CN115296961A - AI edge calculation module device convenient to maintain - Google Patents

Abstract

The invention relates to the technical field of computer correlation, in particular to an AI edge calculation module device convenient for maintenance, which comprises a shell, wherein the shell comprises an upper shell and a lower shell; the device also comprises a fixing device and a sliding-in device which are used for fixing the upper shell and the lower shell; the sliding-in device comprises a guide assembly and a driving assembly; the guide assembly comprises a first oblique guide plate, a horizontal guide plate and a second oblique guide plate, and the first oblique guide plate, the horizontal guide plate and the second oblique guide plate are all fixedly arranged on the upper shell; the driving assembly comprises a first mounting seat, a first support, a first elastic piece and a first roller, the first support is slidably mounted on the first mounting seat, two ends of the first elastic piece are fixedly connected with the first mounting seat and the first support respectively, and the first roller is rotatably mounted on the first support. The function of avoiding the violent collision of casing and lower casing when the equipment casing has been realized to this application, has avoided the too violent condition of collision when casing and lower casing contact when conveniently maintaining.

Description

AI edge calculation module device convenient to maintain

Technical Field

The invention relates to the technical field of computer gateways, in particular to an AI edge calculation module device convenient for maintenance.

Background

Edge AI refers to AI algorithms that are processed locally on the hardware device and can process data without a network connection. Edge AI chip hardware device installs when outdoor, and ambient temperature is higher and chip heat dissipation is great in addition, leads to chip calculation efficiency to descend easily, and when needing the emergent installation in place and overhauing, conventional fixed casing is fixed through bolt or pendant, and the dismouting is very inconvenient.

Therefore, chinese patent CN216697191U discloses an AI edge calculation module device, which can quickly and fixedly mount an AI integrated circuit board, and is beneficial to quick overhaul and efficient heat dissipation of equipment.

However, when the shell is assembled, in order to be quickly butted with the upper shell and the lower shell, the shell can be pushed by a large force, so that severe collision occurs between the upper shell and the lower shell, the shell is damaged, the protection capability is reduced, and the chip is damaged by vibration caused by collision, so that the normal use of the AI edge computing module device is influenced.

Disclosure of Invention

In view of the above problems, an AI edge computing module device convenient for maintenance is provided, which solves the problem of severe impact of a case caused by the conventional AI edge computing module device in pursuing an installation speed when installing through a case, a fixing device and a slide-in device.

An AI edge calculation module apparatus for easy maintenance includes a casing including an upper case and a lower case; the upper shell and the lower shell are in sliding fit; the device also comprises a fixing device and a sliding-in device which are used for fixing the upper shell and the lower shell; the sliding-in device comprises two guide assemblies and two driving assemblies, the two guide assemblies are respectively positioned on two sides of the upper shell, and the two driving assemblies are respectively positioned on two sides of the lower shell; the guide assembly comprises a first inclined guide plate, a horizontal guide plate and a second inclined guide plate, and the first inclined guide plate, the horizontal guide plate and the second inclined guide plate are fixedly arranged on the upper shell; the driving assembly comprises a first mounting seat, a first support, a first elastic piece and a first roller, the first mounting seat is fixedly mounted on the lower shell, the first support is slidably mounted on the first mounting seat, two ends of the first elastic piece are fixedly connected with the first mounting seat and the first support respectively, and the first roller is rotatably mounted on the first support.

Preferably, the fixation device comprises a fixation assembly; the fixing component comprises a fixing seat, a first arc-shaped clamping block and a second elastic piece; the fixed seat is fixedly arranged on the upper shell; the first arc-shaped clamping block is slidably arranged on the fixed seat; two ends of the second elastic piece are respectively fixedly connected with the fixed seat and the first arc-shaped clamping block; a groove matched with the first arc-shaped clamping block is formed in the lower shell; a first control assembly used for controlling the sliding of the first arc-shaped clamping block is fixedly mounted on the lower shell.

Preferably, the first control assembly comprises a connecting plate, a push plate, a third elastic piece and a handle; the connecting plate and the push plate are both arranged on the lower shell in a sliding manner and are fixedly connected; two ends of the third elastic part are respectively fixedly connected with the lower shell and the push plate; the handle is fixedly arranged on the connecting plate.

Preferably, the sliding device comprises a third inclined guide plate; the third oblique guide plate is fixedly arranged on the upper shell; two driving assemblies are arranged, and both the two driving assemblies are fixedly arranged on the lower shell; a locking assembly for fixing the position of the first support is fixedly arranged on the first mounting seat; and a second control assembly for controlling the locking assembly is fixedly mounted on the upper shell.

Preferably, the locking assembly comprises a second mounting seat, a second arc-shaped sliding block, a fourth elastic piece, a matching plate and a fifth elastic piece; a first sliding groove is formed in the first mounting seat; the second mounting seat is in sliding fit with the first sliding chute; the second arc-shaped sliding block is slidably arranged on the second mounting seat; two ends of the fourth elastic piece are respectively fixedly connected with the second mounting seat and the second arc-shaped sliding block; the matching plate is fixedly arranged on the first support, and a notch matched with the second arc-shaped sliding block is fixedly formed in the matching plate; and two ends of the fifth elastic piece are respectively fixedly connected with the first mounting seat and the second mounting seat.

