CN204195836U - Two SD card cutting and positioning device - Google Patents

Abstract

The utility model discloses a kind of two SD card cutting and positioning device, comprise device body, Control Component, left CCD detection architecture, right CCD detection architecture, be installed in the left linear movement mechanism matched on described device body and with described left CCD detection architecture, be installed in the right linear movement mechanism matched on described device body and with described right CCD detection architecture, be installed in the left bearing mechanism on described left linear movement mechanism, be installed in the right bearing mechanism on described right linear movement mechanism, described left linear movement structure, right linear movement structure can relative to described device body along X, Y-axis moves around.The position that this pair of SD card cutting and positioning device operating efficiency be high, accurately can adjust all directions of SD card to be cut, precision are high, fully automatic operation, and accurately locate the position of SD card cutting, the SD card cut out is even, attractive in appearance.

Description

Two SD card cutting and positioning device

Technical field

The utility model relates to SD card manufacture technology field, particularly relates to a kind of two SD card cutting and positioning device.

Background technology

Along with the development of social and economic activities, all SD card will be used in daily production, the production field of circulation, but in prior art, the technology very backwardness of cutting SD card, the method of artificial cutting is often adopted to cut SD card, lack SD card cutting positioning equipment, the cutting position during cutting of SD card cannot accurate assurance, the SD card cut out is uneven, be easy to damage SD card, less economical, and due to manually-operated unstability, the error rate of cutting operation is high, is easy to the physical arrangement destroying SD card in cutting process.

Therefore, those skilled in the art is devoted to the SD card cutting and positioning device researching and developing a kind of high efficiency, high stability always.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of two SD card cutting and positioning device, and this wafer cutting and positioning device can prepare the cutting position setting wafer, makes the chip wafer that cuts out even, attractive in appearance.

For solving the problems of the technologies described above, two SD card cutting and positioning devices that the utility model provides comprise device body, be placed in the Control Component in described device body, be installed in the left CCD detection architecture for detecting the cutting position of described SD card on described device body, right CCD detection architecture, be installed in the left linear movement mechanism matched on described device body and with described left CCD detection architecture, be installed in the right linear movement mechanism matched on described device body and with described right CCD detection architecture, be installed in the left bearing mechanism on described left linear movement mechanism, be installed in the right bearing mechanism on described right linear movement mechanism, described left linear movement mechanism, right linear movement mechanism can relative to described device body along X, Y-axis moves around.

Preferably, described left CCD detection architecture comprises the left CCD camera be installed on described device body, SD card cut point the first light source more clearly for making left CCD camera take be installed on described left CCD camera, and described right CCD detection architecture comprises the right CCD camera be installed on described device body, the SD card cut point secondary light source more clearly for making right CCD camera take be installed on described right CCD camera.

Preferably, described left linear movement mechanism comprises the left X-axis moving structure be installed on described device body, the left Y-axis moving structure be installed on described left X-axis moving structure, described left bearing mechanism are installed on described left Y-axis moving structure, described left X-axis moving structure comprises the first screw mandrel, the first screw rodb base and the first drive motors for driving described first screw mandrel to rotate, and described left Y-axis moving structure comprises the second screw mandrel, the second screw rodb base and the second drive motors for driving described second screw mandrel to rotate; Described right linear movement mechanism comprises the right X-axis moving structure be installed on described device body, the right Y-axis moving structure be installed on described right X-axis moving structure, described right bearing mechanism are installed on described right Y-axis moving structure, described right X-axis moving structure comprises the 3rd screw mandrel, the 3rd screw rodb base and the 3rd drive motors for driving described 3rd screw mandrel to rotate, and described right Y-axis moving structure comprises the 4th screw mandrel, the 4th screw rodb base and the four-wheel drive motor for driving described 4th screw mandrel to rotate.

Preferably, described left X-axis moving structure also comprises the first grating scale of the movement position for determining described left bearing mechanism be installed on described first screw mandrel, and described left Y-axis moving structure also comprises the second grating scale of the movement position for determining described left bearing mechanism be installed on described second screw mandrel; Described right X-axis moving structure also comprises the 3rd grating scale of the movement position for determining described right bearing mechanism be installed on described 3rd screw mandrel, and described right Y-axis moving structure also comprises the 4th grating scale of the movement position for determining described right bearing mechanism be installed on described 4th screw mandrel.

Preferably, described Control Component comprises: display module, for the performance parameter of described pair of SD card cutting and positioning device is passed through interface display; And/or key-press module, carry out work for handling described pair of SD card cutting and positioning device.

Preferably, described left holder structure comprises and is installed in left bearing on described left Y-axis moving structure and some anticlockwise parts for compressing described SD card being symmetrically distributed in described left bearing both sides, and described right holder structure comprises and is installed in right bearing on described right Y-axis moving structure and some right rotation parts being symmetrically distributed in the described SD card of compression of described right bearing both sides.

