CN216954371U - Contact detection equipment for server hard disk support - Google Patents

Abstract

The utility model relates to a contact detection device of a server hard disk support, which comprises a contact detection device, an electrifying detection device and a detection driving device, wherein the detection driving device is in transmission connection with the contact detection device, the electrifying detection device is in positioning connection with the contact detection device, the detection driving device drives the contact detection device to move to a detection position of the server hard disk support, the contact detection device detects a contact on the server hard disk support, and the electrifying detection device detects the electrifying of the server hard disk support. The contact detection equipment for the hard disk bracket of the server adopts a detection equipment scheme which has a contact detection device, a power-on detection device and a detection driving device and can automatically carry out detection, and has the characteristics of high efficiency, low cost and low defective product rate.

Description

Contact detection equipment for server hard disk support

Technical Field

The utility model relates to contact detection equipment, in particular to contact detection equipment for a server hard disk support, and belongs to the field of contact detection equipment.

Background

The hard disk support is an installation structure for installing hard disks in the chassis, the hard disks are used as main storage media of the server, the demand is large, and usually one server needs to install a plurality of large-capacity hard disks, so the hard disk support of the server is needed to meet the installation requirements of the server on the hard disks. At present, the detection to server hard disk support contact to and the circular telegram detects and mostly adopts the mode by the artifical detection of testing personnel, wastes time and energy, and is inefficient, with high costs, simultaneously, the visual fatigue can appear in the people, leads to having the defective products and flows.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a new scheme for detecting a contact of a server hard disk support, and adopts a detection equipment scheme which is provided with a contact detection device, an electrifying detection device and a detection driving device and can automatically perform detection, thereby solving the problems of low efficiency, high cost and high defective product rate caused by manual detection in the conventional similar schemes.

The utility model discloses a contact detection device of a server hard disk support, which comprises a contact detection device, a power-on detection device and a detection driving device, wherein the detection driving device is in transmission connection with the contact detection device, the power-on detection device is in positioning connection with the contact detection device, the detection driving device drives the contact detection device to move to a detection position of the server hard disk support, the contact detection device detects a contact on the server hard disk support, and the power-on detection device performs power-on detection on the server hard disk support.

Furthermore, the contact detection device of the scheme comprises a sensor support, wherein the sensor support comprises an upper cantilever frame and a lower cantilever frame, and a server hard disk support is arranged between the upper cantilever frame and the lower cantilever frame.

The upper cantilever crane is provided with a plurality of upper mounting through holes, upper proximity switches are arranged in the upper mounting through holes, and the upper proximity switches detect contacts on the upper side of the server hard disk support.

The lower cantilever frame is provided with a plurality of lower mounting through holes, a lower proximity switch is arranged in each lower mounting through hole, and the lower proximity switch detects a contact on the lower side of the server hard disk support.

Furthermore, 16 upper proximity switches are arranged on the upper cantilever support, the 16 upper proximity switches are arranged in 2 rows and 8 rows in an aligned mode, 16 lower proximity switches are arranged on the lower cantilever support, and the 16 lower proximity switches are arranged in 2 rows and 8 rows in an aligned mode.

Furthermore, one end of the upper cantilever crane and one end of the lower cantilever crane are connected with the upper end of the support pillar, the lower end of the support pillar is in transmission connection with the detection driving device, and the detection driving device drives the upper cantilever crane and the lower cantilever crane to move through the support pillar.

Further, the circular telegram detection device of this scheme includes to pressing from both sides the cylinder, includes cylinder body, to pressing from both sides the output to pressing from both sides the cylinder, includes arm lock, lower arm lock to pressing from both sides the output to pressing from both sides.

The upper clamping arm is connected with one end of the upper insulating contact support plate, a plurality of upper contact mounting through holes are formed in the upper insulating contact support plate, and upper contacts are arranged in the upper contact mounting through holes.

