Disclosure of Invention
The invention aims to provide an automatic numerical control computer, which is used for overcoming the defects in the prior art.
The invention relates to an automatic numerical control computer, which comprises a main machine body and a power supply assembly, wherein a plug connector is arranged on the right side of the main machine body, a connecting handle is fixedly arranged on the left side of the plug connector, a conductive groove is arranged in the bottom end surface of the plug connector, a lead is connected between the connecting handle and the main machine body, a containing chute is arranged in the left end surface of the power supply assembly, a first chute is arranged in the top wall of the containing chute, a second chute is arranged in the bottom wall of the containing chute, a sliding connection block is connected in a sliding fit manner in the containing chute, a first slide block fixedly connected with the sliding connection block in a matching manner is connected in the first chute in a sliding fit manner, a second slide block fixedly connected with the sliding connection block in a matching manner is connected in the second chute in a sliding fit manner, an insertion groove is arranged in the top end surface of the sliding connection block, and an open, the top of the open slot is communicated with the outside, the right side wall of the insertion groove is internally communicated with a sunken groove, the bottom of the sunken groove is communicated with a through sliding groove which is arranged in a way of extending from left to right, the right end of the through sliding groove is communicated with the containing sliding groove, the through sliding groove is communicated with the insertion groove, the through sliding groove is connected with an insertion rod in a sliding fit manner, the sunken groove is connected with an inclined plane jacking block which is fixedly matched and connected with the insertion rod in a sliding fit manner, the sunken groove on the right side of the inclined plane jacking block is connected with a first spring in a pressing fit manner, a first sliding cavity which is arranged on the right side of the sunken groove is communicated and arranged in the top wall of the through sliding groove and extends upwards, a first inclined plane groove is arranged in the top wall end surface of the insertion rod on the right side, the top of the first sliding cavity at the top of the third sliding block is connected with a second spring in a press fit manner, the tail end of the bottom of the third sliding block is fixedly provided with a first inclined lug which extends into the first inclined groove and is connected with the first inclined lug in a sliding fit manner, the left side wall of the first sliding cavity is communicated with a connecting cavity, the left side end surface of the third sliding block is fixedly provided with a first motor, the left side tail end of the third sliding block is connected with a first gear which extends into the connecting cavity in a power connection manner, the right side wall of the second sliding groove is internally provided with a second sliding cavity which extends towards the right side, the second sliding cavity is connected with a fourth sliding block which is fixedly connected with the second sliding block in a sliding fit manner, the top end surface of the fourth sliding block close to the right side is internally provided with a second inclined groove, the top wall of the second sliding cavity is internally provided with a third sliding cavity which extends upwards, and the third sliding cavity is, a third spring is connected to the top of the third sliding cavity at the top of the fifth sliding block in a press fit manner, a second inclined lug which extends into the second inclined groove and is connected with the second inclined groove in a sliding fit manner is fixedly arranged at the tail end of the bottom of the fifth sliding block, a driving executing mechanism is arranged in the first sliding block, a lighting device is arranged at the top of the main machine body, the lighting device comprises a fixed seat body fixedly matched and connected with the top end surface of the main machine body, a sliding cavity is arranged in the fixed seat body, a sliding block is connected in the sliding cavity in a sliding fit manner, a support arm which extends leftwards and rightwards is connected in the fixed seat body on the left side of the sliding cavity in a sliding fit manner, the extending tail end of the left side of the support arm extends out of the end surface of the left side of the fixed base body, and a lighting lamp holder is fixedly arranged at the tail end, the support arm right side end stretches into the intracavity that slides and with the sliding block fixed fit is connected.
Further technical scheme, the bottom of the host computer body all is equipped with the shock attenuation supporting legs all around, be equipped with pull keyboard and display screen on the left side terminal surface of the host computer body, the pull keyboard is located the downside position of display screen.
According to a further technical scheme, a conductive block is fixedly arranged on the bottom wall of the insertion groove.
Further technical scheme, it is in to drive actuating mechanism including setting up activity chamber and normal running fit in the first slider are connected and are set up axis of rotation in the activity chamber right side wall, activity chamber bottom end with it is linked together the setting to connect chamber top end, axis of rotation left side end has set firmly and has stretched into second gear in the activity chamber, the biggest circumscribed circle of second gear stretches into connect the intracavity, be equipped with the internal thread groove that extends the setting to the right side in the wall of first spout right side, internal thread groove female connection is connected and is driven the screw rod to the left side extension setting, drive the left side end of screw rod with the terminal fixed fit in right side of axis of rotation is connected.
