CN106506576A - The monitoring system and monitoring method of superconducting magnetic resonance ancillary equipment - Google Patents

Abstract

In the monitoring system of superconducting magnetic resonance ancillary equipment disclosed by the invention, acquisition circuit module gathers the parameter of each ancillary equipment.The parameter of ancillary equipment by the data signal that setting transmission protocol is converted to concrete More General Form, and data signal is sent by Data Transport Protocol modular converter.The data signal that first server receiving data transport protocol conversion module sends, is stored and is judged whether the parameter of ancillary equipment is normal according to data signal.If it is not, first server alert.The monitoring system of above-mentioned superconducting magnetic resonance ancillary equipment can be gathered and judge whether the parameter of ancillary equipment is normal, when the parameter of ancillary equipment occurs in abnormal, first server can alert, enable attendant's discovering device failure in time, meanwhile, the monitoring system of above-mentioned superconducting magnetic resonance ancillary equipment can carry out the monitoring than artificial higher frequency degree to ancillary equipment.Invention additionally discloses a kind of monitoring method of superconducting magnetic resonance ancillary equipment.

Description

The monitoring system and monitoring method of superconducting magnetic resonance ancillary equipment

Technical field

The present invention relates to technical field of medical equipment, is related specifically to a kind of superconducting magnetic resonance ancillary equipment Monitoring system and a kind of monitoring method of superconducting magnetic resonance ancillary equipment.

Background technology

Superconduction NMR system must be provided by external equipment supporting with which necessary in running Service condition.These external equipments generally comprise power supply and voltage-stabilizing system, water-cooled and the circulatory system and air-conditioning System.

Power supply and voltage-stabilizing system provide stable and reliable power supply for whole superconduction NMR system.Water-cooled And the circulatory system be helium compressor, the heating equipment such as gradient and radio frequency cooling is provided.Air-conditioning system keeps magnetic Field and stable equipment operation.Therefore, ancillary equipment once goes wrong, and will largely effect on superconduction nuclear-magnetism altogether Vibrating system stable, or even cause and the major accident such as quench, although each big mainstream vendor develops For the remote detecting system of nuclear-magnetism main equipment, but the monitoring range of these remote detecting systems does not include Ancillary equipment, so the monitoring of ancillary equipment generally still manually observes each equipment instrument.Artificial observation Method not only workload is big, it is low to make an inspection tour frequency, the shortcomings of be difficult timely discovering device failure.

Content of the invention

The embodiment of the present invention is intended at least solve one of technical problem present in prior art.For this purpose, this Inventive embodiments need to provide a kind of monitoring system of superconducting magnetic resonance ancillary equipment and a kind of superconducting magnetic is common Shake the monitoring method of ancillary equipment.

A kind of monitoring system of superconducting magnetic resonance ancillary equipment, including：

Acquisition circuit module, the acquisition circuit module are used for the parameter for gathering each ancillary equipment；

Data Transport Protocol modular converter, the Data Transport Protocol modular converter are used for the ancillary equipment Parameter, by the data signal that setting transmission protocol is converted to concrete More General Form, and the data signal is sent out See off；

First server, the first server are used for receiving being somebody's turn to do for Data Transport Protocol modular converter transmission Data signal, is stored and is judged whether the parameter of the ancillary equipment is normal according to the data signal；

If it is not, the first server is used for alert.

The monitoring system of above-mentioned superconducting magnetic resonance ancillary equipment can be gathered and judge the parameter of ancillary equipment Whether normal, when the parameter of ancillary equipment occurs in abnormal, first server can alert, Attendant's discovering device failure in time is enabled, meanwhile, the prison of above-mentioned superconducting magnetic resonance ancillary equipment Control system can carry out the monitoring than artificial higher frequency degree to ancillary equipment.

In one embodiment, the acquisition circuit module is the digital collection with international standard communications protocol Circuit module.

In one embodiment, the acquisition circuit module is analog acquisition circuit module；

The monitoring system of the superconducting magnetic resonance ancillary equipment includes：

Analog-digital converter, the analog-digital converter connect the acquisition circuit module and Data Transport Protocol conversion Module, the analog-digital converter are used for setting periphery as analog signal of the acquisition circuit module output Standby Parameter Switch is the parameter of the ancillary equipment as data signal, and exports this as data signal The ancillary equipment parameter to the Data Transport Protocol modular converter.

