A hard disk testing machine with split-screen display and synchronous control
By introducing split-screen display and synchronous control into the hard disk tester, the tester achieves high space utilization, small size, and portability, and can display multiple sets of hard disk status information simultaneously, thus solving the problem of low space utilization in existing hard disk testers.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGZHOU KEXING LIGHTING TECHNOLOGY CO LTD
- Filing Date
- 2025-09-04
- Publication Date
- 2026-06-30
Smart Images

Figure CN224436879U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of computer testing equipment technology, specifically to a hard disk testing machine with split-screen display and synchronous control. Background Technology
[0002] Hard drives are the primary storage devices in computers, used to store large amounts of data. The vast majority of data in computers and other electronic products is stored on hard drives and needs to be retrieved from them. With the widespread use of computers and other electronic products, hard drives play a crucial role in storage. To protect data from corruption, hard drive maintenance is essential, leading to the development of hard drive testing machines for batch testing. However, existing hard drive testing machines typically use a one-to-one correspondence between hard drive test ports and displays. This means that four hard drive test ports require four displays, resulting in a larger machine size, lower space utilization, and inconvenience for portability, thus presenting certain limitations. Utility Model Content
[0003] The technical problem to be solved by this utility model is to overcome the shortcomings of the existing technology and provide a hard disk tester with high space utilization, small size, small footprint, and easy portability, featuring split-screen display and synchronous control.
[0004] To solve the above-mentioned technical problems, the present invention adopts the following technical solution:
[0005] A hard drive testing machine with split-screen display and synchronous control includes a chassis and a power module. The chassis has a hard drive testing area, a display area, and an operation area. A processor module is located inside the chassis. The hard drive testing area includes N sets of hard drive slots. Each set of hard drive slots is equipped with a hard drive power supply interface, a computer motherboard, a SATA interface, and a USB flash drive system. The hard drive power supply interface is electrically connected to the power module, and the computer motherboard is electrically connected to the processor module.
[0006] The display area includes M sets of display screens and M sets of screen synchronizers. The display screens and the screen synchronizers are electrically connected in a one-to-one correspondence. The screen synchronizers are electrically connected to the processor module. The processor module sends signals from n sets of computer motherboards to one set of screen synchronizers. The screen synchronizers send signals from n sets of computer motherboards to one set of display screens, so as to realize the split display of the status information of n sets of test hard drives on one set of display screens.
[0007] The operating area includes N sets of computer motherboard power buttons, a keyboard, and a mouse, and the computer motherboard power buttons, the keyboard, and the mouse are electrically connected to the processor module.
[0008] As a further improvement to the above technical solution:
[0009] The casing is equipped with a power switch, a display switch, and a USB interface.
[0010] The casing has a drawer, and the keyboard and mouse are located inside the drawer.
[0011] The housing is equipped with a cooling fan, which is electrically connected to the power module.
[0012] The number of hard drive slots N is set to 8, the number of displays and split-screen synchronizers M is set to 2, and the number of displays n that split-screen test hard drive status information on the displays is set to 4.
[0013] Compared with the prior art, the advantages of this utility model are:
[0014] This utility model discloses a hard drive testing machine with split-screen display and synchronous control, comprising a casing with a hard drive testing area, a display area, and an operation area. The hard drive testing area has N sets (N=8) of hard drive slots, enabling simultaneous testing of N sets of hard drives. The display area has M sets (M=2) of displays and M sets of split-screen synchronizers, allowing simultaneous split-screen display of status information for n sets (n=4) of test hard drives on one display. The operation area has N sets of computer motherboard power switches, a keyboard, and a mouse. The computer motherboard power switches can be used to select the corresponding hard drive power supply interface and computer motherboard. The keyboard and mouse can be used to control and view hard drive status information. This hard drive testing machine with split-screen display and synchronous control, by setting up a split-screen synchronizer, can achieve simultaneous split-screen display of status information for multiple sets of test hard drives on one display, replacing the existing one-to-one correspondence between hard drive testing ports and displays. It has the advantages of high space utilization, small size, small footprint, and portability. Attached Figure Description
[0015] Figure 1 A schematic diagram of a hard drive testing machine for split-screen display and synchronous control.
[0016] Figure 2 A front view of the hard drive test machine with split-screen display and synchronous control.
[0017] Figure 3 System block diagram of a hard drive testing machine for split-screen display and synchronous control.
[0018] Figure 4 This is a schematic diagram of the interface in a four-screen split-view mode.
[0019] Figure 5 This is a schematic diagram of an interface where the display area is divided into one large and three small sections.
