/302 continues to flow until flowing to the upper end of the right-end plate returning lifter 1, the plate returning machine uses the RFID to read the RFID information of the tooling plate one by one until the tooling plate 104/302 with the RFID information to be processed is read, and the tooling plate 104/302 is manually processed.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, and all equivalent structural changes made by the description of the present invention and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the invention.

Claims (2)

1. An uninterrupted power-on wireless communication test device is characterized in that: the double-layer conveying line consists of a plurality of segmented conveying lines; the plate returning lifters are arranged at two ends of the double-layer conveying line and are used for feeding and discharging products; the electric cabinet is arranged on the side wall of the double-layer conveying line; the double-layer conveying line combined by a plurality of segmented conveying lines is matched with the return board lifter, so that continuous testing of multiple products can be performed;

The plate returning lifter comprises a first frame, an operation panel, a safety grating, a first tooling plate, a conveying line, an RFID read-write head, an alarm lamp, a guide rail and a first conductive rail, wherein the operation panel, the safety grating and the alarm lamp are all arranged at the top of the first frame; the first tooling plate, the conveying line, the RFID read-write head, the guide rail and the first conductor rail are all arranged in the first frame, and the first tooling plate is arranged in the middle of the first frame; the guide rail and the first conductor rail are both arranged on one side wall of the rack; the guide rail is arranged below the tooling plate and is used for moving the tooling plate I up and down; the conveying line is arranged at the bottom of the tooling plate and used for conveying the tooling plate to the next station, and the RFID read-write head is arranged at the bottom of the tooling plate and used for reading the test information;

The sectional transportation line comprises a second frame, a second tooling plate, a second conductive rail and a wireless receiving and transmitting end, wherein a partition board is arranged in the second frame to divide the second frame into an upper layer and a lower layer, and the second tooling plate, the second conductive rail and the wireless receiving and transmitting end are arranged on the upper layer and the lower layer of the second frame; the second conductive rail and the wireless receiving and transmitting end are both fixed on the inner side wall of the second rack; the second tooling plate is arranged in the middle of the second frame, and the position of the second tooling plate is consistent with the first tooling plate on the plate returning lifter and is used for receiving transported products;

the first tooling plate and the second tooling plate comprise a product material frame, a tooling body and an RFID chip, wherein the product material frame is arranged on the tooling body and used for placing a test product; the RFID chip is arranged at the bottom of the tool body and used for recording the test information of the product.

2. The uninterruptible power-on wireless communication test device of claim 1, wherein: and a fan is further arranged on the side wall of the sectional transportation line and used for radiating heat.