CN115858317A

CN115858317A - Artificial intelligence algorithm logic system comprehensive verification platform and simulation verification method

Info

Publication number: CN115858317A
Application number: CN202211520115.4A
Authority: CN
Inventors: 邓琳; 翟玉庆
Original assignee: Nanjing Pulani Information Technology Co ltd
Current assignee: Nanjing Pulani Information Technology Co ltd
Priority date: 2022-11-30
Filing date: 2022-11-30
Publication date: 2023-03-28

Abstract

The invention discloses an artificial intelligence algorithm logic system comprehensive verification platform and a simulation verification method, which comprise a bearing rack, a positioning tray, a plurality of paths of stabilized voltage power supplies, a control box, an information display platform, a communication gateway, a driving circuit and a driving power supply, wherein the positioning tray is positioned in the bearing rack and is connected with the side wall of the bearing rack in a sliding manner through a lifting driving mechanism, the groove body on the lower end face of the positioning tray is provided with the plurality of paths of stabilized voltage power supplies and the communication gateway, the driving circuit and the driving power supply are embedded in the control box, and the control box is connected with the outer side face of the bearing rack. The simulation verification method comprises three steps of system setting, system loading, system testing and the like. The invention can effectively meet the requirements of the operation efficiency test, evaluation and detection operation of the artificial intelligence algorithm logic system with various structural types, and the evaluation result is clear and accurate and is convenient to obtain, thereby greatly improving the working efficiency and quality of the comprehensive verification operation of the artificial intelligence algorithm logic system.

Description

Artificial intelligence algorithm logic system comprehensive verification platform and simulation verification method

Technical Field

The invention relates to an artificial intelligence algorithm logic system comprehensive verification platform and a simulation verification method, and belongs to the technical field of artificial intelligence.

Background

With the popularization of the application of the artificial intelligence system, the requirements on the reliability and the running precision of a logic system during the operation of the artificial intelligence system are higher and higher at present, and meanwhile, the program structure of the artificial intelligence system is also more and more complex, so that the defects and the instability during the operation of the artificial intelligence system are increased, so that the corresponding running performance detection needs to be carried out on the artificial intelligence system which is designed and developed, especially the simulation verification of the running stability and the reliability of the artificial intelligence system needs to be carried out on some extreme conditions which are difficult to simulate in the actual working state, and for the problem, no professional and effective detection equipment and method exist at present.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides an artificial intelligence algorithm logic system comprehensive verification platform and a simulation verification method, which can effectively meet the requirements of operation efficiency tests, evaluation and detection operations of artificial intelligence algorithm logic systems with various structural types.

An artificial intelligence algorithm logic system comprehensive verification platform comprises a bearing rack, a positioning tray, at least one positioning tray, a control box, an information display platform, a communication gateway, a driving circuit and a driving power supply, wherein the bearing rack is of a frame structure with an axis vertical to a horizontal plane, the positioning tray is located in the bearing rack, is parallel to the horizontal plane and is in sliding connection with the side wall of the bearing rack through a lifting driving mechanism, the cross section of the positioning tray is in an H-shaped plate structure, a multi-path stabilized power supply and the communication gateway are arranged on a groove body on the lower end face of the positioning tray, the multi-path stabilized power supply and the communication gateway are respectively provided with at least one wiring terminal, the wiring terminals are embedded in the side wall and the groove bottom of the positioning tray, the multi-path stabilized power supply is electrically connected with the driving circuit and the driving power supply, the driving circuit and the driving power supply are embedded in the control box, the control box is of a closed box structure and is located outside the bearing rack and is connected with the outer side face of the bearing rack, at least two information display platforms are connected with the upper end face of the bearing rack and are respectively electrically connected with the driving circuit and the driving power supply, and the information display platform is connected with the communication gateway through a data connection with the communication gateway through a communication wire.

