CN212723894U - Big data storage device for computer - Google Patents

Abstract

The utility model discloses a big data storage device for computer, which comprises a mainboard, memory and turning block, the slot has been seted up in the front of mainboard, two elliptical poles of positive fixedly connected with of mainboard, the equal fixedly connected with connecting rod in front of elliptical pole, the mainboard passes through spout and memory sliding connection, the back fixedly connected with of memory inserts the strip, the both sides fixedly connected with of memory contacts with the draw runner of spout, the equal fixedly connected with connecting plate in both sides of memory, the rotation hole has all been seted up in the front of connecting plate, it is connected with the turning block all to rotate in the rotation hole, the front and the equal fixedly connected with laminating dish in the back of turning block, the elliptical hole has been seted up in the front of a laminating dish. The utility model has the advantages that: the plug-in type memory has the functions of enabling the memory to be always kept in a relatively parallel state in plugging and unplugging and preventing the slip from loosening after being inserted into the slot.

Description

Big data storage device for computer

Technical Field

The utility model relates to a storage device specifically is a big data storage device for computer belongs to computer technology field.

Background

In the field of computers, big data generally refers to a large number of data sets which are difficult to process and analyze, and the big data is often required to be stored to prevent data loss, so that a big data storage device for computers is required.

The present big data storage device for computer has following not enough, some big data storage device for computer is pegged graft the cutting on storage device in the slot on the computer motherboard, often need to plug the device in the use, but can't make storage device keep parallel arrangement at the in-process of plug, make the cutting on the storage device and the slot on the computer motherboard take place the harm very easily, and insert on the computer motherboard at storage device, can't fix storage device, rock or the computer receives when touching in the external environment, probably can make cutting and slot take place to become flexible, cause the unable transmission storage of data, to prior art's not enough, the utility model discloses a big data storage device for computer to solve the problem that proposes in the above-mentioned background art.

SUMMERY OF THE UTILITY MODEL

An object of the present invention is to provide a big data storage device for computer in order to solve the above problems, which has the function of keeping the memory in a parallel state all the time in the plug, and preventing the slip from loosening after being inserted into the slot.

The utility model discloses a following technical scheme realizes above-mentioned purpose, big data storage device for computer, including mainboard, memory and turning block, the front of mainboard has seted up the slot, the front of mainboard is fixedly connected with two elliptical rods, the front of elliptical rod all is fixedly connected with the connecting rod, the front of connecting rod all is fixedly connected with the elliptical disk, the front of elliptical disk all has seted up the spout, the mainboard passes through spout and memory sliding connection;

the back of the memory is fixedly connected with an inserting strip, two sides of the memory are fixedly connected with sliding strips which are contacted with the sliding grooves, two sides of the memory are fixedly connected with connecting plates, the front of each connecting plate is provided with a rotating hole, and a rotating block is rotatably connected in each rotating hole;

the front and the back of the rotating block are fixedly connected with a fitting plate, and one of the fitting plate is provided with an elliptical hole which is in contact with the elliptical sheet and the elliptical rod.

Preferably, the two elliptic rods are respectively arranged at two sides of the slot, and the cross section of the elliptic sheet is the same as that of the elliptic rods in shape and size.

Preferably, elliptical plate, connecting rod and elliptical rod integrated casting shaping, the spout all runs through to the elliptical rod, two the spout is the same with the looks near side of two elliptical rods, connecting rod and elliptical plate.

Preferably, the rotating holes penetrate through the back face of the connecting plate, the diameter of the rotating block is equal to that of the rotating holes, and the diameter of the attaching disc is larger than that of the rotating block.

Preferably, the attaching disc and the rotating block are integrally cast and formed, and the elliptical hole penetrates through the back face of the other attaching disc.

Preferably, the front face of the fitting plate is fixedly connected with a limiting rod, and the limiting rod is arranged on the fitting plate connected with the front face of the rotating block.

Preferably, the both sides of memory are equal fixedly connected with spacing, the laminating recess that contacts with the gag lever post is all seted up to the upper surface of spacing.

