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CN-119765031-B - Scheduling device

CN119765031BCN 119765031 BCN119765031 BCN 119765031BCN-119765031-B

Abstract

The invention provides scheduling equipment which comprises a containing device, a plurality of display devices and containing assemblies, wherein the containing device is provided with a containing cavity and used for containing a host device, the display devices are arranged on the containing device and are arranged at intervals along a preset direction, the containing device comprises a fixed assembly and a containing assembly, the containing assembly is in sliding fit with the fixed assembly, the fixed assembly is arranged on the host device, the containing devices are arranged in a one-to-one correspondence mode with the display devices, the containing assemblies are used for containing a plurality of groups of connecting wires of the host device, each containing assembly is provided with an initial state and a sending-out state, the containing assembly is located in the containing cavity when the containing assembly is in the initial state, and when the containing assembly is in the sending-out state, at least part of the containing assembly slides out of the containing cavity to connect each group of connecting wires with the corresponding display device. The invention effectively solves the problem of low connection efficiency of the host of the power dispatching equipment and a plurality of equipment in the prior art.

Inventors

  • WANG FANGYU
  • DONG NAN
  • ZHAO XINYUE
  • WANG LEI
  • CUI HUI
  • ZHANG CHUANCHENG
  • CHANG JIANG
  • HUANG GUODONG
  • ZHAO RUI
  • YU XIJUAN
  • ZHANG DI
  • WANG HAIYUN
  • WANG YONG
  • WANG WEI
  • WANG TENGFEI
  • ZHENG KAIYUAN

Assignees

  • 国网北京市电力公司
  • 国家电网有限公司
  • 中国电力科学研究院有限公司

Dates

Publication Date
20260512
Application Date
20241219

Claims (9)

