CN113867487A - PCIE module structure suitable for hard disk frame - Google Patents

Abstract

The invention discloses a PCIE module structure suitable for a hard disk frame, which belongs to the technical field of servers, and comprises a bracket, a panel and a side cover plate; the PCIE card is arranged on the side plate of the bracket through the ascending card; the side cover plate is rotatably arranged on the upper plate of the bracket; the panel is rotatably arranged on the front plate of the bracket, and the panel is provided with a locking plate and a clamping hook; the side plate of the bracket is provided with a stop bulge; sliding strips are arranged on the side plates and the side cover plates of the bracket; the hard disk frame is provided with a first convex bridge and a second convex bridge. The PCIE module passes through the slide sliding fit of draw runner and hard disc frame, ends a arch and second convex bridge butt, and locking plate pothook and first convex bridge butt realize the location installation of PCIE module in hard disc frame installation space. The PCIE module is quickly switched and firmly supported and installed in the hard disk frame without replacing the chassis, so that tool-free quick assembly and disassembly of the PCIE module are realized, and flexible switching of chassis configuration and convenient and quick overall maintenance are realized; the reasonable space arrangement and the good heat dissipation effect in the case are ensured.

Description

PCIE module structure suitable for hard disk frame

Technical Field

The invention belongs to the technical field of servers, and particularly relates to a PCIE module structure suitable for a hard disk frame.

Background

Due to the functional requirements of the server and the memory product, the whole machine design is required to realize cold/hot plugging of various functional parts from the aspects of operation, maintenance and the like, and quick disassembly and assembly and firm fixation can be realized so as to ensure smooth operation of services. Due to different functional requirements, configuration diversification is a normal state in server models.

The switching between the PCIE module and the hard disk module in the existing server chassis is usually realized by directly replacing different chassis, which is not favorable for flexible switching of configuration. Meanwhile, the replaced PCIE module is usually fixed on the chassis by using screws, so that the PCIE module cannot be conveniently disassembled, assembled and maintained.

On the other hand, due to the limitation of the internal space of the server chassis and the requirement of high heat dissipation, the PCIE module usually occupies the redundant space inside the server chassis, which is not favorable for reasonable space distribution and heat dissipation.

Disclosure of Invention

In order to solve the above problems, the present invention provides a PCIE module structure suitable for a hard disk frame, which enables a PCIE module to be quickly and reliably supported and mounted in the hard disk frame without replacing a chassis, and enables tool-free quick assembly and disassembly of the PCIE module.

The invention is realized by the following technical scheme:

a PCIE module structure suitable for a hard disk frame comprises a PCIE module, wherein the PCIE module comprises a bracket, a panel and a side cover plate, and the bracket is of a three-surface vertical structure;

the PCIE card is arranged on the inner wall of the side plate of the bracket through the ascending card; the side cover plate is rotatably arranged on one side, away from the side plate, of the upper plate of the bracket and is used for limiting the PCIE card in abutting connection;

the panel is rotatably arranged on the front side of the front plate of the bracket through a vertical rotating shaft, and the panel is connected with a locking plate clamping hook through an elastic locking plate; a convex stop bulge is arranged on the side plate of the bracket;

the outer walls of the side plates of the bracket and the outer wall of the side cover plate are respectively provided with a slide bar which is in sliding fit with the slide rail on the hard disk frame;

the two side surfaces of the hard disk frame are respectively provided with a first convex bridge for limiting the forward butt of the locking plate clamping hook and a second convex bridge for limiting the backward butt of the stop protrusion.

