CN205556352U - A water treatment facilities for supersound oncotherapy system - Google Patents
A water treatment facilities for supersound oncotherapy system Download PDFInfo
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- CN205556352U CN205556352U CN201620219192.XU CN201620219192U CN205556352U CN 205556352 U CN205556352 U CN 205556352U CN 201620219192 U CN201620219192 U CN 201620219192U CN 205556352 U CN205556352 U CN 205556352U
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- degassing
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Abstract
The utility model discloses a water treatment facilities for supersound oncotherapy system, including inlet channel, circulation degasser, heating the water tank and controlling means. Circulation degasser includes degasification water tank, circulating pump, degasification pipe and vacuum pump. Heating the water tank through first pipeline with degasification water tank intercommunication for to outgas exports the host computer to after degasification water after accomplishing heats. Controlling means include the controller, be used for to detect the water level of degasification water tank a level sensor, be used for detecting heating the water tank's water level the 2nd level sensor, be used for dehydration box the dewater timing device of timing, the second solenoid valve on locating the first solenoid valve on the first pipeline and locating the inlet channel, a level sensor, the 2nd level sensor, first solenoid valve and second solenoid valve all with the controller electricity is connected. Above -mentioned water treatment facilities can be incessant preparation degasification water and heat it.
Description
Technical field
This utility model relates to ultrasound wave tumor apparatus field, particularly to one for ultrasonic tumor
The water treatment facilities of system.
Background technology
In high-strength focus supersonic therapeutic system, the ultrasound wave that transducer produces needs to be arrived by water coincidence
In human body, and being dissolved with substantial amounts of gas in light water, the gas dissolved in water has the biggest declining to ultrasonic
Subtract effect, so, high-strength focus supersonic therapeutic system generally uses de aerated water as ultrasonic coupling agent.
Existing Degassed water preparation device is all that the water in single tank is de-gassed process, then heats
To preset temperature, for treatment.After the water in tank is finished, then carry out adding water, deaerate,
Heat treated flow process.
Traditional water treatment facilities, degassing heating is all carried out, when in tank in a tank
Water when being finished, just can add water next time, deaerate, heat treated, the whole handling process time is long,
After thus causing having treated a patient, need to wait that the long period just can treat next time.Simultaneously
In therapeutic process, transducer assemblies needs repeatedly to move up and down, and the de aerated water in water pocket overflows repeatedly, leads
Cause institute's water requirement bigger.Traditional water treatment facilities can only meet institute's water requirement by increasing container volume,
But, the increase of container, necessarily cause treatment time of water to extend further, when operator needs more
Between make arrangements for surgery.Additionally, traditional water treatment facilities, all use button operation, do not possess place automatically
Reason function, each step is required for manpower intervention, adds operating procedure.
Utility model content
For above-mentioned the deficiencies in the prior art, technical problem to be solved in the utility model is: provide one
Kind continual can prepare de aerated water and the device that heats processes dress for the water of ultrasound tumor therapeutic system
Put.
For solving above-mentioned technical problem, the technical scheme that this utility model uses is: provide one to use
In the water treatment facilities of ultrasound tumor therapeutic system, described water treatment facilities includes inlet channel and water inlet
The heating water tank that connects with circulating degasser of circulating degasser of the outfan connection of pipeline and control
Device processed;
Described circulating degasser includes deaerate water tank, circulating pump, deaeration pipe and vacuum pump, described de-
Forming a circulating degasification loop after the head and the tail connection successively of air water case, circulating pump and deaeration pipe, deaerate water tank
In water by circulating pump enter deaeration pipe be de-gassed after be again introduced into deaerate water tank, described vacuum pump and
The gas overflowed when the connection of described deaeration pipe is in order to take the degassed pipe of current away;
Described heating water tank is connected with described degassing water tank by one first pipeline, after degassing being completed
De aerated water heat after export the main frame to supersonic tumor system;
Described control device includes controller, the water level for detecting degassing water tank being located on degassing water tank
The first level sensor, be located in described heating water tank second of the water level for detecting heating water tank
Level sensor, for carry out dewatering box being dehydrated timing time set, be located on the first pipeline the
One electromagnetic valve and the second electromagnetic valve being located on inlet channel, described first level sensor, the second water
Level sensor, the first electromagnetic valve and the second electromagnetic valve all electrically connect with described controller.
