CN214845620U - Nuclear core plate aging testing device - Google Patents

Abstract

The utility model discloses a core plate aging test device, which comprises a rubber foot pad, a balancing weight, a base plate, a stand column, a mounting bracket, a tightening bolt, a stepless lamp tube, a main magnifier, an auxiliary magnifier and a clamping bracket, wherein the two sets of mounting brackets are matched with the tightening bolt for positioning and installation, the stepless lamp tube is integrally installed with the main magnifier and the auxiliary magnifier, the mounting bracket at the lower part is connected with the clamping bracket, the core plate aging test device is designed into a circuit local amplification detection test device suitable for a core plate, a supporting spring is sleeved between a motion splint and a rear splint, the motion splint is matched with the front splint for clamping and positioning the core plate, the main magnifier and the auxiliary magnifier are positioned and installed up and down, the auxiliary magnifier is connected and installed by using a drawing telescopic bracket and the mounting bracket, the position relation between the auxiliary magnifier and the main magnifier can be adjusted according to the observation requirement so as to achieve the best observation effect, and operating the detection equipment to carry out aging test on the local circuit of the core board.

Description

Nuclear core plate aging testing device

Technical Field

The utility model relates to a mainboard test field, especially a nuclear core plate aging testing device.

Background

In order to reduce development cost, reduce product development risk and shorten new product time to market, the embedded core board is widely applied to the fields of industry, traffic, medical treatment, instruments, energy, internet of things and the like. Need carry out the circuit to the mainboard plate body when electromagnetic compatibility problem appears in the complete machine product of embedded nuclear core plate and detect, traditional detection support is mostly fixed of clamp type, and the unstable emergence of location is rocked, influences the circuit and detects.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide a nuclear core plate aging testing device. In order to realize the purpose, the utility model adopts the following technical scheme:

the utility model provides a nuclear core plate aging testing device, includes rubber foot pad, balancing weight, base plate, stand, installing support, screws up bolt, stepless fluorescent tube, main magnifying glass, supplementary magnifying glass, presss from both sides tight frame, and two sets of installing supports and the cooperation location installation of screwing up the bolt, stepless fluorescent tube and main magnifying glass and supplementary magnifying glass integral type installation, the installing support connection installation of below press from both sides tight frame.

Preferably, the main magnifier and the auxiliary magnifier are positioned and installed up and down.

Preferably, the auxiliary magnifier is connected and installed with the installation support by using the drawing telescopic frame, and the position relation between the auxiliary magnifier and the main magnifier can be adjusted according to observation requirements.

Preferably, the clamping frame comprises front plate, motion splint, back splint, supporting spring and motion guide arm, and front plate, motion splint and back splint are installed through the motion guide arm order, and the cover is equipped with supporting spring between motion splint and the back splint, and the cooperation installation of motion splint and front plate is with the tight location of nuclear core plate clamp.

Compared with the prior art, the utility model has the advantages of it is following: the utility model provides a nuclear core plate aging testing device, this device design is applicable to the local enlarged detection testing arrangement of circuit of nuclear core plate, the cover is equipped with supporting spring between motion splint and the back splint, motion splint and front splint cooperation installation will press from both sides tight location of nuclear core plate, position location installation about main magnifying glass and supplementary magnifying glass are, supplementary magnifying glass uses the pull expansion bracket and is connected the installation with the installing support, can be according to the position relation of observing demand adjustment supplementary magnifying glass and main magnifying glass and then accomplish best observation effect, operation check out test set carries out aging testing to nuclear core plate local circuit.

Drawings

Fig. 1 is the utility model discloses core plate aging testing device's schematic structure diagram.

Fig. 2 is the utility model discloses nuclear core plate aging testing device's mounting structure schematic diagram.

Fig. 3 is a schematic view of the mounting structure of the auxiliary magnifier of the present invention.

Fig. 4 is a schematic structural view of the clamping frame of the present invention.

In the figure: 1. rubber foot pad, 2, balancing weight, 3, base plate, 4, stand, 5, installing support, 6, tightening bolt, 7, stepless lamp tube, 8, main magnifying glass, 9, auxiliary magnifying glass, 10, clamping frame, 11, pull expansion bracket, 12, front splint, 13, motion splint, 14, back splint, 15, supporting spring, 16, motion guide rod.