The PCIE module is in sliding fit with the slideway of the hard disk frame through the sliding strip, so that the installation of the PCIE module in the installation space of the hard disk frame is realized; in the installation process of the PCIE module, the stop bulge is abutted against the second convex bridge, so that the limit of the PCIE module in the backward sliding direction is realized; the panel is rotated to be closed, the elastic locking plate is bent downwards, the locking plate clamping hook moves downwards and crosses the first convex bridge, the locking plate clamping hook moves upwards through the upward return elasticity of the elastic locking plate and is abutted against the first convex bridge, and the forward sliding direction of the PCIE module is limited; therefore, the PCIE module is firmly positioned and installed in the hard disk frame installation space. When the PCIE module is disassembled from the hard disk frame installation space, the elastic locking plate can be only pressed down, so that the locking plate clamping hook moves downwards, a limiting path of the first convex bridge to the locking plate clamping hook is avoided, and the PCIE module can be directly pulled out forwards. The PCIE module is quickly switched to support and firmly install the PCIE module in the hard disk frame under the condition that a chassis is not replaced, and tool-free quick assembly and disassembly of the PCIE module are realized, so that flexible switching of chassis configuration and convenient and quick overall maintenance are realized; and other spaces in the case can not be occupied, and reasonable space arrangement and good heat dissipation effect in the case are ensured.

The invention is further improved in that the side cover plate is rotatably arranged on the upper plate of the bracket through a rotating pin and can slide back and forth along the rotating pin;

the bracket is provided with a side cover plate positioning hanging nail; the side cover plate is provided with a side cover plate positioning hole which is clamped and positioned with the side cover plate positioning hanging nail;

the side cover plate is provided with a spring pin; and the support is provided with a spring pin positioning hole for inserting and positioning the spring pin.

When the PCIE card is abutted and limited by the side cover plate, the side cover plate slides forwards along the rotating pin, so that the large opening end of the side cover plate positioning hole in the shape of the gourd-shaped hole is aligned with the side cover plate positioning hanging nail; the side cover plate is turned downwards, the side cover plate positioning hanging nails are inserted into the large opening end of the side cover plate positioning holes, and the side cover plate is abutted to the PCIE card; the side cover plate slides backwards, so that the side cover plate positioning hanging nail is clamped into the small opening end of the side cover plate positioning hole, and the head part of the side cover plate positioning hanging nail is pressed and limited to the small opening end of the side cover plate positioning hole; the spring pin is inserted into the spring pin positioning hole, so that the side cover plate can be prevented from sliding back and forth; therefore, the side cover plate can reliably position the PCIE card when abutting against the PCIE card, and the reliability of limiting the PCIE card is ensured. When the PCIE card is dismantled, reverse operation can, upwards extract the spring catch, the side shroud moves forward, makes the side shroud location peg align with the macrostoma end of side shroud locating hole, upwards overturns the side shroud, can realize dodging to the plug route of PCIE card direction left to realize the convenient dismouting of PCIE card.

The invention is further improved in that a spring which has backward elasticity on the side cover plate is sleeved on the rotating pin. The spring can assist the side cover plate positioning hole and the side cover plate positioning hanging nail to be firmly clamped, so that the tripping is avoided; and after the side cover plate is turned over downwards and closed, the side cover plate can be automatically moved backwards, and convenience in operation is provided.

In a further improvement of the present invention, a gasket abutting against the PCIE card is disposed on the side cover plate. The gasket can prevent the side cover plate from being in direct contact with the PCIE card, and the damage of the PCIE card is avoided; and a certain elastic margin is provided, and the reliability of limiting the PCIE card is ensured.

The invention is further improved that the inner wall of the side plate of the bracket is provided with a lifting card positioning hanging nail; the ascending card is provided with a through hole and an ascending card positioning hole which is clamped and positioned with the ascending card positioning hanging nail; and a lifting card locking screw which is screwed with the side plate of the bracket is arranged in the through hole in a penetrating way. The ascending card is clamped with the ascending card positioning hanging nail through the ascending card positioning hole in the shape of the gourd hole and is locked and positioned through the ascending card fixing screw, so that the ascending card is convenient to disassemble and assemble and firm to position.

