CN112532852A - Device for automatically replacing camera memory card - Google Patents

Abstract

The invention relates to the field related to memory cards, and discloses a device for automatically replacing a camera memory card, which comprises a main box body, wherein a replacing rotary disc cavity is arranged in the main box body, the lower side of the replacing rotary disc cavity is communicated with a reserve insertion cavity with an opening communicated with the outside to the left, the left side of the replacing rotary disc cavity is communicated with a reciprocating slide block cavity, the left side of the reciprocating slide block cavity is communicated with a reciprocating rotary disc cavity, the reciprocating slide block is controlled by starting and stopping the power generation mechanism to drive the storage reciprocating slide block to reciprocate so as to control the insertion and extraction of the storage card, the rack drives the transmission gear to rotate, so as to achieve the purpose that the fixed external tooth sleeve is screwed into the internal tooth sleeve to drive the storage reciprocating slide block to reciprocate along with the rotation, the change of the positions of the storage reciprocating slide blocks is realized by the engagement control of replacing the half gear and replacing the turntable gear, therefore, the storage card can be automatically replaced, and the rotation of the fan wheel enables the device to convert wind energy into electric energy through the power generation mechanism, so that energy is saved.

Description

Device for automatically replacing camera memory card

Technical Field

The invention relates to the field of memory cards, in particular to a device for automatically replacing a camera memory card.

Background

With the increasing frequency of the use of cameras by people, the cameras have become an integral part of our lives, and some problems can always be encountered in the use process of the cameras, the situation that the memory is insufficient often occurs during photographing and shooting, and the common solutions at the present stage are mostly to manually replace the memory card or replace the memory card with larger storage space, and the solutions are low in replacement efficiency or not to treat the symptoms and the root causes, so that the problem cannot be solved more perfectly.

Disclosure of Invention

The invention aims to provide a device for automatically replacing a camera memory card, which can overcome the defects of the prior art, thereby improving the practicability of equipment.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a device for automatically replacing a camera memory card, which comprises a main box body, wherein a replacing rotary disc cavity is arranged in the main box body, the lower side of the replacing rotary disc cavity is communicated with a reserve insertion cavity with an opening communicated with the outside to the left, the left side of the replacing rotary disc cavity is communicated with a reciprocating slide block cavity, the left side of the reciprocating slide block cavity is communicated with a reciprocating rotary disc cavity, the upper side of the reciprocating rotary disc cavity is provided with a reciprocating gear shaft cavity positioned on the left side of the replacing rotary disc cavity, the upper side of the reciprocating gear shaft cavity is provided with a motor bevel gear cavity, the right side of the motor bevel gear cavity is provided with a motor transmission belt cavity positioned on the upper side of the reciprocating gear shaft cavity and positioned on the left side of the replacing rotary disc cavity, the left side of the motor bevel gear cavity is provided with a power generation mechanism positioned on the upper side of the reciprocating, motor drive area chamber is located semi-gear chamber left side just is located reciprocal slider chamber reciprocal carousel chamber downside, it is equipped with the camera groove direction chamber that extends to the external world right to change carousel chamber right side intercommunication, the deposit inserts chamber right side intercommunication and is equipped with the odd card dog chamber that extends to the external world right, both sides intercommunication is equipped with two about the odd card dog chamber with the knob sets up and is co-located for central longitudinal symmetry take out the pivot chamber on change carousel chamber right side, it is connected with and extends and run through to change carousel chamber right end wall normal running fit left change carousel chamber until extending to change the change carousel axle in the semi-gear intracavity, change carousel off-axial edge face fixedly connected with be located change carousel intracavity and part are located the change carousel that inserts the intracavity, be equipped with four reciprocating sliding mechanism and four in the change carousel reciprocating sliding mechanism is with temporarily in the downside reciprocating sliding mechanism is blue originally and uses The replacing turntable shaft is arranged in the center and the inner circumference direction.

On the basis of the technical scheme, a storage card sliding cavity is arranged in the reciprocating sliding mechanism and temporarily positioned at the lower side, a storage reciprocating sliding block capable of sliding left and right is connected to the left end wall of the storage card sliding cavity in a sliding fit mode, a storage reciprocating sliding block fixing cavity is formed in the left and right through mode, the storage reciprocating sliding block is communicated with the replacement turntable cavity in a left and right through mode, the storage card sliding cavity is communicated with two guide sliding block cavities which are arranged in the storage reciprocating sliding block in a central symmetry mode and are positioned in the storage reciprocating sliding block in a front and back mode, the storage reciprocating sliding block is internally provided with two limiting sliding block cavities which are arranged in the storage reciprocating sliding block in a central symmetry mode and extend to the limiting sliding block cavities corresponding to the storage card sliding cavity in the extending direction, the two limiting sliding block cavities are arranged in the storage reciprocating sliding block in an up and down symmetrical mode and are arranged in the storage The storage reciprocating slide block is internally provided with two inner gear sleeve cavities which are positioned between the upper fixed slide block cavity and the lower fixed slide block cavity, are communicated with the replacement turntable cavity and are symmetrically arranged around the storage card fixed cavity.