Further, described water treatment facilities also includes that described water inlet is located at by a water purifier, described water purifier
Position between input and deaeration pipe on pipeline.
Further, on described inlet channel, the position of its input close is additionally provided with first manual valve.
Further, described degassing water tank has one first water inlet, one first outlet and one first
Gap, the first water inlet of described degassing water tank connects with the outfan of described inlet channel, described de-
The outlet that air water case is logical is connected with described circulation delivery side of pump by a second pipe, described circulating pump
The outfan input by the 3rd pipeline and described deaeration pipe, the outfan of described deaeration pipe passes through institute
State inlet channel to connect with the water inlet of described degassing water tank;Described first gap passes through the first overflow pipe
Spilling water in degassing water tank is got rid of outside degassing water tank by road.
Further, described heating water tank have one second water inlet, one second outlet and second overflow
The mouth of a river, described second water inlet is connected by the first outlet of described first pipeline with described degassing water tank,
Water after heating is delivered to described main frame by one first outlet conduit by described second outlet, and described the
Two gaps are got rid of outside heating water tank for by spilling water by one second overflow pipe connection.
Further, described second water inlet and the second outlet are same port, by the first tee T
Outfan with described first pipeline connects and the input connection of the first outlet conduit respectively, described the
The second hand-operated valve it is provided with on one outlet conduit.
Further, described first outlet conduit is one second tee T, the first of described second tee T
Individual end connects with described first tee T as input, and second end of the second tee T is as adding hot water
Outfan connects with described main frame, and the 3rd end of the second tee T is as discharge ends.
Further, described vacuum pump connects with described inlet channel also by one the 4th pipeline, described
It is provided with the 3rd electromagnetic valve on 4th pipeline;Arranging the 3rd gap on described vacuum pump, the 3rd overflows
Aqueous vapor in vacuum pump is discharged by the mouth of a river by one the 3rd overflow pipe.
Further, described water treatment facilities also includes that an overflow tank, described overflow tank have the 3rd water inlet
Mouthful, the 4th water inlet and the 5th water inlet, the 3rd to the 5th water inlet respectively by the first overflow pipe,
Second overflow pipe and the 3rd overflow pipe connect with degassing water tank, heating water tank and vacuum pump;Institute
Stating overflow pipe and also have a spilling water outlet, this spilling water outlet discharges spilling water by a drainage pipeline
Water in case.
Water treatment facilities for ultrasound tumor therapeutic system of the present utility model, compared with prior art,
It by deaerating and can add heat container separately, enables degassing process and heat treated independently to carry out, significantly
Degree shortens the interval time treating multiple patients continuously.Use ultrasonic liquid level sensor measurement water level, can
With the surplus water in measure water case.Described water treatment facilities can also the most persistently carry
For temperature required de aerated water, it is to avoid therapeutic process occurs the situation of hydropenia.
Accompanying drawing explanation
Fig. 1 is this utility model structure for water treatment facilities one embodiment of ultrasound tumor therapeutic system
Schematic diagram.
Detailed description of the invention
Below in conjunction with the accompanying drawing in this utility model embodiment, to the technology in this utility model embodiment
Scheme is clearly and completely described, it is clear that described embodiment is only this utility model one
Divide embodiment rather than whole embodiments.Based on the embodiment in this utility model, this area is common
The every other embodiment that technical staff is obtained under not making creative work premise, broadly falls into this
The scope of utility model protection.
