CN115397182A

CN115397182A - Static memory with installation auxiliary accessory and operation method thereof

Info

Publication number: CN115397182A
Application number: CN202211323023.7A
Authority: CN
Inventors: 周广森; 李凡宽; 付吉庆
Original assignee: Jining Haifu Electronic Technology Co Ltd
Current assignee: Jining Haifu Electronic Technology Co Ltd
Priority date: 2022-10-27
Filing date: 2022-10-27
Publication date: 2022-11-25
Anticipated expiration: 2042-10-27
Also published as: CN115397182B

Abstract

The invention relates to the technical field of memories, in particular to a static memory with an installation auxiliary accessory and an operation method thereof.A static memory designed by the invention can carry out good auxiliary positioning work on the installation work of a static memory unit and a static memory module by mutually matching and using a unit installation auxiliary part, a connecting component and a module installation auxiliary part, and can ensure that the problems of position jitter and offset do not occur when the static memory unit and the static memory module are welded or fixed by using a threaded connecting piece, thereby ensuring the installation work quality and ensuring the work performance; moreover, the module installation auxiliary member is provided with first module installation auxiliary member and second module installation auxiliary member, can change according to the installation demand, has good work flexibility.

Description

Static memory with installation auxiliary accessory and operation method thereof

Technical Field

The invention relates to the technical field of memories, in particular to a static memory with an auxiliary installation accessory and an operation method thereof.

Background

The static memory relies on the two stable states of the flip-flops to hold information. Each bistable circuit stores a one-bit binary code 0 or 1, and a plurality of bistable circuits are contained on one memory chip; the bistable circuit is an active device, needs a power supply to work, and can stably store information for a long time as long as the power supply is normal, so the bistable circuit is called as a static memory.

The prior Chinese patent document with publication number CN211982387U and publication number 20201120 discloses a micro-box device for computer network security; the problem that the safety use of a computer miniature box in the prior art is improved and optimized, namely the internal structure of the miniature box is small and compact, so that the internal temperature of equipment is high when the miniature box is used, the normal operation of the equipment is influenced, and the equipment is inconvenient to carry during transportation, so that the practicability of the equipment is influenced is improved; its rotation and the setting of air exit through the fan for produce the air current when inside high temperature and carry out the work of cooling down, make equipment normal operating then, make when transporting, conveniently carry on the surface of main part through the fastening block joint, improved the practicality of equipment then.

In the scheme and the static memory in the prior art, in the using process, a single static memory unit is used, and a plurality of static memory units are arranged on a bearing plate for practical installation to form a static memory module; however, for the installation work, the static memory unit is generally welded on the bearing plate, and then the bearing plate is fixedly connected to the main board through welding or screws; in the prior art, a static memory does not have a corresponding mounting and positioning auxiliary component, and when pins of the static memory are welded, the position deviation of the static memory is easily caused; and for the adaptation screw fixation, also can cause its position to become flexible to influence its installation operating mass, also can cause the influence to its working property.

To this end, the present invention provides a static memory with an auxiliary mounting accessory and an operating method thereof to solve the above problems.

Disclosure of Invention

The present invention is directed to a static memory with an auxiliary mounting accessory and a method for operating the same, which solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: a static memory with auxiliary mounting accessories comprises a mainboard, a bearing plate and static memory units, wherein the static memory units are fixedly arranged on the bearing plate at equal intervals through the unit mounting accessories, and the bearing plate is mounted on the mainboard through the matching use between a connecting component and the module mounting accessories;

the unit installation auxiliary part comprises a positioning insertion block, a positioning insertion groove, a clamping groove, a movable block, a pushing strip, a reset spring, a movable clamping strip, a connecting spring, a groove, a transmission slope and an auxiliary inclined plane;

the connecting assembly comprises a cover groove, a pre-positioning groove, a pressing plate, a connecting plate and a pre-positioning fixture block.

Preferably, the fixed both ends that set up at static memory unit of location inserted block symmetry, the setting of location slot equidistance is on the loading board, and one side among the location slot is provided with the draw-in groove, the activity of movable block is pegged graft and is set up in the location inserted block, and the fixed layering that pushes away that is provided with of one end of movable block, and the movable block is fixed being provided with reset spring with pushing away a strip looks end, and reset spring's one end is fixed to be set up in the location inserted block, the activity of activity card strip is set up in the location inserted block, and the one end of activity card strip extends to the location inserted block, and the tip is provided with supplementary inclined plane, and the fixed coupling spring that is provided with of terminal surface of the other end, and coupling spring's one end is fixed to be set up in the location inserted block, the recess sets up in one side of activity card strip, and one side of activity card strip is provided with the transmission slope.