On the basis of the technical scheme, the tail end of the outer side of the storage reciprocating slide block in the reciprocating slide mechanism which is temporarily positioned at the lower side is fixedly connected with two fixed slide block cavities which are symmetrically arranged in front and back by taking the storage reciprocating slide block as a center and extend outwards into the guide slide block cavity to be connected with the guide slide block cavity in a sliding fit manner, the front end wall of the front fixed slide block cavity at the front side is connected with a storage card fixed shaft which extends backwards and penetrates through the storage card fixed cavity until the storage card fixed shaft extends into the rear end wall of the rear fixed slide block cavity at the rear side in a rotating fit manner, the outer edge surface of the storage card fixed shaft is fixedly connected with a fixed slide block positioned in the fixed slide block cavity, the outer edge surface of the storage card fixed shaft is fixedly connected with a storage card fixed block positioned in the storage card fixed cavity, the fixed sleeve shaft cavity outer end with fixedly connected with fixed compression spring between the fixed slider left side end, sliding fit is connected with on the spacing slider outer end wall can slide extremely spacing slider in the spacing sliding cavity, spacing slider outside end with fixedly connected with spacing compression spring between the spacing slider outer end wall.

On the basis of the technical scheme, the tail end of the left side of the rotating disc shaft is fixedly connected with a replacement rotating disc gear, the right end wall of the half gear cavity is connected with a replacement half gear shaft which extends leftwards to the inside of the motor transmission belt cavity and rightwards to the inside of the half gear cavity in a matched mode, the tail end of the right side of the replacement half gear shaft is fixedly connected with a replacement half gear which can be meshed with the rotating disc gear in a replaced mode, the tail end of the left side of the replacement half gear shaft is fixedly connected with a replacement shaft pulley, the left end wall of the reciprocating slide block cavity is connected with a reciprocating slide block which can slide rightwards to the inside of the replacement rotating disc cavity in a matched mode, a fixed sleeve shaft cavity is arranged in the replacement rotating disc cavity, a rack bevel gear cavity is arranged on the left side of the fixed sleeve shaft cavity, a transmission gear cavity with a backward opening communicated with the reciprocating slide block The shaft, rack transmission shaft upside end fixedly connected with rack owner bevel gear, rack transmission shaft outer fringe face fixedly connected with is located the transmission gear intracavity and part are located the drive gear of reciprocal slider intracavity, the running fit is connected with and extends to right on the rack bevel gear chamber right end wall fixed sleeve axle intracavity and extend to left the rack bevel gear axle in the rack bevel gear intracavity, rack bevel gear axle right side end fixedly connected with rack gear, rack bevel gear axle left side end fixedly connected with the vice bevel gear of rack owner bevel gear meshing.

On the basis of the technical scheme, a fixed rotating shaft which extends rightwards into the cavity of the replacement turntable is connected to the left end wall of the shaft cavity of the fixed sleeve in a rotating fit manner, the outer edge surface of the fixed rotating shaft is fixedly connected with a fixed sleeve gear which is meshed with the rack gear, the outer edge surface of the fixed rotating shaft is fixedly connected with a fixed outer gear sleeve which is positioned in the cavity of the reciprocating slide block, is partially positioned in the cavity of the replacement turntable and can be meshed with the inner gear sleeve, a rack which can be meshed with the gear is fixedly connected in the rear end wall of the cavity of the reciprocating slide block, the left end of the power generation mechanism is fixedly connected with a fan wheel shaft which extends leftwards to the outside, the left end of the fan wheel shaft is fixedly connected with a fan wheel, the right end of the power generation mechanism is fixedly connected with a motor driving shaft which extends rightwards and penetrates through the cavity of, the motor driving shaft outer edge surface is fixedly connected with a motor main bevel gear located in the motor bevel gear cavity, the motor driving shaft outer edge surface is fixedly connected with a motor belt wheel located in the motor driving belt cavity, and a motor driving belt is connected between the motor belt wheel and the shaft replacing belt wheel in a power fit mode.

On the basis of the technical scheme, a motor bevel gear shaft which extends downwards into the reciprocating gear shaft cavity and extends upwards into the motor bevel gear cavity is connected to the upper end wall of the motor bevel gear cavity in a rotating fit manner, a motor secondary bevel gear which is meshed with the motor primary bevel gear is fixedly connected to the upper end of the motor bevel gear shaft, a motor gear is fixedly connected to the lower end of the motor bevel gear shaft, a reciprocating gear shaft which extends downwards into the reciprocating turntable cavity and extends upwards into the reciprocating gear shaft cavity is connected to the upper end wall of the reciprocating gear shaft in a rotating fit manner, a reciprocating gear which is meshed with the motor gear is fixedly connected to the upper end of the reciprocating gear shaft, a reciprocating turntable is fixedly connected to the lower end of the reciprocating gear shaft, a reciprocating turntable pin is fixedly connected to the lower end of the reciprocating turntable, and a reciprocating push rod which is hinged with the reciprocating slide block rightwards is fixedly connected to the outer edge, take out pivot chamber outer end wall internal fixation and connect and take out outer dog, take out pivot chamber front end wall internal fit and be connected and extend to backward take out in the pivot chamber rear end wall and be located take out the inboard pivot of taking out outer dog, take out pivot outer fringe face fixed connection and inwards extend to the dog of getting in the odd calorie dog intracavity, take out pivot chamber right side wall internal fixation and be located take out the stopper on pivot right side, take out pivot outer fringe face fixed connection and be located take out the pivot intracavity and its upside end can with take out the terminal butt in outer dog right side and its downside end can with take out the pivot dog that takes out of the terminal butt in stopper upside, take out pivot dog upside end with take out the compression of fixedly connected with between the outer dog right side end.