According to the further technical scheme, a through groove is formed in the part between the accommodating sliding groove and the third sliding cavity in a communicated mode, a power supply groove is formed in the left end face of the fifth sliding block, and an elastic power supply block is arranged in the power supply groove.
According to a further technical scheme, an elastic conductive head opposite to the through groove is fixedly arranged at the tail end of the right side of the insertion rod, and the elastic conductive head is electrically connected with the conductive block.
The invention has the beneficial effects that: the invention has simple structure and convenient operation, drives the first gear and the second gear to be meshed and connected through the third slide block, at the moment, the right end of the inserting rod drives the elastic conductive head to extend out of the right end face of the sliding block to the maximum extent, then drives the first gear to rotate through the first motor, drives the second gear, the rotating shaft and the driving screw rod to rotate through the first gear, further realizes the automatic control driving work, improves the stability of the automatic inserting, enables the second oblique lug to drive the fourth slide block to overcome the jacking force of the third spring and slide towards the top direction in the third slide cavity through the jacking sliding matching work of the second oblique groove and the second oblique lug until the second oblique lug completely extends into the third slide cavity, at the moment, the bottom end face of the second oblique lug is connected with the top end face of the fourth slide block in jacking sliding matching, and simultaneously enables the second oblique lug to drive the power supply groove on the fifth slide block to move to the relative position of the through groove, and then realize safe power supply butt joint work, prevent that the accident of touching exposed conducting strip and causing the electric shock accident to take place, improved the security and the steadiness of power supply greatly.
Detailed Description
The present invention is described in detail below with reference to fig. 1-3.
Referring to fig. 1-3, an automatic numerical control computer according to an embodiment of the present invention includes a main body 5 and a power supply assembly 6, wherein a plug-in connector 51 is disposed on a right side of the main body 5, a connection handle 511 is fixedly disposed on a left side of the plug-in connector 51, a conductive groove 512 is disposed in a bottom end surface of the plug-in connector 51, a conductive wire is connected between the connection handle 511 and the main body 5, a receiving chute 61 is disposed in a left end surface of the power supply assembly 6, a first chute 62 is disposed in a top wall of the receiving chute 61, a second chute 63 is disposed in a bottom wall of the receiving chute 61, a sliding block 8 is slidably connected in the receiving chute 61, a first slider 621 fixedly connected to the sliding block 8 is slidably connected in the first chute 62, a second slider 631 fixedly connected to the sliding block 8 is slidably connected in the second chute 63, an insertion groove 81 is arranged in the end face of the top of the sliding connection block 8, an open groove 83 communicated with the insertion groove 81 is arranged in the end face of the left side of the sliding connection block 8, the top of the open groove 83 is communicated with the outside, a sinking groove 84 is communicated with the wall of the right side of the insertion groove 81, a through sliding groove 82 extending from the left side to the right side is communicated with the bottom of the sinking groove 84, the tail end of the right side of the through sliding groove 82 is communicated with the accommodating sliding groove 61, the through sliding groove 82 is communicated with the insertion groove 81, an insertion rod 821 is connected in the through sliding groove 82 in a sliding fit manner, an inclined plane top pressing block 841 fixedly connected with the insertion rod 821 is connected in the sinking groove 84 in a sliding fit manner, a first spring 842 is connected in the sinking groove 84 on the right side of the inclined plane top pressing block 841 in a press fit manner, a first sliding cavity 85 extending upwards is communicated and arranged, a first inclined plane groove 822 is arranged in the top wall end face of the insertion rod 821 positioned at the right side of the inclined plane top pressure block 841, a third slide block 851 is connected in a sliding fit manner in the first slide cavity 85, a second spring 853 is connected in a press fit manner in the first slide cavity 85 at the top of the third slide block 851 in a sliding fit manner, a first inclined convex block 852 which extends into the first inclined plane groove 822 and is connected with the first inclined plane groove in a sliding fit manner is fixedly arranged at the tail end of the bottom of the third slide block 851, a connecting cavity 86 is communicated with the left side wall of the first slide cavity 85, a first motor 854 is fixedly arranged in the left side end face of the third slide block 851, a first gear 861 which extends into the connecting cavity 86 is dynamically connected at the left side tail end of the third slide block 851, a second slide cavity 65 which extends towards the right side is arranged in the right side wall of the second slide cavity 63, and a fourth slide block 651 which is fixedly connected with the second slide block 631 in a, a second inclined plane groove 652 is arranged in the top end surface of the fourth slide block 651 close to the right side, a third slide cavity 66 extending upwards is arranged in the top wall of the second slide cavity 65, a fifth slide block 661 is connected in a sliding fit manner in the third slide cavity 66 at the top of the fifth slide block 661, a third spring 662 is connected in a top press fit manner in the third slide cavity 66, a second inclined convex block 664 extending into the second inclined plane groove 652 and connected with the second inclined plane groove in a sliding fit manner is fixedly arranged at the tail end of the bottom of the fifth slide block 661, a driving execution mechanism is arranged in the first slide block 621, an illumination device is arranged at the top of the main machine body 5, the illumination device comprises a fixed base body 55 fixedly connected with the top end surface of the main machine body 5 in a matching manner, a sliding cavity 551 is arranged in the fixed base body 55, a sliding block 552 is connected in the sliding cavity 551 in a sliding fit manner, a base body 553 extending left and right is connected in, the left extending end of the support arm 553 extends out of the left end face of the fixed base 55 and has a lighting lamp head 554 fixed at the end, the right end of the support arm 553 extends into the sliding cavity 551 and is fixedly matched and connected with the sliding block 552, and the lighting device is convenient for lighting at night by drawing.