The utility model has the advantages that:

1. this big data storage device for computer is through setting up the mainboard, memory and turning block, the memory is when carrying out the plug, two draw runner difference sliding connection are in two spouts, like this can make the memory keep comparatively parallel state when carrying out the plug all the time, and the in-process elliptical aperture cover of grafting memory is on the ellipse piece and removes, when the cutting is inserted completely in the slot, the turning block is in the position of connecting rod, can rotate the turning block this moment, make the elliptical aperture no longer correspond with the ellipse piece, make the turning block can't remove like this, thereby fix the memory, it is not hard up to prevent that the cutting from taking place after inserting in the slot, the device has the state that can make the memory keep comparatively parallel on the plug all the time, and can prevent that the cutting from taking place not hard up function after inserting in the slot.

2. This big data storage device for computer is through setting up spacing, laminating recess and gag lever post, rotates the turning block, makes the gag lever post rotate to in the laminating recess that spacing was seted up to make gag lever post and laminating recess mutually, the elliptical aperture just corresponding with the elliptical disk this moment, can with elliptical aperture cover on the elliptical disk, the device has can carry out the function of fixing a position to being connected between elliptical aperture and the elliptical disk.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a schematic diagram of the main board structure of the present invention;

FIG. 4 is a schematic diagram of the memory body structure of the present invention;

FIG. 5 is an enlarged view of part A of the present invention;

fig. 6 is a schematic view of the structure of the rotation block of the present invention.

In the figure: 1. mainboard, 101, slot, 102, elliptical rod, 103, connecting rod, 104, elliptical sheet, 105, spout, 2, memory, 201, cutting, 202, draw runner, 203, connecting plate, 204, rotation hole, 205, spacing, 206, laminating recess, 3, turning block, 301, laminating dish, 302, elliptical hole, 303, gag lever post.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, a big data storage device for a computer includes a main board 1, a memory 2 and a rotating block 3, wherein a slot 101 is formed on a front surface of the main board 1, a slip 201 is fixedly connected to a back surface of the memory 2, and the slip 201 needs to be inserted into the slot 101.

Two elliptical rods 102 of positive fixedly connected with of mainboard 1, two elliptical rods 102 set up respectively in the both sides of slot 101, the equal fixedly connected with connecting rod 103 in front of elliptical rod 102, the equal fixedly connected with elliptical disk 104 in front of connecting rod 103, the cross section of elliptical rod 102 and elliptical disk 104 is ellipse, the diameter of connecting rod 103 equals with the oval minor axis of elliptical rod 102 cross section, the cross section of elliptical disk 104 is the same with the cross sectional shape size of elliptical rod 102.

The front of elliptical plate 104 has all been seted up spout 105, and mainboard 1 passes through spout 105 and memory 2 sliding connection, and elliptical plate 104, connecting rod 103 and elliptical rod 102 integrated casting mould, spout 105 all run through to elliptical rod 102, and two spouts 105 are the same with the looks near side of two elliptical rods 102, connecting rod 103 and elliptical plate 104.

The both sides fixedly connected with of memory 2 and the draw runner 202 that spout 105 contacted, two draw runners 202 are sliding connection respectively in two spout 105, the equal fixedly connected with connecting plate 203 in both sides of memory 2, and connecting plate 203 sets up in the front of draw runner 202, and rotation hole 204 has all been seted up in the front of connecting plate 203, rotates the back that hole 204 all runs through to connecting plate 203, all rotates in the rotation hole 204 and is connected with turning block 3.

The front and the back of the rotating block 3 are fixedly connected with the attaching discs 301, the diameter of the rotating block 3 is equal to that of the rotating hole 204, the diameter of the attaching discs 301 is larger than that of the rotating block 3, the two attaching discs 301 are respectively contacted with the front and the back of the connecting plate 203, the rotating block 3 can only rotate in the rotating hole 204, and when the rotating block 3 cannot move, the memory 2 cannot move.