Referring to Fig. 1, the water treatment facilities for ultrasound tumor therapeutic system of the present embodiment, including entering water
Circulating degasser and circulating degasser that pipeline 101 connects with the outfan of inlet channel 101 connect
Logical heating water tank 3 and control device.
Described circulating degasser includes deaerate water tank 20, circulating pump 22, deaeration pipe 24 and vacuum pump
26, form a circulation after the head and the tail connection successively of described degassing water tank 20, circulating pump 22 and deaeration pipe 24
Degassing loop, the water in degassing water tank 20 enters after deaeration pipe 24 is de-gassed again by circulating pump 22
Entering degassing water tank 20, described vacuum pump 26 connects to extract deaeration pipe 24 out with described deaeration pipe 24 and exists
The gas produced during degassing work.Specifically:
Described degassing water tank 20 is provided with the first water inlet that the outfan with inlet channel 101 connects
201, first outlet the 203, first gap 205.As one preferably scheme, described first enters
The mouth of a river 201 is arranged at the top of described degassing water tank 20, and it passes through the described external water source of inlet channel 101,
In order to external water receiving source purifies, impurity screening etc., the present embodiment is arranged on described water purification pipeline
Having described water purifier, this water purifier is positioned on inlet channel 101 position near its input.Outside described
Water receiving source flows into after flowing through inlet channel 101 in described water purifier, and water purifier is logical after externally connecing water source purifying
The outfan crossing described inlet channel 101 is delivered to deaerate in water tank 20.Intelligible, apply at some
In occasion, the most outside in this occasion as the water source after purifying of water receiving source, then it is clean that this can be set
Hydrophone.
As one preferably scheme, described first gap 205 is located at the tank wall of described degassing water tank 20
The upper position near box top, for when water level exceedes this first gap 205 of arrival or exceedes this
During the position of the first gap 205, discharging outside degassing water tank 20, described first gap 205 is by the
Spilling water in degassing water tank 20 is got rid of outside degassing water tank 20 by one overflow pipe 102.In the present embodiment,
Also including that an overflow tank 5, described overflow tank 5 have the 3rd water inlet, described 3rd water inlet leads to
Cross the first overflow pipe 102 to connect with the first gap 205 of degassing water tank 20, meanwhile, described spilling water
Case 5 also has a spilling water outlet.
As one preferably scheme, described first outlet 203 is located at the bottom of described degassing water tank 20,
This first outlet 203 is connected with the outfan of described circulating pump 22 by a second pipe 103, described
The outfan of circulating pump 22 is by the input of the 3rd pipeline 104 with described deaeration pipe 24, described degassing
The outfan of pipe 24 is by the first water inlet 201 of described inlet channel 101 with described degassing water tank 20
Connection.
Described heating water tank 3 is connected with described degassing water tank 20 by one first pipeline 105, for taking off
Gas complete after de aerated water heat after export the main frame to supersonic tumor system.Concrete:
Described heating water tank 3 has one second water inlet, one second outlet and the second gap, institute
State the second water inlet to be connected by the first outlet 203 of described first pipeline 105 with described degassing water tank 20
Logical, the water after heating is delivered to described main frame by one first outlet conduit 106 by described second outlet,
Spilling water is got rid of outside heating water tank 3 by described second gap by one second overflow pipe 107.
As one preferably scheme, described second gap is arranged on the top of heating water tank 3, is used for
After water level exceedes the position of this second gap, unnecessary water overflows from this second gap.This example
In, described overflow tank 5 also has the 4th water inlet, and described 4th water inlet passes through the second overflow pipe 107
Connect with described second gap.
In the present embodiment, described second water inlet and the second outlet are same port, by the second spilling water
Pipeline 108 outfan with described first pipeline 105 respectively connects and the input of the first outlet conduit 106
End connection, is provided with the second hand-operated valve 61 on described first outlet conduit 106.So, needs by
When water after degassing is delivered in heating water tank 3, close the second hand-operated valve on the first outlet conduit 106
61, when the water in heating water tank 3 is enough and needs to be transported to main frame, open second manual
Valve 61.Intelligible, in other examples, described second water inlet and the second outlet can
Thinking two ports, now, the second water inlet may be disposed at the top of the tank wall of heating water tank 3, and second
Outlet can be located at the bottom of heating water tank 3.