The information display platform comprises a horizontal driving guide rail, sliders, a lifting driving mechanism, a control circuit, a main execution mechanism, an auxiliary execution mechanism, a bearing platform and an operation panel, wherein the bearing platform is of a cavity structure with a rectangular cross section, the bearing platform is of a plate structure with a rectangular cross section, the upper end face of the bearing platform is connected with and coaxially distributed with the lower end panel of the operation panel, the area of the lower end face of the operation panel is 1.1-2 times of that of the upper end face of the bearing platform, the upper end face of a bearing rack corresponding to the lower end face of the operation panel is provided with two horizontal driving guide rails, the horizontal driving guide rails are coated outside the bearing platform and are distributed in parallel with the upper end face of the bearing rack and the side wall of the bearing platform, the horizontal driving guide rails are all in sliding connection with the at least two sliders, the upper end face of the sliders are all connected with the lower end face of the operation panel through the lifting driving mechanism, two ends of the lifting driving mechanism are respectively hinged with the sliders and the operation panel, the axis of the lifting driving mechanism is respectively connected with the lower end face of the main execution mechanism, the control circuit is respectively connected with the main execution mechanism through an electrical communication chute, and the control panel is connected with the main execution mechanism through at least one communication chute.

Furthermore, the main executing mechanism is any one or more of an electric traction test system, an electromagnetic test system and an electric heating test system; the auxiliary actuating mechanism is one or more of a display, a signal indicator light and a buzzer; the control circuit is a circuit system based on any one of an industrial single chip microcomputer and a programmable controller.

The lower end face of the bearing cross arm is additionally provided with at least two reinforcing rib plates which are vertically distributed along the axial direction of the bearing cross arm, the axial lines of the reinforcing rib plates are vertically distributed with the axial line of the bearing cross arm, and the axial lines of the reinforcing rib plates are additionally distributed with the axial line of the bearing cross arm, and the reinforcing rib plates are additionally provided with at least two reinforcing rib plates which are in a U-shaped structure with a rectangular cross section and are also respectively provided with at least two reinforcing cushion blocks with two lower end faces.

Furthermore, when the number of the positioning trays is two or more, the positioning trays are mutually isolated through partition plates, any position in the front end face and the side surface of each positioning tray is connected with the inner side face of the bearing frame through a sliding chute in addition, each positioning tray comprises a semiconductor refrigerating mechanism, a drainage fan, a base and a temperature sensor, wherein the base is of an H-shaped groove-shaped structure in the cross section, an assembly cavity is arranged in the bottom of the base, the semiconductor refrigerating mechanism is embedded in the assembly cavity, an exhaust port is formed in the wall position of the assembly cavity corresponding to the heat dissipation end of the semiconductor refrigerating mechanism, the drainage fan is arranged at the exhaust port, a plurality of air guide holes are uniformly distributed at the corresponding positions of the bottom of the base and the assembly cavity, the air guide holes are communicated with the assembly cavity and are communicated with the refrigerating end of the semiconductor refrigerating mechanism through the assembly cavity, the positions of the upper end face and the bottom of the lower end face of the base are provided with the temperature sensors, and the conductor refrigerating mechanism, the drainage fan and the temperature sensors are electrically connected with the driving circuit.

Furthermore, the control box comprises a box body, a control interface, horizontal guide sliding rails and vertical guide sliding rails, wherein the vertical guide sliding rails are at least two and are connected with the outer side surface of the bearing rack and vertically distributed with the upper end surface of the bearing rack, the horizontal guide sliding rails are in sliding connection with the outer surface of the bearing rack through the vertical guide sliding rails and are distributed in parallel with the upper end surface of the bearing rack, the box body is of a closed cavity structure, the rear end surface of the box body is connected with the horizontal guide sliding rails and is in sliding connection with the outer surface of the bearing rack through the horizontal guide sliding rails, at least one control interface is embedded in the outer surface of the box body and is electrically connected with a driving circuit, and the control interface comprises any one or more of a display, a keyboard, a button, an induction switch and a potentiometer.

Furthermore, the driving circuit is a circuit system based on an industrial computer, and the driving circuit is additionally provided with an optical fiber communication mechanism and a serial port communication mechanism.

