阅读说明：本技术 一种人工智能软件开发刻录用自适应硬盘大小的辅助设备 (Auxiliary device with self-adaptive hard disk size for artificial intelligence software development and recording ) 是由 张文旭 于 2021-06-03 设计创作，主要内容包括：本发明涉及人工智能软件开发技术领域,且公开了一种人工智能软件开发刻录用自适应硬盘大小的辅助设备,包括紧固机构,所述紧固机构外部活动连接有防护壳,所述紧固机构远离防护壳的一端活动连接有安装座,所述安装座内部活动连接有连接槽,所述紧固机构上下两侧均活动连接有防护机构,所述防护机构远离紧固机构的一侧与维护机构活动连接,通过人工转动手动转轮带动连接架转动,连接架转动从而带动转动螺杆转动,从而带动挤压架滑动,从而带动加压壁运动,此时两个加压壁相向运动,如此便可根据不同大小的硬盘调节夹持范围,在对硬盘进行刻录时,如此便达到了可调解式固定硬盘并多方位保护其不受损的效果。(The invention relates to the technical field of artificial intelligence software development, and discloses auxiliary equipment with self-adaptive hard disk size for artificial intelligence software development and recording, which comprises a fastening mechanism, the outer part of the fastening mechanism is movably connected with a protective shell, one end of the fastening mechanism far away from the protective shell is movably connected with a mounting seat, the inside of the mounting seat is movably connected with a connecting groove, the upper side and the lower side of the fastening mechanism are both movably connected with a protection mechanism, one side of the protection mechanism far away from the fastening mechanism is movably connected with a maintenance mechanism, the manual rotating wheel is rotated manually to drive the connecting frame to rotate, the connecting frame rotates to drive the rotating screw rod to rotate, thereby driving the extrusion frame to slide, driving the pressurizing walls to move, and at the moment, the two pressurizing walls move oppositely, so that the clamping range can be adjusted according to hard disks with different sizes, when the hard disk is burned, the effects of fixing the hard disk in an adjustable way and protecting the hard disk from being damaged in multiple directions are achieved.)

1. The utility model provides an artificial intelligence software development auxiliary assembly of carving with self-adaptation hard disk size which characterized in that: including fastening device (4), maintain mechanism (5), fastening device (4) include manual runner (41), manual runner (41) right side swing joint has link (42), one side swing joint that manual runner (41) was kept away from in link (42) has rotation screw rod (43), rotate screw rod (43) outside swing joint has slide wall (44), one side fixedly connected with extrusion frame (45) of rotating screw rod (43) are kept away from in slide wall (44), the inside swing joint of extrusion frame (45) has fastening spring (46), the one end swing joint that extrusion frame (45) were kept away from in fastening spring (46) has transfer line (47), the one end swing joint that fastening spring (46) were kept away from in transfer line (47) has pressure wall (48).

2. The auxiliary device for artificial intelligence software development and recording adaptive hard disk size of claim 1, wherein: the maintenance mechanism (5) comprises a push-pull rod (51), one end of the push-pull rod (51) is fixedly connected with a transmission rod (47), the other end of the push-pull rod (51) is fixedly connected with an extrusion rod (52), a buffer spring (53) is movably connected to the outer portion of the extrusion rod (52), one end, far away from the push-pull rod (51), of the extrusion rod (52) is movably connected with an elastic air bag (54), and one end, far away from the extrusion rod (52), of the elastic air bag (54) is movably connected with an air gathering groove (55).

3. The auxiliary device for artificial intelligence software development and recording adaptive hard disk size of claim 1, wherein: fastening device (4) outside swing joint has protecting crust (1), the one end swing joint that protecting crust (1) was kept away from in fastening device (4) has mount pad (3), the inside swing joint of mount pad (3) has spread groove (2), the equal swing joint in both sides has protecting mechanism (6) about fastening device (4), one side and maintenance mechanism (5) swing joint of fastening device (4) are kept away from in protecting mechanism (6).

