阅读说明：本技术 一种基于边缘计算网络的任务调度设备 (Task scheduling equipment based on edge computing network ) 是由 张金学 徐天奕 崔庆耀 谢安琪 张拓 于 2021-08-09 设计创作，主要内容包括：本发明提供一种基于边缘计算网络的任务调度设备,其结构包括,连接槽、机箱、开关孔、控制端、散热槽,连接槽与机箱为一体,开关孔嵌入于机箱的侧端,控制端安装于开关孔的下方,散热槽与控制端进行通电连接,机箱与散热槽进行通电连接,本发明由机箱改进后新增的转轮活动叶与扩张装置能有效的在设备进行工作时活动叶随着转轮的旋转进行活动,同时带动扩张装置将信号环进行扩大,以至于增强信号的接收效果,同时根据子母杆的相互配合下能大幅度的提升信号环的扩张活动性防止卡死现象的产生,并且通过子杆顶端装有的提升块能对后续信号环的定位与拆卸养护起到相应的便利性。(The invention provides a task scheduling device based on an edge computing network, which structurally comprises a connecting groove, a case, a switch hole, a control end and a radiating groove, wherein the connecting groove and the case are integrated, the switch hole is embedded in the side end of the case, the control end is arranged below the switch hole, the radiating groove is in power-on connection with the control end, and the case is in power-on connection with the radiating groove. Meanwhile, the expanding device is driven to expand the signal ring so as to enhance the receiving effect of the signal, and the expanding activity of the signal ring can be greatly improved according to the mutual matching of the primary and secondary rods so as to prevent the jamming phenomenon, and the lifting block arranged at the top end of the sub-rod can be used for achieving corresponding convenience in positioning, dismounting and maintaining of the subsequent signal ring.)

1. The utility model provides a task scheduling equipment based on edge computing network, its structure includes connecting groove (1), quick-witted case (2), switch hole (3), control end (4), radiating groove (5) its characterized in that: the connecting groove (1) and the case (2) are integrated, the switch hole (3) is embedded into the side end of the case (2), the control end (4) is installed below the switch hole (3), the heat dissipation groove (5) is in power-on connection with the control end (4), and the case (2) is in power-on connection with the heat dissipation groove (5);

the improved structure of the fan is characterized in that a shell (21), a mounting groove (22), a rotating wheel (23), movable blades (24) and an expansion device (25) are arranged at the side end of the case (2), the shell (21) and the mounting groove (22) are integrated, the rotating wheel (23) is embedded into the circle center of the mounting groove (22), the movable blades (24) are movably connected with the rotating wheel (23), the expansion device (25) is movably connected with the movable blades (24), the expansion device (25) is communicated with a heat dissipation groove (5) and is matched with the heat dissipation groove in a heat dissipation mode, the expansion device (25) is electrically connected with the case (2), the expansion device (25) is installed below the side edge of the connecting groove (1), and the expansion device (25) is electrically connected with the switch hole (3).

2. The task scheduling device based on the edge computing network as claimed in claim 1, wherein: the expansion device (25) is provided with a connecting hole (251), a groove (252), a connecting shaft (253), a lifter (254) and a signal ring (255), the connecting hole (251) and the groove (252) are integrated, the connecting shaft (253) is fixedly connected with the groove (252), the lifter (254) is embedded into the connecting shaft (253), the signal ring (255) is connected with the lifter (254) in an expansion mode, and the lifter (254) is movably connected with the rotating wheel (23).

3. The task scheduling device based on the edge computing network as claimed in claim 2, wherein: the lifter (254) is equipped with location body (a 1), base (a 2), female pole (a 3), son pole (a 4), promotes piece (a 5), location body (a 1) upper end and base (a 2) carry out the location and are connected, female pole (a 3) are embedded in base (a 2), son pole (a 4) carry out clearance fit with female pole (a 3), promote piece (a 5) and install in the upper end both sides of son pole (a 4), promote piece (a 5) and signal ring (255) and carry out fixed connection.

4. The task scheduling device based on the edge computing network as claimed in claim 3, wherein: the lifting block (a 5) is provided with an insertion block (a 51), a fixing groove (a 52) and a snap ring (a 53), the insertion block (a 51) and the fixing groove (a 52) are integrated, the snap ring (a 53) is embedded into the fixing groove (a 52), and the snap ring (a 53) is connected with the sub-rod (a 4) in a clamping mode.