In one embodiment, the acquisition circuit module includes：

Voltage acquisition module, the voltage acquisition module is arranged at the mains supply of the ancillary equipment and voltage stabilizing sets Standby output end, and for gathering the voltage strength signal of the mains supply and the pressure stabilizing device；

Current acquisition module, the power supply of the key equipment that the current acquisition module is arranged at the ancillary equipment are defeated Enter end, and for gathering the intensity signals of the key equipment；

Temperature and humidity collection module, the temperature and humidity collection module are used for gathering ancillary equipment place Environment temperature and moisture signal；

Hydraulic pressure force detector, the total backwater end of the water cooling unit that the hydraulic pressure force detector is arranged at the ancillary equipment, And for gathering the hydraulic pressure force signal of the ancillary equipment；

Cooling-water temperature sensor, the cooling-water temperature sensor are arranged at each heat exchanger backwater end of the ancillary equipment, and For gathering the water temperature signal of the ancillary equipment.

In one embodiment, the monitoring system of the superconducting magnetic resonance ancillary equipment includes：

Network communication module, the network communication module are used in a wired or wireless manner by the warning message And the data signal sends；

Second server, the second server are used for receiving what one or more network communication modules sent The warning message and the data signal, and point out the warning message and point out the periphery according to the data signal The parameter of equipment.

In one embodiment, the monitoring system of the superconducting magnetic resonance ancillary equipment includes：

Mobile communication module, the mobile communication module are used for sending out the warning message and the data signal Go；

Mobile terminal, the mobile terminal are used for receiving the warning message of mobile communication module transmission and are somebody's turn to do Data signal, and point out the warning message and point out the parameter of the ancillary equipment according to the data signal.

In one embodiment, the monitoring system of the superconducting magnetic resonance ancillary equipment includes：The first service Device includes：

Sound-producing device, when the abnormal parameters of the ancillary equipment, the sound-producing device is used in a voice form Send the warning message；

Light-emitting device, when the abnormal parameters of the ancillary equipment, the light-emitting device is used for sending out in the form of light Go out the warning message.

In one embodiment, the monitoring system of the superconducting magnetic resonance ancillary equipment includes：

Ring-type database, the ring-type database are used for storing the data signal and parameter threshold.

A kind of monitoring method of superconducting magnetic resonance ancillary equipment, comprises the following steps：

Acquisition circuit module gathers the parameter of each ancillary equipment；

The parameter of the ancillary equipment is converted to tool by setting transmission protocol by Data Transport Protocol modular converter The data signal of body More General Form, and the data signal is sent；

First server receives the data signal that the Data Transport Protocol modular converter sends, and is stored And judge whether the parameter of the ancillary equipment is normal according to the data signal；

If it is not, the first server alert.

The monitoring method of above-mentioned superconducting magnetic resonance ancillary equipment can be gathered and judge the parameter of ancillary equipment Whether normal, when the parameter of ancillary equipment occurs in abnormal, first server can alert, Attendant's discovering device failure in time is enabled, meanwhile, the prison of above-mentioned superconducting magnetic resonance ancillary equipment Prosecutor method can carry out the monitoring than artificial higher frequency degree to ancillary equipment.

In one embodiment, described the data signal is sent, including：Network communication module will The data signal sends, and the data signal is sent by mobile communication module；

The monitoring method of the superconducting magnetic resonance ancillary equipment is further comprising the steps of：

Second server receives the data signal that the network communication module sends, and according to the data signal Point out the parameter of the ancillary equipment；

Mobile terminal receives the data signal that the mobile communication module sends, and is carried according to the data signal Show the parameter of the ancillary equipment；

The described first server sends the warning message, including：The network communication module is by the alarm signal Breath sends, and the warning message is sent by the mobile communication module；

The monitoring method of the superconducting magnetic resonance ancillary equipment is further comprising the steps of：

Second server receives the warning message that the network communication module sends, and points out the alarm signal Breath；

Mobile terminal receives the warning message that the mobile communication module sends, and points out the warning message.

The additional aspect and advantage of the embodiment of the present invention will be set forth in part in the description, partly will be from Become obvious in explained below, or recognized by the practice of the embodiment of the present invention.