The lower clamping arm is connected with one end of the lower insulating contact support plate, a plurality of lower contact mounting through holes are formed in the lower insulating contact support plate, and lower contacts are arranged in the lower contact mounting through holes.

A server hard disk support is arranged between the upper contact and the lower contact, the upper contact and the lower contact which move in opposite directions are matched and clamped with the server hard disk support, the upper side of the server hard disk support is electrified and detected through the upper contact, and the lower side of the server hard disk support is electrified and detected through the lower contact.

Furthermore, the outside of the cylinder body of this scheme is connected with the one end of connecting the scute, and the other end of connecting the scute is connected with contact detection device.

Still further, be equipped with a plurality of internal thread holes on the outside of the cylinder body of this scheme, connect one of scute and serve and be equipped with a plurality of scute connect the through-hole, the outside of cylinder body passes through bolt fixed connection with the one end of connecting the scute, is equipped with a plurality of scute connect the through-hole on the other end of connecting the scute, is equipped with a plurality of internal thread holes on the outside of contact detection device's the cantilever crane, the other end of connecting the scute passes through bolt fixed connection with contact detection device's the cantilever crane.

Further, the detection driving device of the scheme comprises a driving motor and a linear module, wherein the driving motor is in transmission connection with the linear module, and the linear module is in transmission connection with the contact detection device.

Further, the server hard disk support of this scheme is established on the product platform, and the product platform passes through the longmen support and establishes on the equipment bed plate, and the below of longmen support is equipped with detects drive arrangement.

Furthermore, the equipment bed plate of this scheme is established on the equipment workstation, and the equipment workstation includes deck plate, and the deck plate is established on the workstation support, and the bottom angle of workstation support is served and is equipped with the workstation stabilizer blade.

The contact detection equipment for the hard disk bracket of the server adopts a detection equipment scheme which has a contact detection device, a power-on detection device and a detection driving device and can automatically carry out detection, and has the characteristics of high efficiency, low cost and low defective product rate.

Drawings

Fig. 1 is a schematic diagram of a server hard disk holder contact detection apparatus.

Fig. 2 is a partially enlarged schematic view of the contact point detecting device of the server hard disk support.

Fig. 3 is a schematic view of the detection drive device.

FIG. 4 is an assembly diagram of the server hard disk support, the product platform and the gantry support.

Fig. 5 is a schematic diagram of the contact detection device and the server hard disk holder.

Fig. 6 is a schematic diagram of the power-on detection device and the server hard disk holder.

Wherein the content of the first and second substances,

100 is a contact detection device, 101 is a sensor bracket, 110 is an upper cantilever frame, 111 is an upper proximity switch, 120 is a lower cantilever frame, 121 is a lower proximity switch, 130 is a bracket support,

200 is an energization detecting means, 201 is a counter clamp cylinder, 210 is a cylinder body, 220 is an upper clamp arm, 230 is an upper insulating contact holder plate, 231 is an upper contact mounting through hole, 240 is a lower clamp arm, 250 is a lower insulating contact holder plate, 251 is a lower contact mounting through hole, 260 is a connection angle plate,

300 is a detection driving device, 310 is a driving motor, 320 is a linear module,

400 is a server hard disk support, 401 is a contact,

510 is a product platform, 520 is a gantry support, 530 is an equipment base plate, 541 is a table panel, 542 is a workbench support, 543 is a workbench support.

Detailed Description

As shown in fig. 1, the contact detection device for a server hard disk support of the present invention includes a contact detection device, a power-on detection device, and a detection driving device, wherein the detection driving device is in transmission connection with the contact detection device, the power-on detection device is in positioning connection with the contact detection device, the detection driving device drives the contact detection device to move to a detection position of the server hard disk support, the contact detection device detects a contact on the server hard disk support, and the power-on detection device performs power-on detection on the server hard disk support.

