A computer task management system and method

By designing an adjustable auxiliary screen to connect with the control device, the problem of fixed installation of multi-screen display devices was solved, enabling multi-angle display and stable installation, and improving query efficiency and device usage effect.

CN122195216APending Publication Date: 2026-06-12GUANGDONG VOCATIONAL & TECHNICAL COLLEGE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
GUANGDONG VOCATIONAL & TECHNICAL COLLEGE
Filing Date
2026-02-02
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

In computer task management systems, the fixed installation of multi-screen display devices makes it impossible to adjust them from multiple angles, reducing query efficiency and device usability.

Method used

A computer task management system is designed, including first and second auxiliary screens connected to a control device. The auxiliary screens are movable and adjustable through disassembly components, limiting components, and rotation components, allowing for multi-angle display and disassembly/reassembly.

Benefits of technology

It enables flexible adjustment and stable installation of multi-screen displays, improving the efficiency of computer task queries and the effectiveness of equipment use.

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Abstract

The application discloses a computer task management system and method, which comprises a first auxiliary screen, a base, a second auxiliary screen and a control device. A dismounting assembly is arranged at the position where the first auxiliary screen and the second auxiliary screen are connected with the control device. The other side of the dismounting assembly is moved through two limiting assemblies and penetrates into the inside of a plug-in frame. The abutting rod in the inside of the plug-in frame directly contacts the bottom of the dismounting assembly. The abutting rod and the booster rod are simultaneously opened outwards under the action of the dismounting assembly. The dismounting assembly penetrates into the inside of the plug-in frame. The abutting rod and the booster rod are abutted on the two sides of the dismounting assembly to limit the position of the dismounting assembly. The dismounting assembly is effectively and stably arranged in the inside of the plug-in frame for stable installation.
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Description

Technical Field

[0001] This invention relates to the field of computer technology, and specifically to a computer task management system and method. Background Technology

[0002] A log is a time-ordered collection of operations and their results performed on a specified system object. Each log file consists of log records, and each log record describes a single system event. In the field of computer technology, some network devices, systems, and service programs generate corresponding log records during runtime, which contain descriptive information such as date, time, user, and action. Areas for improvement when using a computer task management system include: When using a computer task management system, under normal circumstances, the task information and the corresponding generated task identifier index are sent to the historical task manager for storage, achieving effective management of computer tasks. Furthermore, when it is necessary to query the relevant information of a certain task during system operation, the task information corresponding to that task can be found in the historical task manager based on the task identifier index, eliminating the need for manual searching and greatly improving the efficiency of computer task query. However, when using a computer task management system, since the computer only has a single screen for display, users cannot view the information on multiple screens simultaneously when querying multiple tasks. Moreover, when multiple screens are installed together with the computer screen, they are all in a fixed state, limited to a single angle position for adjustment, and inconvenient for installation and disassembly, reducing the effectiveness of the device and thus reducing the efficiency of computer task query. Summary of the Invention

[0003] To address the shortcomings of existing technologies, the present invention is achieved through the following technical solution: a computer task management system and method, the structure of which includes a first auxiliary screen, a base, a second auxiliary screen, and a control device. The first auxiliary screen and the second auxiliary screen are symmetrically installed on the left and right sides of the control device, and the control device is connected to the first auxiliary screen and the second auxiliary screen to form a symmetrical axis structure. The control device is vertically fixed on the base.

[0004] As a further optimization of the invention, the control device includes an outer frame, a display screen, and mounting components. The display screen is embedded in the middle of the inner part of the outer frame, and mounting components are provided on both the left and right sides of the outer frame to connect with it.

[0005] As a further optimization of the invention, the mounting assembly includes a plug-in frame, an assist rod, a slider, a pivot, a limiting component, a counterweight, a disassembly component, and an elastic element. Sliders are fixedly connected to the middle positions of both sides of the inner wall of the plug-in frame, and each slider is connected to an assist rod. Two assist rods are symmetrically arranged on both sides of the inner wall of the plug-in frame via the sliders, and each end of the assist rod is connected to a counterweight. Two counterweights are arranged in a "I" shape at the inner end of the plug-in frame, and pivots are provided at the outer ends of the two counterweights. The counterweights are movably connected to the inner wall of the plug-in frame via the pivots, and an elastic element connects the plug-in frame and the counterweights. The upper end of the counterweight contacts the bottom of the disassembly component, and the disassembly component is located in the middle position of the limiting component. The disassembly component extends through the limiting component into the interior of the plug-in frame.

