CN117184877B - Aging test system for memory bank of computer - Google Patents

Abstract

The invention relates to the technical field of computer memory strips, in particular to a computer memory strip aging test system. The feeding device comprises a working plate, a supporting plate and a constant temperature heater, wherein the top of the supporting plate is fixedly provided with the feeding device, and the feeding device comprises a power mechanism, a moving mechanism and a feeding mechanism. The automatic feeding and discharging device mainly comprises a power mechanism, a moving mechanism and a feeding mechanism, wherein the moving mechanism is driven to rotate under the power of the power mechanism, the feeding mechanism connected with the moving mechanism moves along with the moving mechanism, and the feeding mechanism clamps and loosens the memory bank during moving so as to realize taking and placing of the memory bank, so that the automatic feeding and discharging are realized, and the waste of human resources is reduced.

Description

Aging test system for memory bank of computer

Technical Field

The invention relates to the technical field of computer memory strips, in particular to a computer memory strip aging test system.

Background

The main reason that the memory bank needs to be subjected to burn-in test is to verify its performance and reliability and ensure that no problems occur during long-term use. Memory banks are vital components in computer systems that store and provide data and programs needed for the operation of a computer. Therefore, the quality and reliability of memory banks is critical to the performance and stability of a computer system.

Chinese invention discloses patent: CN113986626a discloses an aging test device for producing memory banks, the aging test device for producing memory banks comprises: a base component and an aging component. The foundation assembly comprises a base, a first box body and a cover plate, wherein the first box body is fixed on the upper end face of the base, the top end of the first box body is hollowed out, the cover plate is arranged on the top end of the first box body, and a heat insulation sleeve is fastened on the surface of the first box body;

The heat loss during the test can be reduced through basic subassembly and ageing subassembly in above-mentioned patent, but its material loading needs the material loading by oneself during the material loading, comparatively extravagant manpower resources.

Based on the above-mentioned problems, the present invention provides a system for testing the aging of a memory bank of a computer to solve the problems set forth in the background art.

Disclosure of Invention

Aiming at the technical problems in the prior art, the invention provides a computer memory bank aging test system for solving the problem that human resources are wasted because self feeding is needed during feeding.

The technical scheme for solving the technical problems is as follows: the computer memory strip aging test system comprises a working plate, wherein a supporting plate and a constant temperature heater are arranged on the working plate, a feeding device is fixedly arranged at the top of the supporting plate, and the feeding device comprises a power mechanism, a moving mechanism and a feeding mechanism; the power mechanism comprises a motor, wherein the output end of the motor is fixedly connected with a connecting shaft, and the outer surface of the connecting shaft is rotationally connected with an upper connecting plate; the moving mechanism comprises a second synchronizing wheel; the feeding mechanism comprises an air cylinder, and the bottom of the air cylinder is fixedly connected with a connecting seat.

The beneficial effects of the invention are as follows:

1. when the power mechanism works, the connecting shaft rotates, the rotation of the connecting shaft can drive the upper connecting plate and the lower connecting plate to rotate, and the synchronous wheel II fixedly connected with the upper connecting plate and the lower connecting plate can drive the feeding mechanism to move left and right for feeding and discharging, so that the labor force can be reduced, and the waste of human resources is reduced.

2. When the feeding mechanism is driven by the power mechanism to feed and discharge, the straight toothed plate meshed with the straight toothed plate can be driven to move along with rotation of the straight toothed plate, so that the cleaning box is pushed to push the placing groove to enter the placing seat for anti-aging testing.

3. When the cleaning box moves to the placing seat, the bevel gear I and the straight toothed plate II in the cleaning box are meshed to drive the bevel gear II to rotate, and when the cleaning box moves forwards, cleaning dust can be blown to the memory strip on the placing groove, and when the cleaning box moves backwards, heat dissipation and blowing can be carried out on the heated memory strip.

On the basis of the technical scheme, the invention can be improved as follows.

Further, the outer surface of the connecting shaft is sequentially connected with a first synchronizing wheel, a lower connecting plate and a spur gear in a rotating mode from top to bottom.

The further scheme has the beneficial effects that the motor is started to drive the connecting shaft to rotate, and the upper connecting plate, the lower connecting plate, the first synchronizing wheel and the spur gear can be driven to rotate along with the rotation of the connecting shaft.

Further, the upper and lower surfaces of the second synchronizing wheel are respectively connected with the upper connecting plate and the lower connecting plate, and the surfaces of the second synchronizing wheel and the first synchronizing wheel are in meshing connection with a synchronizing belt.