The scheme adopts a detection equipment scheme which is provided with a contact detection device, an electrifying detection device and a detection driving device and can automatically carry out detection, the electrifying detection device 200 is connected with the contact detection device 100 in a positioning way, then the contact detection device 100 is connected with the detection driving device 300 in a transmission way, the detection driving device 300 is used for driving the contact detection device 100 to move, the electrifying detection device 200 and the contact detection device 100 synchronously move to the detection position of the server hard disk bracket 400, the contact detection device 100 is used for detecting the contacts 401 on the upper side and the lower side of the server hard disk bracket 400, and the electrifying detection device 200 is used for carrying out electrifying detection on the server hard disk bracket 400, so that the technical purpose of automatic detection is realized.

In order to realize the function of the contact detection device and facilitate the detection of the contacts on the upper side and the lower side of the server hard disk support, as shown in fig. 2 and 5, the contact detection device of the scheme comprises a sensor support, wherein the sensor support comprises an upper cantilever frame and a lower cantilever frame, and the server hard disk support is arranged between the upper cantilever frame and the lower cantilever frame. The upper suspension arm support is provided with a plurality of upper mounting through holes, upper proximity switches are arranged in the upper mounting through holes, and the upper proximity switches detect contacts on the upper side of the server hard disk support. A plurality of lower mounting through holes are formed in the lower cantilever frame, lower proximity switches are arranged in the lower mounting through holes, and the lower proximity switches detect contacts on the lower side of the server hard disk support.

According to the scheme, the U-shaped sensor support 101 meets the requirement of simultaneously detecting the contacts on the upper side and the lower side of the server hard disk support 400, the upper proximity switch 111 on the upper cantilever frame 110 of the sensor support 101 is used for detecting the contacts on the upper side of the server hard disk support 400, and the lower proximity switch 121 on the lower cantilever frame 120 of the sensor support 101 is used for detecting the contacts on the lower side of the server hard disk support 400, so that automatic and efficient contact detection is realized, and the production efficiency is improved.

A proximity switch is a position switch that operates without mechanical direct contact with moving parts and operates using the principle of electromagnetic induction. When an object approaches the sensing area of the switch, the switch can send out an electrical command without contact, pressure and spark, and accurately reflect the position and the stroke of the movement mechanism. The proximity switch is a switch type sensor, i.e. a non-contact switch, which has the characteristics of a travel switch and a microswitch, has sensing performance, reliable action, stable performance, fast frequency response, long application life, strong anti-interference capability and the like, has the characteristics of water resistance, corrosion resistance and the like, is incomparable with general mechanical travel switches, and is widely applied to the industries such as machine tools, metallurgy, chemical engineering, light textile, printing and the like. In an automatic control system, a proximity switch can be used in the fields of limiting, counting, positioning control, automatic protection and the like.

Based on the above scheme, in order to cooperate with the detection requirement of a specific server hard disk support and realize high-efficient detection, as shown in fig. 5, 16 upper proximity switches are arranged on the upper cantilever support of the scheme, 16 upper proximity switches are arranged in 2 rows and 8 rows in alignment, 16 lower proximity switches are arranged on the lower cantilever support, and 16 lower proximity switches are arranged in 2 rows and 8 rows in alignment. The 16 upper proximity switches 111 correspond to the 16 contacts on the upper side of the server hard disk rack 400, and the 16 lower proximity switches 121 correspond to the 16 contacts on the lower side of the server hard disk rack 400.

Meanwhile, in order to realize the motion synchronism of the upper cantilever crane and the lower cantilever crane, the scheme discloses a specific transmission structure, as shown in fig. 2 and 5, one end of the upper cantilever crane and one end of the lower cantilever crane are connected with the upper end of a support pillar, the lower end of the support pillar is in transmission connection with a detection driving device, and the detection driving device drives the upper cantilever crane and the lower cantilever crane to move through the support pillar. As shown in fig. 5, the support pillar 130 is an L-shaped column structure, one end of the support pillar 130 standing upwards is connected to one end of the upper cantilever frame 110 and one end of the lower cantilever frame 120, and a section of the support pillar 130 lying at the lower end is in transmission connection with the detection driving device, so that a stable connection relationship is realized, the stability of movement is improved, and the influence on the detection effect caused by the shaking of the upper structure is avoided.