4. The auxiliary device for artificial intelligence software development and recording adaptive hard disk size of claim 1, wherein: protection machanism (6) are including spacing chamber (61), the inside swing joint in spacing chamber (61) of fastening device (4) bottom has circular telegram contact (62), one side swing joint that protective housing (1) was kept away from in circular telegram contact (62) has circuit contact (63), the inside swing joint in spacing chamber (61) at fastening device (4) top has signal contact (64), one side swing joint that protective housing (1) was kept away from in signal contact (64) has communication contact (65).

5. The auxiliary device for artificial intelligence software development and recording adaptive hard disk size of claim 1, wherein: teeth are fixedly connected to the surface of the inner wall of the sliding wall (44), and the teeth are meshed with the rotating screw (43).

6. The auxiliary device for artificial intelligence software development and recording adaptive hard disk size of claim 1, wherein: the central axis of the fastening spring (46) and the central axes of the extrusion frame (45), the transmission rod (47) and the pressurizing wall (48) are in the same straight line.

Technical Field

The invention relates to the technical field of artificial intelligence software development, in particular to auxiliary equipment for artificial intelligence software development and recording, which is adaptive to the size of a hard disk.

Background

The burning is to burn the desired data into the media such as optical disc, burning card, etc. through tools such as burning machine, etc., the use of the burning machine has been very popular now, the price is cheaper and cheaper, even some computers have burning function, and in the process of artificial intelligence software development, in order to prevent software leakage, it often adopts the burning mode to protect and store the software.

The hard disk and the whole hard disk of the traditional hard disk recorder are generally integrated when the hard disk is installed, so that the normal overhaul of the hard disk recorder and the replacement of the hard disk are seriously influenced, the recording efficiency is reduced, and the traditional recording device is not provided with a mechanism for maintaining the hard disk before recording, so that the hard disk can influence the final recording quality if being infected with impurities.

Therefore, in view of the above, research and improvement are performed on the existing structure and defects, and an auxiliary device adaptive to the size of the hard disk for artificial intelligence software development and recording is provided, so as to achieve the purpose of higher practical value.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides auxiliary equipment for developing and recording artificial intelligent software, which is adaptive to the size of a hard disk, has the advantages of fixing the hard disk in an adjustable mode, protecting the hard disk from being damaged in multiple directions, automatically maintaining the hard disk before recording and improving the recording quality, and solves the problem that the recording quality is deviated due to the fact that a traditional recorder is single in use model and has no hard disk cleaning and maintaining mechanism.

(II) technical scheme

In order to realize the purposes of fixing the hard disk in an adjustable way, protecting the hard disk from damage in multiple directions and automatically maintaining the hard disk before burning to improve the burning quality, the invention provides the following technical scheme: the utility model provides an artificial intelligence software development carving is with auxiliary assembly of self-adaptation hard disk size, includes fastening device, maintenance mechanism, fastening device includes manual runner, manual runner right side swing joint has the link, one side swing joint that manual runner was kept away from to the link has the rotation screw rod, the outside swing joint of rotation screw rod has the slip wall, the slip wall is kept away from one side fixedly connected with extrusion frame that rotates the screw rod, the inside swing joint of extrusion frame has fastening spring, fastening spring keeps away from the one end swing joint of extrusion frame and has the transfer line, fastening spring's one end swing joint has the pressure wall to keep away from the transfer line.

Furthermore, the maintenance mechanism comprises a push-pull rod, one end of the push-pull rod is fixedly connected with the transmission rod, the other end of the push-pull rod is fixedly connected with an extrusion rod, a buffer spring is movably connected to the outside of the extrusion rod, one end, far away from the push-pull rod, of the extrusion rod is movably connected with an elastic air bag, and one end, far away from the extrusion rod, of the elastic air bag is movably connected with an air gathering groove.