Description of the drawings

The above-mentioned and/or additional aspect and advantage of the embodiment of the present invention from combine accompanying drawings below to embodiment Description in will be apparent from easy to understand, wherein：

Fig. 1 is that the module of the monitoring system of the superconducting magnetic resonance ancillary equipment of present pre-ferred embodiments is shown It is intended to；

Fig. 2 is the skeleton layer of the monitoring system of the superconducting magnetic resonance ancillary equipment of present pre-ferred embodiments；

Fig. 3 is that the monitoring system of the superconducting magnetic resonance ancillary equipment of present pre-ferred embodiments is collected A kind of state of temperature figure；

Fig. 4 is that the monitoring system of the superconducting magnetic resonance ancillary equipment of present pre-ferred embodiments is collected A kind of power supply status figure；

Fig. 5 is that the monitoring system of the superconducting magnetic resonance ancillary equipment of present pre-ferred embodiments is collected A kind of voltage loads state diagram；And

Fig. 6 is that the flow process of the monitoring method of the superconducting magnetic resonance ancillary equipment of present pre-ferred embodiments is shown It is intended to.

Specific embodiment

Embodiments of the invention are described below in detail, the example of the embodiment is shown in the drawings, wherein certainly Begin to same or similar label eventually to represent same or similar element or with same or like function Element.Embodiment below with reference to Description of Drawings is exemplary, is only used for explaining the present invention, and It is not considered as limiting the invention.

In describing the invention, it is to be understood that term " center ", " longitudinal direction ", " horizontal ", " length ", " width ", " thickness ", " going up ", " under ", " front ", " rear ", " left side ", " right side ", " vertical ", " level ", " top ", " bottom ", " interior ", " outer ", " up time The orientation of instruction such as pin ", " counterclockwise " or position relationship are to be closed based on orientation shown in the drawings or position System, be for only for ease of description the present invention and simplify description, rather than indicate or hint indication device or Element must be with specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to this The restriction of invention.Additionally, term " first ", " second " are only used for describing purpose, and it is not understood that For indicating or implying relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, limit Surely there is " first ", the feature of " second " can be expressed or implicitly include one or more being somebody's turn to do Feature.In describing the invention, " multiple " are meant that two or more, unless otherwise bright Really specific restriction.

In describing the invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected, Can be detachably connected, or be integrally connected；Can be mechanically connected, or electrically connect or can Mutually to communicate；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, can be two The connection of element internal or the interaction relationship of two elements.For one of ordinary skill in the art Speech, can understand above-mentioned term concrete meaning in the present invention as the case may be.

In the present invention, unless otherwise clearly defined and limited, fisrt feature is second feature its " going up " Or it " under " the first and second feature directly contacts can be included, it is also possible to including the first and second features Directly contact it is not but by the other characterisation contact between them.And, fisrt feature is second Feature " on ", " top " and " above " include fisrt feature directly over the second feature and be oblique on Side, or fisrt feature level height is merely representative of higher than second feature.Fisrt feature is in second feature " it Under ", " lower section " and " below " including fisrt feature directly over second feature and oblique upper, or only Only represent that fisrt feature level height is less than second feature.

Following disclosure provides many different embodiments or example is used for realizing that the different of the present invention are tied Structure.In order to simplify disclosure of the invention, hereinafter the part and setting of specific examples are described.When So, they are only merely illustrative, and purpose does not lie in the restriction present invention.Additionally, the present invention can be not With repeat reference numerals in example and/or reference letter, this repeat be for purposes of simplicity and clarity, Relation between itself not indicating discussed various embodiments and/or arranging.Additionally, the present invention is provided Various specific technique and material example, but those of ordinary skill in the art can be appreciated which The application of his technique and/or the use of other materials.

Please join Fig. 1 and Fig. 2, the monitoring system of the superconducting magnetic resonance ancillary equipment of present pre-ferred embodiments 100 include acquisition circuit module 102, Data Transport Protocol modular converter 104 and first server 106.

The acquisition circuit module 102 is used for the parameter for gathering each ancillary equipment 500.In the present embodiment, The acquisition circuit module 102 is with the international standard communications protocol such as RS485, RS232, RJ45 Digital acquisition circuit module.