In order to realize circular telegram detection device's function, be convenient for carry out the circular telegram to server hard disk support upside and downside and detect, as shown in fig. 2, 6, the circular telegram detection device of this scheme is including the butt clamp cylinder, including cylinder body, butt clamp output to the butt clamp cylinder, and the butt clamp output includes arm lock, lower arm lock. The upper clamping arm is connected with one end of the upper insulating contact support plate, a plurality of upper contact mounting through holes are formed in the upper insulating contact support plate, and upper contacts are arranged in the upper contact mounting through holes. The lower clamping arm is connected with one end of the lower insulating contact support plate, a plurality of lower contact mounting through holes are formed in the lower insulating contact support plate, and lower contacts are arranged in the lower contact mounting through holes. A server hard disk support is arranged between the upper contact and the lower contact, the upper contact and the lower contact which move in opposite directions are matched to clamp the server hard disk support tightly, the upper side of the server hard disk support is detected through the electrification of the upper contact, and the lower side of the server hard disk support is detected through the electrification of the lower contact.

In the above scheme, the energization detecting device 200 and the contact detecting device 100 synchronously move to the detection position of the server hard disk support 400, the upper clamping arm 220 of the pair clamping cylinder 210 and the lower clamping arm 240 meet the requirements of the upper side and the lower side of the server hard disk support 400 for simultaneous energization detection, the upper contact on the upper insulating contact support plate 230 connected with the upper clamping arm 220 of the pair clamping cylinder 210 is utilized to perform energization detection on the upper side of the server hard disk support 400, and meanwhile, the lower contact on the lower insulating contact support plate 250 connected with the lower clamping arm 240 of the pair clamping cylinder 210 is utilized to perform energization detection on the lower side of the server hard disk support 400, so that automatic and efficient energization detection is realized, and the production efficiency is improved.

Based on the above configuration, in order to stably connect the energization detecting device 200 and the contact detecting device 100, as shown in fig. 2, the outside of the cylinder body in this configuration is connected to one end of the connection angle plate, and the other end of the connection angle plate is connected to the contact detecting device. The connection angle plate 260 can connect the energization detecting means 200 and the contact detecting means 100, and also can avoid the structural interference between the connection structure and the equipment itself due to the folded structure, thereby satisfying the requirement of the installation position. Further, in order to realize stable connection, the scheme discloses a specific connection mode, as shown in fig. 2, a plurality of internal thread holes are arranged on the outer side of the cylinder body of the scheme, one end of the connection angle plate is provided with a plurality of angle plate connection through holes, the outer side of the cylinder body is fixedly connected with one end of the connection angle plate through bolts, the other end of the connection angle plate is provided with a plurality of angle plate connection through holes, the outer side of the upper cantilever frame of the contact detection device is provided with a plurality of internal thread holes, and the other end of the connection angle plate is fixedly connected with the upper cantilever frame of the contact detection device through bolts.

In order to realize the function of the detection driving device, as shown in fig. 2 and 3, the detection driving device of the scheme comprises a driving motor and a linear module, wherein the driving motor is in transmission connection with the linear module, and the linear module is in transmission connection with the contact detection device. The driving motor 310 is used to drive the linear module 320, and then the linear module 320 drives the support pillar 130, so that the support pillar 130 drives the contact detecting device 100 and the power-on detecting device 200 to move synchronously.