  1. 1. A scheduling apparatus, comprising: a housing device (10) having a housing chamber (14) for housing a host device (20); A plurality of display devices (30) arranged on the accommodating device (10), wherein the display devices (30) are arranged at intervals along a preset direction; A housing device (40) comprising a fixing component (41) and a housing component (42), wherein the housing component (42) is in sliding fit with the fixing component (41), and the fixing component (41) is arranged on the host device (20); wherein a plurality of storage devices (40) are arranged in a one-to-one correspondence manner with a plurality of display devices (30), a plurality of storage assemblies (42) are used for storing a plurality of groups of connecting wires of the host device (20), each storage assembly (42) has an initial state and a sending-out state, when the storage assembly (42) is in the initial state, the storage assembly (42) is positioned in the containing cavity (14), and when the storage assembly (42) is in the sending-out state, at least part of the storage assembly (42) slides out of the containing cavity (14) so as to connect each group of connecting wires with the corresponding display device (30); the housing assembly (42) includes: An engagement structure (421) slidably provided on the fixing assembly (41), the engagement structure (421) having an engagement recess (4211); -a housing structure (422) provided on the engagement structure (421) and located within the engagement recess (4211) for each set of connection wires to be wound; a shielding structure (423) rotatably provided on the engagement structure (421) for shielding at least part of the engagement recess (4211); The storage structures (422) are multiple, and the storage structures (422) are arranged at intervals along the preset direction.
  2. 2. Scheduling device according to claim 1, characterized in that the display means (30) comprise: a body assembly (31) disposed on the receiving device (10), the body assembly (31) having a receiving cavity (311); A display assembly (32) disposed on the body assembly (31); The display assembly (32) is provided with a display state and a containing state, when the display assembly (32) is in the display state, the display assembly (32) is positioned outside the containing cavity (311), and when the display assembly (32) is in the containing state, at least part of the display assembly (32) is positioned inside the containing cavity (311).
  3. 3. Scheduling device according to claim 2, characterized in that it further comprises driving means (50), said driving means (50) being arranged on said main body assembly (31), said driving means (50) being in driving connection with said housing assembly (42) for driving said housing assembly (42) between said initial state and said delivery state, and/or said driving means (50) being in driving connection with said display assembly (32) for driving said display assembly (32) between said display state and said receiving state.
  4. 4. A scheduling apparatus according to claim 3, wherein the body assembly (31) has a sliding aperture (312), the driving means (50) comprising: a drive assembly (51) rotatably provided on the main body assembly (31); The matching component (52) is sleeved on the driving component (51) and is in threaded fit with the driving component (51); The transmission assembly (53) is arranged on the main body assembly (31) and positioned in the accommodating cavity (311), one end of the transmission assembly (53) passes through the sliding hole (312) to be connected with the matching assembly (52), and the other end of the transmission assembly (53) is connected with the accommodating assembly (42); The driving assembly (51) is in driving connection with the matching assembly (52), and in the process that the driving assembly (51) drives the matching assembly (52) to move along the extending direction of the driving assembly (51), the matching assembly (52) drives the containing assembly (42) to move towards or away from the host device (20) through the transmission assembly (53).
  5. 5. The scheduling apparatus of claim 4, wherein, The display device (30) further comprises a bearing assembly (33), wherein the bearing assembly (33) is arranged on the main body assembly (31) for rotatably arranging the display assembly (32); The driving device (50) further comprises a connecting component (54), one end of the connecting component (54) is rotatably connected with one end of the transmission component (53) far away from the matching component (52), and the other end of the connecting component (54) is rotatably connected with the display component (32); Wherein, in the process that the matching component (52) drives the transmission component (53) to move along the extending direction of the driving component (51), the transmission component (53) drives the display component (32) to rotate through the connecting component (54).
  6. 6. Scheduling device according to claim 5, characterized in that the carrier assembly (33) comprises: -a carrier structure (331), the display assembly (32) being rotatably arranged on the carrier structure (331), the carrier structure (331) having a communication hole (3311), the communication hole (3311) being in communication with the receiving cavity (14) and being located at a side of the display assembly (32) remote from the driving assembly (51) for passing at least part of the receiving assembly (42); A cover structure (332) provided on the communication hole (3311); at least two elastic structures (333) which are oppositely arranged, wherein an accommodating space (3331) is formed between at least two elastic structures (333) in a surrounding manner and is used for accommodating at least part of the accommodating assembly (42), one end of each elastic structure (333) is connected with the bearing structure (331), and the other end of each elastic structure (333) is connected with the covering structure (332); Wherein, when the receiving component (42) is in the sending state, at least part of the receiving component (42) passes through the communication hole (3311) to drive the covering structure (332) to be separated from the communication hole (3311), and when the receiving component (42) is in the initial state, the elastic structure (333) drives the covering structure (332) to be covered on the communication hole (3311).
  7. 7. Scheduling device according to claim 2, characterized in that said housing means (10) comprise: The accommodating structure (11) comprises two first plate bodies (111) and two second plate bodies (112) which are connected with each other, wherein the two first plate bodies (111) are oppositely arranged at two ends of the second plate bodies (112), accommodating cavities (14) are formed between the two first plate bodies (111) and the second plate bodies (112) in a surrounding mode, the first plate bodies (111) are provided with a plurality of first heat dissipation through holes (1111), the plurality of first heat dissipation through holes (1111) are arranged at intervals along the length direction or the width direction of the first plate bodies (111), each first heat dissipation through hole (1111) is communicated with the accommodating cavity (14), the second plate bodies (112) are provided with a plurality of second heat dissipation through holes (1121), the plurality of second heat dissipation through holes (1121) are arranged at intervals along the length direction or the width direction of the second plate bodies (112), and each second heat dissipation through hole (1121) is communicated with the accommodating cavities (14); -a shielding structure (12), said shielding structure (12) being rotatably arranged on one of said first plates (111) for shielding said containing cavity (14); And a heat radiation structure which is arranged on the first plate body (111) and/or the second plate body (112) so as to radiate heat of the host device (20).
  8. 8. Scheduling device according to claim 7, characterized in that said housing means (10) further comprise: the plurality of cover structures (13) are arranged on the first plate body (111), the plurality of cover structures (13) are arranged in one-to-one correspondence with the plurality of first heat dissipation through holes (1111), each cover structure (13) comprises a driving part (131) and a cover part (132), and the driving parts (131) are in driving connection with the cover parts (132) so as to drive the cover parts (132) to move towards or away from the driving parts (131); The display device comprises a display assembly (32), a driving part (131), a covering part (132) and a first heat dissipation through hole (1111), wherein the driving part (131) is electrically connected with the display assembly (32), when the display assembly (32) is in a display state, the driving part (131) drives the covering part (132) to move away from the driving part (131) so as to avoid the first heat dissipation through hole (1111), and when the display assembly (32) is in a containing state, the driving part (131) drives the covering part (132) to move towards the driving part (131) so as to cover the first heat dissipation through hole (1111).
  9. 9. The scheduling apparatus of claim 5, wherein the scheduling apparatus further comprises: The power strip device (60) comprises a power strip assembly (61) and a covering assembly (62), wherein the power strip assembly (61) is arranged on one side, far away from the driving assembly (51), of the display assembly (32) so as to be connected with part of connecting wires of each group of connecting wires when the display assembly (32) is in the display state, and the covering assembly (62) is movably arranged on the power strip assembly (61) and is used for covering the power strip assembly (61); -a communication device (70) arranged on said transmission assembly (53), said communication device (70) being in sliding engagement with said transmission assembly (53) for connection with another part of each set of connection lines when said display assembly (32) is in said display state.

