CN-224225979-U - Be used for super fusion server detection device

Abstract

The utility model discloses a detection device for a super-fusion server, which comprises a conveying station, wherein lifting mechanisms are arranged on two sides of the conveying station, two CCD detection mechanisms are arranged in the center of the conveying station, the conveying station comprises a fixed section, a lifting bottom plate and a lifting section are arranged on the fixed section at positions corresponding to the CCD detection mechanisms, a limiting plate is arranged on the lifting section, a through hole is formed in the limiting plate, a jacking cylinder is arranged at the bottom of the lifting bottom plate, a lifting top plate is arranged at the output end of the jacking cylinder, and a limiting shaft is arranged between the lifting bottom plate and the lifting top plate. The utility model has simple structure, improves visual detection efficiency by multi-station arrangement, can realize automatic lifting and positioning to be matched with a CCD detection mechanism, and has good detection effect.

Inventors

• ZHOU LIANG

Assignees

• 江苏维尚信息科技有限公司

Dates

Publication Date

20260512

Application Date

20250624

Claims (6)

1. 1. The detection device for the super fusion server is characterized by comprising a conveying station (1), wherein lifting mechanisms (3) are arranged on two sides of the conveying station (1), and two CCD detection mechanisms (2) are arranged at the center of the conveying station (1); The conveying station (1) comprises a fixed section bar (4), a lifting bottom plate (5) and a heightening section bar (6) are arranged at positions, corresponding to the CCD detection mechanism (2), on the fixed section bar (4), a limiting plate (7) is arranged on the heightening section bar (6), a through hole (8) is formed in the limiting plate (7), a jacking air cylinder (9) is arranged at the bottom of the lifting bottom plate (5), a lifting top plate (10) is arranged at the output end of the jacking air cylinder (9), and a limiting shaft (11) is arranged between the lifting bottom plate (5) and the lifting top plate (10).
2. 2. The device for detecting a hyper fusion server according to claim 1, wherein the transfer station (1) comprises an upper conveyor belt (12) and a lower conveyor belt (13), and the lifting base plate (5) and the lifting profile (6) are fixed on a fixed profile (4) at the side of the upper conveyor belt (12).
3. 3. The detection device for the super fusion server according to claim 1, wherein the lifting mechanism (3) comprises upright posts (31), lifting shafts (32) are arranged between the upright posts (31), lifting belts (33) are arranged on the lifting shafts (32), lifting plates (34) are arranged on the lifting belts (33), and auxiliary conveying components (35) matched with the conveying stations (1) are arranged on the lifting plates (34).
4. 4. The detection device for a super fusion server according to claim 1, characterized in that a protective shell (14) is provided outside the lifting mechanism (3).
5. 5. The detection device for the super fusion server according to claim 1, wherein a mounting plate (15) is arranged at a position of the conveying station (1) close to the lifting top plate (10), a blocking cylinder (16) is arranged on the mounting plate (15), and a blocking block (17) is arranged at an output end of the blocking cylinder (16).
6. 6. The detection device for the super fusion server according to claim 1, wherein control button boxes (18) are arranged at intervals on the conveying station (1).

Description

Be used for super fusion server detection device Technical Field The utility model relates to the technical field of server hardware detection, in particular to a device for detecting a super fusion server. Background A server is a particular IT device that provides computing power and runs software applications in a network environment, providing computing or application services to other clients in the network. The super fusion is one of the servers, the infrastructure is that resources and technologies such as calculation, network, storage, server virtualization and the like are not only provided in the same set of unit equipment, but also elements such as backup software, snapshot technology, repeated data deletion, online data compression and the like are also included, and a plurality of sets of unit equipment can be aggregated through the network to realize modularized seamless transverse expansion, so that a uniform resource pool is formed. Any server needs a large amount of hardware to be composed, visual detection is needed for subsequent tracing no matter what equipment is shipped from the factory, a general mechanical structure is that a simple CCD camera is used for photographing, no other auxiliary equipment is needed, the detection efficiency is low, and the effect is poor. Disclosure of utility model The technical problem to be solved by the utility model is to provide the detection device for the super fusion server, which has a simple structure, improves visual detection efficiency through multi-station arrangement, can realize automatic lifting and positioning to be matched with a CCD detection mechanism, and has a good detection effect. In order to solve the technical problems, the utility model provides a detection device for a super-fusion server, which comprises a conveying station, wherein lifting mechanisms are arranged on two sides of the conveying station, two CCD detection mechanisms are arranged in the center of the conveying station, the conveying station comprises a fixed section, a lifting bottom plate and a heightening section are arranged on the fixed section at positions corresponding to the CCD detection mechanisms, a limiting plate is arranged on the heightening section, a through hole is arranged on the limiting plate, a lifting cylinder is arranged at the bottom of the lifting bottom plate, a lifting top plate is arranged at the output end of the lifting cylinder, and a limiting shaft is arranged between the lifting bottom plate and the lifting top plate. Further, the conveying station comprises an upper conveying belt and a lower conveying belt, and the lifting bottom plate and the heightening profile are fixed on the fixed profile on the side face of the upper conveying belt. Further, the lifting mechanism comprises upright posts, a lifting shaft is arranged between the upright posts, a lifting belt is arranged on the lifting shaft, a lifting plate is arranged on the lifting belt, and an auxiliary conveying assembly matched with the conveying station is arranged on the lifting plate. Further, a protective shell is arranged on the outer side of the lifting mechanism. Further, a mounting plate is arranged at the position, close to the lifting top plate, of the conveying station, a blocking cylinder is arranged on the mounting plate, and a blocking block is arranged at the output end of the blocking cylinder. Further, control button boxes are arranged on the conveying stations at intervals. The device has the beneficial effects that when the device is used, a workpiece is sequentially placed on the carrier plate, the carrier plate is placed at the conveying station (meanwhile, the lifting mechanisms at two sides can be used for carrying out auxiliary feeding of the carrier plate), the carrier plate is conveyed to the position below the CCD detection mechanism by the conveying station, the lifting top plate is driven by the lifting cylinder to drive the carrier plate to vertically lift, the limiting shaft cannot deviate until the carrier plate lifts into the through hole on the limiting plate, visual detection is carried out at the moment, and the lifting cylinder moves downwards until the carrier plate contacts with the belt-shaped conveying object in the conveying workpiece after detection is finished, so that the device can continuously move for discharging. Drawings Fig. 1 is a schematic view of the overall structure of the present utility model. Fig. 2 is a schematic view of a portion of the transfer station of the present utility model. Fig. 3 is a schematic view of the lifting mechanism of the present utility model. The reference numerals in the figure indicate 1, a conveying station, 2, a CCD detection mechanism, 3, a lifting mechanism, 31, a stand column, 32, a lifting shaft, 33, a lifting belt, 34, a lifting plate, 35, an auxiliary conveying assembly, 4, a fixed section bar, 5, a lifting bottom plate, 6, an heightening section bar, 7, a limiting plate, 8, a thr