In order to satisfy the stability that server hard disk support put, be convenient for detect its upside, downside simultaneously, as shown in fig. 2, 4, the server hard disk support of this scheme establishes on the product platform, and the product platform passes through the longmen support and establishes on equipment base plate, and the below of longmen support is equipped with detects drive arrangement. The gantry support 520 leaves enough detection space above and below the upper side and the lower side of the server hard disk support 400, so that the contact detection device 100 and the power-on detection device 200 can simultaneously detect the upper side and the lower side of the server hard disk support 400. Based on above scheme, in order to set up the position of check out test set, as shown in fig. 1, the equipment bed board of this scheme is established on equipment workstation, and equipment workstation includes deck plate, and the deck plate is established on the workstation support, and the bottom angle of workstation support is served and is equipped with the workstation stabilizer blade. The position of the table panel 541 is set by the table bracket 542, thereby facilitating the operation. Meanwhile, in order to meet the requirement of convenient movement on the premise of keeping the equipment workbench stable, as shown in fig. 1, the workbench stand bar 543 is provided with a stand bar, one side of the bottom of the stand bar is provided with a roller support, the roller support is provided with a stand bar roller, the other side of the bottom of the stand bar is provided with a stand bar column, and the lower end of the stand bar column is provided with a stand bar block. When the equipment workstation is in operating condition, the stabilizer blade piece and the ground contact of stabilizer blade post form stable upright state, when the equipment workstation is in non-operating condition, if need convenient mobile device workstation, only need with the equipment workstation to the slope of stabilizer blade gyro wheel, at this moment, stabilizer blade gyro wheel and ground contact, stabilizer blade piece and ground break away from the contact, can rely on the convenient mobile device workstation of stabilizer blade gyro wheel.

The scheme discloses a server hard disk support contact detection device, provides a simple electric automatic on-off detection device, and is convenient, rapid and efficient to detect, and the artificial error rate is reduced. As shown in fig. 1 to 6, the contact detection device for a hard disk support of a server includes a driving motor 310, a contact detection apparatus 100, a product platform 510, a linear module 320, and an energization detection apparatus 200. The server hard disk holder 400 is correctly placed on the product platform 510, the driving motor 310 is used as a power source to drive the linear module 320 to move linearly, and when the linear module 320 moves from the original position to the designated working position, the contact detection device 100 and the power-on detection device 200 operate and detect. The equipment is operated, only a starting button needs to be manually pressed, the detection part is completed by the automatic on-off detection device, the operation is very convenient, the production efficiency is high, the labor cost is reduced, and the outflow of defective products is greatly reduced.

The contact detection device 100 is composed of a sensor support 101 and 32 proximity switches, when the server hard disk support 400 is correctly placed, the driving motor 310 is started to drive the linear module 320 through the coupler, and the contact detection device 100 is connected with the linear module 320 through the support 130 in a pin mode and moves along with the linear module 320. When the contact detection device 100 moves to the contacts 401 on the upper and lower sides of the server hard disk holder 400, whether the contacts 401 of the server hard disk holder 400 are normal is detected by the upper proximity switch 111 and the lower proximity switch 121.

The power-on detection device 200 is composed of 1 butt clamp cylinder 201, 2 insulating contact support plates and 4 copper contacts, and the butt clamp cylinder 201 is connected to the contact detection device 100 through a connection angle plate 260 and moves synchronously. When the power-on detection device 200 moves in place along with the contact detection device 100, the clamp cylinder 201 is clamped, the upper two upper contacts on the upper side perform power-on detection on the upper side of the server hard disk support 400, and the lower two copper lower contacts on the lower side perform power-on detection on the lower side of the server hard disk support 400.

The devices, mechanisms, components and the like disclosed in the present embodiment can be implemented by general and customary means known in the art, unless otherwise specified. The contact point detection device for the server hard disk support is not limited to the disclosure in the specific embodiment, the technical solutions presented in the embodiments can be extended based on the understanding of those skilled in the art, and simple alternatives made by those skilled in the art according to the present solution in combination with common general knowledge also belong to the scope of the present solution.