Preferably, the second control assembly comprises a fixed block, a sliding block and a sixth elastic piece; the fixed block is fixedly arranged on the upper shell; the upper shell is provided with a second sliding chute; the sliding block is slidably arranged on the second sliding chute; and two ends of the sixth elastic piece are respectively fixedly connected with the upper shell and the sliding block.

Preferably, the device further comprises two auxiliary control devices, the two auxiliary control devices are respectively positioned on two sides of the upper shell, and the upper shell is provided with a third sliding chute; the second inclined guide plate is slidably mounted on the third sliding chute; the auxiliary control device also comprises a seventh elastic piece and a speed-increasing transmission assembly; two ends of the seventh elastic piece are respectively fixedly connected with the second inclined guide plate and the upper shell; the speed-increasing transmission component is fixedly arranged on the upper shell, and two ends of the speed-increasing transmission component are in transmission connection with the connecting plate and the second inclined guide plate respectively.

Preferably, the speed-increasing transmission assembly comprises a rotating shaft, a rack and a transmission belt; two rotating shafts are arranged, and both rotating shafts are rotatably arranged on the upper shell; each rotating shaft is fixedly sleeved with a rotating gear; two racks are arranged, the two racks are fixedly arranged on the connecting plate and the second oblique guide plate respectively, and the two racks are in transmission connection with the two rotating gears respectively; each rotating shaft is fixedly sleeved with a sleeve; two ends of the transmission belt are respectively sleeved on the two sleeves.

Preferably, the upper shell is fixedly provided with a first guide angle; a second guide angle is fixedly arranged on the lower shell.

Preferably, a plurality of cooling fins are fixedly mounted on the upper shell and the lower shell, and the distances between the plurality of cooling fins are equal.

Compared with the prior art, the beneficial effect of this application is:

1. this application has realized through casing, fixing device and the device that slides in avoiding going up the function that casing and casing acutely collided down when the equipment casing, has reached the effect that the casing was automatic to be slided in down when last casing slided in casing to final stage down, the convenient maintenance when avoided go up casing and casing contact down the too acutely and impaired condition of collision, solved traditional AI edge calculation module device when the installation and leaded to the problem of casing acutely collision in order to pursue the installation rate.

2. This application has realized the function of fixed connection upper housing and lower casing through fixed subassembly and first control assembly, has reached the effect of quick assembly disassembly upper housing to make things convenient for operating personnel to maintain AI edge calculation module device.

3. This application has realized through third slant deflector, locking subassembly and second control assembly that the function of one section distance of automatic roll-off of casing has been gone up in the drive when dismantling the casing, has further improved portability and the fault-tolerance of casing on the dismouting.

Drawings

FIG. 1 is a perspective view of an AI edge calculation module arrangement for ease of maintenance;

FIG. 2 is a front view of the internal structure of the housing of the present application;

FIG. 3 is a perspective view of the internal structure of the housing of the present application;

FIG. 4 is a perspective view of the lower housing of the present application;

FIG. 5 is an enlarged partial schematic view of FIG. 4 of the present application at A;

FIG. 6 is an exploded perspective view of the drive assembly of the present application;

FIG. 7 is an exploded perspective view of the upper housing of the subject application;

FIG. 8 is an enlarged partial schematic view of FIG. 7 taken at B of the present application;

FIG. 9 is an enlarged partial schematic view at C of FIG. 7 of the present application;

FIG. 10 is a perspective view of a guide assembly of the second diagonal guide plate of the present application after sliding;

FIG. 11 is an enlarged partial schematic view taken at D of FIG. 10 of the present application;

FIG. 12 is a perspective view of the guide assembly during sliding of the upper housing of the present application;

fig. 13 is a partially enlarged schematic view at E in fig. 12 of the present application.

The reference numbers in the figures are:

1-a machine shell; 1 a-an upper shell; 1a 1-a first guide angle; 1 b-a lower shell; 1b 1-a second guide angle; 1 c-a heat sink;

2-a fixing device; 2 a-a fixation assembly; 2a 1-fixed seat; 2a 2-a first arc-shaped clamping block; 2a 3-a second elastic member; 2a 4-grooves; 2 b-a first control component; 2b 1-connecting plate; 2b 2-push plate; 2b 3-a third resilient member; 2b 4-handle;

3-a slide-in device; 3 a-a guide assembly; 3a 1-a first inclined guide plate; 3a 2-horizontal guide plate; 3a 3-a second inclined guide plate; 3 b-a drive assembly; 3b 1-a first mount; 3b 2-a first support; 3b3 — a first elastic member; 3b 4-first roller;

4-a slide-out device; 4 a-a third diagonal guide plate; 4 b-a locking assembly; 4b 1-a first runner; 4b 2-a second mount; 4b 3-a second arc-shaped sliding block; 4b 4-a fourth elastic member; 4b 5-mating plates; 4b 6-a fifth elastic member; 4 c-a second control assembly; 4c 1-fixed block; 4c 2-a second runner; 4c 3-sliders; 4c 4-a sixth elastic member;

5-auxiliary control means; 5 a-a third chute; 5 b-a seventh elastic member; 5 c-a speed-increasing transmission component; 5c 1-axis of rotation; 5c 2-rotating gear; 5c 3-rack; 5c 4-sleeve; 5c 5-drive belt.