[0020] Legend:
[0021] 1. Chassis; 2. Power module; 3. Hard drive test area; 301. Hard drive slot; 302. Hard drive power supply interface; 303. Computer motherboard; 304. USB flash drive system; 4. Display area; 401. Display screen; 402. Split-screen synchronizer; 5. Operation area; 501. Computer motherboard power switch; 502. Keyboard; 503. Mouse; 6. Processor module; 7. Power switch; 8. Display screen switch; 9. Drawer; 10. Cooling fan; 11. USB interface. Detailed Implementation
[0022] The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.
[0023] like Figures 1 to 5As shown, the hard disk testing machine with split-screen display synchronization control in this embodiment includes a casing 1 and a power module 2. The casing 1 has a hard disk testing area 3, a display area 4, and an operation area 5. The casing 1 contains a processor module 6. The hard disk testing area 3 includes N sets of hard disk connector slots 301. Each set of hard disk connector slots 301 is equipped with a hard disk power supply interface 302, a computer motherboard 303, a SATA interface, and a USB flash drive system 304. The hard disk power supply interface 302 is electrically connected to the power module 2, and the computer motherboard 303 is electrically connected to the processor module 6. The display area 4 includes M sets of displays 401 and M sets of split-screen synchronizers 402. The displays 4... 01 corresponds one-to-one with the split-screen synchronizer 402 and is electrically connected. The split-screen synchronizer 402 is electrically connected to the processor module 6. The processor module 6 sends the signals of n sets of computer motherboards 303 to one set of split-screen synchronizers 402. The one set of split-screen synchronizers 402 sends the signals of n sets of computer motherboards 303 to one set of display screens 401, so as to realize the split-screen display of the status information of n sets of computer motherboards 303 on one set of display screens 401. The operation area 5 includes N sets of computer motherboard power buttons 501, keyboard 502 and mouse 503. The computer motherboard power buttons 501, keyboard 502 and mouse 503 are electrically connected to the processor module 6 respectively. The hard drive testing machine with split-screen display and synchronous control includes a casing 1, which has a hard drive testing area 3, a display area 4, and an operation area 5. The hard drive testing area 3 has N sets (N=8) of hard drive insertion slots 301, which can simultaneously test N sets of hard drives. The display area 4 has M sets (M=2) of display screens 401 and M sets of split-screen synchronizers 402, so that the status information of n sets (n=4) of test hard drives can be displayed simultaneously on one set of display screens 401. The operation area 5 has N sets of computer motherboard power buttons 501, keyboard 502, and mouse 503. The switch button 501 can select the corresponding hard drive power supply interface 302 and computer motherboard 303 one by one. The hard drive status information can be viewed by controlling the keyboard 502 and mouse 503. This hard drive test machine with split-screen display and synchronous control can realize the simultaneous split-screen display of the status information of multiple test hard drives on one display screen 401 by setting the split-screen synchronizer 402. It replaces the form of one-to-one correspondence between hard drive test ports and display screens in the existing technology. It has the advantages of high space utilization, small size, small space occupation, and easy portability.
[0024] It should be noted that, in this embodiment, the computer motherboard 303 is equipped with a SATA interface and a USB flash drive system 304. The hard drive to be tested is inserted into the hard drive slot 301, and the hard drive power supply interface 302 is electrically connected to the hard drive to be tested to supply power to the hard drive. The computer motherboard 303 is electrically connected to the hard drive to be tested through the SATA interface to read information on the hard drive. The USB flash drive system 304 is mainly used to boot the computer motherboard 303, so that the computer motherboard 303 drives the hard drive to work, thereby achieving the purpose of testing the hard drive.
[0025] In this embodiment, the casing 1 is equipped with a power switch 7, a display switch 8, and a USB interface 11. The operator can turn the hard drive tester on or off using the power switch 7, and can turn the display screen 401 on or off using the display switch 8. For example, if no one is on duty at night, the operator can turn off the display screen 401 before leaving get off work using the display switch 8, while the processor module 6 remains working to reduce power consumption. The operator can also connect to external devices through the USB interface 11 to improve ease of use.
[0026] In this embodiment, the housing 1 is provided with a drawer 9, and the keyboard 502 and mouse 503 are disposed in the drawer 9. The drawer 9 can be put into the housing 1 or pulled out from the housing 1. External devices such as the keyboard 502 and mouse 503 can be stored in the drawer 9, which avoids the external devices from being scattered and lost, and is convenient.
[0027] In this embodiment, a cooling fan 10 is provided inside the housing 1. The cooling fan 10 is electrically connected to the power module 2. The cooling fan 10 can dissipate heat from the electronic components inside the housing 1 to maintain stable operation of the equipment.