In the present embodiment, described first outlet conduit 106 is one second tee T, described second tee T
First end connect with described second overflow pipe 108 as input, second of the second tee T
End conduct adds output end of hot water and connects with described main frame, and the 3rd end of the second tee T is as discharge ends.
Use the program, when main frame needs to add hot water, be delivered to main frame by second end, when whole system
Unite after quitting work and the water of heating water tank 3 is more, when needing to discharge, can be by the second tee T
3rd end is discharged, it is not necessary to arrange multiple port in heating water tank 3.
In the present embodiment, described vacuum pump 26 is also by one the 4th pipeline 109 and described inlet channel 101
Connection, is provided with the 3rd electromagnetic valve 62 on described 4th pipeline 109;Described vacuum pump 26 is arranged
3rd gap, the aqueous vapor in vacuum pump 26 is arranged by the 3rd gap by one the 3rd overflow pipe 110
Go out, when water excess in vacuum pump, discharged by the 3rd overflow pipe 110.
As one preferably scheme, described overflow tank 5 is additionally provided with the 5th water inlet, described
Five water inlets are connected with described vacuum pump 26 by described 3rd overflow pipe 110.In the present embodiment, institute
The spilling water outlet stating overflow tank 5 discharges the water in overflow tank 5 by a drainage pipeline 111.
As one preferably scheme, described drainage pipeline 111 is the 3rd tee T, described 3rd threeway
First end of pipe connects with spilling water outlet as input, and second end of the 3rd tee T is with described
3rd end (discharge ends) connection of the second tee T, the 3rd end of described 3rd tee T is as row
Water end (W.E.).
Described control device include controller (not shown), be located at degassing water tank 20 on for detecting
Degassing water tank 20 water level the first level sensor 41, be located in described heating water tank 3 for detecting
Second level sensor 42 of the water level of heating water tank 3, for dewatering box carries out being dehydrated the timing of timing
Device (not shown), the first electromagnetic valve 43 being located on the first pipeline 105 and be located at inlet channel
The second electromagnetic valve 44 on 101, described first level sensor the 41, second level sensor 42, timing
Device, the first electromagnetic valve 43 and the second electromagnetic valve 44 all electrically connect with described controller.Wherein:
The signal output part of described first level sensor 41 is electric with the first signal input part of described controller
Connecting, the water level signal detected can be sent to by the first level sensor 41 by this electric connection structure
Controller;Described controller has a first automatically controlled signal outfan, this first automatically controlled signal outfan
Electrically connect to export automatically controlled signal with described circulating pump 22 and receive this electricity to circulating pump 22, circulating pump 22
Start working after control signal, so that the water in degassing water tank 20 enters deaeration pipe 24 by circulating pump 22
Being again introduced into the water tank 20 that deaerates after being de-gassed, circulating with this until having deaerated.
Described second electromagnetic valve 44 electrically connects with the 3rd automatically controlled signal outfan of described controller, when first
Comparison module that the water level that level sensor 41 detects is built-in with controller or external comparison module ratio
When arriving a threshold value more afterwards or exceed this threshold value (high threshold), controller is then by the 3rd telecommunications
Number outfan one automatically controlled signal of output is to the second electromagnetic valve 44, to close the second electromagnetic valve 44.This is second years old
The unlatching of electromagnetic valve 44 can be a button by arranging on the shell of water treatment facilities or touches
Touching key to open, controller, after the signal received, sends electricity by the 3rd automatically controlled signal outfan
Control signal, to the second electromagnetic valve 44, so that the second electromagnetic valve 44 is opened, meanwhile or afterwards, makes to follow
Ring pump 22 is started working;The unlatching of this second electromagnetic valve 44 is simultaneously also dependent on the first level sensor 41
The water level detected starts, and the water level detected when the first level sensor 41 is built-in by controller
A comparison module or after an external comparison module compares, during less than minimum threshold,
Controller sends automatically controlled signal to the second electromagnetic valve 44 to open the second electromagnetic valve 44.So, just can complete
Automatically shut down the function of water.