After adopting said structure, SD card to be cut is placed in the bearing of left and right by described pair of SD card cutting and positioning device, each described left side, right rotation parts are by tight for described SD clip, described left X-axis moving structure, described left bearing is moved to suitable position by right X-axis moving structure, described right bearing is moved to suitable position by described right Y-axis moving structure and right Y-axis moving structure, described left CCD camera and right CCD camera are taken pictures to described SD card, determine the tram that SD card will cut, by the movement of described left X-axis moving structure, the position of movement to described left bearing of described left Y-axis moving structure adjusts, adjusted by the movement of described right X-axis moving structure, the position of movement to described right bearing of described right Y-axis moving structure, the position that this pair of SD card cutting and positioning device operating efficiency be high, accurately can adjust all directions of SD card to be cut, precision are high, fully automatic operation, and accurately locate the position of SD card cutting, the SD card cut out is even, attractive in appearance.

Accompanying drawing explanation

Fig. 1 is the structural representation of the two SD card cutting and positioning device of the utility model;

Fig. 2 is the structural representation of the two left CCD detection architecture of SD card cutting and positioning device of the utility model;

Fig. 3 is the structural representation of the two right CCD detection architecture of SD card cutting and positioning device of the utility model;

Fig. 4 is the structural representation of a-quadrant shown in the utility model Fig. 1;

Fig. 5 is the structural representation in B region shown in the utility model Fig. 1.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only for explaining the utility model, and be not used in restriction the utility model.

Refer to Fig. 1, Fig. 4 and Fig. 5, Fig. 1 is the structural representation of the two SD card cutting and positioning device of the utility model, and Fig. 4 is the structural representation of a-quadrant shown in the utility model Fig. 1, and Fig. 5 is the structural representation in B region shown in the utility model Fig. 1, in the present embodiment, two SD card cutting and positioning device 10 comprises device body 11, be placed in the Control Component in device body 11, be installed in the left CCD detection architecture 12 for detecting the cutting position of SD card on device body 11, right CCD detection architecture 13, be installed in the left linear movement mechanism 14 matched on device body 11 and with left CCD detection architecture 12, be installed in the right linear movement mechanism 15 matched on device body 11 and with right CCD detection architecture 13, be installed in the left bearing mechanism 16 on left linear movement mechanism 14, be installed in the right bearing mechanism 17 on right linear movement mechanism 15, left linear movement mechanism 14, right linear movement mechanism 15 can relative to device body 11 along X, Y-axis moves around.

Refer to Fig. 2 and Fig. 3, Fig. 2 is the structural representation of the two left CCD detection architecture of SD card cutting and positioning device of the utility model, and Fig. 3 is the structural representation of the two right CCD detection architecture of SD card cutting and positioning device of the utility model; Left CCD detection architecture 12 comprises the left CCD camera 121 be installed on device body 11, SD card cut point the first light source 122 more clearly for making left CCD camera take be installed on left CCD camera, and right CCD detection architecture 13 comprises the right CCD camera 131 be installed on described device body, the SD card cut point secondary light source 132 more clearly for making right CCD camera take be installed on described right CCD camera.

Left linear movement mechanism 14 comprises the left X-axis moving structure be installed on device body 11, be installed in the left Y-axis moving structure on described left X-axis moving structure, left bearing mechanism 16 is installed on described left Y-axis moving structure, described left X-axis moving structure comprises the first screw mandrel, first screw rodb base, for driving the first drive motors that described first screw mandrel rotates and the first grating scale being installed in the movement position for determining described left bearing mechanism on described first screw mandrel, described left Y-axis moving structure comprises the second screw mandrel, second screw rodb base, for the second drive motors driving described second screw mandrel to rotate, be installed in the second grating scale of the movement position for determining described left bearing mechanism on described second screw mandrel, right linear movement mechanism 15 comprises the right X-axis moving structure be installed on device body 11, be installed in the right Y-axis moving structure on described right X-axis moving structure, described right bearing mechanism is installed on described right Y-axis moving structure, described right X-axis moving structure comprises the 3rd screw mandrel, 3rd screw rodb base, for the 3rd drive motors driving described 3rd screw mandrel to rotate, be installed in the 3rd grating scale of the movement position for determining described right bearing mechanism on described 3rd screw mandrel, described right Y-axis moving structure comprises the 4th screw mandrel, 4th screw rodb base, for the four-wheel drive motor driving described 4th screw mandrel to rotate, be installed in the 4th grating scale of the movement position for determining described right bearing mechanism on described 4th screw mandrel.

Described Control Component comprises: display module, for the performance parameter of described pair of SD card cutting and positioning device is passed through interface display; And/or key-press module, carry out work for handling described pair of SD card cutting and positioning device.