Detailed Description

For a better understanding of the features and technical solutions of the present invention, as well as the specific objects and functions attained by the present invention, reference is made to the accompanying drawings and detailed description of the invention.

Referring to fig. 1-13: an AI-edge calculation module apparatus convenient for maintenance includes a casing 1, the casing 1 including an upper case 1a and a lower case 1b; the upper shell 1a and the lower shell 1b are in sliding fit; the device also comprises a fixing device 2 and a sliding-in device 3 which are used for fixing the upper shell 1a and the lower shell 1b; the sliding-in device 3 comprises two guide assemblies 3a and two driving assemblies 3b, the two guide assemblies 3a and the two driving assemblies 3b are respectively positioned at two sides of the upper shell 1a, and the two driving assemblies 3b are respectively positioned at two sides of the lower shell 1b; the guide assembly 3a comprises a first inclined guide plate 3a1, a horizontal guide plate 3a2 and a second inclined guide plate 3a3, and the first inclined guide plate 3a1, the horizontal guide plate 3a2 and the second inclined guide plate 3a3 are all fixedly arranged on the upper shell 1 a; the driving assembly 3b comprises a first mounting seat 3b1, a first support 3b2, a first elastic part 3b3 and a first roller 3b4, the first mounting seat 3b1 is fixedly mounted on the lower shell 1b, the first support 3b2 is slidably mounted on the first mounting seat 3b1, two ends of the first elastic part 3b3 are fixedly connected with the first mounting seat 3b1 and the first support 3b2 respectively, and the first roller 3b4 is rotatably mounted on the first support 3b 2.

According to the AI edge computing module device, the shell 1, the fixing device 2 and the sliding-in device 3 are used for achieving the function of avoiding severe collision of the upper shell 1a and the lower shell 1b when the shell 1 is assembled, achieving the effect that the upper shell 1a slides in the lower shell 1b to the final stage, the lower shell 1b automatically slides in, avoiding the condition that the upper shell 1a and the lower shell 1b are damaged due to severe collision when in contact, and solving the problem that the traditional AI edge computing module device causes severe collision of the shells due to violent installation when in installation; when an operator detaches the AI edge calculation module device, the fixing device 2 is released, the lower housing 1b is slid, the lower housing 1b drives the first inclined guide plate 3a1, the horizontal guide plate 3a2 and the second inclined guide plate 3a3 to move, the horizontal guide plate 3a2 presses the first roller 3b4 to shorten the first elastic member 3b3, the first roller 3b4 is sequentially contacted with the horizontal guide plate 3a2 and the first inclined guide plate 3a1, the upper housing 1a is separated from the lower housing 1b, the AI edge calculation module device is maintained, the operator mounts the lower housing 1b on the upper housing 1a after the maintenance is completed, the first inclined guide plate 3a1 is contacted with the first roller 3b4 first along with the sliding of the upper housing 1a, and then presses the first roller 3b4 and the first elastic member 3b3, the operator feels resistance increases, and when the first roller 3b4 moves to the horizontal guide plate 3a2, the resistance disappears, the operator continues to push the upper housing 1a to slide for a distance, when the lower housing 1b approaches the matching position, the operator stops pushing the lower housing 1b, at this time, the first support 3b2 is under the elastic action of the first elastic member 3b3, the first roller 3b4 rolls on the second inclined guide plate 3a3 through the guide action of the second inclined guide plate 3a3 on the first roller 3b4, and simultaneously, the lower housing 1b continues to slide until the matching of the upper housing 1a and the lower housing 1b is completed, at this time, the fixing device 2 fixes the upper housing 1a on the lower housing 1b, the assembly is completed, in the process of releasing the elastic force by the first elastic member 3b3, the elastic force is gradually reduced along with the extension of the first elastic member 3b3, so as to further reduce the impact of the upper housing 1a on the lower housing 1b when the assembly is completed, thereby reducing the vibration of the AI edge computing module device and further protecting the parts, the service life of the part is prolonged, the sliding-in device 3 is pushed by an operator to realize automatic sliding-in, external energy is not needed, and the use is more convenient.

Referring to fig. 1-8: the fixing device 2 comprises a fixing assembly 2a; the fixing component 2a comprises a fixing seat 2a1, a first arc-shaped clamping block 2a2 and a second elastic piece 2a3; the fixed seat 2a1 is fixedly arranged on the upper shell 1 a; the first arc-shaped fixture block 2a2 is slidably mounted on the fixed seat 2a 1; two ends of the second elastic piece 2a3 are respectively fixedly connected with the fixed seat 2a1 and the first arc-shaped clamping block 2a 2; a groove 2a4 matched with the first arc-shaped fixture block 2a2 is formed in the lower shell 1b; a first control component 2b for controlling the sliding of the first arc-shaped fixture block 2a2 is fixedly mounted on the lower shell 1 b.