[0006] As a further optimization of the invention, a first auxiliary screen and a second auxiliary screen are installed on both the left and right sides of the control device. A display screen is installed inside the outer frame of the control device for use. Then, the first auxiliary screen and the second auxiliary screen are symmetrically arranged on the left and right sides of the control device by the mounting components. A disassembly component is installed at the position where the first auxiliary screen and the second auxiliary screen are connected to the control device. The disassembly component extends into the insertion frame through the limiting component. The disassembly component and the assist rod inside the insertion frame will expand and open to abut against both sides of the disassembly component, effectively limiting the position of the disassembly component.

[0007] As a further optimization of the invention, the first auxiliary screen and the second auxiliary screen are arranged on the same straight line as the control device, and the first auxiliary screen and the second auxiliary screen can be adjusted to move on the left and right sides of the control device.

[0008] As a further optimization of the invention, the mounting components on the left and right sides of the outer frame are respectively fastened and connected to the first auxiliary screen and the second auxiliary screen, so that the first auxiliary screen and the second auxiliary screen can be adjusted on both sides of the outer frame through the mounting components.

[0009] As a further optimization of the invention, the side of the plug-in frame is fixedly connected to both sides of the outer frame, and the outer end of the disassembly component is fixedly connected to the first auxiliary screen and the second auxiliary screen. The sliding component installed inside the plug-in frame assists the booster rod to slide up and down to cooperate with the abutment rod for opening and closing adjustment. The elastic component connected to the lower end of the abutment rod can reset it.

[0010] As a further optimization of the invention, the limiting component includes a housing, a positioning block, a sliding rod, a slider, and an adsorption sheet. The sliding rod is installed on the upper end of the housing, and four sliders are installed on the sliding rod in a horizontally arranged manner at equal intervals. The upper ends of the four sliders are connected to the adsorption sheet, and the lower ends are fixedly connected to the positioning block. The positioning block can be adjusted left and right inside the housing by the sliders.

[0011] As a further optimization of the invention, the two housings are symmetrically arranged at both ends of the right side of the plug frame. When the disassembly component extends through and between the two housings, the adsorption sheet will adhere to and adsorb on both sides of the disassembly component. The gas inside the adsorption sheet at the docking position with the disassembly component will be discharged, thereby adsorbing and confining the disassembly component.

[0012] As a further optimization of the invention, the disassembly assembly includes a rotating component, a linkage component, an adjusting rod, an arc-shaped insert, a retaining seat, and a docking block. The rotating component has a linkage component installed at one end and a docking block fixedly connected at the other end. The end of the linkage component away from the rotating component is fixedly connected to the retaining seat. An arc-shaped insert is installed inside the retaining seat, and an adjusting rod is connected through the middle of the arc-shaped insert. The end of the adjusting rod away from the arc-shaped insert extends through the linkage component to be fixedly connected to the rotating component.

[0013] As a further optimization of the invention, the card holder and the linkage are fixedly connected to form a rectangular structure, and the arc-shaped plug installed inside the card holder is provided with multiple equally spaced slots. When the adjusting rod swings left and right, it will move and adjust inside the arc-shaped plug. After being adjusted to the corresponding position, the adjusting rod will pass through and extend into the slot inside the arc-shaped plug to play a limiting role.

[0014] As a further optimization of the invention, the rotating assembly includes a cylinder, a locking component, a turntable, a protrusion, and a resetting component. The cylinder is fitted with the locking component and the locking component is engaged with the turntable. The turntable has multiple recesses connected to the resetting component, and the end of the resetting component away from the turntable is connected to the protrusion. The upper end of the protrusion is connected to the locking component through the resetting component.

[0015] As a further optimization of the invention, the cylinder is connected to the locking component and mounted on the linkage component, the turntable is engaged with the outside of the locking component, and the docking blocks and adjusting rods connected to the left and right sides of the turntable will be driven to swing left and right for adjustment.

