CN113175592B

CN113175592B - Intelligent control experiment platform device for power system

Info

Publication number: CN113175592B
Application number: CN202110416740.3A
Authority: CN
Inventors: 王学斌
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-19
Filing date: 2021-04-19
Publication date: 2022-12-27
Anticipated expiration: 2041-04-19
Also published as: CN113175592A

Abstract

The invention discloses an intelligent control experiment platform device for a power system, which comprises an experiment platform main body, a rotating disc, a supporting body, a computer display and a regulating and positioning mechanism, wherein the rotating disc is arranged on the experiment platform main body; the experiment platform device designed by the invention can be well adjusted in the horizontal direction and the vertical direction of the computer display through the arranged experiment platform main body, the rotating disc, the supporting body and the regulating and positioning mechanism, so that the adjustment can be carried out according to the actual operation requirements of workers, the fact that the workers can read information fed back on the computer display in time is ensured, the operation of the workers is facilitated, the operation control accuracy of the experiment platform device is improved, unnecessary misoperation is avoided, the work efficiency is improved, and the operation quality is ensured.

Description

Intelligent control experiment platform device for power system

Technical Field

The invention relates to the technical field of intelligent power system equipment, in particular to an intelligent control experiment platform device for a power system.

Background

An intelligent power System (SPS), which is a concept proposed by professor Lu Jiang of the national focus laboratory of the Power System of Qinghua university; the power system with the multi-index self-optimizing operation capability is called an intelligent power system; the intelligent power system is a novel modern power system which integrates advanced sensing measurement, information communication, automatic control, novel materials, advanced energy storage and other technologies with infrastructure of each link of power generation, transmission, distribution and utilization and scheduling in the power system, has the comprehensive, whole-process and whole-element intelligent monitoring, diagnosis, communication, control, decision and self-healing capabilities, can bear large-scale renewable energy power generation and distributed energy power generation internet surfing, and has multi-index self-optimization-trend running capability, high informatization, automation and interaction.

The invention provides an intelligent control experiment platform device of an electric power system, which is used for solving the problems that in the actual operation process, a worker is required to observe a computer and carry out control operation at the same time, the computer on the existing control experiment platform is fixedly arranged and cannot be correspondingly adjusted, so that the inconvenience is brought to the operation control of the worker, the error is possibly caused, and the working efficiency is reduced.

Disclosure of Invention

The invention aims to provide an intelligent control experiment platform device for a power system, which is used for solving the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the invention relates to an intelligent control experiment platform device for an electric power system, which comprises an experiment platform main body, a rotating disc, a supporting body, a computer display and a regulation and positioning mechanism, wherein the rotating disc is arranged on the experiment platform main body;

a first movable groove is formed in the experiment platform main body, a rotating disc is movably arranged in the first movable groove, first rolling balls are embedded and arranged at the bottom end of the rotating disc at equal intervals, a fixed body is arranged at the other end of the rotating disc, and a first transmission gear is sleeved and arranged on the outer side wall of the rotating disc;

a second transmission gear is meshed and connected with one side of the first transmission gear, is movably arranged in the second movable groove, is embedded with second rolling balls at equal intervals, and is provided with a control knob at the other end;

a third transmission gear is movably arranged in the fixed body, a first extrusion arc-shaped chute is arranged on the third transmission gear, one side of the third transmission gear is meshed and connected with a transmission toothed plate, a first movable extrusion column is movably arranged at the side position of the third transmission gear in the fixed body, one end of the first movable extrusion column is movably arranged in the first extrusion arc-shaped chute, the other end of the first movable extrusion column is provided with a supporting body, the upper end surface of the supporting body is fixedly connected with a computer display through a screw, first reset springs are symmetrically arranged on the supporting body, and the other end of each first reset spring is arranged in the fixed body;

a second movable extrusion column is arranged at one end of the transmission toothed plate, a second reset spring is arranged at the end, connected with the second movable extrusion column, of the transmission toothed plate, the other end of the second movable extrusion column is movably arranged in a second extrusion arc-shaped chute, the second extrusion arc-shaped chute is arranged at one end of a movable cylinder, an insert shaft is arranged at the other end of the movable cylinder, and a hand wheel is arranged at the other end of the insert shaft;

the adjusting and positioning mechanism is arranged on the fixed body and is arranged at the side position of the hand wheel.