According to the AI edge computing module device, the function of fixedly connecting the upper shell 1a and the lower shell 1b is realized through the fixing component 2a and the first control component 2b, and the effect of quickly disassembling and assembling the upper shell 1a is achieved, so that an operator can conveniently maintain the AI edge computing module device; when an operator detaches the upper shell 1a, the first control component 2b drives the first arc-shaped clamping block 2a2 to slide, the second elastic component 2a3 is shortened under the pressure, so that the first arc-shaped clamping block 2a2 slides towards the fixed seat 2a1, the first arc-shaped clamping block 2a2 is separated from the groove 2a4, the operator then slides the upper shell 1a to detach the upper shell 1a from the lower shell 1b to maintain the AI edge calculation module device, after the maintenance is finished, the operator slidably mounts the upper shell 1a onto the lower shell 1b, and at the moment, the first arc-shaped clamping block 2a2 is contacted with the lower shell 1b and is extruded by the lower shell 1b, second elastic component 2a3 is in compression state, operating personnel continues to promote casing 1b down afterwards, stop promoting casing 1b down when casing 1b is close to the cooperation position down, casing 1b continues to slide under the elastic force drive of first elastic component 3b3 down, until last casing 1a and casing 1b cooperation down, first arc fixture block 2a2 just moves to recess 2a4 department this moment, first arc fixture block 2a2 loses the squeezing action of casing 1b down, block in recess 2a4 under the elastic force drive of second elastic component 2a3, fix upper housing 1a through the cooperation of first arc fixture block 2a2 and recess 2a 4.

Referring to fig. 1-8: the first control component 2b comprises a connecting plate 2b1, a push plate 2b2, a third elastic piece 2b3 and a handle 2b4; the connecting plate 2b1 and the push plate 2b2 are both arranged on the lower shell 1b in a sliding manner, and the connecting plate 2b1 and the push plate 2b2 are fixedly connected; two ends of the third elastic element 2b3 are respectively fixedly connected with the lower shell 1b and the push plate 2b 2; the handle 2b4 is fixedly mounted on the connecting plate 2b 1.

According to the manual separation device, the function of manually separating the first arc-shaped clamping block 2a2 from the groove 2a4 is realized through the connecting plate 2b1, the push plate 2b2, the third elastic piece 2b3 and the handle 2b4, and the effect of quickly releasing the position fixation of the upper shell 1a is achieved; when an operator detaches the upper shell 1a, firstly, the handle 2b4 is held, then the connecting plate 2b1 is pushed, the connecting plate 2b1 drives the push plate 2b2 to slide, the third elastic member 2b3 is compressed and then shortened, along with the sliding of the push plate 2b2, the push plate 2b2 contacts with the cambered surface of the first cambered clamping block 2a2 to extrude the first cambered clamping block 2a2, so that the first cambered clamping block 2a2 slides, along with the continuous sliding of the push plate 2b2, the first cambered clamping block 2a2 is separated from the groove 2a4, so that the limitation on the position of the upper shell 1a is released, the operator slides the upper shell 1a, then releases the handle 2b4, continues to slide the upper shell 1a to detach the upper shell 1a from the lower shell 1b, and after the operator releases the handle 2b4, the connecting plate 2b1 and the push plate 2b2 return to the initial position under the elastic force of the third elastic member 2b3, so as to facilitate the subsequent installation of the upper shell 1a.

Referring to fig. 2-6: the sliding-out device 4 is further included, and the sliding-out device 4 comprises a third oblique guide plate 4a; the third inclined guide plate 4a is fixedly arranged on the upper shell 1 a; two driving assemblies 3b are arranged, and the two driving assemblies 3b are fixedly arranged on the lower shell 1b; a locking assembly 4b for fixing the position of the first support 3b2 is fixedly arranged on the first mounting seat 3b 1; a second control assembly 4c for controlling the locking assembly 4b is fixedly mounted on the upper housing 1a.

