CN216485290U - Electromagnetic compatibility detection device of artificial intelligence thing networking - Google Patents

Abstract

The utility model relates to the technical field of electromagnetic compatibility detection, and particularly discloses an electromagnetic compatibility detection device of an artificial intelligence Internet of things, wherein a first groove is formed in the middle of a fixed block, fixed plates are symmetrically arranged on the left side and the right side of the first groove, telescopic rods are arranged on the outer sides of the fixed plates, and an object to be detected is arranged in the first groove; according to the utility model, the first groove is formed in the middle of the fixing block, the fixing plates are symmetrically arranged on the left side and the right side of the first groove, the telescopic rod is arranged on the outer side of the fixing plate, the object to be detected is arranged in the first groove, the object to be detected is placed in the first groove in the process of electromagnetic compatibility detection, and the telescopic length of the telescopic rod is adjusted, so that the object to be detected is well fixed by the fixing plate, the object to be detected is ensured not to relatively move with the base in the detection process, and the accuracy of the electromagnetic compatibility detection result is improved.

Description

Electromagnetic compatibility detection device of artificial intelligence thing networking

Technical Field

The utility model relates to the technical field of electromagnetic compatibility detection, in particular to an electromagnetic compatibility detection device of an artificial intelligence Internet of things.

Background

On the equipment of artificial intelligence thing networking, all will be equipped with the circuit board basically, the circuit board is at the in-process of work, exists electric current, data, signal etc. and reaches the transmission. Electromagnetic compatibility testing is required to ensure that the level of radiated radiation from the circuit board meets requirements. When a radiation emission test in an electromagnetic compatibility test is carried out, a tested device is placed on a rotary table, an antenna receives electromagnetic waves emitted by the tested device, the antenna needs to be raised to four meters from one meter, the rotary table rotates for one circle per liter of meter, and the antenna needs to be tested in the vertical polarization direction and the horizontal polarization direction.

An automatic electromagnetic compatibility detection device of cable of prior art development, like an automatic electromagnetic compatibility detection device of cable of CN214201649U, the utility model discloses a probe fixing device drives current monitoring pincers and removes along linear guide, can make current monitoring pincers and cable keep fixed distance to scan, realize the accurate positioning of current monitoring pincers to the cable, the biggest part of final definite electromagnetic wave transmission, but it has following weak point in the use, do not set up the fixing device who waits to detect the object, at the in-process that carries out the compatible detection of electric capacity, it easily takes place relative movement on the base to detect the object, the testing result that leads to electromagnetic compatibility is inaccurate.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an electromagnetic compatibility detection device of an artificial intelligence internet of things, and aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides an electromagnetic compatibility detection device of artificial intelligence thing networking, includes base, fixed plate and waits to detect the object, the intermediate position of base top is provided with the fixed block, and has seted up first recess at the intermediate position of fixed block, the left and right sides symmetry of first recess is provided with the fixed plate, the outside of fixed plate is provided with the telescopic link, the tip fixed connection of telescopic link is on first recess, the inboard of fixed plate is hugged closely and is provided with the rubber pad, the object is waited to detect to inside being provided with of first recess, the inboard of rubber pad is hugged closely on waiting to detect the wall body of object.

As a further scheme of the present invention, a probe holder is disposed above the object to be detected, a second groove is disposed in the middle of the front surface of the probe holder, and a detection probe is disposed inside the second groove.

As a still further scheme of the present invention, a first distance sensor is disposed at a middle position of a left sidewall body of the probe fixator, a second distance sensor is disposed at a middle position of a lower surface of the probe fixator, a third distance sensor is disposed at a middle position of a front side of the detection probe, a microprocessor is disposed at a middle position of a front side of the base, a spectrum analyzer is disposed at a left side of the microprocessor, and a display screen is disposed at a right side of the microprocessor.

As a further scheme of the present invention, fixing seats are symmetrically disposed on both sides of the upper portion of the base, a third groove is disposed on the inner side of each fixing seat, a first sliding block is disposed inside the third groove, a first lead screw is disposed inside the first sliding block, and a first motor is disposed on the front side of the first lead screw.

As a further scheme of the utility model, a support seat is fixedly installed between the left and right first slide blocks, a second slide block is arranged above the support seat, a second screw rod is arranged inside the second slide block, and a second motor is arranged on the left side of the second screw rod.

As a further scheme of the present invention, a base is disposed on the front side of the second slider, a third slider is disposed on the front side of the base, a third lead screw is disposed inside the third slider, a third motor is disposed above the third lead screw, and a probe fixer is fixedly mounted on the front side of the third slider.