[0016] As a further optimization of the invention, the locking component is provided with a ring, a concave arc seat, an air bladder, and a contact pad. The upper end of the ring is provided with a plurality of concave arc seats arranged in a ring at equal intervals. The multiple concave arc seats are provided with air bladders connected to them, and the contact pads are attached to the inner arc surface of the concave arc seats.

[0017] As a further optimization of the invention, the ring is engaged with the turntable, and the protrusion on the turntable will engage with the concave arc seat under the action of the reset component. The air bladder and contact pad inside the concave arc seat will expand under force to wrap around the protrusion and limit the movement of the turntable. Beneficial effects

[0018] The present invention provides a computer task management system and method, which has the following beneficial effects: 1. In this invention, a disassembly component is installed at the interface between the first auxiliary screen and the control device. The other side of the disassembly component extends into the insertion frame through two limiting components. The abutment rod inside the insertion frame directly contacts the bottom of the disassembly component. Under the action of the disassembly component, the abutment rod and the assist rod open outward simultaneously, and the disassembly component extends into the insertion frame. The abutment rod and the assist rod then abut against both sides of the disassembly component to limit its position. The disassembly component effectively and stably places itself into the insertion frame for stable installation.

[0019] 2. In this invention, when the disassembly assembly penetrates between the two housings, the four adsorption plates move left and right on the slide rod under the action of the positioning block to adjust to the corresponding positions. This allows the four adsorption plates to adhere to both sides of the disassembly assembly, and the gas inside the adsorption plates at the docking points with the disassembly assembly is discharged. This allows the first and second auxiliary screens to engage and connect with the plug-in frame under the action of the disassembly assembly. The first and second auxiliary screens are then symmetrically positioned on the left and right sides of the outer frame to cooperate with the display screen for multiple task searches. Users can view the information on the front display screen in a distributed manner.

[0020] 3. In this invention, the first and second auxiliary screens are fixedly connected to the docking block, allowing them to be adjusted by a turntable via the docking block. After the turntable rotates and adjusts to a certain position on the locking component, the protrusion above it moves and abuts against the concave arc seat on the ring of the locking component under the action of the reset component. The air bladder and contact pad inside the concave arc seat expand under force to wrap around the protrusion and limit the movement of the turntable. The adjustment rod connected to the rear end of the turntable extends through the slot inside the arc-shaped plug to limit the movement. This, in conjunction with the locking component, allows the position of the turntable to be adjusted, enabling the first and second auxiliary screens to move and adjust their angles on both sides of the outer frame, effectively improving the usability of the device and thus enhancing the query effect of computer tasks. Attached Figure Description

[0021] Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of non-limiting embodiments with reference to the accompanying drawings: Figure 1 A schematic diagram of a computer task management system and method; Figure 2 This is a front view schematic diagram of an improved control device.

[0022] Figure 3This is a top view diagram of an improved installation component.

[0023] Figure 4 This is a schematic diagram of the internal structure of a modified component.

[0024] Figure 5 This is a schematic diagram of the internal structure of an improved disassembly component.

[0025] Figure 6 This is a schematic diagram of a cross-sectional structure of an improved rotating component.

[0026] Figure 7 This is a schematic diagram of the internal structure of an improved locking component.

[0027] In the diagram: First auxiliary screen-1, base-2, second auxiliary screen-3, control device-4; Outer frame - 41, Display screen - 42, Mounting components - 43; Plug-in frame-431, assist rod-432, slider-433, pivot-434, limiting component-435, counterweight rod-436, disassembly component-437, elastic component-438; Housing-4351, positioning block-4352, sliding rod-4353, slider-4354, suction plate-4355; Rotating component - 4371, linkage component - 4372, adjusting rod - 4373, arc-shaped plug - 4374, card holder - 4375, docking block - 4376; Cylindrical component-3711, locking component-3712, turntable-3713, protrusion-3714, reset component-3715; Circular ring-7121, concave arc seat-7122, airbag-7123, contact pad-7124. Detailed Implementation

[0028] To make the technical means, creative features, objectives and effects of this invention easier to understand, the invention will be further described below in conjunction with specific embodiments.