Description

Scheduling device Technical Field The invention relates to the technical field of power, in particular to scheduling equipment. Background At present, the demand side resources (flexible load, energy storage, electric vehicles and the like) are rapidly developed due to the advantages of low carbon, environment friendliness, high flexibility, high response speed, capability of better maintaining stable operation of the power grid and bringing certain economic benefit compared with the traditional response resources when participating in the market. Most of the resources on the demand side have the characteristics of dispersion, various types, different characteristics and the like, and the direct regulation and control are difficult. Therefore, in order to fully develop the functions of the demand-side resources, the consumption of the distributed resources is improved, and the response characteristics of the response resources are fully exploited, and resource aggregation techniques have been developed. Aggregation refers to the integration of multiple demand side resources with single characteristics and smaller power into a single or a plurality of aggregate with a certain mobility scheduling mode and better coordination system scheduling by a certain aggregation principle based on characteristic evaluation. The demand side resource aggregate response body may act as an intermediary agent for interactions between the demand side customers and the power market. The demand side resource aggregation response main body and the supply side power supply operation main body participate in the electric power market transaction together, and provide energy, capacity and auxiliary service in multiple types of electric power markets such as the day-ahead, standby and real-time, so that the economic benefit of the demand side resource aggregation response main body and the supply side power supply operation main body are ensured, and the overall social benefit is improved. In the prior art, to meet the demand of demand-side resource aggregation, a power dispatching device generally adopts a form of communication connection between a host and a plurality of devices, so that the aggregation host can collect, analyze and manage information and operation instructions of scattered demand-side resources. However, when a worker connects the host computer with a plurality of devices in a communication manner, the connection lines of the host computer need to be correspondingly inserted into different device communication interfaces, which is time-consuming and labor-consuming, and is easy to cause line confusion when connecting the plurality of devices, thereby increasing the complexity and error rate of operation. Particularly under the condition of quick response or emergency dispatch, the traditional connection mode severely restricts the response speed and the operation efficiency of an aggregation main body, cannot meet the requirements of high dynamic property and high reliability of the modern power market, Disclosure of Invention The invention mainly aims to provide scheduling equipment so as to solve the problem that in the prior art, the connection efficiency of a host of power scheduling equipment and a plurality of equipment is low. In order to achieve the above purpose, the invention provides scheduling equipment which comprises a containing device, a plurality of display devices and containing assemblies, wherein the containing device is provided with a containing cavity and is used for containing a host device, the display devices are arranged on the containing device and are arranged at intervals along a preset direction, the containing device comprises a fixing assembly and a containing assembly, the containing assembly is in sliding fit with the fixing assembly, the fixing assembly is arranged on the host device, the containing devices are arranged in a plurality of mode, the containing devices are in one-to-one correspondence with the display devices, the containing assemblies are used for containing a plurality of groups of connecting wires of the host device, each containing assembly is in an initial state and a sending-out state, when the containing assembly is in the initial state, the containing assembly is located in the containing cavity, and when the containing assembly is in the sending-out state, at least part of the containing assembly slides out of the containing cavity to connect each group of connecting wires with the corresponding display device. The display device further comprises a main body component arranged on the accommodating device, wherein the main body component is provided with an accommodating cavity, and a display component arranged on the main body component, wherein the display component is provided with a display state and an accommodating state, when the display component is in the display state, the display component is positioned outside the accommodating cavity, and when