行业组件数据 · 2026

控制手柄握把

Ergonomic grip component for industrial control handles providing secure operator contact and vibration dampening.

技术定义与适配语境
典型 控制手柄握把 会按材料、尺寸公差、适配关系和失效风险在 机械和设备制造 中评估。

A specialized ergonomic component designed as the contact surface of industrial control handles, engineered to optimize operator grip security, reduce fatigue through vibration absorption, and maintain tactile feedback during prolonged machine operation in manufacturing environments.

组件规格

定义
A specialized ergonomic component designed as the contact surface of industrial control handles, engineered to optimize operator grip security, reduce fatigue through vibration absorption, and maintain tactile feedback during prolonged machine operation in manufacturing environments.
工作原理
Operates by providing a high-friction, contoured interface between the operator's hand and the control handle, utilizing material properties to dampen transmitted vibrations while maintaining precise control signal transmission through the handle's internal mechanisms.
材料
Thermoplastic elastomer (TPE) with Shore A 60-70 hardnessoften overmolded on polyamide (PA6) or aluminum substrateanti-static variants available with carbon fillerfood-grade silicone options for specific industries.
Length
80-120mm
Weight
80-150g
Diameter
30-45mm
IP Rating
IP54 minimum
Pull-off Force
>50N
Surface Roughness
Ra 3.2-6.3 μm
Operating Temperature
-20°C to +80°C
标准
ISO 13849-1ISO 12100DIN EN 614-1ISO 13732-1

行业分类与别名

控制手柄握把 的常用贸易名称、技术标识和检索关键词。

上级产品

该组件会出现在以下整机或工业产品中。

FMEA · 风险与缓解

诱因 → 失效模式 → 工程缓解

Material plasticizer migration over time->Reduced friction coefficient leading to grip slippage->Use phthalate-free TPE formulations with accelerated aging testing
Inadequate vibration dampening design->Excessive vibration transmission causing operator fatigue->Implement dual-density construction with soft outer layer over rigid core
Poor bonding between grip and handle substrate->Grip detachment during operation->Apply mechanical interlocking features plus chemical adhesion promoters

工业生态与工程逻辑

0
Hand-arm vibration syndrome (HAVS)
1
Slip-induced control errors
2
Material degradation from oils/chemicals
3
Electrostatic discharge in sensitive environments
4
Ergonomic strain from poor contour design

合规与检测

tolerance
±0.2mm on critical dimensions, ±5% on hardness specification, surface defects <0.5mm depth
test method
ISO 20344 slip resistance testing, ISO 13753 hand-transmitted vibration measurement, UL 94 flammability rating, ISO 1817 chemical resistance immersion

制造该组件的工厂

来自 CNFX 组件能力表的相关制造商资料。

制造商列表用于前期研究和供应商能力理解,不代表认证、排名或交易担保。

采购评估维度

不是客户评论,也不是实时热度。以下维度用于前期 RFQ 准备和供应商评估。

技术文档
4/5
制造能力
4/5
可检验性
5/5
供应商透明度
3/5

这些分值是采购评估维度示例,不代表真实客户评分、具体国家买家反馈或实时询盘。

相关组件

常见问题

What industries use specialized control handle grips?

Primarily machinery manufacturing (industry 17), but also automotive assembly (21), food processing equipment (1), and packaging machinery across multiple sectors where operator control precision is critical.

How do grip materials affect operator safety?

Material selection determines vibration transmission (dampening reduces HAVS risk), slip resistance (prevents accidental releases), electrostatic discharge protection (in explosive environments), and chemical resistance for cleanability.

What standards apply to industrial handle grips?

ISO 13849-1 for safety functions, ISO 12100 for risk assessment, DIN EN 614-1 for ergonomic design principles, and ISO 13732-1 for thermal surface requirements.

我可以直接联系工厂吗?

CNFX 是开放目录,不是交易平台或采购代理。工厂资料和表单用于帮助你准备直接沟通。

CNFX Industrial Component Index · 机械和设备制造

数据基础

CNFX 制造商资料、技术分类、公开产品信息和持续合理性检查。

初步技术归类
本页用于结构化准备研究、RFQ 和供应商评估,不替代买方自己的供应商资质审查、标准核验和技术批准。

请求制造能力信息: 控制手柄握把

说明目标数量、应用场景、交期和关键技术要求,用于准备 RFQ 或供应商评估。

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URN:CNFX:ME:UNIT:GRIP