[0029] Example 1 Please see Figures 1-4 , This invention provides a computer task management system and method. A computer task management system and method are disclosed, the structure of which includes a first auxiliary screen 1, a base 2, a second auxiliary screen 3, and a control device 4. The first auxiliary screen 1 and the second auxiliary screen 3 are symmetrically installed on the left and right sides of the control device 4, and the control device 4 is connected to the first auxiliary screen 1 and the second auxiliary screen 3 to form a symmetrical axis structure. The control device 4 is vertically fixed on the base 2.

[0030] The control device 4 is provided with an outer frame 41, a display screen 42, and a mounting component 43. The display screen 42 is embedded in the middle of the outer frame 41, and the mounting component 43 is provided on both the left and right sides of the outer frame 41.

[0031] The mounting assembly 43 includes a plug-in frame 431, assist rods 432, sliding members 433, a rotating shaft 434, a limiting assembly 435, abutting rods 436, a disassembly assembly 437, and an elastic member 438. Sliding members 433 are fixedly connected to the middle positions of both sides of the inner wall of the plug-in frame 431, and each sliding member 433 is connected to an assist rod 432. The two assist rods 432 are symmetrically arranged on both sides of the inner wall of the plug-in frame 431 via the sliding members 433, and each end of the two assist rods 432 is connected to abutting rods 436. The abutment rod 436 is arranged in a "I" shape at the inner end of the insertion frame 431, and the outer ends of the two abutment rods 436 are provided with pivots 434. The abutment rods 436 are movably connected to the inner wall of the insertion frame 431 through the pivots 434, and an elastic element 438 is connected between the insertion frame 431 and the abutment rods 436. The upper end of the abutment rod 436 will contact the bottom of the disassembly component 437, and the disassembly component 437 is located in the middle of the limiting component 435. The disassembly component 437 extends into the insertion frame 431 through the limiting component 435.

[0032] The control device 4 is equipped with a first auxiliary screen 1 and a second auxiliary screen 3 on both the left and right sides. A display screen 42 is installed inside the outer frame 41 of the control device 4. The first auxiliary screen 1 and the second auxiliary screen 3 are symmetrically arranged on the left and right sides of the control device 4 by means of the mounting component 43. A disassembly component 437 is installed at the position where the first auxiliary screen 1 and the second auxiliary screen 3 are connected to the control device 4. The disassembly component 437 extends into the insertion frame 431 through the limiting component 435. The disassembly component 437 and the assist rod 432 inside the insertion frame 431 will expand and open to abut against both sides of the disassembly component 437, effectively limiting the position of the disassembly component 437.

[0033] The first auxiliary screen 1 and the second auxiliary screen 3 are arranged on the same straight line as the control device 4, and the first auxiliary screen 1 and the second auxiliary screen 3 can be adjusted to move on the left and right sides of the control device 4.

[0034] The mounting components 43 on the left and right sides of the outer frame 41 will be fastened and connected to the first auxiliary screen 1 and the second auxiliary screen 3 respectively, so that the first auxiliary screen 1 and the second auxiliary screen 3 can be moved and adjusted on both sides of the outer frame 41 through the mounting components 43.

[0035] The plug-in frame 431 is fixedly connected to both sides of the outer frame 41, and the outer end of the disassembly component 437 is fixedly connected to the first auxiliary screen 1 and the second auxiliary screen 3. The sliding component 433 installed inside the plug-in frame 431 will assist the booster rod 432 to slide up and down to cooperate with the abutment rod 436 to adjust the opening and closing movement. The elastic component 438 connected to the lower end of the abutment rod 436 can reset it.

[0036] The limiting component 435 includes a housing 4351, a positioning block 4352, a sliding rod 4353, a slider 4354, and an adsorption sheet 4355. The upper end of the housing 4351 is equipped with a sliding rod 4353, and four sliders 4354 are installed on the sliding rod 4353 in a horizontally arranged equidistant manner. The upper ends of the four sliders 4354 are connected to the adsorption sheet 4355, and the lower ends are fixedly connected to the positioning block 4352. The positioning block 4352 can be adjusted left and right inside the housing 4351 by the sliders 4354.

