CN212965279U

CN212965279U - Automatically controlled board intelligent test equipment

Info

Publication number: CN212965279U
Application number: CN202021094967.8U
Authority: CN
Inventors: 李文学; 傅超军
Original assignee: Foshan Precision Measurement Automation Technology Co ltd
Current assignee: Foshan Precision Measurement Automation Technology Co ltd
Priority date: 2020-06-15
Filing date: 2020-06-15
Publication date: 2021-04-13
Anticipated expiration: 2030-06-15

Abstract

The utility model discloses an automatically controlled board intelligent test equipment, which comprises a frame, the industrial computer, test fixture, shading box, test pushing mechanism, camera and camera electric wire, wherein the frame includes the stand that sets up along the circumference interval, form the wire casing of vertical setting on the stand, form the first installation space of from top to bottom arranging in proper order in the frame, second installation space and third installation space, pressing mechanism both sides down in the test, be connected with the direction optical axis between the bottom of first installation space and the shading box, form the through-hole that runs through the direction optical axis along vertical direction in the direction optical axis, the camera sets up in shading box, camera electric wire one end is connected with the camera, the other end stretches into in the third installation space and is connected with the industrial computer electricity along the wire casing on the stand after passing the through-hole from bottom to top, the simple of arranging of its camera electric wire, Neatly, effectively guarantee test equipment's outward appearance.

Description

Automatically controlled board intelligent test equipment

Technical Field

The utility model relates to a test equipment technical field especially relates to an automatically controlled board intelligent test equipment.

Background

FCT is known in english as: the Functional Circuit Test is a Functional Test and specially refers to a Functional Test after an electric control board is electrified, and Test items comprise measurement of Functional parameters such as voltage, current, power factors, frequency, duty ratio, position determination, LED brightness and color identification, LCD character and color identification, voice identification, temperature measurement and control, pressure measurement and control, precise micro-motion control, FLASH and EEPROM online burning and the like. The method is a testing method for providing simulated operating environments (excitation and load) for a Test target electric control board (UUT: Unit Under Test) to enable the electric control board to work in various design states, and accordingly obtaining parameters of each state to verify the function of the electric control board. In short, the electric control board is loaded with proper excitation and load, and whether the output end response of the electric control board meets the design requirement is measured.

At present, the circuit arrangement of the electric control board testing equipment is relatively complex, particularly, a camera wire, a testing connecting wire and the like are not convenient for the inspection and the maintenance of maintenance personnel, and meanwhile, part of the circuit is exposed outside the electric control board testing equipment, so that the appearance of the electric control board testing equipment is influenced, and the product grade and the market competitiveness of products are reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the problems that exist among the current correlation technique at least to a certain extent, for this reason, the utility model provides an automatically controlled board intelligent test equipment, arranging of its camera electric wire is simple, clean and tidy, effectively guarantees test equipment's outward appearance.

The above purpose is realized by the following technical scheme:

an intelligent test device for an electric control board comprises a rack, an industrial computer, a test fixture, a shading box, a test pressing mechanism, a camera and a camera wire, wherein the rack comprises upright posts arranged at intervals along the circumferential direction, a wire groove is formed on the upright posts in a vertical arrangement, a first installation space, a second installation space and a third installation space are formed in the rack from top to bottom in sequence, the industrial computer is arranged in the third installation space, the test fixture and the shading box are arranged in the second installation space, the shading box is positioned above the test fixture, the test pressing mechanism is arranged in the first installation space, the output end of the test pressing mechanism extends into the second installation space and is connected with the shading box, guide optical axes are connected between the two sides of the test pressing mechanism, the bottom of the first installation space and the shading box, form in the direction optical axis and run through along vertical direction the through-hole of direction optical axis, the camera set up in the shading box, camera electric wire one end with the camera is connected, and the other end passes from bottom to top stretch into behind the through-hole stretch into follow behind the first installation space again wire casing on the stand stretches into in the third installation space and with the industry computer electricity is connected.