In other embodiments, acquisition circuit module can be analog acquisition circuit module, the superconducting magnetic resonance The monitoring system of ancillary equipment includes analog-digital converter.The analog-digital converter connect the acquisition circuit module and The Data Transport Protocol modular converter, the analog-digital converter be used for using acquisition circuit module output as The Parameter Switch of the ancillary equipment of analog signal is the parameter of the ancillary equipment as data signal, and Export as data signal the ancillary equipment parameter to the Data Transport Protocol modular converter.

In the present embodiment, specifically, the acquisition circuit module 102 include voltage acquisition module 108, Current acquisition module 110, temperature and humidity collection module 112, hydraulic pressure force detector 114 and water temperature Sensor 116.

The voltage acquisition module 108 is arranged at the mains supply and pressure stabilizing device of the ancillary equipment 500 Output end, and for gathering the voltage strength signal of the mains supply and the pressure stabilizing device.The current acquisition Module 110 is arranged at the power input of the key equipment of the ancillary equipment 500, and is used for gathering this The intensity signals of key equipment.The temperature and humidity collection module 112 are set for gathering the periphery Standby 500 environment temperatures being located and moisture signal.Key equipment is, for example, helium (He) compressor, water The equipment such as cold and gradient heat exchanger.

The total backwater end of water cooling unit that the hydraulic pressure force detector 114 is arranged at the ancillary equipment 500, is used in combination In the hydraulic pressure force signal and cooling-water temperature sensor that gather the ancillary equipment 500, the cooling-water temperature sensor 116 sets It is placed in each heat exchanger backwater end of the ancillary equipment 500, and for gathering the ancillary equipment 500 Water temperature signal.

Above-mentioned acquisition module, sensor and detector can convert analog signals into the number of RS485 agreements Word signal.

The Data Transport Protocol modular converter 104 is used for the parameter of the ancillary equipment 500, by setting Transport protocol conversion is the data signal of concrete More General Form, and the data signal is sent.

Specifically, the connection acquisition circuit module 102 of Data Transport Protocol modular converter 104.Data Transport protocol conversion module 104 receives each signal that acquisition circuit module 102 sends.Set transmission Agreement can be RS232 host-host protocols.That is, Data Transport Protocol modular converter is collection electricity Road module 102 send each equipment (as equipment 1, equipment 2 ..., equipment N) parameter, respectively The data signal of form is planted, a kind of signal of computer capacity identification is converted to, just may be used with a data cable It is connected with first server 106.

The first server 106 is used for receiving the number that the Data Transport Protocol modular converter 104 sends Word signal, and judge whether the parameter of the ancillary equipment 500 is normal according to the data signal.If it is not, The first server 106 is used for alert.

Specifically, first server 106 can be local stratum server, such as personal computer or exploitation Plate.First server 106 is processed to each signal that acquisition circuit module 102 is collected, shape Into the data such as corresponding temperature and humidity, voltage and electric current, and its numerical value is judged, if any exception, Alert, is reported to the police.Data Transport Protocol modular converter 104 can pass through first server 106 LAN mouths send data signal to first server 106.

In an embodiment, the first server 106 includes sound-producing device 118 and light-emitting device 120. When the abnormal parameters of the ancillary equipment 500, the sound-producing device 118 is used for sending in a voice form The warning message.When the abnormal parameters of the ancillary equipment 500, the light-emitting device 120 is used for light Form send the warning message.Thus, field maintenance person, ancillary equipment 500 intuitively can be notified Break down.

Further, the monitoring system 100 of the superconducting magnetic resonance ancillary equipment includes ring-type database 122, the ring-type database 122 is used for storing the data signal and parameter threshold.Ring-type database 122 Can integrate with first server 106.

Specifically, first server 106 collects each by Data Transport Protocol modular converter 104 Data signal, and it is translated into the numerical value such as corresponding voltage, electric current, temperature, humidity, pressure, and and ring The parameter threshold of the storage of shape database 122 is made comparisons, and also can show these numerical value simultaneously.The One server 106 enters database according to setting, the data that such as once adopts per hour or per day entry In 122, in case consulting.Database 122 is stored with parameter threshold, for example, temperature and humidity, electricity Pressure and greatest measure, the threshold value of minimum value of current value.

When the parameter for judging ancillary equipment 500 according to data signal exceedes corresponding threshold value (such as electric current Be more than current threshold, temperature be less than temperature threshold situations such as), then first server 106 judges periphery The abnormal parameters of equipment 500 simultaneously record numerical value at that time and enter ring-type database 122, and with faulty Mark, first server 106 are simultaneously emitted by sound, light alarm information.