As a further scheme of the present invention, the four corners of the bottom of the base are all provided with universal wheels, and the top of each universal wheel is provided with a fixing rod, and the top of each fixing rod is fixedly connected to the base.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the first groove is formed in the middle of the fixing block, the fixing plates are symmetrically arranged on the left side and the right side of the first groove, the telescopic rod is arranged on the outer side of the fixing plate, the object to be detected is arranged in the first groove, the object to be detected is placed in the first groove in the process of electromagnetic compatibility detection, and the telescopic length of the telescopic rod is adjusted, so that the object to be detected is well fixed by the fixing plate, the object to be detected is ensured not to relatively move with the base in the detection process, and the accuracy of the electromagnetic compatibility detection result is improved.

Drawings

FIG. 1 is a schematic structural diagram of an electromagnetic compatibility detection device of an artificial intelligence Internet of things;

FIG. 2 is a schematic view of the internal structure of the fixing block;

FIG. 3 is a front view of the probe holder;

fig. 4 is a schematic view of the internal structure of the fixing base.

In the figure: 1. a base; 101. a fixed block; 102. a first groove; 2. a fixing plate; 201. a telescopic rod; 202. a rubber pad; 3. an object to be detected; 4. a probe holder; 401. a second groove; 402. a first distance sensor; 403. a second distance sensor; 5. detecting a probe; 501. a third distance sensor; 6. a microprocessor; 601. a spectrum analyzer; 602. a display screen; 7. a fixed seat; 701. a third groove; 702. a first slider; 703. a first lead screw; 704. a first motor; 8. a supporting seat; 801. a second slider; 802. a second lead screw; 803. a second motor; 9. a base; 901. a third slider; 902. a third screw rod; 903. a third motor; 10. a universal wheel; 11. and (5) fixing the rod.

Detailed Description

Referring to fig. 1 to 4, in the embodiment of the utility model, an electromagnetic compatibility detection device of an artificial intelligence internet of things comprises a base 1, a fixing plate 2 and an object 3 to be detected, wherein a fixing block 101 is arranged at a middle position above the base 1, a first groove 102 is arranged at a middle position of the fixing block 101, the fixing plate 2 is symmetrically arranged at the left side and the right side of the first groove 102, an expansion link 201 is arranged at the outer side of the fixing plate 2, the end of the expansion link 201 is fixedly connected to the first groove 102, a rubber pad 202 is tightly attached to the inner side of the fixing plate 2, during the fixing process of the object 3 to be detected, the fixing plate 2 can be ensured not to clamp the shell of the object 3 to be detected through the rubber pad 202, the subsequent use of the object 3 to be detected is facilitated, the object 3 to be detected is arranged inside the first groove 102, the inner side of the rubber pad 202 is tightly attached to the wall body of the object 3 to be detected, in the process of performing electromagnetic compatibility detection, the object 3 to be detected is placed in the first groove 102, and the telescopic length of the telescopic rod 201 is adjusted, so that the object 3 to be detected is fixed by the fixing plate 2, it is ensured that in the detection process, the object 3 to be detected does not move relative to the base 1, and the accuracy of the electromagnetic compatibility detection result is improved.

In fig. 1 and 3, a probe holder 4 is disposed above an object 3 to be detected, a second groove 401 is disposed in the middle of the front surface of the probe holder 4, and a detection probe 5 is disposed inside the second groove 401.

In fig. 1 and 3, a first distance sensor 402 is disposed at the middle position of the left side wall body of the probe holder 4, a second distance sensor 403 is disposed at the middle position of the lower surface of the probe holder 4, a third distance sensor 501 is disposed at the middle position of the front side of the detection probe 5, a microprocessor 6 is disposed at the middle position of the front side of the base 1, a spectrum analyzer 601 is disposed at the left side of the microprocessor 6, a display screen 602 is disposed at the right side of the microprocessor 6, the detection probe 5 and the spectrum analyzer 601 are electrically connected together, the first distance sensor 402, the second distance sensor 403, the third distance sensor 501 and the display screen 602 are electrically connected together with the microprocessor 6, the first distance sensor 402, the second distance sensor 403 and the third distance sensor 501 are all FTWR80, the microprocessor 6 is STC15F2K60S2, in the process of performing electromagnetic compatibility detection on a band detection object, after accurate positioning, the horizontal distance, the vertical height and the front-back distance of the detection probe 5 are measured through the first distance sensor 402, the second distance sensor 403 and the third distance sensor 501, and the measurement result is transmitted to the microprocessor 6, the microprocessor 6 analyzes and processes the measurement result, and the processed measurement result is displayed through the display screen 602, so that the detection personnel can conveniently record the relative position information of the detection probe 5 and the object 3 to be detected.