On the basis of the technical scheme, the power generation mechanism is formed by connecting a generator, a storage battery and a motor through electric wires.

The invention has the beneficial effects that: the reciprocating slider is controlled to drive the reciprocating slider for storing through the starting and stopping of the power generation mechanism, so that the plugging and pulling of the storage card are controlled, the transmission gear is driven to rotate through the rack, the purpose that the fixed external tooth sleeve is screwed into the internal tooth sleeve to drive the reciprocating slider for storing to follow the reciprocating movement is achieved, the change of the positions of the reciprocating sliders for storing is achieved through the engagement control of replacing the half gear and the rotating disc gear, the automatic replacement of the storage card is achieved, and the rotation of the fan wheel enables the device to convert wind energy into electric energy saving energy through the power generation mechanism.

Drawings

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

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of the overall structure of an apparatus for automatically replacing a camera memory card according to the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is an enlarged schematic view of B-B in fig. 1.

Fig. 4 is an enlarged schematic view of C-C in fig. 2.

Fig. 5 is an enlarged schematic view of D-D in fig. 3.

Fig. 6 is an enlarged schematic view of E in fig. 1.

Fig. 7 is an enlarged schematic view of F in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The device for automatically replacing the camera memory card comprises a main box body 10, a replacing rotary disc cavity 24 is arranged in the main box body 10, a reserve inserting cavity 71 with an opening communicated with the outside to the left is communicated with the lower side of the replacing rotary disc cavity 24, a reciprocating slider cavity 41 is communicated with the left side of the replacing rotary disc cavity 24, a reciprocating rotary disc cavity 42 is communicated with the left side of the reciprocating slider cavity 41, a reciprocating gear shaft cavity 15 positioned on the left side of the replacing rotary disc cavity 24 is arranged on the upper side of the reciprocating rotary disc cavity 42, a motor bevel gear cavity 18 is arranged on the upper side of the reciprocating gear shaft cavity 15, a motor transmission belt cavity 22 positioned on the upper side of the reciprocating gear shaft cavity 15 and positioned on the left side of the replacing rotary disc cavity 24 is arranged on the right side of the motor bevel gear cavity 18, a power generation mechanism 12 positioned on the upper side of the reciprocating rotary disc cavity 42 is arranged on the left side of the motor bevel gear cavity 18, the lower side of the reciprocating slide block cavity 41 is provided with a half gear cavity 34 which is positioned on the left side of the replacing turntable cavity 24 on the right side, the motor transmission belt cavity 22 is positioned on the left side of the half gear cavity 34 and positioned on the lower sides of the reciprocating slide block cavity 41 and the reciprocating turntable cavity 42, the right side of the replacing turntable cavity 24 is communicated with a camera slot guide cavity 31 which extends to the outside to the right side, the right side of the reserve insertion cavity 71 is communicated with an odd card block cavity 66 which extends to the outside to the right side, the upper side and the lower side of the odd card block cavity 66 are communicated with two taking-out rotating shaft cavities 72 which are symmetrically arranged up and down by taking the knob 78 as the center and are positioned on the right side of the replacing turntable cavity 24, the right end wall of the replacing turntable cavity 24 is connected with a rotating shaft 32 which extends to the left side and penetrates through the replacing turntable cavity 24 and the half gear cavity 34 until extending to the outside in a, change carousel axle 32 outer fringe face fixedly connected with and be located change carousel chamber 24 and part is located the reserve change carousel 25 of inserting in the chamber 71, it is equipped with four reciprocating sliding mechanism and four in the carousel 25 to change reciprocating sliding mechanism uses and is temporarily in the downside reciprocating sliding mechanism is the blue book and with change carousel axle 32 is the internal peripheral setting in center.

In addition, in one embodiment, a memory card sliding cavity 29 is arranged in the reciprocating sliding mechanism which is temporarily positioned at the lower side, a storage reciprocating slider 52 capable of sliding left and right is connected to the left end wall of the memory card sliding cavity 29 in a sliding fit manner, a memory card fixing cavity 28 is arranged in a left-right through manner, the memory card sliding cavity 29 is arranged in a left-right through manner and communicated with the replacement turntable cavity 24 through the storage reciprocating slider 52, two guide slider cavities 30 which are symmetrically arranged by taking the memory card sliding cavity 29 as a center and are positioned in the storage reciprocating slider 52 are arranged in a front-back communication manner, two limit slider cavities 68 which are symmetrically arranged by taking the memory card sliding cavity 29 as a center and are positioned in the storage reciprocating slider 52 are arranged in a vertical communication manner, two limit slider cavities which are symmetrically arranged by taking the memory card fixing cavity 28 as a center and extend vertically to be communicated with the memory card sliding cavity 29 are arranged in the storage reciprocating slider 52 And a limit slide cavity 70 extending in a direction corresponding to the limit slide cavity 68, four fixed slide cavities 53 are provided in the storage reciprocating slide 52, the upper and lower fixed slide cavities 53 are symmetrically provided with the transverse center line of the storage card slide cavity 29 as a center, the front and rear fixed slide cavities 53 are symmetrically provided with the longitudinal center line of the storage card slide cavity 29 as a center, and two inner gear sleeve cavities 50 are provided in the storage reciprocating slide 52, the inner gear sleeve cavities are positioned between the upper and lower fixed slide cavities 53 and are opened leftward to communicate with the replacement turntable cavity 24, and the inner gear sleeve cavities 50 are symmetrically provided with the storage card fixed cavity 28 as a center.