Ring-type database 122 is a kind of technology for processing quantitative data and currentElement pointer.Its from Draw an arrow to certain point of circumference in the center of circle -- here it is pointer.Just as one on an annulus Sample, without beginning and end, down can be gone on always.Come over a period of time, all available positions Put and can all be previously used, the cyclic process can reuse original position automatically.So, data set will not increase, And need not safeguard.First server 106 is to 122 data storage of ring database, from annular number According to extraction data in storehouse 122.

The effect of ring-type database 122 is data storage and the engine that draws, and can define random time Section is drawn, you can to have drawn the figure of the data since a half a year, it is also possible to since drawing a half an hour Figure.The data of a refreshing are produced such as per 5 minutes, then a hour is exactly 12.Daily It is exactly 288.So huge data volume, may not all leave and.A merging is for example had (consolidate) mode of data.Through a refresh cycle, can obtain a master data point (PDP, Primary Data Point), several PDPs are used merging mode (CF, Consolidation Function after) merging, a merging data point CDP (Consolidation Data can be produced Point), for first gatherer process, the PDP of 12 (often produces one through a refresh cycle Individual PDP) through merging average statistics (AVERAGE), that is, average, produce one CDP, 24 CDPs are achieved.

If a cycle is 300 seconds, then the generation time of 12 PDP is exactly a hour, Namely a hour produces a CDP.24 CDPs times are exactly one day.Illustrate by so Gatherer process, first server 106 can obtain the data value of a day.After one day, and through one Individual hour, will produce the 25th article, and it will substitute the position of first CDP.Certainly, also may be used Change AVERAGE into MIN/MAX, its meaning be then take in the time point (as above example it Maximum 5min/30min/2hr...) or minimum of a value, and maximum generally in monitoring system 100 Compare with mean value and be of practical significance.

In one example, Fig. 3, Fig. 4 and Fig. 5 please be join, first server 106 passes through Acquisition Circuit The state of temperature figure of the ancillary equipment that module 102 is collected, power supply status figure and voltage loads state diagram.

It is preferred that in order to realize remote alarms and monitoring, the monitoring system of the superconducting magnetic resonance ancillary equipment 100 include network communication module 124, second server 126, mobile terminal 1 28 and mobile communication Module 130.

The network communication module 124 is used for connecting the first server 106, the network communication module 124 For the warning message and the data signal are sent.

The second server 126 be used for receiving the warning message that the network communication module 124 sends and The data signal, and point out the warning message and point out the ancillary equipment 500 according to the data signal Parameter.

The mobile communication module 130 is used for sending the warning message and the data signal.

Mobile terminal 1 28 is used for receiving the warning message and the number that the mobile communication module 130 sends Word signal, and point out the warning message and point out the parameter of the ancillary equipment 500 according to the data signal.

Specifically, second server 126 can be top service device (webserver), mobile terminal 128 is, for example, the electronic installations such as mobile phone, panel computer.

Network communication module 124 can be VPN device.First server 106 passes through VPN device 124 It is connected with second server 126.

When ring-type database 122 has renewal, 106 timely replacement of first server is to second server On 126, so that plant maintenance personnel can check equipment running status, plant maintenance personnel by network The controlling interface on second server 126 can also be passed through, and data are proposed to first server 106 and updated Request, first server 106 is according to the request record parameter that acquisition circuit module 102 is collected at that time Enter first server 106, and with 126 database synchronization of second server.Second server 126 Using parameter and warning message that display shows ancillary equipment, to point out parameter and the report of ancillary equipment Alarming information.

First server 106 is whole with mobile by mobile communication module 130 (such as gsm communication module) End 128 communicates.

When the parameter of ancillary equipment 500 occurs abnormal, fault message can be led to by first server 106 Cross voice call, short message, mobile data etc. to transmit to the mobile terminal 1 28 for setting, play Alarm function.

Mobile terminal 1 28 can utilize the display of mobile terminal 1 28 itself to show the parameter of ancillary equipment And warning message, and utilize loudspeaker alert, with point out ancillary equipment 500 parameter and Warning message.