As the utility model discloses a technical optimization scheme, the elliptical hole 302 that contacts with elliptical disk 104 and elliptical rod 102 is seted up on laminating dish 301's front, laminating dish 301 and turning block 3 integrated casting shaping, elliptical hole 302 run through to another laminating dish 301's back, and the cross section of elliptical hole 302 also is oval and equals with the oval size of elliptical disk 104 cross section.

The device is provided with a mainboard 1, a memory 2 and a rotating block 3, when the memory 2 is plugged and pulled, the two sliding bars 202 are respectively connected in the two sliding grooves 105 in a sliding way, so that the memory 2 can be always kept in a relatively parallel state when being inserted and pulled, and during plugging of the memory 2 the oblong hole 302 is slipped over the oblong plate 104 and moved, when the insert 201 is completely inserted into the slot 101, the rotating block 3 is at the position of the connecting rod 103, and the rotating block 3 can be rotated at this time, so that the elliptical hole 302 no longer corresponds to the elliptical sheet 104, thus the rotating block 3 cannot move, therefore, the memory 2 is fixed, the phenomenon that the inserting strip 201 is loosened after being inserted into the slot 101 is prevented, the device has the function that the memory 2 can be always kept in a relatively parallel state in inserting and pulling, and the phenomenon that the inserting strip 201 is loosened after being inserted into the slot 101 can be prevented.

As the technical optimization scheme of the utility model, the positive fixedly connected with gag lever post 303 of a laminating dish 301, gag lever post 303 sets up on the laminating dish 301 that the turning block 3 openly connects.

As the utility model discloses a technical optimization scheme, the equal fixedly connected with in both sides of memory 2 is spacing 205, and spacing 205 sets up in the front of connecting plate 203, and laminating recess 206 that contacts with gag lever post 303 is all seted up to spacing 205's upper surface, and laminating recess 206 sets up to communicating with each other with spacing 205's front and back.

The device is through setting up spacing 205, laminating recess 206 and gag lever post 303, rotates turning block 3, makes gag lever post 303 rotate in the laminating recess 206 that spacing 205 was seted up to make gag lever post 303 laminate mutually with laminating recess 206, this moment elliptical hole 302 just corresponding with elliptical disk 104, can overlap elliptical hole 302 on elliptical disk 104, and the device has the function that can advance line location to being connected between elliptical hole 302 and the elliptical disk 104.

When the utility model is used, the inserting strip 201 is inserted into the slot 101, the two sliding strips 202 are respectively connected in the sliding groove 105 in a sliding way, so that the memory 2 is always kept in a relatively parallel state when being inserted into or pulled out of the slot 101, the memory 2 is prevented from being damaged by the inserting strip 201 and the slot 101 due to inclination in the inserting and pulling process, in the process that the inserting strip 201 is inserted into the slot 101, the elliptical hole 302 is sleeved on the elliptical sheet 104 and slides on the elliptical sheet 104, after the inserting strip 201 is completely inserted into the slot 101, the rotating block 3 is moved to the position of the connecting rod 103, the elliptical hole 302 is separated from the elliptical sheet 104 and is not contacted with the elliptical rod 102, so that the rotating block 3 can rotate in the rotating hole 204, so that the elliptical hole 302 no longer corresponds to the elliptical sheet 104, the rotating block 3 can not move, because the two attaching discs 301 are respectively contacted with the front and the back of the connecting plate 203, so that the memory 2 can be fixed, the device has the advantages that the looseness of the insertion strip 201 after the insertion into the slot 101 is prevented, the memory 2 can be always kept in a relatively parallel state in plugging and unplugging, and the looseness of the insertion strip 201 after the insertion into the slot 101 can be prevented.