Furthermore, the outside swing joint of fastening device has the protecting crust, the one end swing joint that the protecting crust was kept away from to fastening device has the mount pad, the inside swing joint of mount pad has the spread groove, the equal swing joint in both sides has protection machanism about the fastening device, one side and the maintenance mechanism swing joint that protection machanism kept away from fastening device.

Furthermore, the protection mechanism comprises a limiting cavity, a power-on contact is movably connected in the limiting cavity at the bottom of the fastening mechanism, a line contact is movably connected to one side, away from the protection shell, of the power-on contact, a signal contact is movably connected in the limiting cavity at the top of the fastening mechanism, and a communication contact is movably connected to one side, away from the protection shell, of the signal contact.

Furthermore, teeth are fixedly connected to the surface of the inner wall of the sliding wall, and the teeth are meshed with the rotating screw rod.

Furthermore, the central axis of the fastening spring and the central axes of the extrusion frame, the transmission rod and the pressurizing wall are in the same straight line.

(III) advantageous effects

Compared with the prior art, the invention provides auxiliary equipment for artificial intelligence software development and recording, which is adaptive to the size of a hard disk, and has the following beneficial effects:

1. this artificial intelligence software development auxiliary assembly of carving with self-adaptation hard disk size, it rotates the drive link rotation to rotate manual runner through the manual work, thereby the link rotates and drives the rotation screw rod and rotate, the wall that slides can slide towards the direction of keeping away from manual runner on rotating the screw rod after rotating the screw rod rotation, then it slides towards the direction of keeping away from manual runner to drive the extrusion frame, thereby drive the motion of pressurization wall, two pressurization wall moves towards this moment, so alright adjust the centre gripping scope according to the hard disk of equidimension not, when carving the hard disk, so just reached the fixed hard disk of adjustable formula and diversified its not impaired effect of protection.

2. This artificial intelligence software develops the auxiliary assembly of carving with self-adaptation hard disk size, through the transfer line motion pulling push-and-pull rod to push-and-pull rod this moment can drive the extrusion pole extrusion elasticity gasbag behind the extension buffer spring, the elasticity gasbag takes place to deform after receiving the extrusion of extrusion pole, its inner space contracts gradually, thereby produce the air current, the air current can be blown to the spread groove in through gathering the gas groove, clean the hard disk, so just reached before the carving automatic to the hard disk maintain the effect that improves the carving quality.

Drawings

FIG. 1 is a schematic front view of a connecting trough structure according to the present invention;

FIG. 2 is a schematic front view of the mounting base structure of the present invention;

FIG. 3 is a schematic front view of the connecting frame structure of the present invention;

FIG. 4 is a schematic front view of the extrusion stem of the present invention;

fig. 5 is a front view of the structure of the power-on contact according to the present invention.

In the figure: 1. a protective shell; 2. connecting grooves; 3. a mounting seat; 4. a fastening mechanism; 41. a manual runner; 42. a connecting frame; 43. rotating the screw; 44. a sliding wall; 45. an extrusion frame; 46. a fastening spring; 47. a transmission rod; 48. a pressure wall; 5. a maintenance mechanism; 51. a push-pull rod; 52. an extrusion stem; 53. a buffer spring; 54. an elastic air bag; 55. a gas gathering tank; 6. a protection mechanism; 61. a limiting cavity; 62. a power-on contact; 63. a line contact; 64. a signal contact; 65. and a communication contact.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-3, an auxiliary device for artificial intelligence software development and recording adaptive hard disk size includes a fastening mechanism 4 and a maintenance mechanism 5, where the fastening mechanism 4 includes a manual rotating wheel 41, a connecting frame 42 is movably connected to the right side of the manual rotating wheel 41, a rotating screw 43 is movably connected to one side of the connecting frame 42 away from the manual rotating wheel 41, a sliding wall 44 is movably connected to the outside of the rotating screw 43, an extrusion frame 45 is fixedly connected to one side of the sliding wall 44 away from the rotating screw 43, a fastening spring 46 is movably connected to the inside of the extrusion frame 45, a transmission rod 47 is movably connected to one end of the fastening spring 46 away from the extrusion frame 45, and a pressurizing wall 48 is movably connected to one end of the transmission rod 47 away from the fastening spring 46.