Advantageously or exemplarily, the bottom of the main body 5 is provided with shock-absorbing support legs 52 all around, so as to improve the support stability of the main body 5, and a drawing keyboard 53 and a display 54 are provided on the left end face of the main body 5, and the drawing keyboard 53 is located at the lower side position of the display 45.
Advantageously or exemplarily, the bottom wall of the insertion groove 81 is fixedly provided with a conductive block 811, so as to facilitate the connection work of quick insertion.
Advantageously or exemplarily, the driving actuator comprises a movable cavity 87 arranged in the first sliding block 621 and a rotating shaft 88 which is connected in a rotating fit manner and arranged in the right side wall of the movable cavity 87, the bottom end of the movable cavity 87 is communicated with the top end of the connecting cavity 86, the left end of the rotating shaft 88 is fixedly provided with a second gear 871 which extends into the movable cavity 87, the maximum circumcircle of the second gear 871 extends into the connecting cavity 86, an internal thread groove 67 extending to the right side is arranged in the right side wall of the first sliding groove 62, a driving screw 671 extending towards the left side is connected with the inner thread of the inner thread groove 67 in a matching way, the left end of the driving screw 671 is fixedly matched and connected with the right end of the rotating shaft 88, therefore, the driving work of the sliding connection block 8 is automatically controlled, and the connection work of quick locking and power plugging is realized.
Beneficially or exemplarily, a through groove 64 is provided in a portion between the accommodating sliding groove 61 and the third sliding chamber 66, a power supply groove 663 is provided in a left side end surface of the fifth sliding block 661, and an elastic power supply block 6631 is provided in the power supply groove 663.
In a further technical scheme, an elastic conductive head 823 arranged opposite to the through groove 64 is fixedly arranged at the right end of the insertion rod 821, and the elastic conductive head 823 is electrically connected with the conductive block 811, so that rapid and stable safe power supply work is realized.
In the initial state, the first slider 621 is located at the leftmost position in the first sliding groove 62 and the second slider 631 is located at the leftmost position in the second sliding groove 63, at this time, the left end of the sliding block 8 extends out of the left end surface of the power supply module 6 to the greatest extent, so that the sliding block 8 drives the insertion groove 81 to extend out of the left end surface of the power supply module 6 and communicate with the outside, meanwhile, the inclined plane pressing block 841 is pressed by the first spring 842 to extend the inclined plane pressing block 841 and the insertion rod 821 at the bottom into the insertion groove 81 to the greatest extent, at this time, the first inclined plane groove 822 is located at the bottom opposite position of the first sliding cavity 85, and at the same time, the third slider 851 is pressed by the second spring 853 to drive the first inclined projection 852 to extend into the first inclined plane groove 822 to achieve the locking connection of the insertion rod 821 and prevent the insertion rod from moving beyond the left side, meanwhile, the inserting rod 821 drives the elastic conductive head 823 to be completely located in the through chute 82, at this time, the third slider 851 drives the first gear 861 to be farthest away from the second gear 871, and at the same time, the right section of the driving screw 671 and the left section of the internal thread groove 67 are in a threaded fit connection state, at this time, the second slider 631 drives the fourth slider 651 to be farthest extended into the second chute 63, at the same time, the second inclined plane groove 652 on the fourth slider 651 is located at a bottom opposite position of the third sliding cavity 66, at this time, the fifth slider 661 receives the pressing force of the third spring 662, so that the fifth slider 661 drives the second inclined projection 664 at the bottom end to be completely extended into the second inclined plane groove 652 and be pressed against and slidably connected with the second inclined plane groove 652, and at the same time, the fifth slider 661 drives the power supply groove 663 to be farthest away from the through groove 64 and located at the lower side of the through groove 64;