Preferably, regulation and control positioning mechanism includes set dish, activity locking fixture block, fixed spacing ring, fixed block, fly leaf, extrusion chute, first activity extrusion piece, second activity extrusion piece, first extrusion lug, activity circle piece, second extrusion lug, rotation flange, the set dish cup joints and sets up on the plug spindle to set up equidistantly in the set dish and be provided with the standing groove, the activity is provided with activity locking fixture block in the standing groove, and activity locking fixture block one end is provided with the extrusion spring, and the extrusion spring other end sets up in the standing groove, fixed spacing ring sets up the avris position at the set dish to one side integrated into one piece of fixed spacing ring is provided with the fixed block, the activity is provided with the fly leaf in the fixed block, and the one end symmetry of fly leaf is provided with the third reset spring, and one side of fly leaf is provided with the extrusion chute, the activity of first activity extrusion piece one end sets up in the extrusion chute, and the other end is provided with the second activity extrusion piece, and the second activity extrusion piece is pegged graft and is set up in square slot, and the first activity extrusion piece is provided with the fourth reset spring at the opposite side of second activity extrusion piece looks link, the opposite side of first activity extrusion lug, the movable extrusion piece is provided with the second extrusion lug.

Preferably, the second transmission gear and the first transmission gear are arranged at the corresponding positions and the same in number, and the tooth form angle coefficients and the modulus of the second transmission gear and the first transmission gear are arranged at the same positions and the same in number.

Preferably, the second movable extrusion block corresponds to the movable locking fixture block in position, and the cross sections of the two ends are the same in shape, that is, the corresponding side lengths of the two cross sections are equal.

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

according to the experiment platform device designed by the invention, through the arranged experiment platform main body, the rotating disc, the supporting body and the regulation and control positioning mechanism, the horizontal direction and the vertical direction of the computer display can be well regulated, so that the regulation can be carried out according to the actual operation requirements of workers, the fact that the workers can read the information fed back from the computer display in time is ensured, the convenience is provided for the operation of the workers, the operation control accuracy of the workers is further improved, the unnecessary operation errors are avoided, the working efficiency is improved, and the operation and control quality is ensured.

Drawings

FIG. 1 is a schematic view of the structural connection of the experimental platform of the present invention;

FIG. 2 is an enlarged partial view of the structural joint of FIG. 1 according to the present invention;

FIG. 3 is a partial sectional view of the structural connection between the rotary disk and the stationary body in the experimental platform according to the present invention;

FIG. 4 is a partial cross-sectional front side view of the internal connection structure of the fixing body according to the present invention;

FIG. 5 is a rear side view, partially in section, of the internal connection structure of the fixing body according to the present invention;

FIG. 6 is an enlarged partial view of the structural joint of FIG. 5 according to the present invention;

FIG. 7 is a schematic view of a third gear structure according to the present invention;

FIG. 8 is a partial cross-sectional view of a structural attachment of the positioning mechanism of the present invention;

fig. 9 is a partially enlarged view of the structural connection of fig. 8 according to the present invention.