A simulation verification method of an artificial intelligence algorithm logic system comprehensive verification platform comprises the following steps:

s1, system setting, namely, firstly assembling a bearing rack, a positioning tray, a multi-path stabilized voltage power supply, a control box, an information display platform, a communication gateway, a driving circuit and a driving power supply, setting the number of the positioning trays according to a system to be tested in the assembling process, setting computer hardware equipment meeting the requirement of a simulation operation artificial intelligence algorithm logic system, and finally electrically connecting the driving power supply with an external power supply system;

s2, system loading, namely after the step S1 is finished, loading the artificial intelligence algorithm logic system to be tested into corresponding computer hardware equipment, installing the computer hardware equipment on a positioning tray, then respectively connecting the computer hardware equipment with a communication gateway and a multi-path stabilized voltage supply of the positioning tray, respectively connecting the communication gateway and the multi-path stabilized voltage supply with an information display platform, a driving circuit and a driving power supply through the communication gateway and the multi-path stabilized voltage supply, and simultaneously establishing data connection between the communication gateway connected with the computer hardware equipment and an external computer communication network so as to finish the system loading;

s3, system testing, namely after the step S2 is completed, under the driving of a driving circuit, enabling the computer hardware equipment to run the loaded artificial intelligence algorithm logic system, and in the running process, firstly, directly inputting a running command to the artificial intelligence algorithm logic system by the driving circuit; on the other hand, the operation command is obtained from an external computer communication network under the cooperation of the driving circuit through the communication gateway; and then the artificial intelligence algorithm logic system carries out system operation according to the received command, on one hand, the operation result is fed back to the driving circuit in a control command form, and the operation result is converted by the driving circuit to drive a main execution mechanism and an auxiliary execution mechanism arranged on the information display platform to carry out corresponding action operation, and the operation efficiency of the artificial intelligence algorithm logic system is directly detected by the action operation states of the main execution mechanism and the auxiliary execution mechanism.

Further, the computer hardware device is shared by any one or two of a PC computer and a computer server.

The system is simple, flexible and convenient to operate, good in universality, clear and accurate in evaluation result and convenient to obtain, and can effectively meet the requirements of operation efficiency tests, evaluation and detection operations of artificial intelligence algorithm logic systems of various structural types, so that the working efficiency and quality of comprehensive verification operations of the artificial intelligence algorithm logic systems are greatly improved.

Drawings

The invention is described in detail below with reference to the drawings and the detailed description;

FIG. 1 is a schematic diagram of the system of the present invention;

FIG. 2 is a cross-sectional partial structural view of a positioning tray;

FIG. 3 is a top view of a portion of the bracket;

FIG. 4 is a cross-sectional partial structural view of the console box;

FIG. 5 is a flow chart illustrating a method of using the present invention.

Detailed Description

In order to facilitate the implementation of the technical means, creation features, achievement of the purpose and the efficacy of the invention, the invention is further described below with reference to specific embodiments.

As shown in fig. 1-4, an artificial intelligence algorithm logic system comprehensive verification platform includes a bearing frame 1, a positioning tray 2, multiple regulated power supplies 3, a control box 4, an information display platform 5, a communication gateway 6, a driving circuit 7 and a driving power supply 8, wherein the bearing frame 1 is a frame structure with an axis perpendicular to a horizontal plane, at least one positioning tray 2 is located in the bearing frame 1, is distributed parallel to the horizontal plane and is slidably connected with the side wall of the bearing frame 1 through a lifting driving mechanism 11, the positioning tray 2 is of an H-shaped plate structure in cross section, a multiple regulated power supply 8 and a communication gateway 6 are arranged in a groove at the lower end face thereof, the multiple regulated power supplies 8 and the communication gateway 6 are respectively provided with at least one connection terminal 10, the connection terminals 10 are embedded in the side wall and the groove bottom position of the positioning tray 2, the multiple regulated power supplies 3 are electrically connected with the driving circuit 7 and the driving power supply 8, the driving circuit 7 and the driving power supply 8 are embedded in the control box 4, the control box 4 is of a closed box structure, is located outside the bearing frame 1 and is connected with the outer side face of the bearing frame 1, at least two information display platforms 5 are electrically connected with the driving circuit 1 and are connected with the communication gateway 8 through a communication terminal and a communication data communication gateway 8.