when the plug is needed to be used, the plug 51 is moved to the top relative position of the plug groove 81, then the plug 51 is moved downwards until the plug 51 is completely inserted into the plug groove 81, at this time, the conductive block 811 is completely inserted into the conductive groove 512, meanwhile, due to the pressure of the plug 51, the inclined plane pressing block 841 is completely inserted into the sinking groove 84 overcoming the pressure of the first spring 842, the inclined plane pressing block 841 drives the left end of the plug rod 821 to completely extend into the through sliding groove 82, and the inclined plane pressing block 841 and the left end face of the plug rod 821 are abutted against the right end face of the plug 51, so as to improve the stability of the plug 51, at this time, the plug 51 drives the connecting handle 511 to slide to the bottommost position in the open groove 83, at the same time, the first inclined plane groove 822 in the plug rod 821 is pressed against the first inclined projection 852 to slide into the first sliding cavity 85 overcoming the pressure of the second spring 853 by the first inclined projection 852 to slide into the first sliding cavity 851, at this time, the top end surface of the first inclined protrusion 852 abuts against the top end surface of the insertion rod 821 on the left side of the first inclined groove 822, at the same time, the third slider 851 drives the first gear 861 to engage with the second gear 871, at this time, the right end of the insertion rod 821 drives the elastic conductive head 823 to extend out of the right end surface of the sliding block 8 to the maximum extent, then the first motor 854 drives the first gear 861 to rotate, the first gear 861 drives the second gear 871, the rotating shaft 88 and the driving screw 671 to rotate, so as to realize that the driving screw 671 drives the first slider 621 to slide towards the right direction in the first sliding groove 62, at this time, the first slider 621 drives the sliding block 8 to slide towards the right direction in the accommodating sliding groove 61, at the same time, the sliding block 8 drives the second slider 631 to slide towards the right direction in the second sliding groove 63, at this time, the second slider 631 drives the fourth slider 651 to slide towards the right direction in the second sliding cavity 65, meanwhile, the second inclined plane slot 652 and the second inclined convex block 664 are pressed against and slide in a matching manner, so that the second inclined convex block 664 drives the fifth slider 661 to overcome the pressing force of the third spring 662 and slide towards the top direction in the third sliding cavity 66 until the second inclined convex block 664 completely extends into the third sliding cavity 66, at this time, the bottom end surface of the second inclined convex block 664 is pressed against and slide in a matching manner with the top end surface of the fourth slider 651, at the same time, the second inclined convex block 664 drives the power supply slot 663 on the fifth slider 661 to move to the opposite position of the through slot 64, then the sliding block 8 continues to move to the right side until the sliding block 8 slides to the rightmost position in the accommodating sliding slot 61, at this time, the first slider 621 slides to the rightmost position 631 in the first sliding slot 62 and the second slider 63, and at the same time, the second slider 631 drives the fourth slider 651 to completely extend into the second sliding cavity 65, at this time, the sliding block 8 is completely located in the accommodating sliding groove 61, the top end of the plug 51 is abutted against the top wall of the accommodating sliding groove 61, and at the same time, the sliding block 8 drives the elastic conductive head 823 at the right end of the plug rod 821 to completely extend into the power supply groove 663 through the through groove 64 and to be elastically connected with the elastic power supply block 6631 in a pressing fit manner.
The invention has the beneficial effects that: the invention has simple structure and convenient operation, drives the first gear and the second gear to be meshed and connected through the third slide block, at the moment, the right end of the inserting rod drives the elastic conductive head to extend out of the right end face of the sliding block to the maximum extent, then drives the first gear to rotate through the first motor, drives the second gear, the rotating shaft and the driving screw rod to rotate through the first gear, further realizes the automatic control driving work, improves the stability of the automatic inserting, enables the second oblique lug to drive the fourth slide block to overcome the jacking force of the third spring and slide towards the top direction in the third slide cavity through the jacking sliding matching work of the second oblique groove and the second oblique lug until the second oblique lug completely extends into the third slide cavity, at the moment, the bottom end face of the second oblique lug is connected with the top end face of the fourth slide block in jacking sliding matching, and simultaneously enables the second oblique lug to drive the power supply groove on the fifth slide block to move to the relative position of the through groove, and then realize safe power supply butt joint work, prevent that the accident of touching exposed conducting strip and causing the electric shock accident to take place, improved the security and the steadiness of power supply greatly.
It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.