5. The task scheduling device based on the edge computing network as claimed in claim 4, wherein: the snap ring (a 53) is provided with an interlayer (b 1), a control rod (b 2) and a penetrating layer (b 3), the interlayer (b 1) is movably connected with the control rod (b 2), the penetrating layer (b 3) is communicated with the interlayer (b 1), and the penetrating layer (b 3) is in clearance fit with the fixing groove (a 52).

6. The task scheduling device based on the edge computing network as claimed in claim 3, wherein: base (a 2) is equipped with rotor (a 21), slide bar (a 22), sunken piece (a 23), rotor (a 21) and slide bar (a 22) carry out swing joint, sunken piece (a 23) carries out clearance fit with slide bar (a 22), slide bar (a 22) and female pole (a 3) carry out swing joint.

7. The task scheduling device based on the edge computing network as claimed in claim 6, wherein: the sliding rod (a 22) is provided with a connecting shaft (c 1), a limiting rod (c 2), a connecting wheel (c 3) and a lifting shaft (c 4), the connecting shaft (c 1) is fixedly connected with the limiting rod (c 2), the connecting wheel (c 3) is embedded into the lower end of the limiting rod (c 2), the lifting shaft (c 4) is installed below the connecting wheel (c 3), the lifting shaft (c 4) is communicated with the rotating body (a 21), and the lifting shaft (c 4) is in clearance fit with the concave block (a 23).

8. The task scheduling device based on the edge computing network as claimed in claim 7, wherein: the lifting shaft (c 4) is provided with a ball (c 41), a support plate (c 42) and a sliding rail (c 43), the ball (c 41) is movably connected with the support plate (c 42), the sliding rail (c 43) is embedded into the support plate (c 42), and the sliding rail (c 43) is communicated with a connecting wheel (c 3).

Technical Field

The invention relates to the field of network task scheduling, in particular to a task scheduling device based on an edge computing network.

Background

The computer network task scheduling equipment effectively schedules schedulable task blocks through the system flexibility of the computer network task scheduling equipment and the convenience performance of the network, executes computing tasks by edge nodes, designs a matching system of corresponding scheduling, classifies characteristics and realizes the optimal scheduling of the computing tasks;

in summary, the present inventors found that the following defects mainly exist in the existing scheduling device: as the whole dispatching equipment is in a cuboid case state, signals covered by the dispatching equipment have corresponding range limitation, so that along with the gradual increase of information quantity and dispatching task transmission quantity, the existing signal strength is not enough to support a large number of dispatching tasks for calculation, and the calculation speed of the tasks can be directly and greatly reduced, and the phenomena of data blockage and the like are generated.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: the utility model provides a task scheduling equipment based on edge computing network, its structure includes spread groove, quick-witted case, switch hole, control end, radiating groove, the spread groove is as an organic whole with quick-witted case, the switch hole is embedded in the side of quick-witted case, the control end is installed in the below in switch hole, the radiating groove carries out the circular telegram with the control end and is connected, quick-witted case and radiating groove carry out the circular telegram and are connected.

The expansion device is characterized in that a shell, a mounting groove, a rotating wheel, a movable blade and an expansion device are arranged at the side end of the case, the shell and the mounting groove are integrated, the rotating wheel is embedded in the circle center of the mounting groove, the movable blade is movably connected with the rotating wheel, the expansion device is movably connected with the movable blade, the expansion device is communicated with the heat dissipation groove and is in heat dissipation fit with the heat dissipation groove, the expansion device is in power-on connection with the case, the expansion device 25 is arranged below the side edge of the connecting groove 1, the expansion device 25 is in power-on connection with the switch hole 3, and the expansion device is in a circular state and can move along with the movement of the movable blade.

As a further improvement of the invention, the expansion device is provided with a connecting hole, a groove, a connecting shaft, a lifter and a signal ring, the connecting hole and the groove are integrated, the connecting shaft and the groove are fixedly connected, the lifter is embedded in the connecting shaft, the signal ring is connected with the lifter in an expansion way, the lifter is movably connected with the rotating wheel, and the outer side of the connecting shaft is provided with a plurality of lifters which can fix the inner side of the signal ring.