In the figure: the experimental platform comprises an experimental platform main body 1, a first movable groove 2, a rotating disc 3, a first rolling ball 4, a fixed body 5, a first transmission gear 6, a second transmission gear 7, a second movable groove 8, a second rolling ball 9, a control knob 10, a third transmission gear 11, a first extrusion arc chute 12, a transmission tooth-shaped plate 13, a first movable extrusion column 14, a support body 15, a computer display 16, a second movable extrusion column 17, a second extrusion arc chute 18, a movable cylinder 19, a hand wheel 20, a regulation and control positioning mechanism 21, a sleeve disc 2101, a movable locking fixture block 2102, a fixed limit ring 2103, a fixed block 2104, a movable plate 2105, an extrusion chute 2106, a first movable extrusion block 2107, a second movable extrusion block 2108, a first extrusion bump 2109, a movable circular block 2110, a second extrusion bump 2111 and a rotating convex plate 2112.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. The embodiments of the present invention, and all other embodiments obtained by a person of ordinary skill in the art without any inventive work, belong to the scope of protection of the present invention.

Referring to fig. 1 to 9, the present invention provides a technical solution: an intelligent control experiment platform device for a power system comprises an experiment platform main body 1, a rotating disc 3, a support body 15, a computer display 16 and a regulation and positioning mechanism 21;

a first movable groove 2 is arranged in the experiment platform main body 1, a rotating disc 3 is movably arranged in the first movable groove 2, first rolling balls 4 are embedded at the bottom end of the rotating disc 3 at equal intervals, a fixed body 5 is arranged at the other end of the rotating disc 3, and a first transmission gear 6 is sleeved on the outer side wall of the rotating disc 3;

a second transmission gear 7 is meshed and connected with one side of the first transmission gear 6, the second transmission gear 7 is movably arranged in a second movable groove 8, a second rolling ball 9 is embedded in the second transmission gear 7 at equal distance, and a control knob 10 is arranged at the other end of the second transmission gear 7;

a third transmission gear 11 is movably arranged in the fixed body 5, a first extrusion arc-shaped chute 12 is arranged on the third transmission gear 11, a transmission toothed plate 13 is arranged on one side of the third transmission gear 11 in a meshed connection mode, a first movable extrusion column 14 is movably arranged at the side position of the third transmission gear 11 in the fixed body 5, one end of the first movable extrusion column 14 is movably arranged in the first extrusion arc-shaped chute 12, a supporting body 15 is arranged at the other end of the first movable extrusion column, a computer display 16 is fixedly connected to the upper end face of the supporting body 15 through screws, first return springs are symmetrically arranged on the supporting body 15, and the other end of each first return spring is arranged in the fixed body 5;

a second movable extrusion column 17 is arranged at one end of the transmission toothed plate 13, a second reset spring is arranged at the end, connected with the second movable extrusion column 17, of the transmission toothed plate 13, the other end of the second movable extrusion column 17 is movably arranged in a second extrusion arc-shaped chute 18, the second extrusion arc-shaped chute 18 is arranged at one end of a movable cylinder 19, an insert shaft is arranged at the other end of the movable cylinder 19, and a hand wheel 20 is arranged at the other end of the insert shaft;

the adjusting and positioning mechanism 21 is arranged on the fixed body 5 and is arranged at the side position of the hand wheel 20.

Furthermore, the second transmission gear 7 and the first transmission gear 6 are arranged at the corresponding positions and the same number of sets, and the tooth form angle coefficient and the modulus of the two gears are set to be the same.

Further, the adjusting and positioning mechanism 21 includes a collar 2101, a movable locking fixture 2102, a fixed limit ring 2103, a fixed block 2104, a movable plate 2105, an extrusion chute 2106, a first movable extrusion block 2107, a second movable extrusion block 2108, a first extrusion block 2109, a movable circular block 2110, a second extrusion block 2111, a rotary convex plate 2112, the collar 2101 is sleeved on the insertion shaft, a placement groove is formed in the collar 2101 at a middle distance, the movable locking fixture 2102 is movably arranged in the placement groove, one end of the movable locking fixture 2102 is provided with an extrusion spring, the other end of the extrusion spring is arranged in the placement groove, the fixed limit ring 2103 is arranged at the edge side of the collar 2101, the fixed block 2104 is integrally formed at one side of the fixed limit ring 2103, the movable plate 2105 is movably arranged in the fixed block 2104, one end of the movable plate 2105 is symmetrically provided with a third return spring, one side of the movable plate 2105 is provided with the extrusion chute 2106, one end of the first movable extrusion block 2107 is arranged in the extrusion chute 2106, the movable extrusion block 2108 is arranged at one side of the movable extrusion block 2107, the movable extrusion block 2108 is connected with the extrusion block 2105, the extrusion block 2110 block 2105, the movable extrusion block 2108, and the extrusion block 2105 is arranged at the other side of the movable extrusion block 2105.

