GIDINGS&LEWIS 58002989遥控器

 GIDINGS&LEWIS 58002989遥控器

1.产 品 资 料 介 绍：

产品概述

产品应用领域

1. 数控机床（CNC）
   远程实现机床启停、手动调节主轴 / 进给轴运动（如微调刀具位置），还能直接执行简单加工指令。调试时，操作员可在机床旁观察加工细节的同时，通过遥控器实时调整参数，无需频繁往返操作台；生产中也能远程监控运行状态，及时处理异常，减少近距离操作的繁琐与安全风险。
2. 工业自动化生产线
   对输送系统（如调节输送带速度）、搬运设备（如控制机械臂抓取位置）、装配线（如启停装配工位）进行无线控制。面对生产线中存在的齿轮、传送带等危险部件，操作员无需靠近即可完成操作，大幅减少人员接触危险机械的频率，同时避免因现场布线限制导致的操作不便，提升生产线运维效率。
3. 机器人系统
   在机器人示教阶段，可手持遥控器近距离引导机器人记录运动路径（无需固定在操作面板前）；调试时，远程调整关节运动参数，实时监控运行状态（如负载、位置偏差）；日常运行中，也能远程启停机器人或切换任务模式，适配车间内机器人灵活移动的作业场景，降低现场操作复杂度。
4. 包装与印刷机械
   远程控制送料机构（如调整送料速度匹配印刷节奏）、夹具（如松紧包装材料）及辅助设备（如启停烘干装置）。当设备出现轻微参数偏差（如包装封口位置偏移），操作员无需停机并走到控制柜前调整，通过遥控器即可快速修正，减少停机调整时间，保障包装印刷流程连贯，提升生产效率。
5. 实验与测试平台
   对实验台（如调节测试电机转速）、测试装置（如控制检测探头位置）进行远程操作。实验中若涉及高温、高压或高频振动等危险环境，操作员可在安全区域通过遥控器控制设备运行，既能灵活调整实验参数，又避免直接接触危险装置，保障实验过程安全可控。

英文资料：

Product Overview

GIDINGS&LEWIS 58002989 industrial remote control is the "wireless control assistant" for industrial equipment. Remote control of CNC machine tools, automation equipment, and servo systems can be achieved through wireless signals, allowing for flexible operation of equipment movement, issuance of start stop/adjustment commands, and feedback of system status. Operators can complete debugging and monitoring within a safe distance without the need to approach the equipment, which not only enhances the flexibility of production scenarios but also avoids close contact with hazardous areas, ensuring personal safety.

Product application areas

Numerical Control Machine Tool (CNC)

Remote implementation of machine tool start stop, manual adjustment of spindle/feed axis movement (such as fine-tuning tool position), and direct execution of simple machining instructions. During debugging, the operator can observe the machining details next to the machine tool and adjust the parameters in real time through the remote control, without the need to frequently travel back and forth to the control panel; Remote monitoring of operational status can also be achieved during production, enabling timely handling of anomalies and reducing the complexity and safety risks associated with close range operations.

Industrial automation production line

Wireless control of conveyor systems (such as adjusting conveyor belt speed), handling equipment (such as controlling the gripping position of robotic arms), and assembly lines (such as start stop assembly stations). Faced with dangerous components such as gears and conveyor belts in the production line, operators can complete operations without getting close, greatly reducing the frequency of personnel contact with dangerous machinery and avoiding operational inconvenience caused by on-site wiring restrictions, thus improving the efficiency of production line operation and maintenance.

robot system

During the robot teaching phase, a handheld remote control can be used to guide the robot up close and record its motion path (without the need to be fixed in front of the control panel); During debugging, remotely adjust joint motion parameters and monitor real-time operating status (such as load and position deviation); In daily operation, the robot can also be remotely started and stopped or switch task modes, adapting to the flexible movement of robots in the workshop and reducing the complexity of on-site operations.

Packaging and Printing Machinery

Remote control of feeding mechanisms (such as adjusting feeding speed to match printing rhythm), fixtures (such as elastic packaging materials), and auxiliary equipment (such as start stop drying devices). When the equipment has slight parameter deviation (such as packaging sealing position deviation), the operator does not need to stop the machine and go to the control cabinet for adjustment. Through the remote control, it can quickly correct, reduce the downtime adjustment time, ensure the consistency of packaging and printing process, and improve production efficiency.

Experimental and testing platform

Remote operation of the experimental bench (such as adjusting the speed of the testing motor) and testing equipment (such as controlling the position of the detection probe). If there are hazardous environments such as high temperature, high pressure, or high-frequency vibration involved in the experiment, the operator can control the equipment operation through a remote control in a safe area, which can flexibly adjust the experimental parameters and avoid direct contact with hazardous devices, ensuring the safety and controllability of the experimental process.

2.产      品      展      示      

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The content is from Ruichang Mingsheng Automation Equipment Co., LTD

Contact: +86 15270269218