Further, the outside swing joint of fastening device 4 has protecting crust 1, and the one end swing joint that fastening device 4 kept away from protecting crust 1 has mount pad 3, and the inside swing joint of mount pad 3 has spread groove 2, and the equal swing joint in both sides has protection machanism 6 about fastening device 4, and one side that fastening device 4 was kept away from to protection machanism 6 is with maintenance mechanism 5 swing joint.

Further, teeth are fixedly coupled to the surface of the inner wall of the sliding wall 44, and the teeth are engaged with the rotating screw 43.

Further, the center axis of the tightening spring 46 is aligned with the center axes of the pressing frame 45, the transmission lever 47, and the pressing wall 48.

When the manual rotating wheel 41 is manually rotated, the connecting frame 42 also synchronously rotates along with the rotation of the manual rotating wheel 41, the connecting frame 42 rotates to drive the rotating screw 43 to rotate, and the sliding wall 44 is meshed with the rotating screw 43, so that the sliding wall 44 slides on the rotating screw 43 in the direction away from the manual rotating wheel 41 after the rotating screw 43 rotates, and then the extrusion frame 45 is driven to slide in the direction away from the manual rotating wheel 41, so as to drive the compression wall 48 to move, at the moment, the two compression walls 48 move oppositely, so that the clamping range can be adjusted according to hard disks of different sizes, when the hard disk is recorded, the hard disk is installed in the connecting groove 2, at the moment, the hard disk firstly applies an extrusion force to the installation seat 3, the extrusion force acts on the fastening spring 46 through the transmission rod 47, and finally compresses the fastening spring 46 to deform, at the moment, the fastening spring 46 applies a reaction force to the hard disk through the compression wall 48, thereby securing it.

Example two:

referring to fig. 1, 2 and 5, an auxiliary device for artificial intelligence software development and inscription adaptive to the size of a hard disk comprises a fastening mechanism 4 and a maintenance mechanism 5, wherein the fastening mechanism 4 comprises a manual rotating wheel 41, a connecting frame 42 is movably connected to the right side of the manual rotating wheel 41, a rotating screw 43 is movably connected to one side, away from the manual rotating wheel 41, of the connecting frame 42, a sliding wall 44 is movably connected to the outside of the rotating screw 43, an extrusion frame 45 is fixedly connected to one side, away from the rotating screw 43, of the sliding wall 44, a fastening spring 46 is movably connected to the inside of the extrusion frame 45, a transmission rod 47 is movably connected to one end, away from the extrusion frame 45, of the fastening spring 46, and a pressurizing wall 48 is movably connected to one end, away from the fastening spring 46, of the transmission rod 47.

Further, the outside swing joint of fastening device 4 has protecting crust 1, and the one end swing joint that fastening device 4 kept away from protecting crust 1 has mount pad 3, and the inside swing joint of mount pad 3 has spread groove 2, and the equal swing joint in both sides has protection machanism 6 about fastening device 4, and one side that fastening device 4 was kept away from to protection machanism 6 is with maintenance mechanism 5 swing joint.

Further, the protection mechanism 6 comprises a limiting cavity 61, the limiting cavity 61 at the bottom of the fastening mechanism 4 is movably connected with an electrifying contact 62, one side, away from the protection shell 1, of the electrifying contact 62 is movably connected with a circuit contact 63, the limiting cavity 61 at the top of the fastening mechanism 4 is movably connected with a signal contact 64, and one side, away from the protection shell 1, of the signal contact 64 is movably connected with a communication contact 65.

