The relay can show the parameter and control welding time accurately.
采用数显时间继电器控制焊接时间,具有数字显示,时间控制精确。
Input preloading, wave head, welding time, the pressure, welding current parameters.
输入预压、波头、焊接时间、保压、焊接电流等参数。
Welding parameter. ( Reference values for electric socket welding-welding time and cooling time.
熔接参数(考数值为电承插热熔,热熔时间和冷却时间。
Employing higher current and shorter welding time is benefit for austenite stainless steel spot welding.
采用大电流、短时间的焊接参数是较为合适的规范。
The research indicates that this method can control the welding time of a weld and that the stable and uniform weld formation is acquired.
研究结果表明:该方法能够实现对焊点焊接时间的实时控制,获得均匀稳定的焊缝成形。
The control system can adjust the welding time precisely, welding repeatability and welding consistency are both very good, also easy maintenance.
焊接时间可通过控制系统精准调节,焊接重复性与一致性好,维护方便。
With two parallel circuits on arc powered supply, it settles the welding current unicity, stabilizes forerunner arc and ensures enough welding time.
电弧供电采用了两种并联电路,解决了焊接电流的单一性,提供了稳定的先导电弧,保证了足够的焊接时间。
The welding time and separate welding time are controlled by computer based on Windows operation system, which makes the operation more intelligent.
焊接时间和分控焊接均由电脑窗口操作系统控制,是操作更加智能化。
Equipped with welding controller, the welder has precise control and setting functions for the welding time and intervals and welding current energy.
同时配备缝焊控制器,对焊接时间,间歇时间,焊接电流能精确的设定和控制。
The experiments show that the variable temperature signal can be detected and the welding time and traveling time can also be controlled in "step" TIG welding by this system.
经实验验证:该系统能够检测到熔池的温度场变化信号,并能控制步进式TIG焊的焊接时间和行走时间。
That equipment can sew weld to the stainless steel, and carbon steel. It can regulate the parameters such as welding time. current value. welding speed, pressure time and so on.
该设备可对不锈钢、碳钢进行缝焊,具有焊接时间、电流大小、焊接速度及加压时间等参数的无级调节。
By a method of recording of welding currents and time, the information of joint microstructure and properties can be gained according to the welding time with different currents.
利用微机检测焊接电流和时间,运用统计方法获得在不同焊接电流区间的焊接时间,间接给出焊接接头组织性能的状态。
The effects of welding time on the property of the joins were researched by using macroscopically mechanical property testing and microcosmic crystalline phase analyses. The reasonable welding …
通过接头宏观力学性能测试和微观金相分析,研究了焊接时间对接头性能的影响,从而得到实心、空心螺柱合理的焊接工艺参数。
The effect obviously is changed with welding time, and the effect of gap on shape of molten pool is analyzed as well as the rule of different parameter on the change of molten width is obtained.
分析了间隙对熔池形状的影响,得出不同工艺参数对熔宽变化的影响规律,并分析了电孤形态差异对接头的影响。
A dual processor interactive control system with functions of welding parameter regulation and real-time control is designed and implemented for pipe welding robots.
针对管道焊接机器人设计了一个双处理器的参数调节、实时控制功能的交互式控制系统。
At the same time, analyze the welding deformation of straight-line segment model of side rail, and compare the results with test data, verify this method is efficient.
同时,针对汽车纵梁部分直线段模型进行焊接变形分析,并与试验数据进行了对比,验证了该方法的有效性。
The optimum median current and median time were found by experiment when welding steel using waveform with middle median phase.
采用中中值波形控制方法对钢进行焊接试验,确定了最佳的中值电流和中值时间。
Electrocircuit and time controlled precisly to improve the quality of welding.
焊接过程中电流和时间精密控制,提高焊接质量。
In the developed CCD image sensor system, real-time collecting and disposing the welding temperature field image is realized by means of using the method of colorimetric temperature measure.
所研制的CCD图像传感器系统,通过采用比色测温的方法,实现了对焊接温度场图像的实时采集与处理。
Results:At each time point, compared with hand suture method, laser welding had the advantages of faster conducting speed, larger amplitude and shorter maintaining time of action potential.
结果:术后各时间点,同手法缝合侧相比,激光焊接吻合的神经传导速度快,动作电位幅值大,动作电位持续时间短。
Reducing welding current and weld time were found to reduce electrode sticking.
电极粘附力随点焊电流和点焊时间的减小而下降。
The effect of welding current on pressed depth is above that of welding press and welding electrifying time.
焊接电流对压入深度的影响明显大于电极压力和焊接通电时间。
The results indicate that with the increase of the welding current, welding press and electrifying time, there are decreased in rate of false welding and increased in pressed depth.
结果表明:当焊接电流越强,电极压力越大,焊接通电时间越长时,钢筋网焊点虚焊率越低,压入深度越大。
Using low cost charge coupled device (CCD), a vision sensing equipment in welding process was made, and a real time plasma arc welding (PAW) seam tracking system was implemented.
采用低成本电荷耦合器件制作了焊接过程视觉传感器,实现了一种等离子弧焊焊缝实时跟踪系统。
The effects of time, temperature and welding line on press fitting should be comprehensively considered to ensure certain transmitted torque to an assembling part.
应全面考虑时间、温度和注塑件上熔合缝对压力装配的影响,确保塑料连接件能传递一定的扭矩。
Spot welding is greatly affected by the current, so the real-time display of current waveform in the welding is very necessary.
焊接电流对电阻点焊有着重要的影响,因此在点焊过程中实时显示焊接电流波形是十分必要的。
Spot welding is greatly affected by the current, so the real-time display of current waveform in the welding is very necessary.
焊接电流对电阻点焊有着重要的影响,因此在点焊过程中实时显示焊接电流波形是十分必要的。
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