Claims (10)

1. The contact detection equipment for the server hard disk support is characterized by comprising a contact detection device, an electrifying detection device and a detection driving device, wherein the detection driving device is in transmission connection with the contact detection device, the electrifying detection device is in positioning connection with the contact detection device, the detection driving device drives the contact detection device to move to a detection position of the server hard disk support, the contact detection device detects a contact on the server hard disk support, and the electrifying detection device conducts electrifying detection on the server hard disk support.

2. The contact detection device of the server hard disk support according to claim 1, wherein the contact detection device comprises a sensor support, the sensor support comprises an upper cantilever frame and a lower cantilever frame, a server hard disk support is arranged between the upper cantilever frame and the lower cantilever frame,

a plurality of upper mounting through holes are arranged on the upper cantilever crane, an upper proximity switch is arranged in each upper mounting through hole, the upper proximity switch detects a contact on the upper side of the server hard disk support,

the lower cantilever frame is provided with a plurality of lower mounting through holes, a lower proximity switch is arranged in the lower mounting through holes, and the lower proximity switch detects contacts on the lower side of the server hard disk support.

3. The apparatus according to claim 2, wherein the upper suspension frame is provided with 16 upper proximity switches, the 16 upper proximity switches are arranged in 2 rows and 8 columns, the lower suspension frame is provided with 16 lower proximity switches, and the 16 lower proximity switches are arranged in 2 rows and 8 columns.

4. The contact point detection device for the server hard disk support according to claim 2, wherein one end of the upper cantilever support and one end of the lower cantilever support are connected with the upper end of a support pillar, the lower end of the support pillar is in transmission connection with the detection driving device, and the detection driving device drives the upper cantilever support and the lower cantilever support to move through the support pillar.

5. The apparatus according to claim 1, wherein the power-on detection device comprises a clamp cylinder, the clamp cylinder comprises a cylinder body and a clamp output end, the clamp output end comprises an upper clamp arm and a lower clamp arm,

the upper clamping arm is connected with one end of an upper insulating contact support plate, a plurality of upper contact mounting through holes are arranged on the upper insulating contact support plate, upper contacts are arranged in the upper contact mounting through holes,

the lower clamping arm is connected with one end of a lower insulating contact support plate, a plurality of lower contact mounting through holes are arranged on the lower insulating contact support plate, lower contacts are arranged in the lower contact mounting through holes,

the server hard disk support is arranged between the upper contact and the lower contact, the upper contact and the lower contact which move in opposite directions are matched with and clamp the server hard disk support, the upper side of the server hard disk support is electrified and detected through the upper contact, and the lower side of the server hard disk support is electrified and detected through the lower contact.

6. The contact point detection device for the server hard disk support according to claim 5, wherein the outer side of the cylinder body is connected with one end of a connection angle plate, and the other end of the connection angle plate is connected with the contact point detection device.

7. The contact detection device for the server hard disk support according to claim 6, wherein a plurality of internal thread holes are formed in the outer side of the cylinder body, a plurality of corner plate connection through holes are formed in one end of the connection corner plate, the outer side of the cylinder body is fixedly connected with one end of the connection corner plate through bolts, a plurality of corner plate connection through holes are formed in the other end of the connection corner plate, a plurality of internal thread holes are formed in the outer side of the upper cantilever frame of the contact detection device, and the other end of the connection corner plate is fixedly connected with the upper cantilever frame of the contact detection device through bolts.

8. The contact detection device for the server hard disk support according to claim 1, wherein the detection driving device comprises a driving motor and a linear module, the driving motor is in transmission connection with the linear module, and the linear module is in transmission connection with the contact detection device.

9. The contact detection device for the server hard disk support according to claim 1, wherein the server hard disk support is arranged on a product platform, the product platform is arranged on an equipment base plate through a gantry support, and the detection driving device is arranged below the gantry support.

10. The contact detection device for the server hard disk support according to claim 9, wherein the device base plate is disposed on a device workbench, the device workbench comprises a table top plate, the table top plate is disposed on the workbench support, and a workbench support leg is disposed on a bottom corner end of the workbench support.

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