As a further improvement of the invention, the lifter is provided with a positioning body, a base, a female rod, a male rod and a lifting block, the upper end of the positioning body is connected with the base in a positioning manner, the female rod is embedded in the base, the male rod and the female rod are in clearance fit, the lifting block is arranged on two sides of the upper end of the male rod and fixedly connected with a signal ring, the positioning body is in a circular solid state, the female rod and the base have corresponding clearance effects, and meanwhile, a plurality of balls are arranged on the outer side of the male rod, so that the lifting block is respectively arranged on two sides of the top end of the male rod to form a symmetrical state.

As a further improvement of the invention, the lifting block is provided with an inserting block, a fixing groove and a clamping ring, the inserting block and the fixing groove are integrated, the clamping ring is embedded into the fixing groove, the clamping ring is in clamping connection with the sub-rod, the inserting block is in a triangular solid state, the fixing groove has corresponding toughness, and a plurality of clamping rings are arranged in the self space.

As a further improvement of the invention, the clamping ring is provided with an interlayer, a control rod and a penetrating layer, the interlayer is movably connected with the control rod, the penetrating layer is communicated with the interlayer, the penetrating layer is in clearance fit with the fixing groove, and the interlayer is composed of double-layer gaskets, so that the control rod has a corresponding telescopic effect, and the penetrating layer is in a hollow state.

As a further improvement of the invention, the base is provided with a rotating body, a sliding rod and a concave block, the rotating body is movably connected with the sliding rod, the concave block is in clearance fit with the sliding rod, the sliding rod is movably connected with the female rod, and the rotating body is provided with five sliding rods and has corresponding clearances.

As a further improvement of the invention, the sliding rod is provided with a connecting shaft, a limiting rod, a connecting wheel and a lifting shaft, the connecting shaft is fixedly connected with the limiting rod, the connecting wheel is embedded into the lower end of the limiting rod, the lifting shaft is arranged below the connecting wheel, the lifting shaft is communicated with the rotating body, the lifting shaft is in clearance fit with the recessed block, and the two sides of the lifting shaft are provided with corresponding fixed blocks.

As a further improvement of the invention, the lifting shaft is provided with a ball, a support plate and a slide rail, the ball is movably connected with the support plate, the slide rail is embedded in the support plate, the slide rail is communicated with the connecting wheel, and the support plate is triangular.

Compared with the prior art, the invention has the following beneficial effects:

1. the rotating wheel movable blade and the expanding device which are newly added after the machine case is improved can effectively move along with the rotation of the rotating wheel when the equipment works, simultaneously drive the expanding device to expand the signal ring so as to enhance the receiving effect of the signal, simultaneously can greatly improve the expanding activity of the signal ring according to the mutual matching of the primary and secondary rods so as to prevent the generation of the blocking phenomenon, and can achieve corresponding convenience for the positioning, the dismounting and the maintenance of the subsequent signal ring through the lifting block arranged at the top end of the secondary rod.

2. After the base is further improved, the base can be held according to the toughness and the bending folding performance of the primary and secondary rods, the secondary rods can be effectively and continuously pulled by driving the sliding rods through the rotating body in the subsequent resetting process, so that the effect of accumulating the primary and secondary rods is achieved, and the corresponding limiting effect on the subsequent movement can be achieved through the lifting shafts arranged on the sliding rods according to the self sliding rails.

Drawings

Fig. 1 belongs to a schematic structural diagram of a task scheduling device based on an edge computing network.

Fig. 2 is a front view of a side frame with components.

Fig. 3 is a sectional view of an expanding device.

Fig. 4 is a front view of the elevator.

Fig. 5 is a schematic structural diagram of an elevation block of the whole.

Fig. 6 is a schematic structural view of a snap ring in section.

Fig. 7 is a schematic structural view of a modified base.

Fig. 8 is a schematic structural diagram of a slide bar in front view.

Fig. 9 is a front view of a lifting shaft with components.

