CN-122018643-A - Array type electronic ink screen table tablet workstation

Abstract

The application relates to the field of electronic equipment management, and particularly discloses an array type electronic ink screen table tablet workstation which automatically establishes a topology map of physical coordinates and equipment IDs at the moment of equipment access by constructing an array type storage matrix with electric sensing capability, so that discrete hardware entities are brought into a unified digital management domain, and the problems of complicated charging and protection deficiency are solved. Aiming at the physical positioning problem, the system utilizes the reverse addressing logic to drive the visual road sign beside the slot position, and converts the searching intention of the software end into the light effect guidance of the physical space in real time. More importantly, an adaptive scheduling strategy based on ergonomic potential energy and business semantic weight is introduced into a data distribution layer, and a high-priority task is intelligently guided to fall into an optimal operation area by calculating a comfort gradient of a physical slot position and a value level of personnel data, so that full-flow closed loop from batch data refreshing to physical entity delivery and efficiency maximization are realized.

Inventors

• SHEN WANZHONG
• WEI BO

Assignees

• 浙江海盐力源环保科技股份有限公司

Dates

Publication Date

20260512

Application Date

20260129

Claims (7)

1. 1. The array type electronic ink screen table board workstation is characterized by comprising a movable base assembly, a vertical cabinet body shell, a back closed cover plate, a top console shield, a touch interaction terminal, an array type bearing framework, a plurality of modularized storage bin units, an electronic ink screen table board, a central control unit and a power supply and data bus; The back sealing cover plate is fastened at the back opening of the vertical cabinet body shell through a screw to form a semi-closed inner accommodating space in a surrounding manner; The array type bearing framework is vertically accommodated in the inner space of the vertical cabinet body shell, a plurality of modularized storage bin units are arranged on the array type bearing framework in a matrix mode along the horizontal direction and the vertical direction, and the front end opening of each modularized storage bin unit is aligned with an opening reserved on the panel of the vertical cabinet body shell so as to form a channel for inserting an electronic ink screen table board; the touch interaction terminal is embedded on the inclined plane of the top control console shield; The central control unit is arranged in the inner space of the vertical cabinet body shell, and is respectively electrically connected with the touch interaction terminal and each modularized storage bin unit through the power supply and data buses.
2. 2. The array electronic ink screen table tablet workstation of claim 1 wherein the touch interactive terminal is embedded on the incline of the top console shroud and is tilted to the operator side.
3. 3. The array electronic ink screen table tablet workstation of claim 1, wherein the interior depth of each modular storage bin unit is provided with a resilient metal contact and the outside panel of each modular storage bin unit is provided with a visual positioning indicator light.
4. 4. The array electronic ink screen table card workstation of claim 3 wherein when the electronic ink screen table card is fully inserted into the modular stowage bin unit, the metal pads at the tail of the electronic ink screen table card physically abut the resilient metal contacts of the modular stowage bin unit, thereby enabling the electronic ink screen table card to be incorporated into the network of power and data buses.
5. 5. The arrayed electronic ink screen table tablet workstation of claim 1, wherein the central control unit is further configured to: Responding to the hardware connection action of the electronic ink screen table board accessed to the modularized storage bin unit, reading the unique equipment identifier of the electronic ink screen table board through a power supply and data bus, and carrying out binding mapping processing on the unique equipment identifier and the physical slot position coordinates of the modularized storage bin unit to obtain a slot position equipment topology mapping table; Based on externally input reference list data, performing node allocation and image rendering calculation on the reference list data by using a slot device topology mapping table to obtain a device display update data stream; Distributing the equipment display update data stream to the corresponding electronic ink screen table board through a power supply and data bus to carry out screen refreshing, and generating a system ready state mark after confirming that data writing is completed and after screen display updating; responding to a taking and searching instruction initiated by a user side under the activation of a system ready state mark, and performing reverse addressing operation in a slot device topology mapping table by utilizing target object information carried by the taking and searching instruction so as to analyze the physical address of target device and generate a positioning control electric signal; And loading the positioning control electric signal into a driving circuit of the visual positioning indicator lamp corresponding to the physical address, and driving the light-emitting element to execute a preset flashing action by controlling the on-off of the current so as to output the physical guiding light effect indicating the specific storage position of the target equipment.
6. 6. The arrayed electronic ink screen table tablet workstation of claim 1, wherein the central control unit is further configured to: Carrying out space efficiency evaluation calculation on each modularized storage bin unit by utilizing physical coordinate data in a slot position equipment topology mapping table and preset ergonomic height parameters so as to generate an ergonomic value matrix; based on a personnel priority attribute and an engineering value matrix preset in the parameter list data, carrying out utility maximization adaptive allocation on the parameter list data and a modularized storage bin unit based on a greedy strategy so as to obtain an optimal allocation mapping table which establishes the corresponding relation between personnel and equipment; and carrying out differential rendering and data flow protocol encapsulation on the optimized allocation mapping table to obtain the device display updating data flow.
7. 7. The array electronic ink screen table tablet workstation of claim 1 wherein the central control unit is further configured to perform a space efficiency assessment calculation for each modular bin unit with the formula: Wherein, the method comprises the steps of, Representing the vertical level of slot i, A height threshold value is optimally taken for a preset human body, Is a coordinate of the horizontal position of the device, Is the horizontal center coordinate of the cabinet, And (3) with The height weight factor and the horizontal weight factor, respectively.