The feeding mechanism has the beneficial effects that the upper connecting plate and the lower connecting plate can drive the synchronous wheel II to rotationally move when rotating, and the direction of the feeding mechanism is changed along with the rotation of the synchronous wheel I when the synchronous wheel II rotationally moves, so that the feeding mechanism is convenient for feeding and discharging.

Further, feed mechanism is including the cylinder, the bottom fixedly connected with connecting seat of cylinder, the output of cylinder is connected with the cylinder pole, the bottom fixedly connected with movable block of cylinder pole.

The adoption of the further scheme has the beneficial effects that the cylinder rod can be driven by controlling the cylinder, so that the movement of the moving block is controlled.

Further, both ends sliding connection has the slider about the movable block, the front and back surface of slider drives the crank before fixedly connected with respectively, back drive the crank, preceding drive the cranked one end fixedly connected with clamping jaw, clamping jaw and the surface connection of connecting seat, the inside slip setting of clamping jaw in the connecting seat bottom side.

The adoption of the further scheme has the beneficial effects that the sliding block on the moving block is controlled to move left and right through the movement of the air cylinder rod, and the front driving crank and the rear driving crank connected with the sliding block are driven to move, so that the clamping jaw is clamped and released.

Further, the surface engagement of straight gear has straight tooth board one, the surface connection of working plate has the slide, straight tooth board one and slide the slip setting, the one end of straight tooth board one is connected with the cleaning tank.

The technical scheme has the beneficial effects that the straight gear drives the straight toothed plate I to move and simultaneously pushes the cleaning box to move, so that the memory bank is pushed to approach the constant temperature heater for aging test.

Further the inside rotation of clean case is connected with bevel gear one, bevel gear two is meshed to bevel gear one's surface, bevel gear two's one end is connected with the rotation axis, the surface circumference array of rotation axis has the flabellum, the ventilation groove has been seted up to clean front surface of case.

The cleaning box has the beneficial effects that when the cleaning box moves, the bevel gear I is used as a power source to drive the bevel gear II and the rotating shaft to rotate, so that the fan blades are driven to rotate, and when the cleaning box moves forwards, the memory strips are cleaned, and when the cleaning box moves backwards, the memory strips with residual heat after testing are cooled.

Further, the surface of the working plate is positioned at the bottom side of the cleaning box and is connected with a straight toothed plate II, and the straight toothed plate II penetrates through the cleaning box and is meshed with the bevel gear I.

The cleaning box has the beneficial effects that the first bevel gear is meshed with the second straight bevel gear by moving, and the movement of the cleaning box provides power for the rotation of the fan blade.

Further, the bottom side of constant temperature heater is installed and is placed the seat, the slide has been seted up to the inside of placing the seat, the internally connected of slide has the spring, the one end fixedly connected with of spring places the piece, the standing groove has been seted up at the front side top of placing the piece.

The beneficial effect of adopting above-mentioned further scheme is, has seted up the standing groove on placing the piece, and the storage strip is placed when making things convenient for the material loading, has seted up the slide in placing the seat inside, can make the storage strip enter into the inside constant temperature heater and heat, places seat internally mounted has the spring simultaneously and can make to place the piece and return to original position and make things convenient for material loading, unloading.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a system for testing the burn-in of memory chips of a computer according to the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic diagram of a feeding mechanism according to the present invention;

FIG. 4 is a schematic diagram of a front view of a feeding mechanism according to the present invention;

FIG. 5 is a schematic diagram of a rear view structure of a feeding mechanism according to the present invention;

FIG. 6 is a schematic view of the internal structure of the cleaning tank of the present invention;

Fig. 7 is a schematic structural view of the placement seat of the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

1. A work plate; 11. a motor; 1101. a support plate; 1102. a connecting shaft; 1103. an upper connecting plate; 1104. a lower connecting plate; 1105. a first synchronous wheel; 1106. spur gears; 1107. a timing belt; 12. a straight toothed plate I; 1201. a slide plate; 13. a cleaning tank; 1301. bevel gears I; 1302. bevel gears II; 1303. a rotation shaft; 1304. a fan blade; 1305. a ventilation groove; 1306. a second straight toothed plate; 14. a second synchronous wheel; 1401. a cylinder; 14011. a connecting seat; 14012. a cylinder rod; 14013. a moving block; 14014. a slide block; 14015. a front drive crank; 14016. a clamping jaw; 14017. driving a crank; 15. a placement seat; 1501. a constant temperature heater; 1502. a spring; 1503. placing a block; 1504. and (5) placing a groove.