Further, second server 126 can be provided with short message sending end, external note cat, and compile It is written from the script of dynamic transmission.Execution added behind in triggering statement sends the sentence of script automatically.When By the warning message of first server 106, two servers 126 judge that ancillary equipment 500 breaks down When, one side second server 126 issues the user with alarm mail, another aspect second server 126 Alarm content is sent in the mobile terminal 1 28 that specifies by control short message sending end with the formation of note.

Generally, second server 126, will every five minutes after arranging plan target A secondary data is gathered to first server 106.The collection period of data can be carried out according to actual conditions Adjustment, while control real-time is improved, will also avoid excessively frequently gathering and causing sternly to equipment The burden of weight.When second server 126 judges that ancillary equipment 500 occurs abnormal, in five minutes, By obtaining the warning message sent of first server 106, and by the information record to alter.log In file, then second server 126 calls sms orders and the Sendsms at short message sending end Alarm content is sent to related personnel with note form by order by Shell programs.

Using the alarm mechanism, the height of the parameters that acquisition circuit module 102 is collected can be set Threshold value and Low threshold, when the numerical value of collection is higher than high threshold or less than Low threshold, then can pass through note Sending end sends the state that SMS notification related personnel pays close attention to Medical Devices ancillary equipment.If the numerical value is long Between higher or lower than set threshold value when, need to search imminent failure in time and exclude in advance.

In sum, the monitoring system 100 of above-mentioned superconducting magnetic resonance ancillary equipment can be gathered and be judged Whether the parameter of ancillary equipment 500 is normal, when the parameter of ancillary equipment 500 occurs in abnormal, the One server 106 can alert so that attendant can 500 failure of discovering device in time, Meanwhile, the monitoring system 100 of above-mentioned superconducting magnetic resonance ancillary equipment can be carried out than artificial to ancillary equipment The monitoring of higher frequency degree.

Please join Fig. 6, the embodiment of the present invention provides a kind of monitoring method of superconducting magnetic resonance ancillary equipment.Should The monitoring method of superconducting magnetic resonance ancillary equipment can be by the superconducting magnetic resonance ancillary equipment of above example Monitoring system 100 is realized.The monitoring method of the superconducting magnetic resonance ancillary equipment is comprised the following steps：

S1：Acquisition circuit module 102 gathers the parameter of the ancillary equipment 500；

S2：The parameter of the ancillary equipment is assisted by Data Transport Protocol modular converter 102 by transmission is set View is converted to the data signal of concrete More General Form, and the data signal is sent；

S3：First server 106 receives the numeral that the Data Transport Protocol modular converter 104 sends Signal, and judge whether the parameter of the ancillary equipment 500 is normal according to the data signal；

S4：If it is not, 106 alert of first server.

In step sl, the acquisition circuit module 102 is, for example, that the numeral with RS485 interfaces is adopted Collector module.

Voltage acquisition module 108 gathers the voltage strength signal of the mains supply and the pressure stabilizing device.Electricity Stream acquisition module 110 gathers the intensity signals of the key equipment.Temperature and humidity collection module 112 Gather environment temperature and moisture signal that the ancillary equipment 500 is located.Key equipment is, for example, helium (He) The equipment such as compressor, water cooling unit and gradient heat exchanger.

Hydraulic pressure force detector 114 gathers the hydraulic pressure force signal and cooling-water temperature sensor of the ancillary equipment 500, Cooling-water temperature sensor 116 is in the water temperature signal for gathering the ancillary equipment 500.

Acquisition circuit module 102 sends each signal above-mentioned to Data Transport Protocol modular converter 104.

In step s 2, the connection acquisition circuit module 102 of Data Transport Protocol modular converter 104. Each signal that acquisition circuit module 102 is sent by Data Transport Protocol modular converter 104, is converted into The data signal of such as RS232 host-host protocols, to be attached with first server 106.

In step s3, first server 106 is gathered by Data Transport Protocol modular converter 104 Each signal is arrived, and is translated into the numerical value such as corresponding voltage, electric current, temperature, humidity, pressure, and with The parameter threshold of the storage of ring-type database 122 is made comparisons.

When the parameter of the ancillary equipment 500 for collecting exceedes corresponding threshold value, (for example electric current is more than electric current Threshold value, temperature be less than temperature threshold situations such as), then first server 106 judges ancillary equipment 500 Abnormal parameters and record numerical value at that time and enter ring-type database 122, and carry fault flag.