In addition, in one embodiment, two guiding sliders 79 which are symmetrically arranged in front and back with the storage slider 52 as the center and extend outwards into the guiding slider cavity 30 to be connected with the guiding slider cavity 30 in a sliding fit manner are fixedly connected to the outer end of the storage slider 52 in the reciprocating sliding mechanism which is temporarily positioned at the lower side, a storage card fixing shaft 26 which extends backwards and penetrates through the storage card fixing cavity 28 to extend into the rear end wall of the guiding slider 79 is connected in a rotating fit manner to the front end wall of the guiding slider 79 at the front side, a fixing slider 65 which is positioned in the fixing slider cavity 53 is fixedly connected to the outer edge surface of the storage card fixing shaft 26, a storage card fixing block 27 which is positioned in the storage card fixing cavity 28 is fixedly connected to the outer edge surface of the storage card fixing shaft 26, and a fixing sleeve shaft cavity 54 which can be attached to the fixing slider 65 is fixedly connected to the inner end wall of the fixing slider, the fixed sleeve shaft cavity 54 outside terminal with fixed slider 65 left side is fixedly connected with fixed compression spring 64 between the end, sliding fit is connected with on the wall of spacing slider cavity 68 outer end can slide to spacing slider 69 in the spacing sliding cavity 70, spacing slider 69 outside terminal with fixedly connected with spacing compression spring 67 between the wall of spacing slider cavity 68 outer end.

In addition, in one embodiment, the left end of the replacing turntable shaft 32 is fixedly connected with a replacing turntable gear 35, the right end wall of the half gear cavity 34 is connected with a replacing half gear shaft 37 which extends leftwards into the motor transmission belt cavity 22 and rightwards into the half gear cavity 34 in a rotating fit manner, the right end of the replacing half gear shaft 37 is fixedly connected with a replacing half gear 36 which can be meshed with the replacing turntable gear 35, the left end of the replacing half gear shaft 37 is fixedly connected with a replacing shaft pulley 38, the left end wall of the rack 47 is connected with a reciprocating slider 40 which can slide into the replacing turntable cavity 24 in a sliding fit manner, a fixed sleeve shaft cavity 54 is arranged in the replacing turntable cavity 24, a rack bevel gear cavity 58 is arranged at the left side of the fixed sleeve shaft cavity 54, a transmission gear cavity 63 which is opened backwards and communicated with the reciprocating slider cavity 41 is arranged at the lower side of the rack bevel gear cavity 58, the end wall internal rotation cooperation is connected with and upwards extends to rack transmission shaft 61 in rack bevel gear chamber 58 under the drive gear chamber 63, rack transmission shaft 61 upside end fixedly connected with rack main bevel gear 60, rack transmission shaft 61 outer fringe face fixedly connected with is located in drive gear chamber 63 and part are located drive gear 62 in the reciprocal slider chamber 41, the running fit is connected with and extends to right on the wall of rack bevel gear chamber 58 right-hand member the fixed sleeve axle chamber 54 just extends to left rack bevel gear axle 57 in rack bevel gear chamber 58, rack bevel gear axle 57 right side end fixedly connected with rack transmission gear 56, rack bevel gear axle 57 left side end fixedly connected with the vice rack bevel gear 59 of rack main bevel gear 60 meshing.

In addition, in one embodiment, the left end wall of the fixed sleeve shaft cavity 54 is connected with a fixed rotating shaft 48 which extends rightwards into the replacing turntable cavity 24 in a rotating fit manner, the outer edge surface of the fixed rotating shaft 48 is fixedly connected with a fixed sleeve gear 55 which is meshed with the rack gear 56, the outer edge surface of the fixed rotating shaft 48 is fixedly connected with a fixed outer gear sleeve 49 which is positioned in the reciprocating slide block cavity 41, is partially positioned in the replacing turntable cavity 24 and can be meshed with the inner gear sleeve 51, the rear end wall of the reciprocating slide block cavity 41 is fixedly connected with a rack 47 which can be meshed with the gear 62, the left end of the power generation mechanism 12 is fixedly connected with a fan wheel shaft 11 which extends leftwards into the outside, the left end of the fan wheel shaft 11 is fixedly connected with a fan wheel 13, and the right end of the power generation mechanism 12 is fixedly connected with a fan wheel which extends rightwards and, The motor drive belt cavity 22 extends to the motor drive shaft 14 in the right end wall of the motor drive belt cavity 22, the outer edge surface of the motor drive shaft 14 is fixedly connected with a motor main bevel gear 20 located in the motor bevel gear cavity 18, the outer edge surface of the motor drive shaft 14 is fixedly connected with a motor belt pulley 23 located in the motor drive belt cavity 22, and a motor drive belt 39 is connected between the motor belt pulley 23 and the replacement shaft belt pulley 38 in a power fit manner.