In the process of inserting the cutting 201 in the slot 101, the elliptical hole 302 needs to be sleeved on the elliptical sheet 104, because the rotating block 3 can rotate in the rotating hole 204, the elliptical hole 302 is not easy to align to the elliptical sheet 104, the rotating block 3 is rotated, because the upper surface of the limiting strip 205 is provided with the attaching groove 206 in which the limiting rod 303 contacts, after the limiting rod 303 rotates into the attaching groove 206 formed in the limiting strip 205, the limiting rod 303 is attached to the attaching groove 206, at the moment, the elliptical hole 302 just corresponds to the elliptical sheet 104, the elliptical hole 302 can be sleeved on the elliptical sheet 104, and the device has the function of positioning the connection between the elliptical hole 302 and the elliptical sheet 104.

For those skilled in the art, by providing the main board 1, the memory 2 and the rotating block 3, when the memory 2 is plugged or unplugged, the two sliding bars 202 are respectively connected in the two sliding grooves 105 in a sliding way, so that the memory 2 can be always kept in a relatively parallel state when being inserted and pulled, and during plugging of the memory 2 the oblong hole 302 is slipped over the oblong plate 104 and moved, when the insert 201 is completely inserted into the slot 101, the rotating block 3 is at the position of the connecting rod 103, and the rotating block 3 can be rotated at this time, so that the elliptical hole 302 no longer corresponds to the elliptical sheet 104, thus the rotating block 3 cannot move, therefore, the memory 2 is fixed, the phenomenon that the inserting strip 201 is loosened after being inserted into the slot 101 is prevented, the device has the function that the memory 2 can be always kept in a relatively parallel state in inserting and pulling, and the phenomenon that the inserting strip 201 is loosened after being inserted into the slot 101 can be prevented.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides a big data storage device for computer, includes mainboard (1), memory (2) and turning block (3), its characterized in that: the front surface of the mainboard (1) is provided with a slot (101), the front surface of the mainboard (1) is fixedly connected with two elliptic rods (102), the front surfaces of the elliptic rods (102) are fixedly connected with a connecting rod (103), the front surfaces of the connecting rods (103) are fixedly connected with an elliptic sheet (104), the front surfaces of the elliptic sheets (104) are provided with chutes (105), and the mainboard (1) is connected with the memory (2) in a sliding manner through the chutes (105);

the back of the memory (2) is fixedly connected with an inserting strip (201), two sides of the memory (2) are fixedly connected with sliding strips (202) which are in contact with the sliding grooves (105), two sides of the memory (2) are fixedly connected with connecting plates (203), the front of each connecting plate (203) is provided with a rotating hole (204), and a rotating block (3) is rotatably connected in each rotating hole (204);

the front and the back of the rotating block (3) are fixedly connected with attaching discs (301), and one attaching disc (301) is provided with an elliptical hole (302) which is in contact with an elliptical sheet (104) and an elliptical rod (102) on the front.

2. The big data storage device for computer according to claim 1, wherein: the two elliptic rods (102) are respectively arranged at two sides of the slot (101), and the cross section of the elliptic sheet (104) is the same as that of the elliptic rods (102).

3. The big data storage device for computer according to claim 1, wherein: elliptical plate (104), connecting rod (103) and elliptical rod (102) integrated casting shaping, spout (105) all run through to elliptical rod (102), two spout (105) are the same with two elliptical rod (102), connecting rod (103) and the similar side of elliptical plate (104).

4. The big data storage device for computer according to claim 1, wherein: the rotating holes (204) penetrate through the back face of the connecting plate (203), the diameter of the rotating block (3) is equal to that of the rotating holes (204), and the diameter of the attaching disc (301) is larger than that of the rotating block (3).

5. The big data storage device for computer according to claim 1, wherein: laminating dish (301) and turning block (3) integrated casting shaping, elliptical hole (302) run through to the back of another laminating dish (301).

6. The big data storage device for computer according to claim 1, wherein: one laminating dish (301) openly fixedly connected with gag lever post (303), gag lever post (303) set up on laminating dish (301) that turning block (3) openly connected.

7. The big data storage device for computer of claim 6, wherein: the both sides of memory (2) are equal fixedly connected with spacing (205), laminating recess (206) that contact with gag lever post (303) are all seted up to the upper surface of spacing (205).

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