In some embodiments, a fourth installation space is disposed in the third installation space and above the industrial computer, and a signal acquisition circuit board is disposed in the fourth installation space and electrically connected to the test fixture and the industrial computer, respectively.

In some embodiments, a first wire passing hole is formed in the bottom of the second installation space below the test fixture, a second wire passing hole is formed in the top of the fourth installation space, and a test connection wire of the test fixture sequentially passes through the first wire passing hole and the second wire passing hole and then extends into the fourth installation space and is electrically connected with the signal acquisition circuit board.

In some embodiments, the test pressing mechanism includes an air cylinder, an oil-water filter is disposed in the third installation space, the oil-water filter is connected to an air pipe, and the other end of the air pipe extends into the first installation space along a wire casing on the upright and is connected to the air cylinder.

In some embodiments, a wire row is disposed in the first installation space, and a cylinder control wire of the cylinder and the camera wire are respectively connected with the wire row and then extend into the third installation space along a wire slot on the upright post and are electrically connected with the industrial computer.

In some embodiments, an electromagnetic valve is disposed in the first installation space, the electromagnetic valve is disposed on the air pipe, and an electromagnetic valve wire of the electromagnetic valve is connected with the wire row and then extends into the third installation space along a wire slot on the upright post and is electrically connected with the industrial computer.

In some embodiments, the stud is made of an aluminum alloy profile, and the wire grooves are formed on four outer surfaces of the aluminum alloy profile, respectively.

In some embodiments, a display is hinged to one side of the housing.

Compared with the prior art, the utility model discloses an at least including following beneficial effect:

1. the utility model provides an automatically controlled board intelligent test equipment, arranging of its camera electric wire is simple, clean and tidy, effectively guarantees test equipment's outward appearance, does benefit to the market competition who improves user experience degree and product.

Drawings

FIG. 1 is a schematic perspective view of a test apparatus in an embodiment;

FIG. 2 is a structural sectional view of a test apparatus in the example;

FIG. 3 is a top view of the test apparatus of the example.

Detailed Description

The present invention is illustrated by the following examples, but the present invention is not limited to these examples. To the embodiment of the present invention, modify or replace some technical features, without departing from the spirit of the present invention, it should be covered in the technical solution scope of the present invention.

The first embodiment is as follows: as shown in fig. 1, fig. 2 and fig. 3, the present embodiment provides an intelligent testing apparatus for an electronic control board, which includes a rack 1, an industrial computer 2, a testing fixture 3, a light shielding box 4, a testing pressing mechanism 5, a camera 6 and a camera wire 7, wherein the rack 1 includes pillars 11 arranged at intervals along a circumferential direction, a wire slot 110 vertically arranged is formed on the pillars 11, a first installation space 101, a second installation space 102 and a third installation space 103 sequentially arranged from top to bottom are formed in the rack 1, the industrial computer 2 is arranged in the third installation space 103, the testing fixture 3 and the light shielding box 4 are arranged in the second installation space 102, the light shielding box 4 is located above the testing fixture 3, the testing pressing mechanism 5 is arranged in the first installation space 101, and an output end of the testing pressing mechanism 5 extends into the second installation space 102 to be connected with the

light shielding box

4, 5 both sides of test hold-down mechanism the bottom of first installation space 101 with be connected with direction optical axis 8 between the light-shielding box 4 form in the direction optical axis 8 and run through along vertical direction the through-hole 80 of direction optical axis 8, camera 6 set up in the light-shielding box 4, 7 one end of camera electric wire with camera 6 is connected, and the other end is passed from bottom to top stretch into behind the through-hole 80 follow again behind the first installation space 101 wire casing 110 on the stand 11 stretches into in the third installation space 103 and with industry computer 2 electricity is connected.

This embodiment provides an automatically controlled board intelligent test equipment, and arranging of its camera electric wire is simple, clean and tidy, effectively guarantees test equipment's outward appearance, does benefit to the market competitiveness that improves user experience degree and product.