In addition, in one embodiment, the upper end wall of the motor bevel gear cavity 18 is connected with a motor bevel gear shaft 19 which extends downwards into the reciprocating gear shaft cavity 15 and extends upwards into the motor bevel gear cavity 18 in a rotating fit manner, the upper end of the motor bevel gear shaft 19 is fixedly connected with a motor secondary bevel gear 21 which is meshed with the motor main bevel gear 20, the lower end of the motor bevel gear shaft 19 is fixedly connected with a motor gear 44, the upper end wall of the reciprocating gear shaft cavity 15 is connected with a reciprocating gear shaft 16 which extends downwards into the reciprocating turntable cavity 42 and extends upwards into the reciprocating gear shaft cavity 15 in a rotating fit manner, the upper end of the reciprocating gear shaft 16 is fixedly connected with a reciprocating gear 17 which is meshed with the motor gear 44, the lower end of the reciprocating gear shaft 16 is fixedly connected with a reciprocating turntable 46, the lower end of the reciprocating turntable 46 is fixedly connected with a reciprocating turntable pin 45, the outer edge surface of the reciprocating turntable pin 45 is fixedly connected with a reciprocating push rod 43 which extends rightwards to be hinged with the reciprocating slide block 40, the inner end wall of the outer end of the taking-out rotary shaft cavity 72 is fixedly connected with a taking-out outer stop block 73, the inner end wall of the front end of the taking-out rotary shaft cavity 72 is connected with a taking-out rotary shaft stop block 76 which extends backwards to the inner end wall of the rear end of the taking-out rotary shaft cavity 72 and is positioned at the inner side of the taking-out outer stop block 73 in a rotating fit manner, the outer edge surface of the taking-out rotary shaft stop block 76 is fixedly connected with a taking-out stop block 33 which extends inwards to the inner side of the odd stop block cavity 66, the inner end wall of the right end of the taking-out rotary shaft cavity 72 is fixedly connected with a taking-out rotary shaft stop block 77 which is positioned at the right side of the taking-out rotary shaft stop block 76 and can be abutted, a take-out compression 74 is fixedly connected between the upper end of the take-out spindle stop 76 and the right end of the take-out outer stop 73.

In addition, in one embodiment, the power generation mechanism 12 is composed of a generator, a battery and a motor connected by wires.

The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.

As shown in fig. 1-7, when the device of the present invention is in an initial state, the card-taking stopper 33 is in a vertical state, the rotating shaft-taking stopper 76 is abutted to the limit-taking stopper 77, the compression-taking 74 is in a relaxed state, the motor in the power generation mechanism 12 is not started, the reciprocating slider 40 is in the reciprocating slider cavity 41, the replacement half gear 36 and the replacement turntable gear 35 are disengaged, the limit slider 69 is partially positioned in the limit sliding cavity 70, the limit compression spring 67 is in a relaxed state, the storage reciprocating slider 52 is positioned at the leftmost side in the memory card sliding cavity 29, the transmission gear 62 is engaged with the rack 47, the fixed compression spring 64 is in a relaxed state, the fixed external tooth sleeve 49 is not engaged with the internal tooth sleeve 51, and the upper and lower memory card fixing;

sequence of mechanical actions of the whole device:

when the device starts to work, the camera slot guide cavity 31 of the device is aligned with a camera memory card slot, the device is fixed on the camera, then a memory card to be installed is put in and taken out of the memory card fixing cavity 28 through the memory card fixing cavity 28 which is temporarily positioned at the lower side, so that the memory card fixing block 27 is pressed by the memory card to overcome the elastic action of the fixed compression spring 64 and rotate, the rotation of the memory card fixing block 27 drives the memory card fixing shaft 26 to rotate, the rotation of the memory card fixing shaft 26 drives the fixed slide block 65 to rotate, the tail card slot of the memory card is meshed with the right end of the memory card fixing block 27 when the memory card is inserted into the memory card fixing cavity 28, the purpose of fixing the memory card is achieved, the knob 78 is rotated after the installation is completed, the rotation of the replacing turntable shaft 32 is driven to rotate, and, the rotation of the replacement turntable 25 drives each part in the replacement turntable 25 to rotate along with the rotation, so that the four storage reciprocating sliders 52 are rotated to the lower side to be inserted into the cavity 71 to mount the storage cards on different storage reciprocating sliders 52, and after the mounting is finished, the camera is started, and the camera is internally provided with the storage cards and does not mount the storage cards at this time, so that the motor in the power generation mechanism 12 drives the motor driving shaft 14 to rotate;

the rotation of the motor driving shaft 14 drives the motor main bevel gear 20 and the motor auxiliary bevel gear 21 to rotate, the rotation of the motor main bevel gear 20 drives the motor auxiliary bevel gear 21 to rotate, the rotation of the motor auxiliary bevel gear 21 drives the motor bevel gear shaft 19 to rotate, the rotation of the motor bevel gear shaft 19 drives the motor gear 44 to rotate, so as to drive the reciprocating gear 17 to rotate, the rotation of the reciprocating gear 17 drives the reciprocating turntable 46 to rotate through the reciprocating gear shaft 16, the rotation of the reciprocating turntable 46 drives the reciprocating slider 40 and all components in the reciprocating slider 40 to slide rightwards through the reciprocating push rod 43, the reciprocating slider 40 drives the transmission gear 62 to rotate through the rack 47 during the rightward sliding process, the rotation of the transmission gear 62 drives the rack transmission shaft 61 to rotate, the rotation of the rack transmission shaft 61 drives the rack main bevel gear 60 to rotate, and the rotation of the rack main bevel gear 60 drives the rack bevel gear shaft 57 to rotate through the rack auxiliary bevel, the rack and pinion shaft 57 rotates to drive the rack pinion 56 to rotate, the rack pinion 56 rotates to drive the fixed sleeve gear 55 to rotate, so that the fixed rotating shaft 48 is driven to rotate, and the fixed rotating shaft 48 rotates to drive the fixed external gear sleeve 49 to rotate;