The invention is further improved in that an operation hole is formed in the panel, and an operation plate corresponding to the operation hole is arranged on one side, close to the locking plate clamping hook, of the elastic locking plate. When demolising the PCIE module, stretch into the handle hole and push down the operation panel on the elastic locking plate through the finger, the locking plate pothook avoids first convex bridge to its spacing route, directly can slide the PCIE module forward and pull out, improves the convenience of demolising in the PCIE module follow hard disk frame installation space.

In addition, the front plate and the panel of the bracket are respectively provided with corresponding heat dissipation holes. Good heat dissipation to the fore-and-aft direction of PCIE card can be realized through the louvre, and realizes pulling out the PCIE module through pulling the louvre border, improves the convenience of operation.

The invention is further improved in that the upper plate of the bracket is provided with a wire arranging buckle. The cable arranging buckle can collect and store cables led out by the lifting card.

In a further improvement of the invention, a battery module is arranged on the upper plate of the bracket. The PCIE card is powered through the battery module, so that the high integration of the battery module and the PCIE module is realized, and the occupied space is saved.

In addition, the battery module comprises a battery seat and a battery, and the battery is fixedly installed with the battery seat through a binding belt;

the battery seat is provided with a battery seat positioning hole; the upper plate of the bracket is provided with a battery seat positioning hanging nail which is clamped and positioned with the battery seat positioning hole;

the battery seat is also provided with an elastic handle, and the lower end of the elastic handle protrudes out of the battery seat; and the upper plate of the bracket is provided with a handle positioning hole which is clamped and positioned with the lower end of the elastic handle.

The battery seat positioning hanging nail is used for clamping the battery seat positioning hole in the shape of the gourd hole, the lower end of the elastic handle is used for positioning the handle positioning hole, the battery seat is firmly positioned on the support, the battery seat can be conveniently disassembled and assembled, and the flexibility of battery module selection is realized.

According to the technical scheme, the invention has the beneficial effects that:

the PCIE module is installed in the hard disk frame installation space through the sliding fit of the sliding strip and the sliding way of the hard disk frame; the stop bulge is abutted with the second convex bridge, so that the PCIE module is limited in the backward sliding direction; the locking plate hook is abutted against the first convex bridge, so that the PCIE module is limited in the forward sliding direction; therefore, the PCIE module is firmly positioned and installed in the hard disk frame installation space. The PCIE module is quickly switched to support and firmly install the PCIE module in the hard disk frame under the condition that a chassis is not replaced, and tool-free quick assembly and disassembly of the PCIE module are realized, so that flexible switching of chassis configuration and convenient and quick overall maintenance are realized; and other spaces in the case can not be occupied, and reasonable space arrangement and good heat dissipation effect in the case are ensured.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description will be briefly introduced, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a second directional structural diagram of the embodiment of the present invention.

Fig. 3 is a schematic diagram of an explosion structure of a PCIE module according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of a first-direction structure of a PCIE module according to an embodiment of the present invention.

Fig. 5 is a schematic diagram of a second-direction structure of a PCIE module according to an embodiment of the present invention.

Fig. 6 is a schematic bottom structure diagram of a PCIE module according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a PCIE module according to an embodiment of the present invention after a side cover plate is removed.

Fig. 8 is a schematic diagram of an assembly process of a PCIE module according to an embodiment of the present invention.

In the drawings: 1. PCIE module, 11, bracket, 111, wire arranging buckle, 112, stop protrusion, 12, panel, 121, elastic locking plate, 122, operation hole, 123, locking plate hook, 124, rotation shaft, 125, operation plate, 13, side cover plate, 131, rotation pin, 132, spring pin, 133, gasket, 134, side cover plate positioning hole, 135, side cover plate positioning hook, 136, spring, 137, spring pin positioning hole, 14, battery module, 141, battery holder, 142, ribbon, 143, battery, 144, elastic handle, 145, battery holder positioning hole, 146, battery holder positioning hook, 147, handle positioning hole, 15, lifting clip, 151, lifting clip positioning hook, 152, lifting fastening screw, 153, lifting clip positioning hole, 154, through hole, 16, PCIE clip, 17, slide bar, 2, hard disk frame, 21, first side plate, 22, first convex bridge, 23, second side plate, 24, second convex bridge, 25, second convex bridge, A slideway.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings in the present embodiment, and it is apparent that the embodiments described below are only a part of embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the scope of protection of this patent.