In step s 4, i.e., when the abnormal parameters of ancillary equipment 500, first server 106 can Sound, light alarm information is sent, for example, the first server 106 includes sound-producing device 118 and lights Device 120.The sound-producing device 118 sends the warning message in a voice form, the light-emitting device 120 The warning message is sent in the form of light.

It is preferred that in order to realize remote monitoring, described the data signal is sent, including：Network The data signal is sent by communication module 124, and the data signal is sent out by mobile communication module 130 See off.

The monitoring method of the superconducting magnetic resonance ancillary equipment is further comprising the steps of：

S5：Second server 126 receives the data signal that the network communication module 124 sends, and According to the parameter that the data signal points out the ancillary equipment；Mobile terminal 1 28 receives the mobile communication mould The data signal that block 130 sends, and the parameter of the ancillary equipment 500 is pointed out according to the data signal.

It should be noted that aforementioned 100 embodiment of monitoring system to superconducting magnetic resonance ancillary equipment Explanation is also applied for this step of realize remote monitoring, and here is omitted.

In order to realize remote alarms, the described first server sends the warning message, including：The network The warning message is sent by communication module 124, and the mobile communication module 128 is by the warning message Send.

Step S5 also includes：

Second server 126 receives the warning message that the network communication module 134 sends, and points out The warning message；Mobile terminal 1 28 receives the warning message that the mobile communication module 130 sends, And point out the warning message.

It should be noted that aforementioned 100 embodiment of monitoring system to superconducting magnetic resonance ancillary equipment Explanation is also applied for this step of realize remote alarms, and here is omitted.

Above reality can be joined in the part that the monitoring method of the superconducting magnetic resonance ancillary equipment of the present embodiment is not deployed Apply the same or like part of the monitoring system 100 of the superconducting magnetic resonance ancillary equipment of example, here No longer it is developed in details in.

In sum, the monitoring method of above-mentioned superconducting magnetic resonance ancillary equipment can be gathered and judge that periphery sets Whether standby 500 parameter is normal, when the parameter of ancillary equipment 500 occurs in abnormal, first service Device 106 can alert so that attendant can 500 failure of discovering device in time, meanwhile, The monitoring method of above-mentioned superconducting magnetic resonance ancillary equipment can be carried out than artificial higher frequency to ancillary equipment 500 The monitoring of degree.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " show The description of meaning property embodiment ", " example ", " specific example " or " some examples " etc. means to tie Specific features, structure, material or the feature for closing the embodiment or example description is contained in the present invention extremely In few one embodiment or example.In this manual, the schematic representation of above-mentioned term is not necessarily referred to Be identical embodiment or example.And, the specific features of description, structure, material or feature can Combined in any one or more embodiments or example in an appropriate manner.

Although an embodiment of the present invention has been shown and described, one of ordinary skill in the art can manage Solution：Multiple changes can be carried out to these embodiments in the case of the principle and objective without departing from the present invention Change, change, replace and modification, the scope of the present invention is limited by claim and its equivalent.

Claims (10)

1. a kind of monitoring system of superconducting magnetic resonance ancillary equipment, it is characterised in that include：

Acquisition circuit module, the acquisition circuit module are used for the parameter for gathering each ancillary equipment；

Data Transport Protocol modular converter, the Data Transport Protocol modular converter are used for the ancillary equipment Parameter, by the data signal that setting transmission protocol is converted to concrete More General Form, and the data signal is sent out See off；

First server, the first server are used for receiving being somebody's turn to do for Data Transport Protocol modular converter transmission Data signal, is stored and is judged whether the parameter of the ancillary equipment is normal according to the data signal；

If it is not, the first server is used for alert.

2. the monitoring system of superconducting magnetic resonance ancillary equipment as claimed in claim 1, it is characterised in that The acquisition circuit module is the digital acquisition circuit module with international standard communications protocol.

3. the monitoring system of superconducting magnetic resonance ancillary equipment as claimed in claim 1, it is characterised in that The acquisition circuit module is analog acquisition circuit module；

The monitoring system of the superconducting magnetic resonance ancillary equipment includes：

Analog-digital converter, the analog-digital converter connect the acquisition circuit module and Data Transport Protocol conversion Module, the analog-digital converter are used for setting periphery as analog signal of the acquisition circuit module output Standby Parameter Switch is the parameter of the ancillary equipment as data signal, and exports this as data signal The ancillary equipment parameter to the Data Transport Protocol modular converter.