In the figure: connecting groove-1, case-2, switch hole-3, control end-4, heat dissipation groove-5, shell-21, mounting groove-22, rotating wheel-23, movable blade-24, expansion device-25, connecting hole-251, groove-252, connecting shaft-253, lifter-254, signal ring-255, positioning body-a 1, base-a 2, female rod-a 3, sub-rod-a 4, lifting block-a 5, insertion block-a 51, fixing groove-a 52, snap ring-a 53, interlayer-b 1, control rod-b 2, penetrating layer-b 3, rotating body-a 21, sliding rod-a 22, recess block-a 23, connecting shaft-c 1, limiting rod-c 2, connecting wheel-c 3, lifting shaft-c 4, ball-c 41, and lifting device-b 22, Support plate-c 42, slide rail-c 43.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

fig. 1 to 6 show:

the invention provides a task scheduling device based on an edge computing network,

the structure of the novel switch comprises a connecting groove 1, a case 2, a switch hole 3, a control end 4 and a radiating groove 5, wherein the connecting groove 1 and the case 2 are integrated, the switch hole 3 is embedded into the side end of the case 2, the control end 4 is installed below the switch hole 3, the radiating groove 5 is in power-on connection with the control end 4, and the case 2 is in power-on connection with the radiating groove 5.

The side end of the case 2 is provided with a shell 21, a mounting groove 22, a rotating wheel 23, a movable blade 24 and an expansion device 25, the shell 21 and the mounting groove 22 are integrated, the rotating wheel 23 is embedded in the center of the mounting groove 22, the movable vane 24 is movably connected with the rotating wheel 23, the expansion device 25 is movably connected with the movable vane 24, the expansion device 25 is communicated with the heat dissipation groove 5 and performs heat dissipation matching, the expansion device 25 is electrically connected with the case 2, the expansion device 25 is arranged below the side edge of the connecting groove 1, the expansion device 25 is electrically connected with the switch hole 3, the expansion device 25 is in a circular shape, and can move along with the movement of the movable blade 24, the expansion device 25 can directly form 360 degrees expansion to achieve the effect of lifting range through the self circular shape, and the movement of the expansion device 25 can be accelerated by the movement of the movable blade 24.

The expanding device 25 is provided with a connecting hole 251, a groove 252, a connecting shaft 253, a lifter 254 and a signal ring 255, the connecting hole 251 and the groove 252 are integrated, the connecting shaft 253 is fixedly connected with the groove 252, the lifter 254 is embedded in the connecting shaft 253, the signal ring 255 is connected with the lifter 254 in an expanding manner, the lifter 254 is movably connected with the rotating wheel 23, the plurality of lifters 254 are arranged on the outer side of the connecting shaft 253 and can fix the inner side of the signal ring 255, and the connecting shaft 253 can uniformly expand the signal ring 255 through the plurality of lifters 254 on the outer side, so that a stabilizing effect is achieved.

Wherein the lifter 254 is provided with a positioning body a1, a base a2, a mother rod a3, a son rod a4 and a lifting block a5, the upper end of the positioning body a1 is connected with a base a2 in a positioning way, the female rod a3 is embedded in the base a2, the sub-rod a4 is in clearance fit with the female rod a3, the lifting blocks a5 are arranged at both sides of the upper end of the sub-rod a4, the lifting block a5 is fixedly connected with the signal ring 255, the positioning body a1 is in a circular solid state, the female rod a3 and the base a2 have corresponding clearance effect, meanwhile, a plurality of balls are arranged outside the sub-rod a4, so that the lifting block a5 is respectively provided with a block at the two sides of the top end of the sub-rod a4 to form a symmetrical state, the positioning body a1 can be positioned at the origin through a round solid state, and the clearance between the female rod a3 and the base a2 can prevent the occurrence of the clamping phenomenon, and the plurality of balls of the sub-rod a4 can greatly improve the telescopic effect, so that the symmetrical state of the lifting block a5 can improve the positioning effect of each component.

The lifting block a5 is provided with an insertion block a51, a fixing groove a52 and a snap ring a53, the insertion block a51 and the fixing groove a52 are integrated, the snap ring a53 is embedded into the fixing groove a52, the snap ring a53 is connected with the sub-rod a4 in a clamping mode, the insertion block a51 is in a triangular solid state, the fixing groove a52 has corresponding toughness, a plurality of snap rings a53 are arranged in the self space, the insertion block a51 can be effectively fixed in a specific position through the triangular solid state, and the toughness of the fixing groove a52 can enhance the fixing effect of the snap ring a 53.