As shown in fig. 1-2, a hard disk frame 2 of a sheet metal structure forms an installation space adapted to a hard disk, and a first side plate 21 and a second side plate 23 are respectively arranged on the left side and the right side of the installation space of the hard disk frame 2; in a plurality of hard disk frame 2 structures that are continuous from left to right, first curb plate 21 and second curb plate 23 in the middle of it laminate riveting fixed each other, can save hard disk frame 2 greatly and fill a space to strengthen its structural strength. In general, the installation spaces of the plurality of hard disk frames 2 do not all install hard disks, and a plurality of spare installation spaces of the hard disk frames 2 are reserved.

The first side plate 21 and the second side plate 23 are respectively provided with a slideway 25 for guiding the hard disk to slide back and forth; the slide way 25 is formed by stamping a metal plate and supports and guides the hard disk to slide back and forth.

As shown in fig. 1-6, the present invention discloses a PCIE module structure suitable for a hard disk frame, including a PCIE module 1 having an overall rectangular structure, where the PCIE module 1 is adapted to an installation space of a hard disk frame 2; the PCIE module 1 comprises a support 11, a panel 12 and a side cover plate 13, wherein the support 11 is of a three-surface vertical bending metal plate structure and is provided with a front plate, a right side plate and an upper plate;

the PCIE card 16 is installed on the inner wall of the side plate of the bracket 11 through the rising card 15; the side cover plate 13 is rotatably mounted on the left side of the upper plate of the bracket 11, and the PCIE card 16 can be conveniently disassembled and assembled and can be firmly abutted and limited by vertically turning the side cover plate 13;

the panel 12 is rotatably mounted on the front side of the front plate of the bracket 11 through a vertical rotating shaft 124, and the rotating shaft 124 is arranged at the right end of the front plate of the bracket 11; the panel 12 is connected with a locking plate hook 123 through an elastic locking plate 121 which can be elastically bent up and down, the right end of the elastic locking plate 121 is riveted and fixed with the panel 12, the left end of the elastic locking plate 121 is bent downwards and connected with the locking plate hook 123, and the locking plate hook 123 protrudes out of the left side of the panel 12; a convex stop bulge 112 is arranged on the side plate of the bracket 11; the back of the locking plate hook 123 is an inclined plane from front to back, and the front of the locking plate hook 123 is a vertical plane;

the outer walls of the side plates of the bracket 11 and the outer wall of the side cover plate 13 are respectively provided with a slide bar 17 which is in sliding fit with a slide way 25 on the hard disk frame 2;

a first convex bridge 22 for abutting and limiting the locking plate hook 123 in the forward direction and a second convex bridge 24 for abutting and limiting the stop protrusion 112 in the backward direction are respectively arranged on the first side plate 21 and the second side plate 23 of the hard disk frame 2; the first convex bridge 22 and the second convex bridge 24 are formed by punching and molding bridge-shaped convex structures.