Described time set can be timer, and described timer is for entering the working time of circulating pump 22
Row timing, this timer has a signal sending end electrically connected with the signal receiving end of controller, when
After the working time of described circulating pump 22 reaches the interior time value set of time set, this timer passes through institute
State signal sending end and send the signal to controller.Generally, degassing operation timing completes for 10 minutes,
The most described time value may be configured as 10 minutes.It should be understood that in other examples, described timing
Device is in addition to timer, it is also possible to be programming realization or intervalometer etc. by the way of software.
Described controller, after receiving the signal that time set sends, is exported by the first automatically controlled signal
End one automatically controlled signal of output is to circulating pump 22, so that circulating pump 22 break-off.Described controller also has
Having a second automatically controlled signal outfan, it electrically connects with the automatically controlled signal receiving terminal of the first electromagnetic valve 43,
Described controller, after receiving the signal that time set sends or after circulating pump 22 suspends, sends the
Two automatically controlled signals to the first electromagnetic valve 43 are so that the first electromagnetic valve 43 is in opening, so that de aerated water
The water after degassing in case 20 enters heating water tank 3 by the first pipeline 105 and carries out heating work.
Heating water tank 3 can arrange temperature sensor for water temperature is detected, temperature indicator can be set,
For showing currently detected temperature.
The second level sensor 42 being arranged in heating water tank 3 water level in detecting heating water tank 3,
The signal output part of this second level sensor 42 is connected with the secondary signal input of described controller, uses
In the water level signal transmission that will detect to described controller, the built-in comparison module of controller or controlling
Connect between device and the second sensor and have comparison module, for the letter that the second level sensor 42 is detected
Number compare, if after the water level detected reaches to compare threshold value (high threshold), controller passes through
Its second automatically controlled signal outfan exports an automatically controlled signal to the first electromagnetic valve 43 to cut out the first electromagnetic valve
43, stop the water in degassing water tank 20 to enter heating water tank 3;Meanwhile, also built-in or outer at controller
It is equipped with a comparison module, carries out minimum threshold for the water level that the second level sensor 42 is detected
Relatively, if the water level in the heating water tank detected 3 is less than this minimum threshold, controller then opens the
One electromagnetic valve 43.
To sum up, by controller and first level sensor the 41, second level sensor the 42, first electromagnetism
Valve the 43, second electromagnetic valve 44 and the electric connection structure of time set, can be automatic after making de aerated water degassing
Enter heating water tank 3;Degassing water tank 20 in de aerated water be delivered to heating water tank 3 after or arrive minimum
After thresholding, be again turned on the second electromagnetic valve 44, enable the external source that floods enter degassing water tank 20, second
Level sensor 42 detects the water level in degassing water tank 20 in real time, so that controller Based Intelligent Control circulating pump
Whether the unlatching of 22.When the water level of heating water tank 3 reaches high threshold, close the first electromagnetic valve 43 and hinder
Anti-avulsion air water enters heating water tank 3, when the water level of heating water tank 3 reaches minimum threshold, opens the first electricity
Magnet valve 43 makes the de aerated water in degassing water tank 20 flow into heating water tank 3.So so that of the present utility model
Water treatment facilities can continual offer de aerated water and add hot water, make this water treatment facilities more intelligent,
Automatization.
As one preferably scheme, the water treatment facilities of the present embodiment also includes a water purifier, described only
Hydrophone is located at the position on described inlet channel 101 between input and deaeration pipe 24.It is appreciated that
, this water purifier not necessarily element, can save this element, such as at some in some scenarios
Through the occasion etc. purifying water can be provided.