Detailed Description

The principles and features of the present invention are described below with reference to the drawings, the examples are illustrated for the purpose of illustrating the invention and are not to be construed as limiting the scope of the invention.

The main reason that the memory bank needs to be subjected to burn-in test is to verify its performance and reliability and ensure that no problems occur during long-term use. Memory banks are vital components in computer systems that store and provide data and programs needed for the operation of a computer. Therefore, the quality and reliability of memory banks is critical to the performance and stability of a computer system.

The following are reasons for the need for burn-in testing of some memory banks:

Evaluating the stability of the memory bank: the aging test can simulate various environmental conditions and workload of the memory strip during long-time use, such as high temperature, high humidity, frequent reading and writing, and the like. By testing the memory stick under these extreme conditions, it is possible to evaluate its stability and reliability in actual use.

Detecting potential problems: through the burn-in test, potential problems that may occur during long-term use of the memory stripe, such as data loss, error Correction Code (ECC) errors, bit flipping, etc., may be detected. This helps to find and solve problems in the design, manufacture, or assembly of the memory stick to improve its quality and reliability.

Ensuring consistency and compatibility: burn-in testing helps ensure consistency and compatibility of memory sticks over time and under different environmental conditions. By testing memory banks under different test scenarios, it is possible to determine whether their performance and reliability are consistent and compatible with a particular computer system and operating system.

Meets the quality standard and specification: memory sticks are required to meet various quality standards and specifications, such as industry standards, international standards, and computer manufacturers' requirements. Burn-in testing is one of the important means of ensuring that memory banks meet these standards and specifications.

In summary, burn-in testing is critical to both memory bank manufacturers and end users. The method can ensure the stable performance and reliability of the memory bank in long-time use, improve the performance and stability of the computer system and reduce the possible failure and data loss risk.

Chinese invention discloses patent: CN113986626a discloses an aging test device for producing memory banks, the aging test device for producing memory banks comprises: a base component and an aging component. The foundation assembly comprises a base, a first box body and a cover plate, wherein the first box body is fixed on the upper end face of the base, the top end of the first box body is hollowed out, the cover plate is arranged on the top end of the first box body, and a heat insulation sleeve is fastened on the surface of the first box body; the heat loss during the test can be reduced through basic subassembly and ageing subassembly in above-mentioned patent, but its material loading needs the material loading by oneself during the material loading, comparatively extravagant manpower resources.

Based on the above problems, the present invention provides a system for testing the aging of a memory bank of a computer to solve the above problems.

The present invention provides the following preferred embodiments:

As shown in fig. 1-7, a computer memory bank aging test system comprises a working plate 1, a supporting plate 1101 and a constant temperature heater 1501, wherein a feeding device is fixedly arranged at the top of the supporting plate 1101 and comprises a power mechanism, a moving mechanism and a feeding mechanism. The power mechanism comprises a motor 11, wherein the output end of the motor 11 is fixedly connected with a connecting shaft 1102, and the outer surface of the connecting shaft 1102 is sequentially and rotatably connected with an upper connecting plate 1103, a synchronous wheel one 1105, a lower connecting plate 1104 and a straight gear 1106 from top to bottom. The moving mechanism comprises a second synchronizing wheel 14, the upper and lower surfaces of the second synchronizing wheel 14 are respectively connected with an upper connecting plate 1103 and a lower connecting plate 1104, and surfaces of the second synchronizing wheel 14 and the first synchronizing wheel 1105 are meshed with a synchronizing belt 1107. The feeding mechanism comprises an air cylinder 1401, a connecting seat 14011 is fixedly connected to the bottom of the air cylinder 1401, an air cylinder rod 14012 is connected to the output end of the air cylinder 1401, and a moving block 14013 is fixedly connected to the bottom of the air cylinder rod 14012. The left end and the right end of the moving block 14013 are connected with a sliding block 14014 in a sliding manner, the front surface and the rear surface of the sliding block 14014 are respectively fixedly connected with a front driving crank 14015 and a rear driving crank 14017, one end of the front driving crank 14015 is fixedly connected with a clamping jaw 14016, the clamping jaw 14016 is connected with the surface of the connecting seat 14011, and the clamping jaw 14016 is arranged in a sliding manner in the bottom side of the connecting seat 14011. When the power mechanism works, the connecting shaft 1102 rotates, the rotation of the connecting shaft 1102 can drive the upper connecting plate 1103 and the lower connecting plate 1104 to rotate, and at the moment, the synchronous wheel II 14 fixedly connected with the upper connecting plate 1103 and the lower connecting plate 1104 can drive the feeding mechanism to move left and right for feeding and discharging, so that the labor force can be reduced, and the waste of human resources is reduced. When the feeding mechanism is driven by the power mechanism to feed and discharge, the spur gear 1106 can be driven to move along with the rotation of the spur gear 12 meshed with the spur gear, so that the cleaning box 13 is pushed, and the cleaning box 13 pushes the placing groove to enter the placing seat for anti-aging testing.