The PCIE module 1 is in sliding fit with the slide rails 25 on the two sides of the hard disk frame 2 through the slide bars 17 on the left side and the right side of the PCIE module 1, so that the PCIE module 1 can be smoothly installed in an idle hard disk frame 2 installation space; in the installation process of the PCIE module 1, the stop protrusion 112 abuts against the second bump 24, so as to limit the PCIE module 1 in the backward sliding direction; the panel 12 is rotated to be closed, the backward inclined surface of the elastic locking piece 121 is in contact with and extruded by the first convex bridge 22, so that the elastic locking piece 121 bends downwards, the locking piece hook 123 moves downwards and passes over the first convex bridge 22, the locking piece hook 123 moves upwards through the upward return elasticity of the elastic locking piece 121, and the front vertical surface of the locking piece hook 123 is abutted against the first convex bridge 22, so that the limitation on the forward sliding direction of the PCIE module 1 is realized; therefore, the PCIE module 1 can be firmly positioned and installed in the installation space of the hard disk frame 2. When the PCIE module 1 is detached from the hard disk frame 2 installation space, only the elastic locking plate 121 can be operated to be pressed down, so that the locking plate hook 123 moves down, the limiting path of the first convex bridge 22 to the elastic locking plate hook is avoided, and the PCIE module 1 can be directly pulled out forward. The PCIE module is quickly switched to support and firmly install the PCIE module in the hard disk frame under the condition that a chassis is not replaced, and tool-free quick assembly and disassembly of the PCIE module are realized, so that flexible switching of chassis configuration and convenient and quick overall maintenance are realized; and other spaces in the case can not be occupied, and reasonable space arrangement and good heat dissipation effect in the case are ensured.

As shown in fig. 3 and 5, the side cover 13 is rotatably mounted on the upper plate of the bracket 11 by a rotating pin 131 in the front-back direction, and the side cover 13 can slide back and forth along the rotating pin 131;

side cover plate positioning hanging nails 135 in the upward direction and the leftward direction are respectively arranged on the upper surface of the upper plate of the bracket 11 and the left end surface of the front plate of the bracket 11; the side cover plate 13 is provided with a side cover plate positioning hole 134 which is clamped and positioned with the side cover plate positioning hanging nail 135; the side cover plate positioning hole 134 is in the shape of a gourd hole with a small front part and a big rear part; the reliability of the positioning of the side cover plate 13 is ensured by the clamping positioning of the side cover plate positioning hanging nails 135 and the side cover plate positioning holes 134 in two directions.

The side cover plate 13 is provided with a spring pin 132; the upper plate of the bracket 11 is provided with a spring pin positioning hole 137 for inserting and positioning the spring pin 132.

When the side cover plate 13 abuts and limits the PCIE card 16, the side cover plate 13 slides forward along the rotating pin 131, so that the large opening end of the side cover plate positioning hole 134 in the shape of a gourd-hole is aligned with the side cover plate positioning hanging nail 135; the side cover plate 13 is turned downwards, the side cover plate positioning hanging nails 135 are inserted into the large opening ends of the side cover plate positioning holes 134, and meanwhile, the side cover plate 13 is abutted to the PCIE card 16; the side cover plate 13 slides backwards, so that the side cover plate positioning hanging nail 135 is clamped into the small opening end of the side cover plate positioning hole 134, and the head of the side cover plate positioning hanging nail 135 is pressed and limited on the small opening end of the side cover plate positioning hole 134; the spring pin 132 is inserted into the spring pin positioning hole 137, so that the side cover plate 13 can be prevented from sliding back and forth; therefore, the side cover plate 13 can reliably position the PCIE card 16 in the abutting connection, and the reliability of limiting the PCIE card 16 is ensured. When the PCIE card 16 is detached, the reverse operation is performed, the spring pin 132 is pulled out upward, the side cover plate 13 moves forward, the side cover plate positioning hanging nail 135 is aligned with the large opening end of the side cover plate positioning hole 134, and the side cover plate 13 is turned over upward, so that the insertion and extraction path of the PCIE card 16 in the left direction can be avoided, and therefore the PCIE card 16 can be detached conveniently.

After the side cover plate 13 is turned downwards and fastened, the side cover plate 13 slides backwards to be locked, so that the front end of the side cover plate 13 moves backwards to reserve a closed space for the panel 12, the overall structural design is more compact, and the interference on the closing of the panel 12 is avoided.