According to the upper shell 1a dismounting device, the function of driving the upper shell 1a to automatically slide out for a certain distance when the upper shell 1a is dismounted is realized through the third inclined guide plate 4a, the locking assembly 4b and the second control assembly 4c, and the defect that the upper shell 1a needs to be manually slid out when the connecting plate 2b1 is pressed when the upper shell 1a is dismounted is avoided; when an operator detaches the upper shell 1a, firstly, the connecting plate 2b1 is pressed through the handle 2b4, so that the push plate 2b2 is driven to slide, the first arc-shaped clamping block 2a2 is separated from the groove 2a4, then, the operator must keep pressing the connecting plate 2b1, and meanwhile, the upper shell 1a slides out by one end distance, otherwise, the connecting plate 2b1 returns to the initial position again under the action of the elastic force of the third elastic piece 2b3, the first arc-shaped clamping block 2a2 is clamped into the groove 2a4 again, and the operator cannot detach the upper shell 1a smoothly; when an operator installs the upper shell 1a, the locking assembly 4b on the first driving assembly 3b is in an unlocked state, the locking assembly 4b on the second driving assembly 3b is in a locked state, the upper shell 1a slides into the lower shell 1b, along with the sliding of the upper shell 1a, the first inclined guide plate 3a1 can contact with the second first roller 3b4 before the second first roller 3b4, so that the first roller 3b4 is pressed downwards, after the first support 3b2 contacts with the locking assembly 4b, the first support 3b2 is fixed through the locking assembly 4b, then the first inclined guide plate 3a1 contacts with the first roller 3b4, because the locking assembly 4b on the first roller 3b4 is in the unlocked state, the upper shell 1a can be smoothly pushed to slide into after the first roller 3b4 contacts with the second inclined guide plate 3a3, and when the installation of the upper shell 1a is completed, the second control assembly 4c installed on the lower shell 1b can be switched between the two locking assemblies 4b, and then the locking assembly 4b is in an unlocked state, and the second driving assembly 3b is in an unlocked state; and when operating personnel was installing upper housing 1a, probably because operating personnel promotes upper housing 1a fast and leads to going up casing 1a and popping out fast behind the contact of casing 1b down, first arc fixture block 2a2 does not block into recess 2a4, at this moment under the elastic drive of second first elastic component 3b3, through the cooperation of third slant deflector 4a and second first gyro wheel 3b4, upper housing 1a can automatic roll-off a section distance, so that operating personnel acquires the information of installation failure, in time adjust the mounted position of upper housing 1a, avoid follow-up because the loss that the installation failure brought.

Referring to fig. 2-6: the locking assembly 4b comprises a second mounting seat 4b2, a second arc-shaped sliding block 4b3, a fourth elastic piece 4b4, a matching plate 4b5 and a fifth elastic piece 4b6; the first mounting seat 3b1 is provided with a first sliding chute 4b1; the second mounting seat 4b2 is in sliding fit with the first sliding chute 4b1; the second arc-shaped sliding block 4b3 is slidably arranged on the second mounting seat 4b 2; two ends of the fourth elastic piece 4b4 are respectively and fixedly connected with the second mounting seat 4b2 and the second arc-shaped sliding block 4b 3; the matching plate 4b5 is fixedly arranged on the first support 3b2, and a notch matched with the second arc-shaped sliding block 4b3 is fixedly formed in the matching plate 4b 5; two ends of the fifth elastic element 4b6 are fixedly connected with the first mounting seat 3b1 and the second mounting seat 4b2 respectively.

The function of locking the position of the first support 3b2 is realized through the first sliding groove 4b1, the second mounting seat 4b2, the second arc-shaped sliding block 4b3, the fourth elastic piece 4b4, the matching plate 4b5 and the fifth elastic piece 4b6; when the upper shell 1a is installed, the first roller 3b4 on the second first installation seat 3b1 is pressed by the first inclined guide plate 3a1 to slide downwards, the first roller 3b4 drives the first support seat 3b2 and the matching plate 4b5 to slide, when the matching plate 4b5 passes through the second arc-shaped slider 4b3, the second arc-shaped slider 4b3 is pressed, so that the second arc-shaped slider 4b3 slides into the second installation seat 4b2, the matching plate 4b5 passes over the second arc-shaped slider 4b3 along with the continuous sliding of the matching plate 4b5, the second arc-shaped slider 4b3 slides out of the second arc-shaped slider 4b3 again under the driving of the elastic force of the fourth elastic piece 4b4, and the matching plate 4b5 is fixed under the limitation of the second arc- shaped slider 4b 3; after the upper shell 1a and the lower shell 1b are matched, the second control assembly 4c on the upper shell 1a overcomes the force of the fifth elastic piece 4b6 to drive the second mounting seat 4b2 to slide, so that a notch on the matching plate 4b5 is matched with the second arc-shaped sliding block 4b3, the limitation on the matching plate 4b5 mounted on the second first mounting seat 3b1 is removed, and an operator can automatically slide out for a distance when pressing the connecting plate 2b 1.

Referring to fig. 2, 4, 7 and 9: the second control assembly 4c comprises a fixed block 4c1, a slide block 4c3 and a sixth elastic element 4c4; the fixed block 4c1 is fixedly mounted on the upper shell 1 a; the upper shell 1a is provided with a second chute 4c2; the sliding block 4c3 is slidably mounted on the second chute 4c2; both ends of the sixth elastic member 4c4 are fixedly connected to the upper case 1a and the slider 4c3, respectively.