The motor 11 is started to drive the connecting shaft 1102 to rotate, so that the upper connecting plate 1103, the lower connecting plate 1104, the first synchronizing wheel 1105 and the straight gear 1106 on the connecting shaft 1102 are driven to rotate, the second synchronizing wheel 14 is driven to move left and right by the rotation of the upper connecting plate 1103 and the lower connecting plate 1104, the second synchronizing wheel 14 is driven to rotate by the rotation of the first synchronizing wheel 1105, meanwhile, the cylinder 1401 on the second synchronizing wheel 14 drives the cylinder rod 14012 to move up and down, the sliding block 14014 is driven to move left and right on the moving block 14013, the clamping jaw 14016 is controlled to slide in the connecting seat 14011 to clamp and loosen, and the clamping jaw 14016 places a memory strip on a fixed position, so that the feeding mechanism is convenient to feed and discharge.

In this embodiment, the surface of the spur gear 1106 is meshed with a first spur gear plate 12, the surface of the working plate 1 is connected with a sliding plate 1201, the first spur gear plate 12 and the sliding plate 1201 are slidably arranged, and one end of the first spur gear plate 12 is connected with a cleaning box 13. The inside of the cleaning box 13 is rotatably connected with a first bevel gear 1301, a second bevel gear 1302 is meshed with the surface of the first bevel gear 1301, one end of the second bevel gear 1302 is connected with a rotating shaft 1303, fan blades 1304 are circumferentially arranged on the surface of the rotating shaft 1303, and a ventilation groove 1305 is formed in the front surface of the cleaning box 13. The surface of the working plate 1 is positioned at the bottom side of the cleaning box 13, and a second straight toothed plate 1306 is connected with the second straight toothed plate 1306, and penetrates through the cleaning box 13 to be meshed with the first bevel gear 1301. When the cleaning box 13 moves, the bevel gear one 1301 is used as a power source to drive the bevel gear two 1302 and the rotating shaft 1303 to rotate, so as to drive the fan blade 1304 to rotate, and when the cleaning box moves forward again, the cleaning box cleans the memory strip, and when the cleaning box moves backward, the temperature of the memory strip with residual heat after the test is reduced.

The rotation of the spur gear 1106 drives the first spur gear 12 to move on the sliding plate 1201 connected to the surface of the working plate 1, the movement of the first spur gear 12 pushes the cleaning tank 13 to move on the second spur gear 1306, the movement of the cleaning tank 13 on the second spur gear 1306 makes the first bevel gear 1301 in meshed contact with the second spur gear 1306, so as to drive the second bevel gear 1302 and the rotation shaft 1303 to rotate, thereby driving the fan blades 1304 to rotate, the fan blades 1304 rotate to generate wind, the wind blows from the ventilation groove 1305 to the placing groove 1504 to perform cleaning and heat dissipation operations,

In this embodiment, a placement seat 15 is installed on the bottom side of the constant temperature heater 1501, a slide way is provided in the placement seat 15, a spring 1502 is connected to the slide way, a placement block 1503 is fixedly connected to one end of the spring 1502, and a placement groove 1504 is provided on the top of the front side of the placement block 1503.

The placing block 1503 moves to the direction of the placing seat 15 along the slide way inside the placing seat 15 under the pushing of the cleaning box 13, so that the memory strip on the placing groove 1504 enters into the inside of the constant temperature heater 1501 for aging test, and after the test is completed, the memory strip returns to the original position under the action of the spring 1502, thereby facilitating the taking of the clamping jaw 14016.

The specific using method comprises the following steps:

The motor 11 is started to drive the connecting shaft 1102 to rotate, so that the upper connecting plate 1103, the lower connecting plate 1104, the first synchronizing wheel 1105 and the straight gear 1106 on the connecting shaft 1102 are driven to rotate, the second synchronizing wheel 14 is driven to move left and right by the rotation of the upper connecting plate 1103 and the lower connecting plate 1104, the second synchronizing wheel 14 is driven to rotate by the rotation of the first synchronizing wheel 1105, meanwhile, the cylinder 1401 on the second synchronizing wheel 14 drives the cylinder rod 14012 to move up and down, so that the sliding block 14014 is driven to move left and right on the moving block 14013, and the crank 14015 is driven to move before being connected with the sliding block 14014.