Specifically, hide camera electric wire 7 in the through-hole 80 of direction optical axis 8 and the wire casing 110 of stand 11 the inside to avoid camera electric wire 7 to expose in the test equipment outside, effectively guarantee test equipment's outward appearance, can ensure that camera electric wire 7 arranges in test equipment the inside simply, neatly simultaneously, the maintenance personal's of being convenient for inspection, maintenance.

Preferably, a fourth installation space 104 is arranged in the third installation space 103 and above the industrial computer 2, a signal acquisition circuit board 9 is arranged in the fourth installation space 104, and the signal acquisition circuit board 9 is electrically connected with the test fixture 3 and the industrial computer 2 respectively. The signal acquisition circuit board 9 is convenient for collect the test signal of the test fixture 3, and the collected test signal is sent to the industrial computer 2 for processing, so that the stability and reliability of the test can be ensured to a certain extent.

More preferably, a first wire passing hole 1020 is arranged below the test fixture 3 and at the bottom of the second installation space 102, a second wire passing hole 1040 is arranged at the top of the fourth installation space 104, and a test connection wire of the test fixture 3 sequentially passes through the first wire passing hole 1020 and the second wire passing hole 1040 and then extends into the fourth installation space 104 and is electrically connected with the signal acquisition circuit board 9. Its simple structure, reasonable in design, ingenious can avoid from this that the test connecting wire exposes in the test equipment outside, effectively guarantees test equipment's outward appearance, can ensure simultaneously that the test connecting wire arranges in test equipment simple, clean and tidy, the maintenance personal's of being convenient for inspection, maintenance. In addition, the data connecting line between signal acquisition circuit board 9 and the industrial computer 2 also set up in third installation space 103 with in the fourth installation space 104, with this can avoid the data connecting line between signal acquisition circuit board 9 and the industrial computer 2 exposes in the test equipment outside, effectively guarantees test equipment's outward appearance, can ensure simultaneously that the data connecting line arranges in test equipment simply, neatly, the inspection, the maintenance of the maintenance personal of being convenient for.

In this embodiment, the test pressing mechanism 5 includes an air cylinder 51, an oil-water filter 10 is disposed in the third installation space 103, the oil-water filter 10 is connected to an air pipe 12, and the other end of the air pipe 12 extends into the first installation space 101 along a wire casing 110 on the upright post 11 and is connected to the air cylinder 51. In the existing testing equipment, the oil-water filter 10 is arranged at the top in the testing equipment, but because the oil-water filter 10 is easy to leak in the working process, other electronic components in the testing equipment are easy to be damaged due to the leakage of water, and the working stability and reliability of the testing equipment are influenced. In the test equipment of the embodiment, the oil-water filter 10 is arranged in the third mounting space 103 at the bottommost layer in the rack 1, so that the problem that other electronic components in the test equipment are easily damaged due to water leakage and infiltration of the oil-water filter 10 can be avoided, and the working stability and reliability of the test equipment can be improved to a certain extent. In addition, the air pipe 12 connected between the oil-water filter 10 and the air cylinder 51 is hidden in the wire casing 110 on the upright post 11, so that the air pipe 12 can be prevented from being exposed outside the test equipment, the appearance of the test equipment is effectively ensured, and meanwhile, the air pipe 12 can be ensured to be simply and neatly arranged inside the test equipment, and is convenient for the inspection and maintenance of maintenance personnel.

Preferably, a wire row 13 is arranged in the first installation space 101, and an air cylinder control wire of the air cylinder 51 and the camera wire 7 are respectively connected with the wire row 13 and then extend into the third installation space 103 along the wire groove 110 on the upright post 11 and are electrically connected with the industrial computer 2.

In this embodiment, the electromagnetic valve 14 is disposed in the first installation space 101, the electromagnetic valve 14 is disposed on the air pipe 12, and an electromagnetic valve line of the electromagnetic valve 14 is connected to the line bank 13 and then extends into the third installation space 103 along the line slot 110 on the upright post 11 and is electrically connected to the industrial computer 2.