Preferably, the positioning slots correspond to the positioning insertion blocks in arrangement positions and are arranged in the same number of groups, and the positioning slots and the positioning insertion blocks are in adaptive insertion; the movable clamping strips correspond to the clamping grooves in arrangement positions and are arranged in the same number, and the movable clamping strips and the clamping grooves are connected in a matched and clamped mode.

Preferably, the transmission slope and the groove correspond to the arrangement position of the pushing strip.

Preferably, the cover grooves are symmetrically arranged on two sides of the bearing plate and are in adaptive clamping connection with the pressing plate, the cover grooves are provided with pre-positioning grooves, the pressing plate is fixedly arranged on one side of the connecting plate, pre-positioning fixture blocks are fixedly arranged on the bottom side of the pressing plate, the pre-positioning fixture blocks correspond to the pre-positioning grooves in position and are the same in set number, and the pre-positioning fixture blocks and the pre-positioning grooves are in adaptive clamping connection.

Preferably, the module installation auxiliary member can select for use first module installation auxiliary member, and it includes round hole, cylindricality standing groove, activity auxiliary pipe, first auxiliary spring, annular direction inclined plane, first anti-skidding lug, installation screw, knob, second anti-skidding lug, thread groove, the round hole runs through the setting in the connecting plate, the cylindricality standing groove sets up on the top of round hole, and the activity is provided with the activity auxiliary pipe in the cylindricality standing groove, the bottom mounting of activity auxiliary pipe is provided with first auxiliary spring, and the one end of first auxiliary spring is fixed to be set up in the cylindricality standing groove, and the top inside wall of activity auxiliary pipe is provided with annular direction inclined plane, and the fixed first anti-skidding lug that is provided with of terminal surface equidistance, the installation screw passes round hole and thread groove looks adaptation threaded connection, and the fixed knob that is provided with of the one end of installation screw, the fixed second anti-skidding lug that is provided with of lateral wall equidistance of knob.

Preferably, the thread groove corresponds to the round hole and the installation screw in arrangement position and is provided with the same number of groups.

Preferably, the module installation auxiliary member can choose for use the second module installation auxiliary member, and it includes mounting groove, positioning groove, installation piece, location bayonet lock, second auxiliary spring, spherical surface, the mounting groove symmetry sets up on the mainboard, and the inside wall symmetry of mounting groove is provided with positioning groove, the fixed bottom side that sets up at the connecting plate of installation piece, and the symmetry activity is provided with the location bayonet lock in the installation piece, the one end of location bayonet lock extends to the outside of installation piece, and the tip sets up to spherical surface, and the fixed second auxiliary spring that is provided with in location bayonet lock other end, and the fixed setting in the installation piece of one end of second auxiliary spring.

Preferably, the installation block corresponds to the installation groove in position and has the same number of the installation groups, and the installation block and the installation groove are in adaptive insertion connection.

A method of operating a static memory with an auxiliary fitting installed thereon, the method comprising the steps of:

s1: the static memory unit is welded and installed on the bearing plate, the static memory unit and the bearing plate form a static memory module, and for the welding and fixing work of the static memory unit, the static memory unit is subjected to pre-positioning work firstly, namely the static memory unit is subjected to pre-positioning through the unit installation auxiliary part;

s2: when the static memory module is fixedly installed by using a threaded connecting piece, the installation is realized by the connecting component and the first module installation auxiliary piece; if the static memory module is fixed by welding, the static memory module is fixed by the connecting component and the second module installation auxiliary component.

Compared with the prior art, the invention has the beneficial effects that:

according to the static memory designed by the invention, through the mutual matching use of the unit installation auxiliary part, the connecting component and the module installation auxiliary part, the static memory unit and the static memory module can be well assisted and positioned, so that the problems of position jitter and offset are avoided when the static memory unit and the static memory module are welded or fixed by using a threaded connecting piece, the installation working quality is further ensured, and the working performance is ensured; moreover, the module installation auxiliary part is provided with first module installation auxiliary part and second module installation auxiliary part, can change according to the installation demand, has good work flexibility.