The clamping jaw 14016 is controlled to slide in the connecting seat 14011 to clamp and loosen, the clamping jaw 14016 moves and places a memory strip in a placing groove 1504 formed in the placing block 1503, the rotation of the straight gear 1106 drives the straight toothed plate I12 to move on a sliding plate 1201 connected with the surface of the working plate 1 while the synchronous wheel II 14 moves, so that the cleaning box 13 is pushed to move on the straight toothed plate II 1306, the movement of the cleaning box 13 on the straight toothed plate II 1306 enables the bevel gear I1301 to make meshing contact with the straight toothed plate II 1306, the bevel gear II 1302 and the rotating shaft 1303 are driven to rotate, the fan blade 1304 is driven to rotate, wind is generated by the rotation of the fan blade 1304, and the wind blows from the ventilation groove 1305 to the placing groove 1504 to clean and dissipate heat.

Then, the placement block 1503 is moved along the slide way inside the placement base 15 toward the placement base 15 by the pushing of the cleaning box 13, so that the memory bank on the placement groove 1504 enters the inside of the constant temperature heater 1501 for burn-in test.

Finally, after the test is completed, the motor 11 is reversed, each structure is reversed, the placement block 1503 returns to the original position under the pressure of the spring 1502, and the clamping jaw 14016 takes the memory bank back to the original position.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present invention, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (1)

1. The aging test system for the memory stick of the computer comprises a working plate (1), wherein a supporting plate (1101) and a constant temperature heater (1501) are arranged on the working plate (1), a feeding device is fixedly arranged at the top of the supporting plate (1101), and the feeding device comprises a power mechanism, a moving mechanism and a feeding mechanism;

The power mechanism comprises a motor (11), and the output end of the motor (11) is fixedly connected with a connecting shaft (1102);

An upper connecting plate (1103) is rotatably connected to the outer surface of the connecting shaft (1102); the moving mechanism comprises a synchronous wheel II (14), and the feeding mechanism comprises an air cylinder (1401);

The bottom of the air cylinder (1401) is fixedly connected with a connecting seat (14011), and the outer surface of the connecting shaft (1102) is sequentially and rotatably connected with a synchronous wheel I (1105), a lower connecting plate (1104) and a spur gear (1106); the upper surface and the lower surface of the second synchronizing wheel (14) are respectively connected with an upper connecting plate (1103) and a lower connecting plate (1104), and the surfaces of the second synchronizing wheel (14) and the first synchronizing wheel (1105) are in meshing connection with a synchronizing belt (1107); the output end of the air cylinder (1401) is connected with an air cylinder rod (14012), and the bottom of the air cylinder rod (14012) is fixedly connected with a moving block (14013); a sliding block (14014) is slidably connected to the left end and the right end of the moving block (14013), a front driving crank (14015) and a rear driving crank (14017) are fixedly connected to the front surface and the rear surface of the sliding block (14014), a clamping jaw (14016) is fixedly connected to one end of the front driving crank (14015), the clamping jaw (14016) is connected with the surface of the connecting seat (14011), and the clamping jaw (14016) is slidably arranged in the bottom side of the connecting seat (14011); the surface of the straight gear (1106) is meshed with a first straight gear plate (12), the surface of the working plate (1) is connected with a sliding plate (1201), the first straight gear plate (12) and the sliding plate (1201) are arranged in a sliding mode, and one end of the first straight gear plate (12) is connected with a cleaning box (13); a bevel gear I (1301) is rotatably connected in the cleaning box (13), a bevel gear II (1302) is meshed with the surface of the bevel gear I (1301), and one end of the bevel gear II (1302) is connected with a rotating shaft (1303);

The surface of the rotating shaft (1303) is circumferentially provided with fan blades (1304), and the front surface of the cleaning box (13) is provided with a ventilation groove (1305);

the surface of the working plate (1) is positioned at the bottom side of the cleaning box (13) and is connected with a second straight-tooth plate (1306), and the second straight-tooth plate (1306) penetrates through the cleaning box (13) to be meshed with the first bevel gear (1301);

A placement seat (15) is arranged at the bottom side of the constant temperature heater (1501), a slide way is arranged in the placement seat (15), and a spring (1502) is connected in the slide way;

One end of the spring (1502) is fixedly connected with a placement block (1503), and a placement groove (1504) is formed in the top of the front side of the placement block (1503).