In fig. 1 and 4, the fixing bases 7 are symmetrically arranged on two sides of the base 1, a third groove 701 is formed in the inner side of each fixing base 7, a first sliding block 702 is arranged in each third groove 701, a first screw rod 703 is arranged in each first sliding block 702, and a first motor 704 is arranged on the front side of each first screw rod 703.

In fig. 1, a support base 8 is fixedly mounted between two left and right first sliders 702, a second slider 801 is disposed above the support base 8, a second lead screw 802 is disposed inside the second slider 801, and a second motor 803 is disposed on the left side of the second lead screw 802.

In fig. 1, a base 9 is arranged on the front side of a second slider 801, a third slider 901 is arranged on the front side of the base 9, a third screw 902 is arranged inside the third slider 901, a third motor 903 is arranged above the third screw 902, a probe holder 4 is fixedly mounted on the front side of the third slider 901, and in the process of performing electromagnetic compatibility detection on an object 3 to be detected, the first motor 704, the second motor 803 and the third motor 903 are controlled to rotate simultaneously, so that the first slider 702 moves back and forth along the axial direction of the first screw 703, the second slider 801 moves left and right along the axial direction of the second screw 802, and the third slider 901 moves up and down along the axial direction holder of the third screw 902, so that the probe 5 is driven by the probe 4 to move arbitrarily in a space above the object 3 to be detected, and under the mutual matching of the probe 5 and a spectrum analyzer 601, the detection probe 5 can accurately position the object 3 to be detected, and finally the module with the maximum transmission is determined.

In fig. 1, four corners of base 1 bottom all are provided with universal wheel 10, and are provided with dead lever 11 at the top of universal wheel 10, and the top fixed connection of dead lever 11 can enough be convenient for the removal of whole device through universal wheel 10 at base 1, can reliably fix again, simple structure facilitates the use.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to or changed within the scope of the present invention.

Claims (7)

1. The utility model provides an electromagnetic compatibility detection device of artificial intelligence thing networking, includes base (1), fixed plate (2) and waits to detect object (3), its characterized in that, the intermediate position of base (1) top is provided with fixed block (101), and has seted up first recess (102) at the intermediate position of fixed block (101), the left and right sides symmetry of first recess (102) is provided with fixed plate (2), the outside of fixed plate (2) is provided with telescopic link (201), the tip fixed connection of telescopic link (201) is on first recess (102), the inboard of fixed plate (2) is hugged closely and is provided with rubber pad (202), first recess (102) inside is provided with and waits to detect object (3).

2. The electromagnetic compatibility detection device of the artificial intelligence thing networking of claim 1, characterized in that, the top of waiting to detect object (3) is provided with probe fixer (4), and has seted up second recess (401) in the intermediate position of probe fixer (4) front surface, the inside of second recess (401) is provided with test probe (5).

3. The electromagnetic compatibility detection device of the IOT (Internet of things) with artificial intelligence as set forth in claim 2, wherein a first distance sensor (402) is arranged at the middle position of the left side wall body of the probe holder (4), a second distance sensor (403) is arranged at the middle position of the lower surface of the probe holder (4), a third distance sensor (501) is arranged at the middle position of the front side of the detection probe (5), a microprocessor (6) is arranged at the middle position of the front side of the base (1), a spectrum analyzer (601) is arranged at the left side of the microprocessor (6), and a display screen (602) is arranged at the right side of the microprocessor (6).

4. The electromagnetic compatibility detection device of the artificial intelligence thing networking of claim 1, characterized in that, the effect bilateral symmetry above base (1) is provided with fixing base (7), the inboard of fixing base (7) is seted up third recess (701), and is provided with first slider (702) in the inside of third recess (701), the inside of first slider (702) sets up first lead screw (703), the front side of first lead screw (703) is provided with first motor (704).

5. The electromagnetic compatibility detection device of the IOT (Internet of things) with artificial intelligence as set forth in claim 4, characterized in that a support base (8) is fixedly installed between the left and right first sliding blocks (702), a second sliding block (801) is arranged above the support base (8), a second screw (802) is arranged inside the second sliding block (801), and a second motor (803) is arranged on the left side of the second screw (802).

6. The electromagnetic compatibility detection apparatus of the artificial intelligence thing networking of claim 5, characterized in that, the front side of the second slider (801) is provided with a base (9), the front side of the base (9) is provided with a third slider (901), the inside of the third slider (901) is provided with a third lead screw (902), a third motor (903) is arranged above the third lead screw (902), and the front side of the third slider (901) is fixedly provided with a probe fixer (4).

7. The apparatus for detecting the electromagnetic compatibility of the IOT according to the claim 1, wherein the four corners of the bottom of the base (1) are provided with universal wheels (10), and the top of the universal wheels (10) is provided with a fixing rod (11).

Images