the reciprocating slider 40 drives the fixed external gear sleeve 49 to move rightwards while the fixed external gear sleeve 49 rotates, when the fixed external gear sleeve 49 moves to the right end to be abutted with the left end of the internal gear sleeve 51 which is temporarily positioned at the upper side, the fixed external gear sleeve 49 continues moving rightwards, the fixed external gear sleeve 49 rotates, so that the fixed external gear sleeve 49 is meshed with the internal gear sleeve 51 to enter the internal gear sleeve cavity 50 which is temporarily positioned at the upper side, in the process, because the moving rightwards speed of the fixed external gear sleeve 49 is the same as the linear speed of the fixed external gear sleeve 49 rotating into the internal gear sleeve 51 which is temporarily positioned at the upper side, the transmission gear 62 which is temporarily positioned at the upper side just disengages from the rack 47 which is temporarily positioned at the upper side when the fixed external gear sleeve 49 completely moves into the internal gear sleeve 51 which is temporarily positioned at the upper side, and the fixed external gear sleeve 49 continues moving rightwards under the driving of the reciprocating slider 40 and the storage reciprocating slider 52 which is temporarily positioned at the upper The bit slide block 69 is pressed by the storage reciprocating slide block 52 temporarily positioned at the upper side to overcome the elastic force of the limit compression spring 67 temporarily positioned at the upper side to move upwards, so that the storage reciprocating slide block 52 temporarily positioned at the upper side moves rightwards without resistance under the guide of the guide slide block 79 and moves rightwards along with the reciprocating slide block 40, the storage reciprocating slide block 52 temporarily positioned at the upper side moves rightwards to drive each part in the storage reciprocating slide block 52 temporarily positioned at the upper side to move rightwards, and when the reciprocating turntable pin 45 rotates to the rightmost side of the reciprocating turntable 46, the reciprocating slide block 40 just drives the storage card in the storage reciprocating slide block 52 temporarily positioned at the upper side to be inserted into the storage card slot of the camera, and at the moment, the camera senses the insertion of the storage card and triggers the motor in the power generation mechanism 12 to stop driving;

when the device is installed on a camera, the fan wheel 13 rotates under the driving of external air flow in the long-term photographing process, so that the fan wheel shaft 11 is driven to rotate, and the purpose of driving a generator in the power generation mechanism 12 to generate power is achieved;

the motor driving shaft 14 drives the motor main bevel gear 20 to rotate and simultaneously drives the motor belt wheel 23 to rotate, the motor belt wheel 23 rotates to drive the replacement shaft belt wheel 38 to rotate through the motor driving belt 39, the replacement shaft belt wheel 38 rotates to drive the replacement half gear shaft 37 to rotate, the replacement half gear shaft 37 rotates to drive the replacement half gear 36 to rotate, so that the replacement turntable gear 35 can be driven to rotate, the replacement turntable gear 35 rotates to drive the replacement turntable shaft 32 to rotate, the replacement turntable shaft 32 drives the storage reciprocating slide block 52 and the knob 78 to rotate, and the replacement half gear 36 can drive the storage reciprocating slide block 52 to rotate by forty-five degrees through meshing with the replacement turntable gear 35 each time;

when the space in the memory card of the camera is full, the camera sends out a signal again, the motor in the power generation mechanism 12 is triggered to drive the motor driving shaft 14 to rotate, the rotation of the motor driving shaft 14 drives the reciprocating turntable 46 to rotate again, the rotation of the reciprocating turntable 46 enables the reciprocating turntable pin 45 to rotate, so that the reciprocating slider 40 is driven to move to the left through the reciprocating push rod 43, the storage reciprocating slider 52 temporarily positioned at the upper side is driven to move to the left through the fixed outer tooth sleeve 49, the limiting slider 69 temporarily positioned at the upper side overcomes the elastic force of the limiting compression spring 67 temporarily positioned at the upper side under the pressure of the left movement of the storage reciprocating slider 52 temporarily positioned at the upper side, the device returns to the initial position state, and the replacing turntable gear 35 is just meshed with the replacing half gear 36 at the moment, so that the storage reciprocating slider 52 is driven to rotate for forty-five degrees under the rotation of the replacing turntable shaft 32, another storage reciprocating slide block 52 for storing an empty storage card is rotated to the upper position to replace the original upper storage reciprocating slide block 52, the replacement half gear 36 is disengaged from the replacement turntable gear 35 again after the storage reciprocating slide block 52 is replaced, the reciprocating slide block 40 just moves to the leftmost side in the reciprocating slide block cavity 41 at the moment, and then moves to the right under the power action of the power generation mechanism 12, so that the installation process of the reciprocating storage card is completed, and the aim of automatically replacing the storage card is fulfilled by reciprocating.