According to the AI edge calculation module device, the function of automatically controlling the locking states of the two locking assemblies 4b according to the position between the upper shell 1a and the lower shell 1b is realized through the fixed block 4c1, the second chute 4c2, the slide block 4c3 and the sixth elastic element 4c4, the effect of improving the automation degree of the AI edge calculation module device is achieved, and the use experience of operators is effectively improved; when an operator installs the upper shell 1a, the locking assembly 4b on the first driving assembly 3b is in an unlocked state, the locking assembly 4b on the second driving assembly 3b is in a locked state, the upper shell 1a slides into the lower shell 1b, the upper shell 1a and the lower shell 1b are matched with each other along with the sliding of the upper shell 1a, in the process, the fixing block 4c1 gradually approaches the second installation seat 4b2 on the second driving assembly 3b until the elastic force of the fifth elastic element 4b6 is overcome to drive the second installation seat 4b2 to slide, and the locking state of the locking assembly 4b installed on the second driving assembly 3b is switched; meanwhile, the sliding block 4c3 will also contact with the second mounting seat 4b2 mounted on the first driving assembly 3b, and as the sixth elastic member 4c4 is compressed and contracted, the elastic force of the sixth elastic member 4c4 will exceed the elastic force of the fourth elastic member 4b4, so as to drive the second mounting seat 4b2 mounted on the first driving assembly 3b to slide, and switch the locking state of the locking assembly 4b mounted on the first driving assembly 3 b.

Referring to fig. 2, 4, 5, 7, 12 and 13: the device is characterized by further comprising two auxiliary control devices 5, wherein the two auxiliary control devices 5 are respectively positioned on two sides of the upper shell 1a, and the upper shell 1a is provided with a third sliding chute 5a; the second inclined guide plate 3a3 is slidably mounted on the third sliding chute 5a; the auxiliary control device 5 also comprises a seventh elastic piece 5b and a speed-increasing transmission component 5c; two ends of the seventh elastic element 5b are respectively fixedly connected with the second inclined guide plate 3a3 and the upper shell 1 a; and the speed-increasing transmission component 5c is fixedly arranged on the upper shell 1a, and two ends of the speed-increasing transmission component 5c are in transmission connection with the connecting plate 2b1 and the second inclined guide plate 3a3 respectively.

According to the automatic sliding-out device, the function of prolonging the automatic sliding-out distance of the upper shell 1a when the upper shell 1a is disassembled is realized through the third sliding groove 5a, the seventh elastic piece 5b and the speed-increasing transmission assembly 5c, and the situation that the second driving assembly 3b blocks the automatic sliding-out of the upper shell 1a is avoided; when an operator detaches the upper shell 1a, firstly, the connecting plate 2b1 is pressed, so that the first arc-shaped fixture block 2a2 is separated from the groove 2a4, meanwhile, the connecting plate 2b1 overcomes the elasticity of the seventh elastic piece 5b, the second oblique guide plate 3a3 is driven to slide through the speed-increasing transmission component 5c, and further the first roller 3b4 on the first installation seat 3b1 is extruded through the second oblique guide plate 3a3, when the push plate 2b2 completely pushes the first arc-shaped fixture block 2a2, so that the first arc-shaped fixture block 2a2 is separated from the groove 2a4, the matching plate 4b5 on the first installation seat 3b1 crosses the second arc-shaped slider 4b3, the second arc-shaped slider 4b3 pops up and locks the position of the first support seat 3b2, at the moment, the upper shell 1a automatically slides outwards under the elasticity of the first elastic piece 3b3 installed on the first installation seat 3b1, and the slider 4c3 c supports against the fifth elastic piece, so that the elastic piece 4b 3b can extend the distance of the upper shell, and the second arc-shaped fixture block 3b can be prevented from sliding out for a certain time, and the second shell 3a can be driven to slide out.

Referring to fig. 2, 4, 5, 10 and 11: the speed-increasing transmission assembly 5c comprises a rotating shaft 5c1, a rack 5c3 and a transmission belt 5c5; two rotating shafts 5c1 are provided, and both the two rotating shafts 5c1 are rotatably mounted on the upper case 1 a; each rotating shaft 5c1 is fixedly sleeved with a rotating gear 5c2; two racks 5c3 are arranged, the two racks 5c3 are respectively and fixedly arranged on the connecting plate 2b1 and the second inclined guide plate 3a3, and the two racks 5c3 are respectively in transmission connection with the two rotating gears 5c2; each rotating shaft 5c1 is fixedly sleeved with a sleeve 5c4; both ends of the belt 5c5 are respectively sleeved on the two sleeves 5c 4.

The function of driving the second inclined guide plate 3a3 to slide by the force of pushing the connecting plate 2b1 is realized through the rotating shaft 5c1, the rotating gear 5c2, the rack 5c3, the sleeve 5c4 and the transmission belt 5c5; when an operator detaches the upper shell 1a, the connecting plate 2b1 is firstly pressed to separate the first arc-shaped clamping block 2a2 from the groove 2a4, meanwhile, the connecting plate 2b1 drives the rack 5c3 fixedly connected with the connecting plate to move, the rack 5c3 drives the rotating gear 5c2 in transmission connection with the rack, the rotating gear 5c2 drives the rotating shaft 5c1 to rotate, the operator controls the transmission ratio by controlling the external diameter ratio of the two sleeves 5c4, drives the other rotating shaft 5c1 and the rotating gear 5c2 to rotate by the transmission belt 5c5, and drives the rack 5c3 fixedly arranged on the second inclined guide plate 3a3 to move by the rotating gear 5c2, and then extrude the first roller 3b4 on the first mounting seat 3b1 through the second inclined guide plate 3a3, when the push plate 2b2 completely pushes the first arc-shaped fixture block 2a2, so that the first arc-shaped fixture block 2a2 is separated from the groove 2a4, the matching plate 4b5 on the first mounting seat 3b1 crosses the second arc-shaped slider 4b3, the second arc-shaped slider 4b3 pops out to lock the position of the first support seat 3b2, at this time, the upper shell 1a automatically slides outwards under the elastic action of the first elastic element 3b3 mounted on the first mounting seat 3b1, and through the elastic action of the sixth elastic element 4c4, the slider 4c3 can abut against the fifth elastic element 4b6 for a while the sliding distance of the upper shell 1a is prolonged.