It is important to point out that the information display stand 5 includes a horizontal driving guide rail 51, a slide block 52, a lifting driving mechanism 11, a control circuit 53, a main executing mechanism 54, an auxiliary executing mechanism 55, a bearing stand 56 and a control panel 57, wherein the bearing stand 56 is a cavity structure with a rectangular cross section, the bearing stand 56 is a plate structure with a rectangular cross section, the upper end surface of the bearing stand 56 is connected with and coaxially distributed with the lower end panel of the control panel 57, the area of the lower end surface of the control panel 57 is 1.1-2 times of the area of the upper end surface of the bearing stand 56, the upper end surface of the bearing stand 1 corresponding to the lower end surface of the control panel 57 is provided with two horizontal driving guide rails 51, the horizontal driving guide rails 51 are covered outside the bearing stand 56 and are distributed in parallel with the upper end surface of the bearing stand 1 and the side wall of the bearing stand 56, the horizontal driving guide rail 51 is connected with at least two sliding blocks 52 in a sliding mode, the upper end faces of the sliding blocks 52 are connected with the lower end face of the control panel 57 through the lifting driving mechanism 11, two ends of the lifting driving mechanism 11 are hinged with the sliding blocks 52 and the control panel 57 respectively, the axis of the lifting driving mechanism 11 is in an included angle of 0-90 degrees with the lower end face of the control panel 57, the control circuit 53 is embedded in the bearing table 56 and is electrically connected with the horizontal driving guide rail 51, the lifting driving mechanism 11, the main execution mechanism 54, the auxiliary execution mechanism 55, the driving circuit 7 and the driving power supply 8 respectively, meanwhile, the control circuit 53 is in data connection with the communication gateway 6 through communication wires, and at least one of the main execution mechanism 54 and the auxiliary execution mechanism 55 is connected with the upper end face of the control panel 57 in a sliding mode through a sliding chute 58.

In this embodiment, the main actuator 54 is one or more of an electric traction test system, an electromagnetic test system and an electric heating test system; the auxiliary actuating mechanism 55 is any one or more of a display, a signal indicator light and a buzzer; the control circuit 53 is a circuit system based on any one of an industrial single chip microcomputer and a programmable controller.

During operation, on one hand, the distribution positions of the bearing table 56 and the control panel 57 in the horizontal plane direction of the bearing frame 1 can be flexibly adjusted through the horizontal driving guide rail; on the other hand, the inclination angle between the control panel and the horizontal plane is adjusted through the lifting driving mechanism, so that the requirements of different operation operations are met.

In the detection action, the simulation of the action type and the motion type instruction can be effectively realized through the main execution mechanism; the display of sound and light signals and data information is realized through the auxiliary execution mechanism, so that the aim of flexibly displaying various types of instructions is fulfilled.

Meanwhile, the lower end face of the positioning tray 2 is provided with a bracket 9 and is connected with a lifting driving mechanism 11 through the bracket 9, the bracket 9 comprises a bearing cross arm 91, a reinforcing rib plate 92, a guide rib plate 93 and a bearing column 94, the bearing column 94 is a columnar structure with the axis vertically distributed with the horizontal plane, the upper end face of the bearing column is connected with the rear end face of the bearing cross arm 91 and vertically distributed, the left side face and the right side face of the bearing column 94 are respectively connected with the lower left side face and the right side face of the bearing cross arm 91 through one guide rib plate 93, a right-angled triangular structure is formed among the bearing cross arm 91, the guide rib plate 93 and the bearing column 94, the bearing cross arm 91 is a framework structure shaped like a Chinese character 'e', the bearing cross arm 91 is coated outside the positioning tray 2 and coaxially distributed with the positioning tray 2, the reinforcing rib plates 91 are mutually connected with the side walls of the positioning tray 2 through at least four positioning mechanisms 95, the lower end face of the bearing cross arm 91 is additionally provided with at least two reinforcing rib plates 92 vertically distributed along the axis of the bearing cross arm 91, the axis is vertically distributed with the reinforcing rib plate 92 through two reinforcing rib plates 96 respectively, and the reinforcing rib plates are respectively connected with the lower end faces of the reinforcing rib plates 97 of the rectangular cross arm 91, and the reinforcing rib plates 96 respectively provided with the reinforcing rib plates 96 respectively, and the lower end faces of the reinforcing rib plates 93 of the reinforcing rectangular cross arm 91, and the reinforcing rib plates 96 respectively provided with the reinforcing rib plates 97.

The supporting bracket can effectively improve the bearing and positioning capacity of the positioning tray, and meet the requirement of adding volume and self weight to the bearing operation of equipment, and meanwhile, the arranged elastic connecting belt enables the bearing cross arm and the reinforcing rib plate to be in a contraction state when belonging to a standby state, so that the space occupancy rate of the equipment is reduced; on the other hand, when equipment bears the equipment, the bearing cross arm and the reinforcing rib plate form a groove-shaped structure to coat the borne equipment through the elastic connecting belt under the action of the gravity of the equipment, so that the positioning stability is improved, and meanwhile, the impact of external force is absorbed through the elastic deformation capacity of the elastic connection, so that the influence of impact acting force on the equipment is reduced, and the bearing and running stability of the equipment is improved.