In the process of fixing the hard disk, the power-on contact 62 and the signal contact 64 can slide in the limiting cavity 61, and the difference is that the distance between the power-on contact 62 and the line contact 63 is smaller than the distance between the signal contact 64 and the communication contact 65, so that the power-on contact 62 is firstly contacted with the line contact 63 in the process of installing the hard disk, the signal contact 64 is contacted with the communication contact 65 after the power is switched on, and data transmission is carried out at the moment, so that the hard disk can be ensured to be always kept in a power-on state and cannot be suddenly interrupted to cause damage in the process of data transmission.

Example three:

referring to fig. 1, 2 and 4, an auxiliary device for artificial intelligence software development and inscription adaptive to the size of a hard disk comprises a fastening mechanism 4 and a maintenance mechanism 5, wherein the fastening mechanism 4 comprises a manual rotating wheel 41, a connecting frame 42 is movably connected to the right side of the manual rotating wheel 41, a rotating screw 43 is movably connected to one side, away from the manual rotating wheel 41, of the connecting frame 42, a sliding wall 44 is movably connected to the outside of the rotating screw 43, an extrusion frame 45 is fixedly connected to one side, away from the rotating screw 43, of the sliding wall 44, a fastening spring 46 is movably connected to the inside of the extrusion frame 45, a transmission rod 47 is movably connected to one end, away from the extrusion frame 45, of the fastening spring 46, and a pressurizing wall 48 is movably connected to one end, away from the fastening spring 46, of the transmission rod 47.

Further, the maintenance mechanism 5 comprises a push-pull rod 51, one end of the push-pull rod 51 is fixedly connected with the transmission rod 47, the other end of the push-pull rod 51 is fixedly connected with an extrusion rod 52, the outside of the extrusion rod 52 is movably connected with a buffer spring 53, one end of the extrusion rod 52 far away from the push-pull rod 51 is movably connected with an elastic air bag 54, and one end of the elastic air bag 54 far away from the extrusion rod 52 is movably connected with an air gathering groove 55.

The push-pull rod 51 moves along with the transmission rod 47, and due to the characteristic that the push-pull rod 51 is used as a lever, the direction of the force can be changed, so that the push-pull rod 51 can apply a thrust to the extrusion rod 52 at the moment, the thrust can stretch the buffer spring 53 to deform the buffer spring and drive the extrusion rod 52 to extrude the elastic air bag 54, the elastic air bag 54 deforms after being extruded by the extrusion rod 52, the inner space of the elastic air bag gradually contracts, and air flow is generated and blown into the connecting groove 2 through the air gathering groove 55 to clean the hard disk

Example four:

referring to fig. 1-5, an auxiliary device for artificial intelligence software development and recording adaptive hard disk size comprises a fastening mechanism 4 and a maintenance mechanism 5, wherein the fastening mechanism 4 comprises a manual rotating wheel 41, a connecting frame 42 is movably connected to the right side of the manual rotating wheel 41, a rotating screw 43 is movably connected to one side of the connecting frame 42 away from the manual rotating wheel 41, a sliding wall 44 is movably connected to the outside of the rotating screw 43, an extrusion frame 45 is fixedly connected to one side of the sliding wall 44 away from the rotating screw 43, a fastening spring 46 is movably connected to the inside of the extrusion frame 45, a transmission rod 47 is movably connected to one end of the fastening spring 46 away from the extrusion frame 45, and a pressurizing wall 48 is movably connected to one end of the transmission rod 47 away from the fastening spring 46.

Further, the maintenance mechanism 5 comprises a push-pull rod 51, one end of the push-pull rod 51 is fixedly connected with the transmission rod 47, the other end of the push-pull rod 51 is fixedly connected with an extrusion rod 52, the outside of the extrusion rod 52 is movably connected with a buffer spring 53, one end of the extrusion rod 52 far away from the push-pull rod 51 is movably connected with an elastic air bag 54, and one end of the elastic air bag 54 far away from the extrusion rod 52 is movably connected with an air gathering groove 55.