[0037] The two housings 4351 are symmetrically arranged at both ends of the right side of the plug frame 431. When the disassembly component 437 extends through and into the space between the two housings 4351, the adsorption sheet 4355 will adhere to and adsorb on both sides of the disassembly component 437. The gas inside the adsorption sheet 4355 and the disassembly component 437 will be discharged, thereby adsorbing and confining the disassembly component 437.

[0038] The working principle of the above technical solution is explained below: In use, the present invention includes a first auxiliary screen 1 and a second auxiliary screen 3 mounted on both the left and right sides of the control device 4. The first auxiliary screen 1 and the second auxiliary screen 3 are aligned with the control device 4. The first auxiliary screen 1 and the second auxiliary screen 3 can be adjusted to move between the left and right sides of the control device 4. A display screen 42 is installed inside the outer frame 41 of the control device 4. The display screen 42 is electrically connected to the first auxiliary screen 1 and the second auxiliary screen 3 for mutual operation. Mounting components 43 on the left and right sides of the outer frame 41 are respectively fastened to the first auxiliary screen 1 and the second auxiliary screen 3, allowing the first auxiliary screen 1 and the second auxiliary screen 3 to be adjusted to move between the two sides of the outer frame 41 via the mounting components 43. Two plug-in frames 431... Symmetrically fixed to both sides of the outer frame 41, a disassembly assembly 437 is installed at the docking position of the first auxiliary screen 1 and the second auxiliary screen 3 with the control device 4. The other side of the disassembly assembly 437 extends into the insertion frame 431 through two limiting components 435. The anti-blocking rod 436 inside the insertion frame 431 directly contacts the bottom of the disassembly assembly 437. After being pushed, the anti-blocking rod 436 expands outward through the pivot 434. The assisting rod 432 connected to its lower end is pulled outward by the anti-blocking rod 436. The sliding member 433 installed inside the insertion frame 431 assists the assisting rod 432 to slide up and down to cooperate with the anti-blocking rod 436 for opening and closing adjustment. The elastic member 438 connected to the lower end of the anti-blocking rod 436... This mechanism can reset the device. The sliding member 433 connected to the rear end of the abutment rod 436 will move up and down in coordination with the assist rod 432. Under the action of the disassembly component 437, the abutment rod 436 and the assist rod 432 open outward simultaneously, and the disassembly component 437 will then penetrate into the insertion frame 431. The abutment rod 436 and the assist rod 432 will then press against both sides of the disassembly component 437 to limit its position. After the disassembly component 437 penetrates into the insertion frame 431, the two housings 4351 at the upper end of the insertion frame 431 will then press against both sides of the front end of the disassembly component 437. When the disassembly component 437 penetrates between the two housings 4351, the four suction plates 4355, driven by the positioning block 4352, move along the sliding rod 435. The four suction plates 4355 are adjusted to their corresponding positions by moving left and right on the 353, so that they will adhere to and be attached to both sides of the disassembly component 437. The gas inside the suction plate 4355 and the disassembly component 437 will be discharged, thereby adsorbing and confining the disassembly component 437. Under the action of the disassembly component 437, the first auxiliary screen 1 and the second auxiliary screen 3 can be engaged and connected with the plug frame 431. The first auxiliary screen 1 and the second auxiliary screen 3 will be symmetrically set on the left and right sides of the outer frame 41 to cooperate with the display screen 42. Multiple tasks can be searched by using the first auxiliary screen 1 and the second auxiliary screen 3 in conjunction with the display screen 42. The user can view the information on the front display screen in different ways.

[0039] Example 2 Please see Figures 5-7 , This invention provides a computer task management system and method. The disassembly assembly 437 includes a rotating assembly 4371, a linkage 4372, an adjusting rod 4373, an arc-shaped insert 4374, a card holder 4375, and a docking block 4376. The rotating assembly 4371 has the linkage 4372 installed at one end and the docking block 4376 fixedly connected at the other end. The end of the linkage 4372 away from the rotating assembly 4371 is fixedly connected to the card holder 4375. The arc-shaped insert 4374 is installed inside the card holder 4375, and the adjusting rod 4373 is connected through the middle of the arc-shaped insert 4374. The end of the adjusting rod 4373 away from the arc-shaped insert 4374 extends through the linkage 4372 to be fixedly connected to the rotating assembly 4371.