The invention has the beneficial effects that: the reciprocating slider is controlled to drive the reciprocating slider for storing through the starting and stopping of the power generation mechanism, so that the plugging and pulling of the storage card are controlled, the transmission gear is driven to rotate through the rack, the purpose that the fixed external tooth sleeve is screwed into the internal tooth sleeve to drive the reciprocating slider for storing to follow the reciprocating movement is achieved, the change of the positions of the reciprocating sliders for storing is achieved through the engagement control of replacing the half gear and the rotating disc gear, the automatic replacement of the storage card is achieved, and the rotation of the fan wheel enables the device to convert wind energy into electric energy saving energy through the power generation mechanism.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides an automatic change device of camera memory card, includes the main tank body, its characterized in that: be equipped with in the main tank body and change the carousel chamber, it is equipped with opening left and external intercommunication's deposit and inserts the chamber to change downside intercommunication under the carousel chamber, it is equipped with reciprocal slider chamber to change carousel chamber left side intercommunication, reciprocal slider chamber left side intercommunication is equipped with reciprocal carousel chamber, reciprocal carousel chamber upside is equipped with and is located change the left reciprocal gear shaft chamber in carousel chamber, reciprocal gear shaft chamber upside is equipped with motor bevel gear chamber, motor bevel gear chamber right side is equipped with and is located reciprocal gear shaft chamber upside just is located change the left motor drive belt chamber in carousel chamber, motor bevel gear chamber left side is equipped with and is located the power generation mechanism of reciprocal carousel chamber upside, reciprocal slider chamber downside is established the right side and is located change the left half gear chamber in carousel chamber, motor drive belt chamber is located half gear chamber left side just is located reciprocal slider chamber left side, A camera slot guide cavity extending to the outside rightwards is communicated and arranged at the lower side of the reciprocating turntable cavity and at the right side of the replacing turntable cavity, the right side of the reserve insertion cavity is communicated with an odd card baffle cavity which extends to the outside rightwards, the upper side and the lower side of the odd card baffle cavity are communicated with two taking-out rotating shaft cavities which are symmetrically arranged up and down by taking the knob as a center and are positioned on the right side of the replacing rotating disc cavity, a replacing turntable shaft which extends leftwards and penetrates through the replacing turntable cavity until the replacing turntable shaft extends into the half gear cavity is connected in a rotating and matching way in the right end wall of the replacing turntable cavity, the outer edge surface of the replacing turntable shaft is fixedly connected with a replacing turntable which is positioned in the replacing turntable cavity and part of which is positioned in the reserve insertion cavity, four reciprocating sliding mechanisms are arranged in the replacing turntable, the four reciprocating sliding mechanisms are arranged in the inner circumferential direction by taking the reciprocating sliding mechanism temporarily positioned at the lower side as a basket book and taking the replacing turntable shaft as a center.

2. The apparatus of claim 1, wherein: a storage card sliding cavity is arranged in the reciprocating sliding mechanism which is temporarily positioned at the lower side, a storage reciprocating slide block capable of sliding left and right is connected to the left end wall of the storage card sliding cavity in a sliding fit manner, a storage card fixing cavity is arranged in a left-right through manner, the storage reciprocating slide block is communicated with the replacement turntable cavity in a left-right through manner, two guide slide block cavities which are symmetrically arranged by taking the storage card sliding cavity as a center and are positioned in the storage reciprocating slide block are arranged in the front-back communication manner, two limit slide block cavities which are symmetrically arranged by taking the storage card sliding cavity as a center and are positioned in the storage reciprocating slide block are arranged in the up-down communication manner, two limit slide cavities which are symmetrically arranged by taking the storage card fixing cavity as a center and extend up and down to the limit slide cavities which are communicated with the storage card sliding cavity and extend in the direction corresponding to the limit slide, the storage reciprocating slide block is internally provided with four fixed slide block cavities, the upper side and the lower side of each fixed slide block cavity are symmetrically arranged by taking the transverse central line of the storage card sliding cavity as a center, the front side and the rear side of each fixed slide block cavity are symmetrically arranged by taking the longitudinal central line of the storage card sliding cavity as a center, and the storage reciprocating slide block is internally provided with two inner gear sleeve cavities which are positioned between the upper fixed slide block cavity and the lower fixed slide block cavity, are communicated with the replacement turntable cavity and are symmetrically arranged by taking the storage card fixed cavity as a center.

3. The apparatus of claim 1, wherein: the outer end of the storage reciprocating slide block in the reciprocating sliding mechanism temporarily positioned at the lower side is fixedly connected with two fixed slide block cavities which are symmetrically arranged from front to back by taking the storage reciprocating slide block as a center and extend outwards into the guide slide block cavity to be connected with the guide slide block cavity in a sliding fit manner, the front end wall of the front side of the fixed slide block cavity at the front side is connected with a storage card fixed shaft which extends backwards and penetrates through the storage card fixed cavity until the storage card fixed shaft extends into the rear end wall of the fixed slide block cavity at the rear side in a rotating fit manner, the outer edge surface of the storage card fixed shaft is fixedly connected with a fixed slide block positioned in the fixed slide block cavity, the outer edge surface of the storage card fixed shaft is fixedly connected with a storage card fixed block positioned in the storage card fixed cavity, the inner end wall of the fixed slide block cavity is fixedly connected with a fixed sleeve shaft cavity which can be attached to, the limiting slide block is connected to the outer end wall of the limiting slide block cavity in a sliding fit mode and can slide to the limiting slide block in the limiting slide cavity, and a limiting compression spring is fixedly connected between the outer end of the limiting slide block and the outer end wall of the limiting slide block cavity.