Further, the second movable extrusion block 2108 corresponds to the movable locking fixture 2102 in the set position, and the cross sections of the two end portions are the same, that is, the corresponding side lengths of the two cross sections are the same.

The working principle is as follows: when a worker needs to control a switch, a control knob and other control devices on the experiment platform main body 1, information fed back by the computer display 16 needs to be observed in time, in order to facilitate observation of the worker, the direction angle adjustment needs to be carried out on the computer display 16, the control knob 10 drives the second transmission gear 7 to rotate, the second transmission gear 7 drives the meshing transmission of the first transmission gear 6 to drive the rotating disc 3 to rotate, the computer display 16 is finally driven to rotate in the horizontal direction to reach a proper position, then the height of the computer display 16 is regulated according to the height condition of the worker, the hand wheel 20 is rotated to drive the movable cylinder 19 to rotate, the second extrusion arc chute 18 on the movable cylinder 19 extrudes the second movable extrusion column 17, the second movable extrusion column 17 pushes the transmission tooth-shaped plate 13 to drive the transmission tooth-shaped plate 13 and the third transmission gear 11 to mesh transmission, the first extrusion chute 12 on the third transmission gear 11 extrudes and pushes the first movable extrusion column 14 to push the support body 15 to move in the vertical direction to finally change the height of the movable display gear 13 and the movable extrusion plate 2107 to push the second extrusion block 2105 to push the extrusion block 2107 to rotate, the second extrusion block 2105, the extrusion block 2107, the extrusion block 2105 is pushed out by the first extrusion chute 2105, the position of the sleeve disc 2101 is released, so that the position of the hand wheel 20 is released, the rotating convex plate 2112 is stopped being pulled after the adjustment work is finished, meanwhile, the movable locking fixture block 2102 arranged at the corresponding position of the sleeve disc 2101 is clamped in the square slot under the action of the extrusion spring, and the position adjustment and control of the computer display 16 can be finished, so that the experiment platform device designed by the invention can well adjust the horizontal direction and the vertical direction of the computer display 16 through the arranged experiment platform main body 1, the rotating disc 3, the support body 15 and the adjusting and controlling positioning mechanism 21, thereby adjusting according to the actual operation requirement of a worker, ensuring that the worker can timely clear and read information fed back on the computer display 16, providing convenience for the operation of the worker, further improving the operation control accuracy of the experiment platform device, avoiding the occurrence of unnecessary operation errors, improving the working efficiency and ensuring the operation and control work quality.

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

Claims

1. The utility model provides an intelligent control experiment platform device of electric power system which characterized in that: comprises an experiment platform main body (1), a rotating disc (3), a support body (15), a computer display (16) and a regulating and positioning mechanism (21);

a first movable groove (2) is formed in the experiment platform main body (1), a rotating disc (3) is movably arranged in the first movable groove (2), first rolling balls (4) are embedded and arranged at the bottom end of the rotating disc (3) at equal intervals, a fixed body (5) is arranged at the other end of the rotating disc (3), and a first transmission gear (6) is sleeved and arranged on the outer side wall of the rotating disc (3);

a second transmission gear (7) is arranged on one side of the first transmission gear (6) in a meshed connection mode, the second transmission gear (7) is movably arranged in a second movable groove (8), a second rolling ball body (9) is arranged in the second transmission gear (7) in an embedded mode at a middle distance, and a control knob (10) is arranged at the other end of the second transmission gear (7);