[0028] like Figure 4 and Figure 5As shown, preferably, the number N of hard drive slots 301 is set to 8 groups, the number M of displays 401 and split-screen synchronizers 402 is set to 2 groups, and the number n of displays 401 displaying test hard drive status information on a single display screen is set to 4 groups. In this embodiment, the hard drive test area 3 of the chassis 1 has eight hard drive slots 301, which are numbered sequentially as hard drives D1 to D8; the display area 4 of the chassis 1 has two displays 401 and two split-screen synchronizers 402, which are numbered as screens S1 and S2 respectively. The processor module 6 sends the signals of four computer motherboards 303 to one split-screen synchronizer 402, and the split-screen synchronizer 402 sends the signals of four computer motherboards 303 to one display screen 401. The status information of hard drives D1 to D4 is displayed on screen S1, and the status information of hard drives D1 to D4 is displayed on screen S2. The status information of hard drives D5 to D8 is displayed. The operation area 5 of the chassis 1 is equipped with eight sets of computer motherboard power switches 501, a keyboard 502, and a mouse 503. The eight sets of computer motherboard power switches 501 are numbered sequentially as buttons A1 to A8. When any button A1 to A8 is pressed to turn off, the computer motherboard 303 corresponding to hard drives D1 to D8 stops working. When any button A1 to A8 is pressed to turn on, the computer motherboard 303 corresponding to hard drives D1 to D8 drives the hard drives to work, thereby achieving the purpose of testing the hard drives. The status information of the eight sets of hard drives can be viewed through the keyboard 502. In other embodiments, the number N of hard drive slots 301 can also be set to 16 sets, and the number M of the display screen 401 and the split-screen synchronizer 402 can also be set to 4 sets. The number n of the split-screen display of the status information of the computer motherboard 303 on one display screen 401 is set to 4 sets. This has a wide range of applications and high flexibility, and is not limited to this embodiment.
[0029] It should be noted that, as Figure 4 and Figure 5 As shown, when viewing the hard drive status information on the display screen 401 via the keyboard 502, pressing "Alt+1" individually controls the operation to view the status information of hard drive D1, pressing "Alt+2" individually controls the operation to view the status information of hard drive D2, and so on. Pressing "Alt+8" individually controls the operation to view the status information of hard drive D8. Pressing "Alt+9" enters the screen selection mode. The first press of "Alt+9" zooms in on the status information interface of hard drives D1 and D5, the second press zooms in on the status information interface of hard drives D2 and D6, the third press zooms in on the status information interface of hard drives D3 and D7, the fourth press zooms in on the status information interface of hard drives D4 and D8, and the fifth press returns to the initial four-screen split mode. Pressing "Alt+0" enables full synchronous control to view the status information of hard drives D1 to D8.
[0030] The above description is merely a preferred embodiment of this utility model, and the protection scope of this utility model is not limited to the above embodiments. For those skilled in the art, improvements and modifications obtained without departing from the technical concept of this utility model should also be considered within the protection scope of this utility model.
Claims
1. A hard disk tester with split screen display synchronization control, characterized in that, The device includes a casing (1) and a power module (2). The casing (1) has a hard disk test area (3), a display area (4) and an operation area (5). The casing (1) contains a processor module (6). The hard disk test area (3) includes N sets of hard disk slots (301). Each set of hard disk slots (301) is provided with a hard disk power supply interface (302), a computer motherboard (303), a SATA interface and a USB flash drive system (304). The hard disk power supply interface (302) is electrically connected to the power module (2), and the computer motherboard (303) is electrically connected to the processor module (6). The display area (4) includes M sets of display screens (401) and M sets of screen synchronizers (402). The display screens (401) and the screen synchronizers (402) are connected in a one-to-one correspondence and are electrically connected. The screen synchronizers (402) are electrically connected to the processor module (6). The processor module (6) sends the signals of n sets of computer motherboards (303) to one set of screen synchronizers (402). The screen synchronizers (402) send the signals of n sets of computer motherboards (303) to one set of display screens (401) so as to realize the display of the status information of n sets of test hard disks on one set of display screens (401). The operation area (5) includes N sets of computer motherboard power buttons (501), keyboard (502) and mouse (503), and the computer motherboard power buttons (501), the keyboard (502) and the mouse (503) are electrically connected to the processor module (6).
2. The hard disk tester with split screen display synchronization control of claim 1, wherein, The housing (1) is equipped with a power switch (7), a display switch (8) and a USB interface (11).
3. The hard-disk tester with split-screen display synchronization control of claim 2, wherein, The casing (1) is provided with a drawer (9), and the keyboard (502) and the mouse (503) are located in the drawer (9).
4. The hard-disk tester with split-screen display synchronization control of claim 3, wherein, The housing (1) is equipped with a cooling fan (10), which is electrically connected to the power module (2).
5. The hard-disk tester with split-screen display synchronization control according to any one of claims 1 to 4, characterized in that, The number of hard drive insertion slots (301) is N, which is set to 8. The number of displays (401) and split-screen synchronizers (402) is M, which is set to 2. The number of groups n that display test hard drive status information on a single display screen (401) is set to 4.