Detailed Description

The invention is explained in further detail below with reference to the figures and the embodiments.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, a nuclear core plate aging testing device, including rubber foot pad 1, balancing weight 2, base plate 3, stand 4, installing support 5, tightening bolt 6, stepless fluorescent tube 7, main magnifying glass 8, supplementary magnifying glass 9, clamping frame 10, use screw fastening to install four rubber foot pads 1 based on 3 four corners positions of base plate, base plate 3 rear side central point puts and installs stand 4 perpendicularly, two sets of installing support 5 and tightening bolt 6 cooperation location installation, stepless fluorescent tube 7 and main magnifying glass 8 and supplementary magnifying glass 9 integral type installation, installing clamping frame 10 is connected to installing support 5 of below.

The main magnifier 8 and the auxiliary magnifier 9 are positioned and installed at the upper and lower positions.

The auxiliary magnifier 9 is connected and installed with the installation support 5 through the drawing telescopic frame 11, and the position relation between the auxiliary magnifier 9 and the main magnifier 8 can be adjusted according to observation requirements.

The clamping frame 10 is composed of a front clamping plate 12, a moving clamping plate 13, a rear clamping plate 14, a supporting spring 15 and a moving guide rod 16, the front clamping plate 12, the moving clamping plate 13 and the rear clamping plate 14 are sequentially installed through the moving guide rod 16, the supporting spring 15 is sleeved between the moving clamping plate 13 and the rear clamping plate 14, and the core plate is clamped and positioned by the moving clamping plate 13 and the front clamping plate 12 in a matched mode.

The utility model discloses the theory of operation: the utility model provides a nuclear core plate aging testing device, this device design is applicable to the local enlarged detection testing arrangement of circuit of nuclear core plate, the cover is equipped with supporting spring between motion splint and the back splint, motion splint and front splint cooperation installation will press from both sides tight location of nuclear core plate, position location installation about main magnifying glass and supplementary magnifying glass are, supplementary magnifying glass uses the pull expansion bracket and is connected the installation with the installing support, can be according to the position relation of observing demand adjustment supplementary magnifying glass and main magnifying glass and then accomplish best observation effect, operation check out test set carries out aging testing to nuclear core plate local circuit.

The foregoing is a preferred embodiment of the present invention, and for those skilled in the art to understand the teaching of the present invention, the changes, modifications, replacements and variations to the embodiments will still fall within the protection scope of the present invention without departing from the principle and spirit of the present invention.

Claims (4)

1. The utility model provides a core plate aging testing device, a serial communication port, including rubber foot pad (1), balancing weight (2), base plate (3), stand (4), installing support (5), screw up bolt (6), stepless fluorescent tube (7), main magnifying glass (8), supplementary magnifying glass (9), press from both sides tight frame (10), use screw fastening to install four rubber foot pads (1) based on base plate (3) four corners position, stand (4) are installed perpendicularly to base plate (3) rear side central point position, two sets of installing support (5) and screw up bolt (6) cooperation location installation, stepless fluorescent tube (7) and main magnifying glass (8) and supplementary magnifying glass (9) integral type installation, installing clamp tight frame (10) are connected in installing support (5) of below.

2. The core board burn-in apparatus according to claim 1, wherein the main magnifier (8) and the auxiliary magnifier (9) are installed in upper and lower positions.

3. The core board aging test device of claim 1, wherein the auxiliary magnifier (9) is connected and mounted with the mounting bracket (5) by using a drawing telescopic frame (11), and the position relationship between the auxiliary magnifier (9) and the main magnifier (8) can be adjusted according to observation requirements.

4. The core board aging testing device of claim 1, wherein the clamping frame (10) is composed of a front clamping plate (12), a moving clamping plate (13), a rear clamping plate (14), a supporting spring (15) and a moving guide rod (16), the front clamping plate (12), the moving clamping plate (13) and the rear clamping plate (14) are sequentially installed through the moving guide rod (16), the supporting spring (15) is sleeved between the moving clamping plate (13) and the rear clamping plate (14), and the moving clamping plate (13) and the front clamping plate (12) are installed in a matched mode to clamp and position the core board.

Images