In addition, when the number of the positioning trays 2 is two or more, the positioning trays 2 are isolated from each other by the partition plate 12, any position of the front end surface and the side surface of each positioning tray 2 is in sliding connection with the inner side surface of the bearing rack 1 through the sliding groove 58, each positioning tray 2 comprises a semiconductor refrigerating mechanism 21, a drainage fan 22, a base 23 and a temperature sensor 24, wherein the base 23 is of an H-shaped groove-shaped structure in cross section, an assembly cavity 25 is arranged in the bottom of the base, the semiconductor refrigerating mechanism 21 is embedded in the assembly cavity 25, an exhaust port 26 is arranged at the groove wall position of the assembly cavity 25 corresponding to the heat dissipation end of the semiconductor refrigerating mechanism 21, the drainage fan 22 is arranged at the exhaust port 26, a plurality of air guide holes 27 are uniformly distributed at the positions corresponding to the bottom of the base 23 and the assembly cavity 25, the air guide holes 27 are communicated with the assembly cavity 25 and communicated with the refrigerating end of the semiconductor refrigerating mechanism 21 through the assembly cavity 25, the temperature sensors 24 are arranged at the bottom positions of the upper end surface side and the lower end surface side of the base 23, and the conductor refrigerating mechanism 21, the drainage fan 22 and the temperature sensors 24 are electrically connected with the driving circuit 7.

The semiconductor refrigeration mechanism and the drainage fan are matched for use, so that computer hardware equipment and the like in an evaluation state can be effectively cooled, and the running stability of the system is improved.

In this embodiment, the control box 4 includes a box 41, a control interface 42, a horizontal guide rail 43, and a vertical guide rail 44, wherein at least two vertical guide rails 44 are connected to the outer side surface of the bearing rack 1 and vertically distributed to the upper end surface of the bearing rack 1, the horizontal guide rail 43 is slidably connected to the outer surface of the bearing rack 1 through the vertical guide rail 44, the horizontal guide rail 43 is parallel distributed to the upper end surface of the bearing rack 1, the box 41 is a closed cavity structure, the rear end surface of the box is connected to the horizontal guide rail 43 and slidably connected to the outer surface of the bearing rack 1 through the horizontal guide rail 43, at least one control interface 42 is embedded in the outer surface of the box 41 and electrically connected to the driving circuit 7, and the control interface 42 includes any one or more common ones of a display, a keyboard, a button, an inductive switch, and a potentiometer.

Further preferably, the horizontal guide slide rail is connected with the vertical guide slide rail and the box body in a sliding mode through a slide block, at least one positioning pin is arranged on the slide block, and the slide block is connected with the vertical guide slide rail and the horizontal guide slide rail through the positioning pin.

Through cooperation between horizontal direction slide rail, the vertical direction slide rail, effectively realize adjusting the operating position of box to the realization is according to the staff when detecting the operation and is controlling needs, and nimble adjustment box position, thereby satisfy the needs that flexibility and convenience were controlled to equipment.

In this embodiment, the driving circuit is an industrial computer-based circuit system, and the driving circuit is further provided with an optical fiber communication mechanism and a serial port communication mechanism.

Further preferably, the lifting driving mechanism is any one of a screw mechanism, an electric telescopic rod mechanism, a pneumatic telescopic rod mechanism and a hydraulic telescopic rod mechanism.

As shown in fig. 5, a simulation verification method for an artificial intelligence algorithm logic system comprehensive verification platform includes the following steps:

s3, system testing, after the step S2 is completed, under the driving of a driving circuit, enabling the computer hardware equipment to operate the loaded artificial intelligence algorithm logic system, and in the operation process, firstly, directly inputting an operation command to the artificial intelligence algorithm logic system by the driving circuit; on the other hand, the operation command is obtained from an external computer communication network under the cooperation of the driving circuit through the communication gateway; and then the artificial intelligence algorithm logic system carries out system operation according to the received command, on one hand, the operation result is fed back to the driving circuit in a control command form, and the operation result is converted by the driving circuit to drive a main execution mechanism and an auxiliary execution mechanism arranged on the information display platform to carry out corresponding action operation, and the operation efficiency of the artificial intelligence algorithm logic system is directly detected by the action operation states of the main execution mechanism and the auxiliary execution mechanism.