Drawings

FIG. 1 is a schematic view of the structural connection between a static memory and a first module mounting aid according to the present invention;

FIG. 2 is an enlarged partial view of the structural connection of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of structural connections between a static memory cell and a cell mounting aid, a connection assembly, and a first module mounting aid according to the present invention;

FIG. 4 is an enlarged partial view of the structural joint of FIG. 3 according to the present invention;

FIG. 5 is a schematic view of the structural connection between the static memory unit and the unit installation auxiliary device according to the present invention;

FIG. 6 is an enlarged partial view of the structural connection of FIG. 5 according to the present invention;

FIG. 7 is a partial sectional view of a structural attachment of the unit installation aid of the present invention;

FIG. 8 is an enlarged partial view of the structural joint of FIG. 7 according to the present invention;

FIG. 9 is a partial cross-sectional view of the connection assembly of the present invention in structural engagement with a first module installation aid;

FIG. 10 is an enlarged partial view of the structural joint of FIG. 9 according to the present invention;

FIG. 11 is a schematic view of structural connections between a static memory cell and cell mounting aids, a connecting assembly, and a second module mounting aid according to the present invention;

FIG. 12 is an enlarged partial schematic view of the structural joint of FIG. 11 according to the present invention;

FIG. 13 is a schematic view of the structural connection between the static memory unit and the second module installation aid of the present invention;

FIG. 14 is an enlarged partial schematic view of the structural joint of FIG. 13 according to the present invention;

fig. 15 is a partial sectional view of a second module installation aid structural attachment in accordance with the present invention;

fig. 16 is an enlarged view of a portion of the structural joint of fig. 15 according to the present invention.

In the figure: the device comprises a main board 1, a bearing plate 2, a static memory unit 3, a unit installation auxiliary element 4, a positioning insertion block 401, a positioning insertion groove 402, a clamping groove 403, a movable block 404, a pushing bar 405, a return spring 406, a movable clamping bar 407, a connecting spring 408, a groove 409, a transmission slope 410, an auxiliary inclined plane 411, a connecting assembly 5, a cover groove 501, a pre-positioning groove 502, a pressing plate 503, a connecting plate 504, a pre-positioning clamping block 505, a first module installation auxiliary element 6, a round hole 601, a cylindrical placing groove 602, a movable auxiliary tube 603, a first auxiliary spring 604, an annular guide inclined plane 605, a first anti-skid bump 606, a mounting screw 607, a knob 608, a second anti-skid bump 609, a threaded groove 610, a second module installation auxiliary element 7, a mounting groove 704 701, a positioning clamping groove 702, a mounting block 703, a positioning clamping pin, a second auxiliary spring and a spherical surface 706.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. The embodiments of the present invention, and all other embodiments obtained by a person of ordinary skill in the art without any inventive work, belong to the scope of protection of the present invention.

The first embodiment is as follows: referring to fig. 1-16, a static memory with auxiliary installation accessories comprises a main board 1, a loading board 2 and static memory units 3, wherein the static memory units 3 are fixedly arranged on the loading board 2 at equal intervals through auxiliary unit installation parts 4, and the loading board 2 is installed on the main board 1 through the matching between a connecting component 5 and the auxiliary module installation parts;

the unit installation auxiliary part 4 comprises a positioning plug block 401, a positioning slot 402, a clamping slot 403, a movable block 404, a pushing strip 405, a return spring 406, a movable clamping strip 407, a connecting spring 408, a groove 409, a transmission slope 410 and an auxiliary slope 411;

the connecting assembly 5 comprises a cover groove 501, a pre-positioning groove 502, a pressing plate 503, a connecting plate 504 and a pre-positioning fixture block 505; the positioning insertion blocks 401 are symmetrically and fixedly arranged at two ends of the static memory unit 3, the positioning insertion slots 402 are equidistantly arranged on the bearing plate 2, one side of each positioning insertion slot 402 is provided with a clamping slot 403, the movable blocks 404 are movably inserted into the positioning insertion blocks 401, one ends of the movable blocks 404 are fixedly provided with pushing strips 405, the movable blocks 404 are fixedly provided with reset springs 406 at the ends connected with the pushing strips 405, one ends of the reset springs 406 are fixedly arranged in the positioning insertion blocks 401, the movable clamping strips 407 are movably arranged in the positioning insertion blocks 401, one ends of the movable clamping strips 407 extend to the positioning insertion blocks 401, the end parts of the movable clamping strips are provided with auxiliary inclined planes 411, the end surfaces of the other ends of the movable clamping strips 407 are fixedly provided with connecting springs 408, one ends of the connecting springs 408 are fixedly arranged in the positioning insertion blocks 401, the grooves 409 are arranged at one sides of the movable clamping strips 407, and one sides of the movable clamping strips 407 are provided with transmission inclined planes 410; the positioning slots 402 correspond to the positioning insertion blocks 401 in arrangement positions and are arranged in the same number, and the positioning slots 402 and the positioning insertion blocks 401 are in adaptive insertion; the movable clamping strips 407 correspond to the clamping grooves 403 in arrangement positions and are arranged in the same number, and the movable clamping strips and the clamping grooves are matched and clamped; the transmission slope 410 and the groove 409 correspond to the arrangement position of the push pressing strip 405.

