CN213274342U

CN213274342U - Environmental temperature and humidity monitoring system and medical system

Info

Publication number: CN213274342U
Application number: CN202021688657.9U
Authority: CN
Inventors: 曹佳佶; 埃里克·A·C·费瑞拉; 孙达军
Original assignee: Shanghai Siemens Medical Devices Co ltd
Current assignee: Shanghai Siemens Medical Devices Co ltd; Siemens Shanghai Medical Equipment Ltd
Priority date: 2020-08-13
Filing date: 2020-08-13
Publication date: 2021-05-25
Anticipated expiration: 2030-08-13

Abstract

The utility model discloses an environment humiture monitoring system and medical system. This environment humiture monitoring system, with medical equipment collaborative work, include: a monitoring unit that monitors an environmental temperature and humidity of the medical device; a storage unit which stores data of the environmental temperature and humidity; the judging unit is used for judging whether the medical equipment is in a starting state or not, if so, the calculating module is called, and if not, the waiting is carried out; the calculation module is used for acquiring the data of the environment temperature and the environment humidity from the storage unit and calculating the time length of the data meeting the corresponding preset conditions; and the alarm module is used for sending alarm information when the time length reaches a preset value. The scheme provides a medical equipment environment temperature and humidity monitoring system with uninterrupted and active intervention all day, which collects the environment temperature and humidity of the system in the starting and shutdown states through a temperature and humidity monitoring module and stores the environment temperature and humidity in a cloud server.

Description

Environmental temperature and humidity monitoring system and medical system

Technical Field

The utility model relates to a temperature and humidity monitoring of medical equipment.

Background

During transport, storage and operation of the CT system, ambient temperature and humidity should be monitored and maintained within acceptable ranges of conditions. When the CT system is in transportation and storage, the temperature and humidity of the environment of the machine cannot be kept constant as the machine is continuously moved. When the environmental temperature exceeds the requirement of important core components and accessories (such as a bulb tube and a DMS data testing system) on the environmental condition, the electronic elements can be damaged, the system cannot work normally, and the image quality is directly influenced.

In addition, when the CT system works, the high-speed operation of the gantry and the exposure of the bulb tube generate a large amount of heat, so that the internal temperature of the gantry rises, and if the internal temperature continuously rises beyond a certain range, the working stability of the CT system is affected. When the ambient temperature is too low, the CT system may not be started normally, and even the service life of the bulb tube is greatly reduced due to uneven heating. When the ambient humidity is too high or too low, the electrical properties of the components can be altered, leading to premature aging or damage of the components.

In the prior art, temperature and humidity sensors are usually integrated in the CT gantry to record the change of ambient temperature and humidity. When the system is in the process of transmission or warehouse storage, a CT manufacturer does not continuously monitor the system, and cannot ensure that the system keeps stable performance when delivering a customer, so as to guide the customer to calibrate in advance or provide on-site maintenance service. After a fault is reported and repaired on a client site, an engineer needs to read information such as historical temperature and humidity collected in a circuit board on the client site, so that whether system error report or image quality problems are caused by environmental temperature and humidity or not is investigated and analyzed.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an environment humiture monitoring system and medical system.

According to the utility model discloses an aspect provides an environmental temperature and humidity monitoring system, with medical equipment collaborative work, characterized by, include: a monitoring unit that monitors an environmental temperature and humidity of the medical device; a storage unit which stores data of the environmental temperature and humidity; the judging unit is used for judging whether the medical equipment is in a starting state or not, if so, the calculating module is called, and if not, the waiting is carried out; the calculation module is used for acquiring the data of the environment temperature and the environment humidity from the storage unit and calculating the time length of the data meeting the corresponding preset conditions; and the alarm module is used for sending alarm information when the time length reaches a preset value.

In one embodiment, the preset conditions corresponding to the ambient temperature data include exceeding 37 ℃ and exceeding 42 ℃.

In one embodiment, the preset conditions corresponding to the ambient humidity data include over 70% and under 10%.

In one embodiment, the alert module transmits alert information via the medical device.

In an embodiment, the warning message includes prompting a user to adjust temperature and humidity, and prompting the user to perform calibration service of the medical device.

In one embodiment, the alarm module sends alarm information to a customer service end of the medical device to send a staff member to detect whether the electronic component of the medical device is damaged or needs to be replaced on site.

In an embodiment, the environmental temperature and humidity monitoring system further includes a cloud database, which stores historical data of environmental temperature and humidity.

According to a second aspect of the present invention, there is provided a medical system comprising a medical device and an environmental temperature and humidity monitoring system as described above.

The scheme provides a medical equipment environment temperature and humidity monitoring system with uninterrupted and active intervention all day, which collects the environment temperature and humidity of the system in the starting and shutdown states through a temperature and humidity monitoring module and stores the environment temperature and humidity in a cloud server. When the monitoring system finds that the environmental temperature and humidity of the machine continuously exceeds the early warning or serious warning value for a period of time, the monitoring system automatically triggers and reports the environmental temperature and humidity to the customer service department and remotely checks the running stability of the system. Meanwhile, a warning frame is popped out from a system interface to prompt a client to ensure constant temperature and humidity of the machine room. In addition, an environment temperature and humidity detection report inlet is provided in a system interface, so that a medical department engineer can open and check historical temperature and humidity change conditions, and when the temperature and humidity unstable condition is found, a system calibration service function can be executed to ensure that a scanned image has no artifact, the maintenance work of a conventional and periodic heat dissipation cooling device is facilitated, and the system is in a stable and optimal state.