a third transmission gear (11) is movably arranged in the fixed body (5), a first extrusion arc-shaped chute (12) is arranged on the third transmission gear (11), a transmission toothed plate (13) is arranged on one side of the third transmission gear (11) in a meshed and connected mode, a first movable extrusion column (14) is movably arranged in the fixed body (5) at the side position of the third transmission gear (11), one end of the first movable extrusion column (14) is movably arranged in the first extrusion arc-shaped chute (12), a supporting body (15) is arranged at the other end of the first movable extrusion column, a computer display (16) is fixedly connected to the upper end face of the supporting body (15) through screws, first return springs are symmetrically arranged on the supporting body (15), and the other end of each first return spring is arranged in the fixed body (5);

a second movable extrusion column (17) is arranged at one end of the transmission toothed plate (13), a second reset spring is arranged at the end, connected with the second movable extrusion column (17), of the transmission toothed plate (13), the other end of the second movable extrusion column (17) is movably arranged in a second extrusion arc-shaped chute (18), the second extrusion arc-shaped chute (18) is arranged at one end of a movable cylinder (19), an insert shaft is arranged at the other end of the movable cylinder (19), and a hand wheel (20) is arranged at the other end of the insert shaft;

the adjusting and positioning mechanism (21) is arranged on the fixed body (5) and is arranged at the side position of the hand wheel (20).

2. The intelligent control experiment platform device for the power system as claimed in claim 1, wherein: the adjusting and controlling positioning mechanism (21) comprises a sleeve disc (2101), a movable locking fixture block (2102), a fixed limiting ring (2103), a fixed block (2104), a movable plate (2105), an extrusion chute (2106), a first movable extrusion block (2107), a second movable extrusion block (2108), a first extrusion block (2109), a movable round block (2110), a second extrusion block (2111) and a rotary convex plate (2112), wherein the sleeve disc (2101) is sleeved on an inserting shaft, a placement groove is formed in the sleeve disc (2101) at equal distance, the movable locking fixture block (2102) is movably arranged in the placement groove, one end of the movable locking fixture block (2102) is provided with the extrusion spring, the other end of the extrusion spring is arranged in the placement groove, the fixed limiting ring (2103) is arranged at the side position of the sleeve disc (2101), the fixed limiting ring (2103) is integrally formed at one side and provided with the fixed block (2104), the movable plate (2104) is arranged in the movable positioning mechanism (2104), one end of the movable extrusion chute (2105) is symmetrically provided with a third reset spring, one side of the movable extrusion chute (2106) is provided with the second movable extrusion block (2108), one end of the extrusion chute (2106) is arranged in the insertion groove (2107), the movable extrusion block (2106), the movable extrusion chute (2108), the extrusion chute (2106) is arranged at the other end of the second extrusion chute (2108), the extrusion block (2106), the extrusion chute (2107), the extrusion block (2106), the extrusion block (2108) is arranged in the movable extrusion chute (2106), the movable extrusion block (2108) The reset spring, the opposite side of activity board (2105) is provided with first extrusion lug (2109), activity circle piece (2110) activity sets up the avris position at activity board (2105) to one side of activity circle piece (2110) is provided with second extrusion lug (2111), and the opposite side is provided with rotates flange (2112).

3. The intelligent control experiment platform device for the power system as claimed in claim 1, wherein: the second transmission gear (7) and the first transmission gear (6) are arranged at corresponding positions and have the same number of sets, and the tooth form angle coefficients and the modulus of the second transmission gear and the tooth form angle coefficients are set to be the same.

4. The intelligent control experiment platform device for the power system as claimed in claim 2, wherein: the second movable extrusion block (2108) corresponds to the movable locking fixture block (2102) in arrangement position, and the cross sections of the two end parts are the same in shape, namely the corresponding side lengths of the two cross sections are the same.