The cover grooves 501 are symmetrically arranged on two sides of the bearing plate 2, the cover grooves 501 are in adaptive clamping connection with the pressing plate 503, the cover grooves 501 are provided with pre-positioning grooves 502, the pressing plate 503 is fixedly arranged on one side of the connecting plate 504, pre-positioning fixture blocks 505 are fixedly arranged on the bottom side of the pressing plate 503, the pre-positioning fixture blocks 505 correspond to the pre-positioning grooves 502 in arrangement positions and are arranged in the same number, and the pre-positioning fixture blocks 505 and the pre-positioning grooves 502 are in adaptive clamping connection.

The static memory unit 3 is welded and installed on the bearing plate 2, the static memory unit 3 and the bearing plate form a static memory module, for the welding and fixing work of the static memory unit 3, the pre-positioning work is firstly carried out on the static memory unit, namely the positioning insertion blocks 401 at two ends of the static memory unit 3 are inserted into the positioning insertion grooves 402 at corresponding positions, the protruding end of the movable clamping strip 407 is pressed into the positioning insertion blocks 401 under the action of the auxiliary inclined surface 411, meanwhile, the connecting springs 408 connected with the movable clamping strip are in a compressed state until the movable clamping strip 407 reaches the positions of the clamping grooves 403 in the positioning insertion grooves 402, the movable clamping strip 407 is clamped in the clamping grooves 403 under the resilience action of the connecting springs 408, the pre-positioning work of the static memory unit 3 is quickly realized, then, the pins of the static memory unit 3 can be welded and stably installed on the bearing plate 2, for the disassembling work of the later static memory unit 3, after the welding of the pins is released, the movable block 404 is pressed, the movable block 404 pushes the pressing strip 405, one end of the pressing strip 405 enters the groove 409, the movable clamping strip 410 is extruded, and finally the static memory unit 3 can be separated from the lower end of the static memory unit 403.

For the installation and fixation work of the bearing plate 2, firstly, the pressing plate 503 is clamped on the cover groove 501, the pre-positioning clamping block 505 is clamped with the pre-positioning groove 502, and if the bearing plate is fixed through a threaded connector, the auxiliary part 6 is installed by using a first module; if the fixing is performed by welding, the second module mounting auxiliary 7 is used.

Example two: on the basis of the first embodiment, please refer to fig. 9-10, the module installation auxiliary member may be a first module installation auxiliary member 6, which includes a circular hole 601, a cylindrical placement groove 602, a movable auxiliary tube 603, a first auxiliary spring 604, an annular guide inclined plane 605, a first anti-slip bump 606, an installation screw 607, a knob 608, a second anti-slip bump 609, and a threaded groove 610, wherein the circular hole 601 is disposed in the connection plate 504 in a penetrating manner, the cylindrical placement groove 602 is disposed at the top end of the circular hole 601, the movable auxiliary tube 603 is movably disposed in the cylindrical placement groove 602, the first auxiliary spring 604 is fixedly disposed at the bottom end of the movable auxiliary tube 603, one end of the first auxiliary spring 604 is fixedly disposed in the cylindrical placement groove 602, the annular guide inclined plane 605 is disposed at the top end inner side wall of the movable auxiliary tube 603, the first anti-slip bump 606 is fixedly disposed at an equal distance on the end surface, the installation screw 607 passes through the circular hole 601 and is in threaded connection with the threaded groove 610, the knob 608 is fixedly disposed at one end of the installation screw 607, and the second anti-slip bump 609 is fixedly disposed at an equal distance on the outer side wall of the knob 609; the thread groove 610 corresponds to the round hole 601 and the mounting screw 607 in the same number.