[0040] The card holder 4375 and the linkage 4372 are fixedly connected to form a rectangular structure. The arc-shaped plug 4374 installed inside the card holder 4375 is provided with multiple equally spaced slots. When the adjusting rod 4373 swings left and right, it will move and adjust inside the arc-shaped plug 4374. After being adjusted to the corresponding position, the adjusting rod 4373 will penetrate into the slot inside the arc-shaped plug 4374 to play a limiting role.

[0041] The rotating assembly 4371 includes a cylinder 3711, a locking member 3712, a turntable 3713, a protrusion 3714, and a reset member 3715. The cylinder 3711 is fitted and connected to the locking member 3712, and the locking member 3712 is engaged and connected to the turntable 3713. The reset member 3715 is connected to multiple recesses inside the turntable 3713, and the end of the reset member 3715 away from the turntable 3713 is connected to the protrusion 3714. The upper end of the protrusion 3714 is connected to the locking member 3712 through the reset member 3715.

[0042] The cylinder 3711 and the locking member 3712 are connected and installed on the linkage member 4372. The turntable 3713 is engaged and connected to the outside of the locking member 3712. The docking blocks 4376 and the adjusting rods 4373 connected to the left and right sides of the turntable 3713 will be driven to swing left and right for adjustment.

[0043] The locking component 3712 is provided with a ring 7121, a concave arc seat 7122, an air bladder 7123, and a contact pad 7124. The upper end of the ring 7121 is provided with a plurality of concave arc seats 7122 arranged in a ring at equal intervals. The multiple concave arc seats 7122 are provided with air bladders 7123 connected to them, and the contact pads 7124 are attached to the inner arc surface of the concave arc seats 7122.

[0044] The ring 7121 is engaged with the turntable 3713. Under the action of the reset member 3715, the protrusion 3714 on the turntable 3713 will contact the concave arc seat 7122. The air bladder 7123 and the contact pad 7124 inside the concave arc seat 7122 will expand under force to wrap around the protrusion 3714 and limit the movement of the turntable 3713.

[0045] The working principle of the above technical solution is explained below: In use, the card holder 4375 and the linkage 4372 are fixedly connected to form a rectangular structure. The arc-shaped insert 4374 installed inside the card holder 4375 has multiple equidistantly spaced locking slots. When the adjusting rod 4373 swings left and right in conjunction with the turntable 3713, it will move and adjust within the arc-shaped insert 4374. The turntable 3713 is installed at one end of the linkage 4372, and a docking block 4376 is installed at the other end of the turntable 3713. The adjusting rod 4373, which is symmetrically connected to the docking block 4376 and the linkage 4372, will move accordingly. The cylinder 3711 is mounted on the left and right sides of the turntable 3713, which is engaged with the outside of the locking member 3712. The cylinder 3711 is connected to the locking member 3712 and mounted on the linkage member 4372. The docking blocks 4376 and adjusting rods 4373 connected to the left and right sides of the turntable 3713 will be driven to swing left and right for adjustment. The first auxiliary screen 1 and the second auxiliary screen 3 will be fixedly connected to the docking blocks 4376, so that the first auxiliary screen 1 and the second auxiliary screen 3 can be adjusted by the turntable 3713 through the docking blocks 4376. The turntable 3713 is mounted on the locking member 3712. When the turntable 3713 rotates, the protrusion 3714 on the turntable 3713 will be driven to rotate simultaneously. Under the action of the reset member 3715, the protrusion 3714 will move up and down to adjust. After the turntable 3713 is adjusted to a certain position, the protrusion 3714 on it will move under the action of the reset member 3715 and press against the concave arc seat 7122 on the ring 7121 of the locking member 3712. The air bladder 7123 and the contact pad 7124 inside the concave arc seat 7122 will expand under the force to wrap around the protrusion 3714 and limit the movement of the turntable 3713. The adjustment rod 4373 connected to the rear end of the turntable 3713 will swing and adjust to the corresponding position inside the arc-shaped plug 4374. Then, the adjustment rod 4373 will penetrate into the slot inside the arc-shaped plug 4374 to limit the position. This, together with the locking piece 3712, allows the position of the turntable 3713 to be adjusted. This allows the first auxiliary screen 1 and the second auxiliary screen 3 to be adjusted in angle on both sides of the outer frame 41, avoiding the angle of the first auxiliary screen 1 and the second auxiliary screen 3 being limited. This effectively improves the usability of the device and thus improves the query effect of computer tasks.