As shown in fig. 5 and 7, the rotating pin 131 is sleeved with a spring 136 having a backward elastic force on the side cover 13. The spring 136 has elastic force towards the backward direction of the side cover plate 13, and can assist the side cover plate positioning hole 134 and the side cover plate positioning hanging nail 135 to be firmly clamped, so as to avoid tripping; and after the side cover plate 13 is turned over downwards and closed, the side cover plate 13 can be automatically moved backwards, and convenience in operation is provided.

As shown in fig. 5, the side cover plate 13 is provided with a push-pull hole for facilitating the forward and backward push-pull operation of the side cover plate 13. The front and back movement of the side cover plate 13 is realized through the push-pull hole, the structure is simple, and the operation is convenient.

As shown in fig. 3 and 6, the side cover 13 is provided with a rubber gasket 133 abutting against the PCIE card 16. The gasket 133 can prevent the side cover plate 13 from directly contacting the PCIE card 16, and prevent damage to the PCIE card 16; and a certain elastic margin is provided, so that the reliability of limiting the PCIE card 16 is ensured.

As shown in fig. 3 and 6, the inner wall of the side plate of the bracket 11 is provided with a lifting card positioning hanging nail 151; the ascending card 15 is provided with a through hole 154 and an ascending card positioning hole 153 which is clamped and positioned with the ascending card positioning hanging nail 151, and the ascending card positioning hole 153 is in a shape of a gourd-shaped hole; a lifting card locking screw 152 screwed with the side plate of the bracket 11 is arranged in the through hole 154. The lifting card 15 is clamped with the lifting card positioning hanging nail 151 through a lifting card positioning hole 153 in the shape of a gourd hole, and is locked and positioned through a lifting card locking screw 152, so that the lifting card 15 is convenient to disassemble and assemble and is firmly positioned.

Wherein, the upper plate of the bracket 11 is provided with a wire outlet hole for the connector of the card 15 to extend out. The rear right of the upper plate of the bracket 11 is provided with a cable arranging buckle 111. The cable arranging buckle 111 can collect and store the cables led out from the ascending card 15 so as to lead out backwards and connect with the mainboard.

As shown in fig. 3 and 4, an operation hole 122 is formed in the upper left of the panel 12, and an operation plate 125 corresponding to the operation hole 122 is disposed on one side of the elastic locking piece 121 close to the locking piece hook 123. The operating panel 125 is a concave arc structure, and it passes through the operating hole 122 forward, and is provided with a downward flange attached to the panel 12, and the downward indicating arrow is provided on the flange. When the PCIE module 1 is removed, a finger extends into the operation hole 122 and presses down the operation plate 125 on the elastic locking plate 121, the concave arc-shaped operation plate 125 can better adhere to the finger, so as to improve comfort, and a downward turned edge at the front end of the operation plate 125 adheres to the panel 12 for guiding, so as to realize stable downward movement of the locking plate hook 123; when the lower edge of the operation hole 122 abuts against and limits the operation plate 125, the locking plate hook 123 avoids the limit path of the first bump 22 to the operation hole, and the PCIE module 1 can be directly pulled out by sliding forward. The convenience of removing the PCIE module 1 from the installation space of the hard disk frame 2 is improved.

As shown in fig. 3-4, the front plate of the bracket 11 and the panel 12 are respectively provided with corresponding heat dissipation holes. Good heat dissipation to the fore-and-aft direction of PCIE card 16 can be realized through the louvre, and realizes pulling out PCIE module 1 through pulling the louvre border, improves the convenience of operation.

As shown in fig. 2, the upper plate of the bracket 11 is detachably mounted with two front and rear battery modules 14. When the PCIE card 16 needs to supply power or is matched with a super capacitor, the battery module 14 may be optionally installed, and the PCIE card 16 is supplied with power through the battery module 14, so that high integration of the battery module 14 and the PCIE module 1 is realized, and the space occupation is saved.