After the pressing plate 503 is clamped in the cover groove 501, the round hole 601 on the connecting plate 504 is aligned to the threaded groove 610, then the mounting screw 607 penetrates through the movable auxiliary tube 603, the round hole 601 is in threaded connection with the threaded groove 610, and the mounting screw 607 is screwed through the knob 608, the problem of sliding generated in the screwing process is avoided by the action of arranging the second anti-skidding lug 609 on the outer side wall of the knob 608, so that the operation of a worker is facilitated, in the screwing process, the knob 608 can extrude the movable auxiliary tube 603, so that the movable auxiliary tube 603 enters the cylindrical placing groove 602, and the first auxiliary spring 604 is compressed and contracted, meanwhile, the movable auxiliary tube 603 extrudes the knob 608 under the resilience of the first auxiliary spring 604, and the first anti-skidding lug 606 is also arranged at the end part of the movable auxiliary tube 603, so that the screwing stability of the mounting screw 607 is improved; the annular guide slope 605 is provided on the inner side wall of one end of the movable auxiliary tube 603 to facilitate the insertion of the mounting screw 607.

Example three: on the basis of the second embodiment, please refer to fig. 11-16, the module installation auxiliary member may be a second module installation auxiliary member 7, which includes an installation groove 701, a positioning clamping groove 702, an installation block 703, a positioning clamping pin 704, a second auxiliary spring 705, and a spherical surface 706, where the installation groove 701 is symmetrically disposed on the motherboard 1, and the inner side wall of the installation groove 701 is symmetrically provided with the positioning clamping groove 702, the installation block 703 is fixedly disposed on the bottom side of the connection plate 504, and the positioning clamping pins 704 are symmetrically and movably disposed in the installation block 703, one end of the positioning clamping pin 704 extends to the outer side of the installation block 703, and the end is disposed as the spherical surface 706, the other end of the positioning clamping pin 704 is fixedly disposed with the second auxiliary spring 705, and one end of the second auxiliary spring 705 is fixedly disposed in the installation block 703; the installation block 703 is corresponding to the installation groove 701 in position and has the same number of sets, and the installation block and the installation groove are adaptive to each other and are spliced.

If the static memory module is fixedly welded on the mainboard 1, the static memory module can be prepositioned at present, so that the static memory module is prevented from position deviation in the welding process, and the welding quality is ensured; namely, the mounting block 703 at the bottom side of the attachment plate 504 is inserted into the mounting groove 701, and the protruding portion of one end of the positioning detent 704 provided in the mounting block 703 is pressed into the mounting block 703 by the spherical surface 706, the second auxiliary spring 705 is compressed, and when the position of the positioning detent 702 is reached, the positioning detent 704 is snapped into the positioning detent 702 by the resilience of the second auxiliary spring 705, so as to realize the quick positioning operation of the carrier plate 2 and the attachment plate 504.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A static memory with auxiliary mounting accessories comprises a mainboard (1), a bearing plate (2) and static memory units (3), wherein the static memory units (3) are fixedly arranged on the bearing plate (2) at equal intervals through unit mounting accessories (4), and the bearing plate (2) is mounted on the mainboard (1) through the matching use between a connecting component (5) and the module mounting accessories;

the method is characterized in that: the unit installation auxiliary part (4) comprises a positioning insertion block (401), a positioning slot (402), a clamping groove (403), a movable block (404), a pushing strip (405), a return spring (406), a movable clamping strip (407), a connecting spring (408), a groove (409), a transmission slope (410) and an auxiliary slope (411);

the connecting component (5) comprises a cover groove (501), a pre-positioning groove (502), a pressing plate (503), a connecting plate (504) and a pre-positioning fixture block (505).

2. The static memory with the installation auxiliary fitting as claimed in claim 1, wherein: the fixed both ends that set up in static memory unit (3) of location inserted block (401) symmetry, location slot (402) equidistance sets up on loading board (2), and one side in location slot (402) is provided with draw-in groove (403), movable block (404) activity is pegged graft and is set up in location inserted block (401), and the fixed push-button strip (405) that is provided with of one end of movable block (404), and movable block (404) is fixed being provided with reset spring (406) with push-button strip (405) the link end, the fixed setting in location inserted block (401) of one end of reset spring (406), activity card strip (407) activity sets up in location inserted block (401), and the one end of activity card strip (407) extends to location inserted block (401), and the tip is provided with supplementary inclined plane (411), and the terminal surface of the other end is fixed being provided with connecting spring (408), and the fixed setting in location inserted block (401) of one end of connecting spring (408), recess (409) set up in one side of activity card strip (407), and the transmission slope (410) of activity card strip (407) is provided with.

