The pain points of traditional hospital power distribution scheme
With the development of medical technology and the use of high-end precision medical equipment, it is becoming more and more important to ensure the stability and safety of the power supply of hospital medical equipment and ensure the safety of the power consumption of patients. The traditional power distribution supply can not meet the special power load requirements of the hospital, such as some requirements for continuous lighting (to meet the normal illumination) in the case of fire (such as the fire control center, security system, etc.); Some require safe lighting (such as rescue room, operating room, delivery room, burn ward, care and treatment room, etc.).
The traditional scheme lacks "wisdom" (ignition, load, three-phase balance, etc., cannot be monitored); "Complex" (adding a variety of devices), "only monitor but not control" (some scenarios cannot be remotely processed), "limited scenarios" (different devices have different focus requirements on voltage, current, load, etc.).
[Innovative breakthrough] Manton Hospital intelligent electricity solution
(一)Overview of the Manton scheme
Highly integrated intelligent micro-circuit, and the cloud platform behind it, can directly carry out multi-level and multi-scene monitoring or monitoring online, in addition to electricians, hospital leaders at all levels and government fire departments can know the safety situation of electricity at any time;
High power management efficiency, no dead corners, fine, the platform and APP can directly monitor each device's various power data, leakage, ignition, overload, over and under voltage and so on; If the switch is not performed within a specified period or the threshold is exceeded, an alarm is generated and the switch can be performed remotely.
It can flexibly adjust the power consumption plan at any time according to the needs, and it can be put and put freely, and it is easy to add equipment by changing the previously inflexible power consumption management method.
The solution is simple, the equipment integration is high, and the construction and maintenance difficulty is small. According to the budget, key objects and scenarios, different intelligent circuit breakers can be selected.
(二)Manton scheme design
(三)Manton program highlights
Can match various application scenarios: safety monitoring (temperature, short circuit, leakage); Voltage and current stability monitoring (over and under voltage, over and under current, three-phase unbalance); Equipment active power monitoring; Load monitoring; Remote switching and closing scenarios;
Simple deployment and low implementation cost: there is no need to add "residual current transformer" and "temperature sensor" at the back end of the meter, and it is a highly integrated single device with low installation space requirements and small construction difficulty.
Maintenance is simple and direct, can be remote maintenance: maintenance positioning is simple and fast; The system automatically performs inspection. Reduce the workload of electricians and reduce professional level requirements
High safety: the opening and closing function not only ensures short circuit, but also ensures safety alarms such as over-temperature, ignition, over-current, over-voltage and leakage, and automatically handles them.
High reliability: high acquisition accuracy; Remote control function, find problem processing speed is exponentially improved; Different data return modes can be used according to the site environment; Equipment integration should be high, a single device can complete all intelligent functions, improve equipment reliability.