[0046] The foregoing has shown and described the basic principles, main features, and advantages of the present invention. It will be apparent to those skilled in the art that the invention is not limited to the details of the exemplary embodiments described above, and that the invention can be implemented in other specific forms without departing from its spirit or essential characteristics. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of the invention is defined by the appended claims rather than the foregoing description. Thus, all variations falling within the meaning and scope of equivalents of the claims are intended to be included within the scope of the invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

[0047] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.

Claims

1. A computer task management system and method, comprising a first auxiliary screen (1), a base (2), a second auxiliary screen (3), and a control device (4), wherein the first auxiliary screen (1) and the second auxiliary screen (3) are symmetrically mounted on the left and right sides of the control device (4), and the control device (4) is connected to the first auxiliary screen (1) and the second auxiliary screen (3) to form a symmetrical axis structure, and the control device (4) is vertically fixed on the base (2), characterized in that: The control device (4) is provided with an outer frame (41), a display screen (42), and a mounting component (43). The display screen (42) is embedded in the middle of the outer frame (41), and the mounting components (43) are provided on both the left and right sides of the outer frame (41). The mounting assembly (43) includes a plug-in frame (431), assist rods (432), sliding members (433), a rotating shaft (434), a limiting component (435), abutting rods (436), a disassembly assembly (437), and an elastic member (438). Sliding members (433) are fixedly connected to the middle positions of both sides of the inner wall of the plug-in frame (431), and assist rods (432) are connected to both sliding members (433). The two assist rods (432) are symmetrically arranged on both sides of the inner wall of the plug-in frame (431) via the sliding members (433), and abutting rods (436) are connected to the ends of both assist rods (432). The anti-blocking rod (436) is arranged in a "I" shape at the inner end of the plug-in frame (431), and the outer ends of the two anti-blocking rods (436) are provided with pivots (434). The anti-blocking rod (436) is movably connected to the inner wall of the plug-in frame (431) through the pivots (434), and an elastic element (438) is connected between the plug-in frame (431) and the anti-blocking rod (436). The upper end of the anti-blocking rod (436) will contact the bottom of the disassembly component (437), and the disassembly component (437) is located in the middle position of the limiting component (435). The disassembly component (437) extends into the interior of the plug-in frame (431) through the limiting component (435). The control device (4) is equipped with a first auxiliary screen (1) and a second auxiliary screen (3) on both the left and right sides. The outer frame (41) of the control device (4) is equipped with a display screen (42) for use. The first auxiliary screen (1) and the second auxiliary screen (3) are symmetrically arranged on the left and right sides of the control device (4) by the installation component (43). The disassembly component (437) is installed at the position where the first auxiliary screen (1) and the second auxiliary screen (3) are connected to the control device (4). The disassembly component (437) is inserted into the plug frame (431) through the limiting component (435). The disassembly component (437) and the assist rod (432) inside the plug frame (431) will expand and open to abut against both sides of the disassembly component (437), effectively limiting the position of the disassembly component (437).

2. The computer task management system and method according to claim 1, characterized in that: The first auxiliary screen (1) and the second auxiliary screen (3) are set on the same straight line as the control device (4). The first auxiliary screen (1) and the second auxiliary screen (3) can be adjusted to move on the left and right sides of the control device (4).

3. The computer task management system and method according to claim 1, characterized in that: The mounting components (43) on the left and right sides of the outer frame (41) will be fastened to the first auxiliary screen (1) and the second auxiliary screen (3) respectively, so that the first auxiliary screen (1) and the second auxiliary screen (3) can be adjusted on both sides of the outer frame (41) through the mounting components (43).