4. the monitoring system of superconducting magnetic resonance ancillary equipment as claimed in claim 1, it is characterised in that The acquisition circuit module includes：

Voltage acquisition module, the voltage acquisition module is arranged at the mains supply of the ancillary equipment and voltage stabilizing sets Standby output end, and for gathering the voltage strength signal of the mains supply and the pressure stabilizing device；

Current acquisition module, the power supply of the key equipment that the current acquisition module is arranged at the ancillary equipment are defeated Enter end, and for gathering the intensity signals of the key equipment；

Temperature and humidity collection module, the temperature and humidity collection module are used for gathering ancillary equipment place Environment temperature and moisture signal；

Hydraulic pressure force detector, the total backwater end of the water cooling unit that the hydraulic pressure force detector is arranged at the ancillary equipment, And for gathering the hydraulic pressure force signal of the ancillary equipment；

Cooling-water temperature sensor, the cooling-water temperature sensor are arranged at each heat exchanger backwater end of the ancillary equipment, and For gathering the water temperature signal of the ancillary equipment.

5. the monitoring system of superconducting magnetic resonance ancillary equipment as claimed in claim 1, it is characterised in that The monitoring system of the superconducting magnetic resonance ancillary equipment includes：

Network communication module, the network communication module are used in a wired or wireless manner by the warning message And the data signal sends；

Second server, the second server are used for receiving what one or more network communication modules sent The warning message and the data signal, and point out the warning message and point out the periphery according to the data signal The parameter of equipment.

6. the monitoring system of superconducting magnetic resonance ancillary equipment as claimed in claim 5, it is characterised in that The monitoring system of the superconducting magnetic resonance ancillary equipment includes：

Mobile communication module, the mobile communication module are used for sending out the warning message and the data signal Go；

Mobile terminal, the mobile terminal are used for receiving the warning message of mobile communication module transmission and are somebody's turn to do Data signal, and point out the warning message and point out the parameter of the ancillary equipment according to the data signal.

7. the monitoring system of superconducting magnetic resonance ancillary equipment as claimed in claim 1, it is characterised in that The first server includes：

Sound-producing device, when the abnormal parameters of the ancillary equipment, the sound-producing device is used in a voice form Send the warning message；

Light-emitting device, when the abnormal parameters of the ancillary equipment, the light-emitting device is used for sending out in the form of light Go out the warning message.

8. the monitoring system of superconducting magnetic resonance ancillary equipment as claimed in claim 1, it is characterised in that The monitoring system of the superconducting magnetic resonance ancillary equipment includes：

Ring-type database, the ring-type database are used for storing the data signal and parameter threshold.

9. a kind of monitoring method of superconducting magnetic resonance ancillary equipment, it is characterised in that comprise the following steps：

Acquisition circuit module gathers the parameter of each ancillary equipment；

The parameter of the ancillary equipment is converted to tool by setting transmission protocol by Data Transport Protocol modular converter The data signal of body More General Form, and the data signal is sent；

First server receives the data signal that the Data Transport Protocol modular converter sends, and is stored And judge whether the parameter of the ancillary equipment is normal according to the data signal；

If it is not, the first server alert.

10. the monitoring method of superconducting magnetic resonance ancillary equipment as claimed in claim 9, its feature exist In, described the data signal is sent, including：The data signal is sent out by network communication module Go, the data signal is sent by mobile communication module；

The monitoring method of the superconducting magnetic resonance ancillary equipment is further comprising the steps of：

Second server receives the data signal that the network communication module sends, and according to the data signal Point out the parameter of the ancillary equipment；

Mobile terminal receives the data signal that the mobile communication module sends, and is carried according to the data signal Show the parameter of the ancillary equipment；

The described first server sends the warning message, including：The network communication module is by the alarm signal Breath sends, and the warning message is sent by the mobile communication module；

The monitoring method of the superconducting magnetic resonance ancillary equipment is further comprising the steps of：

Second server receives the warning message that the network communication module sends, and points out the alarm signal Breath；

Mobile terminal receives the warning message that the mobile communication module sends, and points out the warning message.