Further, the outside swing joint of fastening device 4 has protecting crust 1, and the one end swing joint that fastening device 4 kept away from protecting crust 1 has mount pad 3, and the inside swing joint of mount pad 3 has spread groove 2, and the equal swing joint in both sides has protection machanism 6 about fastening device 4, and one side that fastening device 4 was kept away from to protection machanism 6 is with maintenance mechanism 5 swing joint.

Further, the protection mechanism 6 comprises a limiting cavity 61, the limiting cavity 61 at the bottom of the fastening mechanism 4 is movably connected with an electrifying contact 62, one side, away from the protection shell 1, of the electrifying contact 62 is movably connected with a circuit contact 63, the limiting cavity 61 at the top of the fastening mechanism 4 is movably connected with a signal contact 64, and one side, away from the protection shell 1, of the signal contact 64 is movably connected with a communication contact 65.

Further, teeth are fixedly coupled to the surface of the inner wall of the sliding wall 44, and the teeth are engaged with the rotating screw 43.

Further, the center axis of the tightening spring 46 is aligned with the center axes of the pressing frame 45, the transmission lever 47, and the pressing wall 48.

The working principle is as follows: the artificial intelligence software develops the auxiliary device for recording with self-adapting hard disk size, when in use, the manual rotating wheel 41 is manually rotated, the connecting frame 42 also synchronously rotates along with the rotation of the manual rotating wheel 41, the connecting frame 42 rotates to drive the rotating screw 43 to rotate, and because the sliding wall 44 is meshed with the rotating screw 43, the sliding wall 44 can slide on the rotating screw 43 towards the direction far away from the manual rotating wheel 41 after the rotating screw 43 rotates, and then the extrusion frame 45 is driven to slide towards the direction far away from the manual rotating wheel 41, so as to drive the pressurizing walls 48 to move, at the moment, the two pressurizing walls 48 move oppositely, so that the clamping range can be adjusted according to hard disks with different sizes, when recording the hard disks, the hard disks are installed in the connecting groove 2, at the moment, the hard disks firstly apply an extrusion force to the installation base 3, and the extrusion force acts on the fastening spring 46 through the transmission rod 47, and finally compressing the fastening spring 46 to deform, at this time, the fastening spring 46 applies a reaction force to the hard disk through the pressing wall 48 to fix the hard disk, and in the process of fixing the hard disk, the fastening spring simultaneously pushes the power-on contact 62 and the signal contact 64 to slide in the limiting cavity 61, except that the distance between the power-on contact 62 and the line contact 63 is smaller than the distance between the signal contact 64 and the communication contact 65, so that the power-on contact 62 and the line contact 63 contact first in the process of mounting the hard disk, the signal contact 64 and the communication contact 65 contact again after the power is switched on, and data transmission is performed at this time, thus the hard disk can be ensured to always keep the power-on state in the process of data transmission without sudden interruption to cause damage, so that the effects of adjustably fixing the hard disk and protecting the hard disk from damage in multiple directions are achieved, and the hard disk can be effectively protected by the device, the probability of hard disk damage is reduced, and therefore the effects of energy conservation and environmental protection are achieved.

The artificial intelligence software develops auxiliary equipment for engraving and self-adapting to the size of the hard disk, when the hard disk is installed, the hard disk applies an acting force to the fastening spring 46 through the installation seat 3, the acting force compresses the fastening spring 46 to deform the fastening spring and then drives the transmission rod 47 to move, while during the movement of the transmission rod 47 it simultaneously pulls the push-pull rod 51 in motion, which, due to the lever-like nature of the push-pull rod 51, it changes the direction of the force, so that the push-pull rod 51 now applies a pushing force to the squeezing rod 52, this pushing force will stretch the buffer spring 53 to deform and drive the extrusion rod 52 to extrude the elastic air bag 54, the elastic air bag 54 will deform after being extruded by the extrusion rod 52, the inner space of the air collecting groove gradually shrinks, thereby generating air flow which is blown into the connecting groove 2 through the air collecting groove 55, the hard disk is cleaned, so that the effect of automatically maintaining the hard disk before burning and improving the burning quality is achieved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.