Description

Array type electronic ink screen table tablet workstation Technical Field The application relates to the field of electronic equipment management, and more particularly relates to an array type electronic ink screen table tablet workstation. Background Along with the rapid development of the intelligent trend of green conferences and offices, the traditional paper or acrylic table cards are gradually replaced by electronic display devices due to the limitations of complicated manufacturing, resource waste, disposable use and the like. The electronic ink screen is a preferred carrier for meeting seat identification by virtue of the ultra-low power consumption characteristic of bistable display, paper-like comfortable visual experience and power-off picture holding capability. The core driving force for constructing the system is to realize the instant import and batch refreshing of the participant list by utilizing digital management, thereby remarkably reducing the manual deployment cost, supporting the efficient cyclic utilization of equipment and meeting the high-frequency and fast-paced meeting requirements of modern business activities. However, although the technology of electronic ink screen has matured day by day, the prior art still has significant pain and blank in the aspect of physical operation and maintenance and cluster management for large-scale meeting scene. The existing scheme does not provide an integrated storage and protection means matched with the precision electronic equipment, the equipment is often stacked at will due to lack of a special carrier in the idle storage or transportation transfer process, and the equipment is extremely easy to squeeze, rub and collide, so that irreversible physical damage is generated on a screen and a shell. Meanwhile, the existing workflow presents serious fracturing property and inefficiency, so-called wireless batch updating is subject to wired physical preparation, an operator must manually start up a large number of table cards one by one or connect a power interface, and the complicated front-mounted action counteracts the efficiency advantage of the wireless technology. More importantly, the prior art lacks an effective mapping feedback mechanism between physical equipment and digital identities, which leads to the disconnection of physical positioning and content updating, when background software finishes the refreshing of pictures of hundreds of table boards, the background software faces to a hardware array with neat and uniform appearance, operators cannot quickly identify the table board positions corresponding to specific personnel, can only sink into the original modes of equipment searching by people, and find and sort through visual inspection one by one, so that the overall arrangement efficiency of a meeting place is seriously slowed down when the base number of the equipment is huge. In addition, the existing multi-slot management scheme generally follows a mechanical linear sequential allocation strategy (i.e. sequentially filling according to an access sequence), the single-dimensional allocation logic completely ignores the difference of human operation difficulty (i.e. the difference between a gold comfort zone and a squat/foot pad laborious zone) generated by the difference of heights of cabinets in the vertical direction, and meanwhile fails to analyze semantic weights such as personnel importance or grouping relevance and the like hidden in the reference list data, so that key equipment with high frequency access or high priority is often randomly allocated to a bottom layer or top layer edge area with larger physical operation resistance, and the associated equipment groups which are required to be intensively distributed are distributed in a discrete manner in physical space, so that intelligent adaptation of physical resources based on optimal ergonomic solution and service weight maximization cannot be realized. Accordingly, an array type electronic ink screen table tablet workstation is desired. Disclosure of Invention The present application has been made to solve the above-mentioned technical problems. The embodiment of the application provides an array type electronic ink screen table tablet workstation. According to one aspect of the application, an array type electronic ink screen table tablet workstation is provided, which comprises a movable base assembly, a vertical cabinet body shell, a back closed cover plate, a top console shield, a touch interaction terminal, an array type bearing framework, a plurality of modularized storage bin units, an electronic ink screen table tablet, a central control unit and a power supply and data bus; The back sealing cover plate is fastened at the back opening of the vertical cabinet body shell through a screw to form a semi-closed inner accommodating space in a surrounding manner; The array type bearing framework is vertically accommodated in the inner space of the vertical cab