4. The apparatus of claim 1, wherein: the left end of the replacing turntable shaft is fixedly connected with a replacing turntable gear, the right end wall of the half gear cavity is connected with a replacing half gear shaft which extends leftwards into the motor transmission belt cavity and rightwards into the half gear cavity in a rotating fit manner, the right end of the replacing half gear shaft is fixedly connected with a replacing half gear which can be meshed with the replacing turntable gear, the left end of the replacing half gear shaft is fixedly connected with a replacing shaft belt wheel, the left end wall of the reciprocating slide block cavity is connected with a reciprocating slide block which can slide into the replacing turntable cavity in a sliding fit manner, a fixed sleeve shaft cavity is arranged in the replacing turntable cavity, a rack bevel gear cavity is arranged on the left side of the fixed sleeve shaft cavity, a transmission gear cavity with an opening backwards communicated with the reciprocating slide block cavity is arranged on the lower side of the rack bevel gear cavity, and a rack transmission shaft which extends upwards into the rack bevel gear cavity is, rack transmission shaft upside end fixedly connected with rack main bevel gear, rack transmission shaft outer fringe face fixedly connected with is located the drive gear intracavity and part are located the drive gear of reciprocal slider intracavity, the running fit is connected with and extends to right on the rack bevel gear chamber right end wall fixed sleeve axle intracavity and extend to left the rack bevel gear axle in the rack bevel gear intracavity, rack bevel gear axle right side end fixedly connected with rack gear, rack bevel gear axle left side end fixedly connected with the rack auxiliary bevel gear of rack main bevel gear meshing.

5. The apparatus of claim 3, wherein: the left end wall of the fixed sleeve shaft cavity is connected with a fixed rotating shaft which extends rightwards into the replacing turntable cavity in a rotating matching manner, the outer edge surface of the fixed rotating shaft is fixedly connected with a fixed sleeve gear which is meshed with the rack gear, the outer edge surface of the fixed rotating shaft is fixedly connected with a fixed outer gear sleeve which is positioned in the reciprocating slide block cavity, is partially positioned in the replacing turntable cavity and can be meshed with the inner gear sleeve, the inner end wall of the reciprocating slide block cavity is fixedly connected with a rack which can be meshed with the gear, the left end of the power generation mechanism is fixedly connected with a fan wheel shaft which extends leftwards to the outside, the left end of the fan wheel shaft is fixedly connected with a fan wheel, the right end of the power generation mechanism is fixedly connected with a motor driving shaft which extends rightwards and penetrates through the motor bevel gear cavity and the motor driving belt cavity until the right, the motor driving shaft outer edge surface is fixedly connected with a motor main bevel gear located in the motor bevel gear cavity, the motor driving shaft outer edge surface is fixedly connected with a motor belt wheel located in the motor driving belt cavity, and a motor driving belt is connected between the motor belt wheel and the shaft replacing belt wheel in a power fit mode.

6. The apparatus of claim 1, wherein: the upper end wall of the motor bevel gear cavity is connected with a motor bevel gear shaft which extends downwards into the reciprocating gear shaft cavity and extends upwards into the motor bevel gear cavity in a rotating matching manner, the upper end of the upper side of the motor bevel gear shaft is fixedly connected with a motor secondary bevel gear meshed with the motor main bevel gear, the lower end of the motor bevel gear shaft is fixedly connected with a motor gear, the upper end wall of the reciprocating gear shaft cavity is connected with a reciprocating gear shaft which extends downwards into the reciprocating turntable cavity and extends upwards into the reciprocating gear shaft cavity in a rotating matching manner, the upper end of the reciprocating gear shaft is fixedly connected with a reciprocating gear meshed with the motor gear, the lower end of the reciprocating gear shaft is fixedly connected with a reciprocating turntable, the lower end of the reciprocating turntable is fixedly connected with a reciprocating turntable pin, and the outer edge surface of the reciprocating turntable pin is fixedly connected with a reciprocating push rod hinged with the reciprocating, take out pivot chamber outer end wall internal fixation and connect and take out outer dog, take out pivot chamber front end wall internal fit and be connected and extend to backward take out in the pivot chamber rear end wall and be located take out the inboard pivot of taking out outer dog, take out pivot outer fringe face fixed connection and inwards extend to the dog of getting in the odd calorie dog intracavity, take out pivot chamber right side wall internal fixation and be located take out the stopper on pivot right side, take out pivot outer fringe face fixed connection and be located take out the pivot intracavity and its upside end can with take out the terminal butt in outer dog right side and its downside end can with take out the pivot dog that takes out of the terminal butt in stopper upside, take out pivot dog upside end with take out the compression of fixedly connected with between the outer dog right side end.

7. The apparatus of claim 1, wherein: the power generation mechanism is formed by connecting a generator, a storage battery and a motor through electric wires.

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