4. The computer task management system and method according to claim 1, characterized in that: The side of the plug-in frame (431) is fixedly connected to both sides of the outer frame (41), and the outer end of the disassembly component (437) is fixedly connected to the first auxiliary screen (1) and the second auxiliary screen (3). The sliding part (433) installed inside the plug-in frame (431) will assist the booster rod (432) to slide up and down to cooperate with the abutment rod (436) to adjust the opening and closing activities. The elastic part (438) connected to the lower end of the abutment rod (436) can reset it.

5. The computer task management system and method according to claim 1, characterized in that: The limiting component (435) includes a housing (4351), a positioning block (4352), a sliding rod (4353), a slider (4354), and an adsorption sheet (4355). The upper end of the housing (4351) is equipped with a sliding rod (4353), and four sliders (4354) are installed on the sliding rod (4353) arranged horizontally at equal intervals. The upper ends of the four sliders (4354) are connected to the adsorption sheet (4355), and the lower ends are fixedly connected to the positioning block (4352). The positioning block (4352) can be adjusted left and right inside the housing (4351) by the sliders (4354). The two housings (4351) are symmetrically arranged at both ends of the right side of the plug frame (431). When the disassembly component (437) penetrates between the two housings (4351), the adsorption sheet (4355) will adhere to and adsorb on both sides of the disassembly component (437). The gas inside the adsorption sheet (4355) and the disassembly component (437) will be discharged, thereby adsorbing and confining the disassembly component (437).

6. The computer task management system and method according to claim 1, characterized in that: The disassembly assembly (437) includes a rotating assembly (4371), a linkage (4372), an adjusting rod (4373), an arc-shaped insert (4374), a card holder (4375), and a docking block (4376). The rotating assembly (4371) has a linkage (4372) installed at one end and a docking block (4376) fixedly connected at the other end. The end of the linkage (4372) away from the rotating assembly (4371) is fixedly connected to the card holder (4375). The card holder (4375) has an arc-shaped insert (4374) installed inside, and an adjusting rod (4373) is connected through the middle of the arc-shaped insert (4374). The end of the adjusting rod (4373) away from the arc-shaped insert (4374) extends through the linkage (4372) to be fixedly connected to the rotating assembly (4371). The card holder (4375) and the linkage (4372) are fixedly connected to form a rectangular structure. The arc-shaped plug (4374) installed inside the card holder (4375) is provided with multiple equally spaced slots. When the adjusting rod (4373) swings left and right, it will move and adjust inside the arc-shaped plug (4374). After adjusting to the corresponding position, the adjusting rod (4373) will penetrate into the slot inside the arc-shaped plug (4374) to play a limiting role.

7. The computer task management system and method according to claim 6, characterized in that: The rotating assembly (4371) includes a cylinder (3711), a locking member (3712), a turntable (3713), a protrusion (3714), and a reset member (3715). The cylinder (3711) is fitted with the locking member (3712), and the locking member (3712) is engaged with the turntable (3713). The turntable (3713) has multiple recesses connected to the reset member (3715), and the reset member (3715) is away from the turntable (3713). One end of the turntable (3713) is connected to the protrusion (3714). The upper end of the protrusion (3714) is connected to the locking member (3712) through the reset member (3715). The cylinder (3711) is connected to the locking member (3712) and installed on the linkage member (4372). The turntable (3713) is engaged with the outside of the locking member (3712). The docking block (4376) and the adjusting rod (4373) connected to the left and right sides of the turntable (3713) will be driven to swing left and right for adjustment.

8. The computer task management system and method according to claim 7, characterized in that: The locking component (3712) is provided with a ring (7121), a concave arc seat (7122), an air bladder (7123), and a contact pad (7124). The upper end of the ring (7121) is provided with a plurality of concave arc seats (7122) arranged in a ring at equal intervals. The concave arc seats (7122) are provided with air bladders (7123) connected to them, and the contact pad (7124) is attached to the inner arc surface of the concave arc seat (7122). The ring (7121) engages with the turntable (3713). The protrusion (3714) on the turntable (3713) will engage with the concave arc seat (7122) under the action of the reset member (3715). The air bladder (7123) and contact pad (7124) inside the concave arc seat (7122) will expand under force to wrap around the protrusion (3714) and limit the movement of the turntable (3713).