As shown in fig. 2, the battery module 14 includes a battery holder 141 and a battery 143, and the battery 143 is fixedly mounted with the battery holder 141 by a tie 142; the battery 143 and the battery seat 141 are fixed through the binding belt 142, so that the assembly and disassembly are convenient and the positioning is reliable;

the battery seat 141 is provided with a gourd-shaped battery seat positioning hole 145; a battery holder positioning hanging nail 146 which is clamped and positioned with the battery holder positioning hole 145 is arranged on the upper plate of the bracket 11;

the battery holder 141 is further provided with an elastic handle 144 which can be elastically bent upwards, and the lower end of the elastic handle 144 protrudes out of the bottom surface of the battery holder 141; the upper plate of the bracket 11 is provided with a handle positioning hole 147 for clamping and positioning with the lower end of the elastic handle 144. The battery holder positioning hanging nail 146 is clamped with the battery holder positioning hole 145 in the shape of a gourd hole, the lower end of the elastic handle 144 is positioned with the handle positioning hole 147, the battery holder 141 is firmly positioned on the support 11, the battery holder 141 can be conveniently disassembled and assembled, and the battery module 14 can be flexibly assembled.

As shown in fig. 8, the specific process of assembling the PCIE module 1 is as follows:

1. the panel 12 and the side cover 13 are in an open state;

2. installing a lifting card 15; the lifting card 15 is firmly installed by clamping the lifting card positioning hole 153 in the shape of a gourd hole with the lifting card positioning hanging nail 151 and locking and positioning the lifting card by the lifting card locking screw 152;

3. installing a PCIE card 16; the PCIE card 16 is inserted into a slot of the ascending card 15, and a positioning mounting plate on the front side of the PCIE card 16 is positioned and mounted with the front plate of the bracket 11 through a screw;

4. closing the side cover 13; the operation side cover plate 13 slides forwards along the rotating pin 131, the side cover plate 13 is turned downwards, the side cover plate positioning hanging nail 135 is inserted into the large opening end of the side cover plate positioning hole 134, and meanwhile the gasket 133 is abutted to the PCIE card 16; through the elastic force of the spring 136, the side cover plate 13 slides backwards, so that the side cover plate positioning hanging nail 135 is clamped into the small opening end of the side cover plate positioning hole 134, and the spring pin 132 is inserted into the spring pin positioning hole 137, so that the closing of the side cover plate 13 and the abutting limit of the PCIE card 16 are realized;

5. installing the battery module 14; the battery seat positioning hanging nail 146 is clamped with the battery seat positioning hole 145 in the shape of a gourd hole, and the lower end of the elastic handle 144 is positioned with the handle positioning hole 147, so that the battery seat 141 is firmly positioned on the bracket 11; the tie strap 142 extends out of the groove at the bottom of the battery holder 141, the battery 143 is placed in the groove of the battery holder 141, and the tie strap 142 is fixed around the battery 143.

The PCIE module structure suitable for the hard disk frame is simple in overall structure and convenient and fast to use; the PCIE module is installed in the hard disk frame installation space through the sliding fit of the sliding strip and the sliding way of the hard disk frame; the stop bulge is abutted with the second convex bridge, so that the PCIE module is limited in the backward sliding direction; the locking plate hook is abutted against the first convex bridge, so that the PCIE module is limited in the forward sliding direction; therefore, the firm positioning and installation of the PCIE module in the hard disk frame installation space are realized; the PCIE module can be quickly and firmly supported and installed in the hard disk frame by switching under the condition that a chassis is not replaced, and tool-free quick assembly and disassembly of the PCIE module are realized, so that flexible switching of chassis configuration and convenient and quick overall maintenance are realized; and other spaces in the case can not be occupied, and reasonable space arrangement and good heat dissipation effect in the case are ensured.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The terms "upper", "lower", "outside", "inside" and the like in the description and claims of the present invention and the above drawings are used for distinguishing relative positions if any, and are not necessarily given qualitatively. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The PCIE module structure suitable for the hard disk frame is characterized by comprising a PCIE module (1), wherein the PCIE module (1) comprises a bracket (11), a panel (12) and a side cover plate (13), and the bracket (11) is of a three-surface vertical structure;