Referring to fig. 2, 3, 4, 7 and 8: a first guide angle 1a1 is fixedly arranged on the upper shell 1 a; a second guide angle 1b1 is fixedly arranged on the lower shell 1 b.

According to the detachable upper shell, the first guide angle 1a1 and the second guide angle 1b1 are used for achieving the function that an operator can conveniently slide and install the upper shell 1a on the lower shell 1b, and the effect of further improving the dismounting efficiency is achieved; when the upper casing 1a is installed, the first guide angle 1a1 arranged on the upper casing 1a and the second guide angle 1b1 arranged on the lower casing 1b are used, so that the fault-tolerant angle is increased when the upper casing 1a is installed, an operator aligns the first guide angle 1a1 with the second guide angle 1b1, and smoothly installs the upper casing 1a on the lower casing 1b in a sliding manner through the guide effect between the first guide angle 1a and the second guide angle 1b, the disassembly and assembly efficiency of the upper casing 1a is improved, and further the maintenance portability of the AI edge calculation module device is improved.

Referring to fig. 1, 2 and 3: a plurality of radiating fins 1c are fixedly mounted on the upper shell 1a and the lower shell 1b, and the intervals between the plurality of radiating fins 1c are equal.

The function of improving the heat dissipation capacity of the shell 1 is achieved through the heat dissipation fins 1 c; by installing the heat radiation fins 1c on the upper case 1a and the lower case 1b, the contact area with the air is increased, thereby improving the heat conduction efficiency and enhancing the heat radiation performance of the upper case 1a and the lower case 1 b.

The above examples only show one or more embodiments of the present invention, and the description is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An AI edge calculation module apparatus convenient for maintenance includes a casing (1), the casing (1) including an upper case (1 a) and a lower case (1 b);

the upper shell (1 a) and the lower shell (1 b) are in sliding fit;

the device is characterized by also comprising a fixing device (2) and a sliding-in device (3) which are used for fixing the upper shell (1 a) and the lower shell (1 b);

the sliding-in device (3) comprises two guide assemblies (3 a) and two driving assemblies (3 b), the two guide assemblies (3 a) and the two driving assemblies (3 b) are respectively positioned on two sides of the upper shell (1 a), and the two driving assemblies (3 b) are respectively positioned on two sides of the lower shell (1 b);

the guide assembly (3 a) comprises a first inclined guide plate (3 a 1), a horizontal guide plate (3 a 2) and a second inclined guide plate (3 a 3), and the first inclined guide plate (3 a 1), the horizontal guide plate (3 a 2) and the second inclined guide plate (3 a 3) are fixedly arranged on the upper shell (1 a);

drive assembly (3 b) includes first mount pad (3 b 1), first support (3 b 2), first elastic component (3 b 3) and first gyro wheel (3 b 4), first mount pad (3 b 1) fixed mounting is on casing (1 b) down, first support (3 b 2) slidable mounting is on first mount pad (3 b 1), the both ends of first elastic component (3 b 3) respectively with first mount pad (3 b 1) and first support (3 b 2) fixed connection, first gyro wheel (3 b 4) rotate and install on first support (3 b 2).

2. The AI edge calculation module device for ease of maintenance according to claim 1, characterized in that the fixture (2) includes a fixture component (2 a);

the fixing component (2 a) comprises a fixing seat (2 a 1), a first arc-shaped clamping block (2 a 2) and a second elastic piece (2 a 3);

the fixed seat (2 a 1) is fixedly arranged on the upper shell (1 a);

the first arc-shaped clamping block (2 a 2) is slidably arranged on the fixed seat (2 a 1);

two ends of the second elastic piece (2 a 3) are respectively fixedly connected with the fixed seat (2 a 1) and the first arc-shaped clamping block (2 a 2);

a groove (2 a 4) matched with the first arc-shaped clamping block (2 a 2) is formed in the lower shell (1 b);

a first control component (2 b) used for controlling the sliding of the first arc-shaped clamping block (2 a 2) is fixedly mounted on the lower shell (1 b).