Drawings

The above and other features and advantages of the present invention will become more apparent to those of ordinary skill in the art by describing in detail preferred embodiments thereof with reference to the attached drawings, in which:

fig. 1 is a schematic block diagram of an environment temperature and humidity monitoring system according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention is further described in detail by referring to the following embodiments.

Fig. 1 is a schematic block diagram of an ambient temperature and humidity monitoring system 100 according to an embodiment of the present invention. The ambient temperature and humidity monitoring system 100 may work in conjunction with a medical device 101, such as a CT machine, magnetic resonance system, or the like. As shown in fig. 1, the ambient temperature and humidity monitoring system 100 includes a monitoring unit 102, a storage unit 104, a determination unit 106, a calculation module 108, and an alarm module 110.

The monitoring unit 102 monitors the ambient temperature and humidity of the medical device 101. The storage unit 104 stores data of ambient temperature and humidity. These data may be uploaded via a remote transport protocol and stored in cloud database 112.

The determination unit 106 determines whether the medical device is in a power-on state, if so, the calculation module 108 is called, and if not, the medical device waits.

The calculation module 108 obtains the data of the environmental temperature and humidity from the storage unit 104 and calculates the time length of the environmental temperature and humidity meeting the corresponding preset conditions. In the present embodiment, the proper temperature range of the medical device 101 is 18 to 30 ℃. Accordingly, the preset conditions corresponding to the ambient temperature data may include exceeding 37 ℃ and exceeding 42 ℃, wherein the former is an early warning value and the latter is a serious warning value. In the present embodiment, the humidity of the medical device 101 is preferably 20-70%. The preset conditions for the ambient humidity data include over 70% and under 10%.

The alarm module 110 sends alarm information when the time length reaches a preset value. The alarm module 110 may send alarm information through the medical device 101.

The alarm information includes prompting the user to adjust the temperature and humidity, and prompting the user to perform calibration services of the medical device 101.

As shown in FIG. 1, customer service 114 of medical device 101 collects operational data of medical device 101 and receives user reported problems. The alarm module 110 may also send alarm information to the customer service 114 to send a clerk to field check if the electronic components of the medical device are damaged or need replacement. Therefore, whether the abnormal temperature and humidity cause the problem of system stability or image quality can be investigated in time, and a client is reminded of ensuring the temperature and humidity of the machine room environment and the system calibration.

An environmental temperature monitoring report entry can be provided in the interface of the medical device 101 for the medical engineer to periodically check the environmental temperature and humidity conditions from the cloud database 112, so that the maintenance work of the heat dissipation cooling device can be conveniently and periodically maintained, and the system is in a stable and optimal state.

The utility model also provides a medical system, including medical equipment 101 and environment humiture monitoring system 100.

The utility model discloses to medical equipment remove or storehouse storage in-process temperature humidity carries out incessant control in the transportation, ensure that the system keeps stable performance and qualified image quality when delivering the customer, guide the customer to calibrate or prepare in advance to go to the door and overhaul the service. The utility model discloses can monitor the environment humiture of medical equipment when the operation in real time, can in time guide the customer to adjust environment humiture and monitor the latent system problem of prevention before the customer scene goes wrong and produces complain. When the system is moved, stored or operated in a transportation mode, the cloud data platform is used for continuously monitoring the temperature and the humidity of the system all day long, when the temperature and the humidity of a machine exceed a pre-defined early warning or warning threshold value, the system pops a box to guide the temperature and the humidity of client conditions, and informs a customer service department to track and research or prepare for home-based maintenance service, so that the stability and the utilization rate of the system are guaranteed.

In medical equipment daily operation and special clinical application scene, under removing the in service behavior such as removing CT inspection car, shelter hospital, the utility model discloses guarantee medical equipment performance reduces medical equipment's fault rate to the life of extension part.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An environmental temperature and humidity monitoring system (100) for cooperating with a medical device (101), comprising:

a monitoring unit (102) that monitors the ambient temperature and humidity of the medical device (101);

a storage unit (104) that stores data of the environmental temperature and humidity;

a judging unit (106) which judges whether the medical equipment (101) is in a power-on state, if so, calls a calculating module (108), and if not, waits;

the calculating module (108) is used for acquiring the data of the environment temperature and the environment humidity from the storage unit (104) and calculating the time length of the data meeting the corresponding preset conditions;

and the alarm module (110) is used for sending alarm information when the time length reaches a preset value.

2. The ambient temperature and humidity monitoring system (100) of claim 1, wherein the predetermined conditions for the ambient temperature and humidity data include over 37 ℃ and over 42 ℃.

3. The ambient temperature and humidity monitoring system (100) of claim 1, wherein the predetermined conditions associated with the ambient temperature and humidity data include greater than 70% and less than 10%.

4. The ambient temperature and humidity monitoring system (100) according to claim 1, wherein the alarm module (110) sends an alarm message via the medical device (101).

5. The ambient temperature and humidity monitoring system (100) according to claim 1, wherein the alarm information includes a prompt to a user to adjust the temperature and humidity, and a prompt to a user to perform a calibration service for the medical device (101).

6. The ambient temperature and humidity monitoring system (100) according to claim 1, wherein the alarm module (110) sends an alarm message to a customer service end (114) of the medical device (101) to send a dispatcher to check on-site whether an electronic component of the medical device (101) is damaged or needs to be replaced.

7. The ambient temperature and humidity monitoring system (100) of claim 1 further comprising a cloud database (112) that stores historical ambient temperature and humidity data.

8. A medical system, characterized by comprising a medical device (101) and an ambient temperature and humidity monitoring system (100) according to any one of claims 1 to 7.