Preferably, the upright post 11 is made of an aluminum alloy section, the wire grooves 110 are formed on four outer surfaces of the aluminum alloy section respectively, the wire grooves are simple in structure, reasonable and ingenious in design, and the strip-shaped grooves formed on the outer surfaces of the aluminum alloy section are used as the wire grooves 110, so that the cost of a product is reduced.

More preferably, frame 1 one side articulates there is display 15, and the display 15 through setting up is convenient for the user directly perceived clear master test equipment's operating condition, does benefit to improving user's operation experience.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims

1. The utility model provides an automatically controlled board intelligent test equipment, its characterized in that, includes frame (1), industrial computer (2), test fixture (3), lightproof box (4), test push down mechanism (5), camera (6) and camera electric wire (7), wherein frame (1) includes stand (11) that sets up along circumference interval form wire casing (110) of vertical setting on stand (11) form first installation space (101), second installation space (102) and third installation space (103) that from top to bottom arrange in proper order in frame (1), industrial computer (2) set up in third installation space (103), test fixture (3) with lightproof box (4) set up in second installation space (102) and lightproof box (4) are located the top of test fixture (3), test push down mechanism (5) set up in first installation space (101) and the test push down mechanism (5) is pressed down The output of mechanism (5) stretches into in second installation space (102) with light-proof box (4) link together the test pushes down mechanism (5) both sides the bottom of first installation space (101) with be connected with direction optical axis (8) between light-proof box (4) form in direction optical axis (8) and run through along vertical direction through-hole (80) of direction optical axis (8), camera (6) set up in light-proof box (4), camera electric wire (7) one end with camera (6) are connected, and the other end is passed from bottom to top stretch into behind through-hole (80) stretch into follow again behind first installation space (101) wire casing (110) on stand (11) stretch into in third installation space (103) and with industrial computer (2) electricity is connected.

2. The intelligent test equipment for the electric control board according to claim 1, wherein a fourth installation space (104) is arranged in the third installation space (103) and above the industrial computer (2), a signal acquisition circuit board (9) is arranged in the fourth installation space (104), and the signal acquisition circuit board (9) is electrically connected with the test fixture (3) and the industrial computer (2) respectively.

3. The intelligent test equipment for the electric control board according to claim 2, wherein a first wire passing hole (1020) is arranged below the test fixture (3) and at the bottom of the second installation space (102), a second wire passing hole (1040) is arranged at the top of the fourth installation space (104), and a test connection wire of the test fixture (3) sequentially passes through the first wire passing hole (1020) and the second wire passing hole (1040) and then extends into the fourth installation space (104) and is electrically connected with the signal acquisition circuit board (9).

4. The intelligent test equipment for the electric control board according to claim 1, 2 or 3, wherein the test pressing mechanism (5) comprises an air cylinder (51), an oil-water filter (10) is arranged in the third installation space (103), the oil-water filter (10) is connected with an air pipe (12), and the other end of the air pipe (12) extends into the first installation space (101) along a wire casing (110) on the upright post (11) and is connected with the air cylinder (51).

5. The intelligent test equipment for the electric control board according to claim 4, wherein a line bank (13) is arranged in the first installation space (101), and an air cylinder control line of the air cylinder (51) and the camera wire (7) are respectively connected with the line bank (13) and then extend into the third installation space (103) along a wire groove (110) on the upright post (11) and are electrically connected with the industrial computer (2).

6. The intelligent test equipment for the electric control board according to claim 5, wherein an electromagnetic valve (14) is arranged in the first installation space (101), the electromagnetic valve (14) is arranged on the air pipe (12), and an electromagnetic valve wire of the electromagnetic valve (14) is connected with the wire row (13) and then extends into the third installation space (103) along a wire groove (110) on the upright post (11) and is electrically connected with the industrial computer (2).

7. An intelligent test device for an electric control board according to claim 1, 2 or 3, characterized in that the upright (11) is made of an aluminum alloy profile, and the wire grooves (110) are respectively formed on four outer surfaces of the aluminum alloy profile.

8. An intelligent test device for an electronic control panel according to claim 1, 2 or 3, characterized in that a display (15) is hinged to one side of the frame (1).