3. The AI edge calculation module device for ease of maintenance according to claim 2, characterized in that the first control component (2 b) includes a connection plate (2 b 1), a push plate (2 b 2), a third elastic member (2 b 3), and a handle (2 b 4);

the connecting plate (2 b 1) and the push plate (2 b 2) are both arranged on the lower shell (1 b) in a sliding manner, and the connecting plate (2 b 1) and the push plate (2 b 2) are fixedly connected;

two ends of the third elastic piece (2 b 3) are respectively fixedly connected with the lower shell (1 b) and the push plate (2 b 2);

the handle (2 b 4) is fixedly arranged on the connecting plate (2 b 1).

4. The AI edge calculation module device convenient for maintenance according to claim 1, further comprising a slide-out device (4), the slide-out device (4) comprising a third slanted guide plate (4 a);

the third inclined guide plate (4 a) is fixedly arranged on the upper shell (1 a);

two driving assemblies (3 b) are arranged, and the two driving assemblies (3 b) are fixedly arranged on the lower shell (1 b);

a locking assembly (4 b) for fixing the position of the first support (3 b 2) is fixedly arranged on the first mounting seat (3 b 1);

a second control assembly (4 c) for controlling the locking assembly (4 b) is fixedly arranged on the upper shell (1 a).

5. The AI edge calculation module device for facilitating maintenance according to claim 4, wherein the locking assembly (4 b) includes a second mounting seat (4 b 2), a second arc-shaped slider (4 b 3), a fourth elastic member (4 b 4), a mating plate (4 b 5), and a fifth elastic member (4 b 6);

a first sliding groove (4 b 1) is formed in the first mounting seat (3 b 1);

the second mounting seat (4 b 2) is in sliding fit with the first sliding groove (4 b 1);

the second arc-shaped sliding block (4 b 3) is slidably arranged on the second mounting seat (4 b 2);

two ends of the fourth elastic piece (4 b 4) are respectively fixedly connected with the second mounting seat (4 b 2) and the second arc-shaped sliding block (4 b 3);

the matching plate (4 b 5) is fixedly arranged on the first support (3 b 2), and a notch matched with the second arc-shaped sliding block (4 b 3) is fixedly formed in the matching plate (4 b 5);

two ends of the fifth elastic piece (4 b 6) are respectively fixedly connected with the first mounting seat (3 b 1) and the second mounting seat (4 b 2).

6. The AI edge calculation module device for facilitating maintenance according to claim 4, characterized in that the second control component (4 c) includes a fixed block (4 c 1), a slider (4 c 3), and a sixth elastic member (4 c 4);

the fixed block (4 c 1) is fixedly arranged on the upper shell (1 a);

a second sliding chute (4 c 2) is arranged on the upper shell (1 a);

the sliding block (4 c 3) is arranged on the second sliding chute (4 c 2) in a sliding way;

two ends of the sixth elastic piece (4 c 4) are respectively fixedly connected with the upper shell (1 a) and the sliding block (4 c 3).

7. The AI edge calculation module device convenient for maintenance according to claim 3, further comprising two auxiliary control devices (5), wherein the two auxiliary control devices (5) are respectively arranged at two sides of the upper shell (1 a), and the upper shell (1 a) is provided with a third chute (5 a);

the second inclined guide plate (3 a 3) is slidably mounted on the third sliding chute (5 a);

the auxiliary control device (5) also comprises a seventh elastic piece (5 b) and a speed-increasing transmission component (5 c);

two ends of the seventh elastic piece (5 b) are respectively fixedly connected with the second inclined guide plate (3 a 3) and the upper shell (1 a);

the speed-increasing transmission component (5 c) is fixedly arranged on the upper shell (1 a), and two ends of the speed-increasing transmission component (5 c) are in transmission connection with the connecting plate (2 b 1) and the second inclined guide plate (3 a 3) respectively.

8. The AI edge calculation module device for ease of maintenance according to claim 7, characterized in that the speed increasing transmission assembly (5 c) includes a rotary shaft (5 c 1), a rack (5 c 3), and a transmission belt (5 c 5);

two rotating shafts (5 c 1) are arranged, and the two rotating shafts (5 c 1) are rotatably arranged on the upper shell (1 a);

each rotating shaft (5 c 1) is fixedly sleeved with a rotating gear (5 c 2);

two racks (5 c 3) are arranged, the two racks (5 c 3) are respectively and fixedly arranged on the connecting plate (2 b 1) and the second inclined guide plate (3 a 3), and the two racks (5 c 3) are respectively in transmission connection with the two rotating gears (5 c 2);

each rotating shaft (5 c 1) is fixedly sleeved with a sleeve (5 c 4);

two ends of the transmission belt (5 c 5) are respectively sleeved on the two sleeves (5 c 4).

9. The AI edge calculation module device convenient for maintenance according to claim 1, wherein the upper housing (1 a) is fixedly provided with a first guide angle (1 a 1);

a second guide angle (1 b 1) is fixedly arranged on the lower shell (1 b).

10. The AI edge calculation module device for ease of maintenance according to claim 1, wherein a plurality of heat dissipation fins (1 c) are fixedly mounted on both the upper case (1 a) and the lower case (1 b), and the plurality of heat dissipation fins (1 c) are equally spaced.

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