The snap ring a53 is provided with an interlayer b1, a control rod b2 and a penetrating layer b3, the interlayer b1 is movably connected with the control rod b2, the penetrating layer b3 is communicated with the interlayer b1, the penetrating layer b3 is in clearance fit with the fixing groove a52, the interlayer b1 is composed of a double-layer gasket, so that the control rod b2 has a corresponding telescopic effect, the penetrating layer b3 is in a hollow state, the double-layer gasket of the interlayer b1 can effectively perform omnibearing positioning on two sides of a component to prevent an offset phenomenon, and the telescopic rod b2 can directly control the gasket, so that the penetrating layer b3 can guide the clamping position of the component to be deeply clamped.

The specific functions and operation flow of this embodiment are as follows:

in the invention, a computer network dispatching device can position a case 2 at an original point through a connecting groove 1 of the computer network dispatching device, so that the starting of a main power supply can be controlled through a switch hole 3, a control end 4 is connected into a corresponding component and can directly transmit and calculate corresponding task data, when the tasks are increased gradually, a rotating wheel 23 of the case 2 can drive a movable blade 24 to move so as to achieve the effect of expanding heat dissipation and drive an expanding device 25 to be connected with a lifter 254 of a shaft 253, the lifter 254 can directly expand a signal ring 255 to a large extent under the extending effect of a base a2 on a mother rod a3 and a son rod a4 so as to increase the receiving range and the transmission range of signals, and a lifting block a5 arranged at the top end of the son rod a4 can fix the inner side of the signal ring 255 at the original point, so that the lifting block a5 can clamp the signal ring 255 according to an interlayer b1 of the computer network through a clamping ring a53 in a52 of the computer network dispatching device, reach fixed effect, to sum up the problem that can effectual solution signal coverage under mutually supporting through each part has been absolutely data calculation and transmission card pause, phenomenon such as slow down, has promoted the positioning effect and the subsequent maintenance effect of dismantling of signal ring 255 simultaneously.

Example 2:

fig. 7 to 9 show:

the invention provides a task scheduling device based on an edge computing network,

the structure of the device comprises that a base a2 is provided with a rotating body a21, a sliding rod a22 and a concave block a23, the rotating body a21 is movably connected with a sliding rod a22, the concave block a23 is in clearance fit with the sliding rod a22, the sliding rod a22 is movably connected with a female rod a3, the sliding rod a22 is provided with five sliding rods on the rotating body a21 and has corresponding clearances, and the five sliding rods a22 on the rotating body a21 can play a corresponding stabilizing effect on the traction of each component and position the component in the rotating body a 21.

The sliding rod a22 is provided with a connecting shaft c1, a limiting rod c2, a connecting wheel c3 and a lifting shaft c4, the connecting shaft c1 is fixedly connected with the limiting rod c2, the connecting wheel c3 is embedded into the lower end of the limiting rod c2, the lifting shaft c4 is installed below the connecting wheel c3, the lifting shaft c4 is communicated with the rotating body a21, the lifting shaft c4 is in clearance fit with the concave block a23, corresponding fixing blocks are installed on two sides of the lifting shaft c4, and the fixing blocks on two sides of the lifting shaft c4 can effectively position the self at the original point.

The lifting shaft c4 is provided with a ball c41, a support plate c42 and a slide rail c43, the ball c41 is movably connected with the support plate c42, the slide rail c43 is embedded in the support plate c42, the slide rail c43 is communicated with a connecting wheel c3, the support plate c42 is triangular, and the support plate c42 can effectively limit the range of the slide rail c43 and balance the moving effect of the ball c41 through the triangular shape.

The specific functions and operation flow of this embodiment are as follows:

in the invention, under the basic action of embodiment 1, after the base a2 is further improved, the slide bar a22 can be driven to rotate according to the rotor a21, so that the whole body of the concave block a23 can be positioned at the original point, the toughness and the bending folding performance of the primary and secondary rods can be driven by the rotor a21 and the slide rail a22 under the holding, the connecting wheel c3 of the slide bar a22 can continuously pull the primary and secondary rods into the primary and secondary summarizing space for storage, the moving speed and the summarizing speed of the primary and secondary rods can be increased according to the lifting shaft c4, so that the lifting shaft c4 can rotate at a fixed point according to the movement of the primary and secondary rods according to the ball c41, so that the support plate c42 limits the range of the slide rail c43, limits the subsequent moving range to prevent the offset phenomenon generated in continuous movement, and the mutual cooperation of the components can effectively summarize and store the primary and secondary rods after the reset to prevent the existing obstruction generated by overlarge volume Like and play corresponding spacing effect for subsequent activity.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.