In this embodiment, the computer hardware device is shared by any one or two of a PC computer and a computer server.

The system is simple, flexible and convenient to operate and good in universality, can effectively meet the requirements of operation efficiency tests, evaluations and detection operations of artificial intelligence algorithm logic systems of various structural types, and is clear and accurate in evaluation result and convenient to obtain, so that the working efficiency and quality of comprehensive verification operations of the artificial intelligence algorithm logic systems are greatly improved.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and their equivalents.

Claims

1. An artificial intelligence algorithm logic system comprehensive verification platform is characterized in that: the bearing frame is of a frame structure with an axis perpendicular to a horizontal plane, at least one positioning tray is located in the bearing frame, the positioning tray is distributed in parallel with the horizontal plane and is in sliding connection with the side wall of the bearing frame through a lifting driving mechanism, a multi-path stabilized voltage power supply and a communication gateway are arranged on a groove body on the lower end face of the positioning tray, the multi-path stabilized voltage power supply and the communication gateway are respectively provided with at least one wiring terminal, the wiring terminals are embedded in the side wall and the bottom of the groove of the positioning tray, the multi-path stabilized voltage power supply is electrically connected with the driving circuit and the driving power supply, the driving circuit and the driving power supply are embedded in the bearing frame, the control box is of a closed box body structure and is located outside the bearing frame and is connected with the outer side face of the bearing frame, at least two information display platforms are connected with the upper end face of the bearing frame and are respectively electrically connected with the driving circuit and the driving power supply, and the information display platforms are additionally connected with the communication gateway through communication wires.

2. The integrated verification platform for artificial intelligence algorithm logic system according to claim 1, wherein: the information display platform comprises a horizontal driving guide rail, a sliding block, a lifting driving mechanism, a control circuit, a main execution mechanism, an auxiliary execution mechanism, a bearing platform and a control panel, wherein the bearing platform is of a cavity structure with a rectangular cross section, the bearing platform is of a plate structure with a rectangular cross section, the upper end face of the bearing platform is connected with and coaxially distributed with the lower end panel of the control panel, two horizontal driving guide rails are arranged on the upper end face of a bearing frame corresponding to the lower end face of the control panel, the horizontal driving guide rails are coated outside the bearing platform and are distributed in parallel with the upper end face of the bearing frame and the side wall of the bearing platform, the horizontal driving guide rails are all in sliding connection with at least two sliding blocks, the upper end face of each sliding block is connected with the lower end face of the control panel through the lifting driving mechanism, two ends of the lifting driving mechanism are respectively hinged with the sliding blocks and the control panel, the axis of each lifting driving mechanism forms an included angle of 0-90 degrees with the lower end face of the control panel, the control circuit is embedded in the bearing platform and is respectively electrically connected with the horizontal driving guide rail, the lifting driving mechanism, the main execution mechanism, the lifting driving mechanism, the auxiliary execution mechanism, the lifting driving mechanism and the gateway are respectively connected with the control panel through a sliding chute.

3. The integrated verification platform for artificial intelligence algorithm logic system according to claim 2, wherein: the main executing mechanism is any one or more of an electric dragging test system, an electromagnetic test system and an electric heating test system; the auxiliary actuating mechanism is any one or more of a display, a signal indicator light and a buzzer; the control circuit is a circuit system based on any one of an industrial single chip microcomputer and a programmable controller.