3. The static memory of claim 2, wherein the static memory further comprises an auxiliary mounting accessory, wherein: the positioning slots (402) correspond to the positioning insertion blocks (401) in arrangement positions and are the same in arrangement group number, and the positioning slots and the positioning insertion blocks are adaptive to be inserted; the movable clamping strips (407) correspond to the clamping grooves (403) in arrangement positions and are arranged in the same number, and the movable clamping strips and the clamping grooves are matched and clamped.

4. The static memory with the installation auxiliary fitting as claimed in claim 2, wherein: the transmission slope (410) and the groove (409) correspond to the arrangement position of the pushing strip (405).

5. The static memory of claim 1, wherein said static memory further comprises: the cover groove (501) is symmetrically arranged on two sides of the bearing plate (2), the cover groove (501) is connected with the pressing plate (503) in an adaptive mode, a pre-positioning groove (502) is formed in the cover groove (501), the pressing plate (503) is fixedly arranged on one side of the connecting plate (504), a pre-positioning fixture block (505) is fixedly arranged on the bottom side of the pressing plate (503), the pre-positioning fixture block (505) corresponds to the pre-positioning groove (502) in position, the number of the sets of the pre-positioning fixture block is the same, and the pre-positioning fixture block and the pre-positioning groove are connected in an adaptive mode.

6. The static memory of claim 1, wherein said static memory further comprises: the module installation auxiliary part can be a first module installation auxiliary part (6) which comprises a round hole (601), a cylindrical placing groove (602), a movable auxiliary pipe (603), a first auxiliary spring (604), an annular guide inclined plane (605), a first anti-skidding lug (606), an installation screw (607), a knob (608), a second anti-skidding lug (609) and a threaded groove (610), wherein the round hole (601) is arranged in a connecting plate (504) in a penetrating manner, the cylindrical placing groove (602) is arranged at the top end of the round hole (601), the movable auxiliary pipe (603) is movably arranged in the cylindrical placing groove (602), the first auxiliary spring (604) is fixedly arranged at the bottom end of the movable auxiliary pipe (603), one end of the first auxiliary spring (604) is fixedly arranged in the cylindrical placing groove (602), the annular guide inclined plane (605) is arranged on the inner side wall of the top end of the movable auxiliary pipe (603), the first anti-skidding lug (606) is fixedly arranged on the end face of the movable auxiliary pipe at equal distance, the installation screw (607) penetrates through the round hole (601) to be in threaded connection with the threaded groove (602), the fixed screw (607) at one end of the knob (608) at equal distance, and the second anti-skidding lug (608) is arranged at the same distance.

7. The static memory with installation aid of claim 6, wherein: the thread groove (610) corresponds to the round hole (601) and the installation screw (607) in arrangement position and has the same arrangement number.

8. The static memory of claim 1, wherein said static memory further comprises: the module installation auxiliary part can select a second module installation auxiliary part (7) which comprises a mounting groove (701), a positioning clamping groove (702), a mounting block (703), a positioning clamping pin (704), a second auxiliary spring (705) and a spherical surface (706), wherein the mounting groove (701) is symmetrically arranged on the mainboard (1), the inner side wall of the mounting groove (701) is symmetrically provided with the positioning clamping groove (702), the mounting block (703) is fixedly arranged on the bottom side of the connecting plate (504), the positioning clamping pin (704) is symmetrically and movably arranged in the mounting block (703), one end of the positioning clamping pin (704) extends to the outer side of the mounting block (703), the end part of the positioning clamping pin is arranged to be the spherical surface (706), the other end of the positioning clamping pin (704) is fixedly provided with the second auxiliary spring (705), and one end of the second auxiliary spring (705) is fixedly arranged in the mounting block (703).

9. The static memory with installation aid of claim 8, wherein: the installation block (703) is corresponding to the installation position of the installation groove (701) and has the same number of the installation groups, and the installation block and the installation groove are in adaptive splicing.

10. A method of operating a static memory with self-contained installation aid according to any one of claims 1 to 9, comprising the steps of:

s1: the static memory unit (3) is welded and installed on the bearing plate (2) and forms a static memory module, and for the welding and fixing work of the static memory unit (3), the static memory unit is pre-positioned firstly, namely the static memory unit is pre-positioned through the unit installation auxiliary part (4);

s2: when the static memory module is fixedly installed by using a threaded connector, the static memory module is installed by a connecting component (5) and a first module installation auxiliary component (6); if the static memory module is fixed by welding, the connecting component (5) and the second module installation auxiliary component (7) are used for realizing the fixation.