Left holder structure 16 comprises and is installed in left bearing on described left Y-axis moving structure and some anticlockwise parts for compressing described SD card being symmetrically distributed in described left bearing both sides, and right holder structure 17 comprises and is installed in right bearing on described right Y-axis moving structure and some right rotation parts being symmetrically distributed in the described SD card of compression of described right bearing both sides.

SD card to be cut is placed in the bearing of left and right by two SD card cutting and positioning device 10, each left side, right rotation parts 161, 171 by tight for described SD clip, described left X-axis moving structure, described left bearing is moved to suitable position by right X-axis moving structure, described right bearing is moved to suitable position by described right Y-axis moving structure and right Y-axis moving structure, described left CCD camera 121 and right CCD camera 131 are taken pictures to described SD card, determine the tram that SD card will cut, by the movement of described left X-axis moving structure, the position of movement to described left bearing of described left Y-axis moving structure adjusts, adjusted by the movement of described right X-axis moving structure, the position of movement to described right bearing of described right Y-axis moving structure, the position that this pair of SD card cutting and positioning device 10 operating efficiency be high, accurately can adjust all directions of SD card to be cut, precision are high, fully automatic operation, and accurately locate the position of SD card cutting, the SD card cut out is even, attractive in appearance.

Should be understood that; these are only preferred embodiment of the present utility model; can not therefore limit the scope of the claims of the present utility model; every utilize the utility model description and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (6)

1. pair SD card cutting and positioning device, it is characterized in that: comprise device body, be placed in the Control Component in described device body, be installed in the left CCD detection architecture for detecting the cutting position of described SD card on described device body, right CCD detection architecture, be installed in the left linear movement mechanism matched on described device body and with described left CCD detection architecture, be installed in the right linear movement mechanism matched on described device body and with described right CCD detection architecture, be installed in the left bearing mechanism on described left linear movement mechanism, be installed in the right bearing mechanism on described right linear movement mechanism, described left linear movement mechanism, right linear movement mechanism can relative to described device body along X, Y-axis moves around.

2. according to claim 1 pair of SD card cutting and positioning device, it is characterized in that: described left CCD detection architecture comprises the left CCD camera be installed on described device body, SD card cut point the first light source more clearly for making left CCD camera take be installed on described left CCD camera, described right CCD detection architecture comprises the right CCD camera be installed on described device body, the SD card cut point secondary light source more clearly for making right CCD camera take be installed on described right CCD camera.

3. according to claim 1 pair of SD card cutting and positioning device, it is characterized in that: described left linear movement mechanism comprises the left X-axis moving structure be installed on described device body, be installed in the left Y-axis moving structure on described left X-axis moving structure, described left bearing mechanism is installed on described left Y-axis moving structure, described left X-axis moving structure comprises the first screw mandrel, first screw rodb base and the first drive motors for driving described first screw mandrel to rotate, described left Y-axis moving structure comprises the second screw mandrel, second screw rodb base and the second drive motors for driving described second screw mandrel to rotate, described right linear movement mechanism comprises the right X-axis moving structure be installed on described device body, the right Y-axis moving structure be installed on described right X-axis moving structure, described right bearing mechanism are installed on described right Y-axis moving structure, described right X-axis moving structure comprises the 3rd screw mandrel, the 3rd screw rodb base and the 3rd drive motors for driving described 3rd screw mandrel to rotate, and described right Y-axis moving structure comprises the 4th screw mandrel, the 4th screw rodb base and the four-wheel drive motor for driving described 4th screw mandrel to rotate.

4. according to claim 3 pair of SD card cutting and positioning device, it is characterized in that: described left X-axis moving structure also comprises the first grating scale of the movement position for determining described left bearing mechanism be installed on described first screw mandrel, described left Y-axis moving structure also comprises the second grating scale of the movement position for determining described left bearing mechanism be installed on described second screw mandrel; Described right X-axis moving structure also comprises the 3rd grating scale of the movement position for determining described right bearing mechanism be installed on described 3rd screw mandrel, and described right Y-axis moving structure also comprises the 4th grating scale of the movement position for determining described right bearing mechanism be installed on described 4th screw mandrel.

5. according to claim 1 pair of SD card cutting and positioning device, is characterized in that: described Control Component comprises: display module, for the performance parameter of described pair of SD card cutting and positioning device is passed through interface display; And/or key-press module, carry out work for handling described pair of SD card cutting and positioning device.

6. according to claim 3 pair of SD card cutting and positioning device, it is characterized in that: described left bearing mechanism comprises and is installed in left bearing on described left Y-axis moving structure and some anticlockwise parts for compressing described SD card being symmetrically distributed in described left bearing both sides, described right bearing mechanism comprises and is installed in right bearing on described right Y-axis moving structure and some right rotation parts being symmetrically distributed in the described SD card of compression of described right bearing both sides.