4. The integrated verification platform for artificial intelligence algorithm logic system according to claim 1, wherein: the lower end face of the positioning tray is provided with a bracket and is connected with a lifting driving mechanism through the bracket, the bracket comprises a bearing cross arm, a reinforcing rib plate, a guide rib plate and a bearing column, the bearing column is of a columnar structure with the axis being vertically distributed with the horizontal plane, the upper end face of the bearing column is connected with the rear end face of the bearing cross arm and is vertically distributed, the left side face and the right side face of the bearing column are respectively connected with the lower left side face and the right side face of the bearing cross arm through one guide rib plate, the bearing cross arm, the guide rib plate and the bearing column form a right-angled triangle structure, the bearing cross arm is of a '21221221274' -shaped frame structure and is coated outside the positioning tray and coaxially distributed with the positioning tray, the reinforcing cross arm is mutually connected with the side wall of the positioning tray through at least four positioning mechanisms, the lower end face of the bearing cross arm is additionally provided with at least two reinforcing rib plates vertically distributed along the axis direction of the bearing cross arm, the axis of each reinforcing rib plate is vertically distributed with the axis of the bearing cross arm, two end faces of the reinforcing rib plates are respectively connected with the lower end face of the bearing cross arm through elastic connecting belt, and at least two reinforcing rib plates are respectively arranged in a rectangular cross arm structure with the axial cross section, and at least one lower end face of the reinforcing rib plate.

5. The integrated verification platform for artificial intelligence algorithm logic system according to claim 1, wherein: when the positioning trays are two or more, the positioning trays are mutually isolated through the partition plates, the position of any position in the front end face and the side face of each positioning tray is additionally connected with the inner side face of the bearing rack in a sliding mode through the sliding grooves, each positioning tray comprises a semiconductor refrigerating mechanism, a drainage fan, a base and a temperature sensor, the base is of an H-shaped groove-shaped structure with the cross section, an assembly cavity is formed in the bottom of the base, the semiconductor refrigerating mechanism is embedded in the assembly cavity, an exhaust port is formed in the position, corresponding to the heat dissipation end of the semiconductor refrigerating mechanism, of the groove wall of the assembly cavity, the drainage fan is arranged at the exhaust port, a plurality of air guide holes are uniformly distributed in the positions, corresponding to the bottom of the base and the assembly cavity, of the air guide holes are communicated with the assembly cavity and communicated with the refrigerating end of the semiconductor refrigerating mechanism through the assembly cavity, a temperature sensor is arranged at the positions of the bottoms of the upper end face and the bottom of the lower end face of the base, and the conductor refrigerating mechanism, the drainage fan and the temperature sensor are electrically connected with the driving circuit.

6. The integrated verification platform for artificial intelligence algorithm logic system according to claim 1, wherein: control case include the box, control interface, horizontal direction slide rail, vertical direction slide rail, wherein vertical direction slide rail is two at least, with bear the frame lateral surface and be connected and with bear the frame up end vertical distribution, horizontal direction slide rail passes through vertical direction slide rail and bears sliding connection between the frame surface, just horizontal direction slide rail and bear parallel distribution between the frame up end, the box is closed cavity structure, is connected between its rear end face and horizontal direction slide rail to through horizontal direction slide rail and bear frame surface sliding connection, control at least one in the interface, inlay in the box surface to with drive circuit electrical connection, just control the interface and include arbitrary one kind or several kinds sharing in display, keyboard, button, inductive switch and the potentiometre.

7. The artificial intelligence algorithm logic system comprehensive verification platform of claim 1 or 6, wherein: the driving circuit is a circuit system based on an industrial computer, and is additionally provided with an optical fiber communication mechanism and a serial port communication mechanism.

8. The simulation verification method of the artificial intelligence algorithm logic system comprehensive verification platform as claimed in claim 1, wherein: the simulation verification method of the artificial intelligence algorithm logic system comprehensive verification platform comprises the following steps:

s3, system testing, after the step S2 is completed, under the driving of a driving circuit, enabling the computer hardware equipment to operate the loaded artificial intelligence algorithm logic system, and in the operation process, firstly, directly inputting an operation command to the artificial intelligence algorithm logic system by the driving circuit; on the other hand, the operation command is obtained from an external computer communication network under the cooperation of the driving circuit through the communication gateway; then the artificial intelligence algorithm logic system carries out system operation according to the received command, on one hand, the operation result is fed back to the driving circuit in a control command form, and the operation result is converted by the driving circuit and then drives a main execution mechanism and an auxiliary execution mechanism arranged on the information display platform to carry out corresponding action operation, and the operation efficiency of the artificial intelligence algorithm logic system is directly detected by the action operation states of the main execution mechanism and the auxiliary execution mechanism.

9. The simulation verification method of the artificial intelligence algorithm logic system comprehensive verification platform as claimed in claim 9, wherein: the computer hardware equipment is shared by any one or two of a PC computer and a computer server.