the PCIE card (16) is arranged on the inner wall of the side plate of the bracket (11) through a lifting card (15); the side cover plate (13) is rotatably arranged on one side, away from the side plate, of the upper plate of the bracket (11) and used for abutting and limiting the PCIE card (16); the panel (12) is rotatably arranged on the front side of the front plate of the bracket (11) through a vertical rotating shaft (124), and the panel (12) is connected with a locking plate hook (123) through an elastic locking plate (121); a convex stop bulge (112) is arranged on the side plate of the bracket (11);

the outer walls of the side plates of the bracket (11) and the outer wall of the side cover plate (13) are respectively provided with a sliding strip (17) which is in sliding fit with a sliding way (25) on the hard disk frame (2);

the two side surfaces of the hard disk frame (2) are respectively provided with a first convex bridge (22) for limiting the forward butt joint of the locking plate clamping hook (123) and a second convex bridge (24) for limiting the backward butt joint of the stop protrusion (112).

2. The PCIE module structure suitable for the hard disk frame as claimed in claim 1, wherein the side cover plate (13) is rotatably installed on the upper plate of the bracket (11) through a rotating pin (131) and can slide back and forth along the rotating pin (131);

a side cover plate positioning hanging nail (135) is arranged on the bracket (11); the side cover plate (13) is provided with a side cover plate positioning hole (134) which is clamped and positioned with the side cover plate positioning hanging nail (135);

the side cover plate (13) is provided with a spring pin (132); and the support (11) is provided with a spring pin positioning hole (137) for inserting and positioning the spring pin (132).

3. The PCIE module structure suitable for a hard disk frame of claim 2, wherein the rotating pin (131) is sleeved with a spring (136) having a backward elastic force to the side cover plate (13).

4. The PCIE module structure suitable for a hard disk frame according to claim 2, wherein a gasket (133) abutting against the PCIE card (16) is disposed on the side cover plate (13).

5. The PCIE module structure suitable for the hard disk frame as claimed in claim 1, wherein the inner wall of the side plate of the bracket (11) is provided with a lifting card positioning hanging nail (151); the lifting card (15) is provided with a through hole (154) and a lifting card positioning hole (153) which is clamped and positioned with the lifting card positioning hanging nail (151); and a lifting card locking screw (152) screwed with the side plate of the bracket (11) penetrates through the through hole (154).

6. The PCIE module structure suitable for a hard disk frame according to claim 1, wherein an operation hole (122) is formed on the panel (12), and an operation board (125) corresponding to the operation hole (122) is disposed on one side of the elastic locking piece (121) close to the locking piece hook (123).

7. The PCIE module structure suitable for a hard disk frame as claimed in claim 1, wherein the front plate of the bracket (11) and the panel (12) are respectively provided with corresponding heat dissipation holes.

8. The PCIE module structure suitable for a hard disk frame according to claim 1, wherein a wire arranging buckle (111) is arranged on an upper board of the bracket (11).

9. The PCIE module structure suitable for a hard disk frame according to claim 1, wherein a battery module (14) is disposed on an upper board of the bracket (11).

10. The PCIE module structure suitable for a hard disk frame according to claim 9, wherein the battery module (14) comprises a battery holder (141) and a battery (143), the battery (143) is fixedly installed with the battery holder (141) through a tie (142);

a battery seat positioning hole (145) is formed in the battery seat (141); a battery seat positioning hanging nail (146) which is clamped and positioned with the battery seat positioning hole (145) is arranged on the upper plate of the bracket (11);

the battery seat (141) is also provided with an elastic handle (144), and the lower end of the elastic handle (144) protrudes out of the battery seat (141); and a handle positioning hole (147) which is clamped and positioned with the lower end of the elastic handle (144) is formed in the upper plate of the bracket (11).

Images