In the present embodiment, on described inlet channel 101, the position near its input is additionally provided with first
Hand-operated valve, this first manual valve is arranged at the position being positioned at water purifier front end on inlet channel 101.
Water treatment facilities of the present utility model, can press automatic mode key on the housing of this water treatment facilities,
Device can be automatically performed follow-up all operations.Filter is fore filter, is used for filtering in tap water
Impurity, open the second electromagnetic valve 44 and add water toward degassing water tank 20, the first level sensor 41 is examined simultaneously
Survey cistern water level, when water is filled it up with when high threshold (arrive), be automatically switched off the second electromagnetic valve 44, stop
Only add water operation.Vacuum pump 26, deaeration pipe 24, degassing water tank 20, circulating pump 22 form circulating degasification
Device, by circulating pump 22, current flow out bottom degassing water tank 20, through degassing film, return de-
Air water case 20.Vacuum pump 26 is responsible for outside the film silk of deaeration pipe 24 producing negative pressure, takes away in water and overflows
Gas.The timing of whole degassing operation completes for 10 minutes, opens the first electromagnetic valve 43 afterwards, and de aerated water enters
Enter heating water tank 3, supply main frame after being heated to preset temperature and use.Native system is by degassing operation and heating behaviour
Separating, both can independently be carried out.When de aerated water enters after heating water tank 3, the can be started immediately
Secondary degassing operation.
This water treatment facilities may also be configured to manual mode, in a manual mode, needs at water treatment facilities
Housing on arrange some for direct or indirect manipulation the first electromagnetic valve the 43, second electromagnetic valve 44 etc.
Button, under manual mode, add water, deaerate, heating etc. be required to by the touch key-press on touch screen or
Person's physical button operates.Under automatic mode, when press add water operation button after (i.e. above by
The second electromagnetic valve 44 opened by controller), system can carry out a complete water treatment process automatically, completes
Backward main frame send water and processed signal, de aerated water monitored in real time by water treatment facilities of the present utility model
Case 20 and heating water tank 3 surplus water, uninterruptedly prepare de aerated water.
To sum up, this utility model provides a kind of device uninterruptedly preparing de aerated water, and system has place automatically
Reason function, has the advantages that
One, by degassing with add heat container separately, degassing process and heat treated is enable independently to carry out, greatly
Amplitude shortens the interval time treating multiple patients continuously.
Two, ultrasonic liquid level sensor measurement water level is used, can be with the surplus water in measure water case.
By software algorithm, can the most persistently provide temperature required de aerated water, it is to avoid treatment
During the situation of hydropenia occurs.
Three, adding and automatically process function, when operator is set to this pattern, system can be automatic
Completing all flow processs, after water has processed, transmission has processed signal to main frame, simplifies operation step
Suddenly.
These are only embodiment of the present utility model, not thereby limit the scope of the claims of the present utility model,
Every equivalent structure utilizing this utility model description and accompanying drawing content to be made or equivalence flow process conversion, or
Directly or indirectly it is used in other relevant technical fields, is the most in like manner included in patent of the present utility model and protects
In the range of protecting.
Claims (9)
1. the water treatment facilities for ultrasound tumor therapeutic system, it is characterised in that: described water treatment facilities includes heating water tank and the control device that the circulating degasser that inlet channel connect connects with circulating degasser with the outfan of inlet channel;
Described circulating degasser includes deaerate water tank, circulating pump, deaeration pipe and vacuum pump, a circulating degasification loop is formed after the head and the tail connection successively of described degassing water tank, circulating pump and deaeration pipe, water in degassing water tank is entered after deaeration pipe is de-gassed by circulating pump and is again introduced into the water tank that deaerates, the gas that described vacuum pump overflows when connecting to take away the degassed pipe of current with described deaeration pipe;
Described heating water tank is connected with described degassing water tank by one first pipeline, and the de aerated water after degassing being completed exports the main frame to supersonic tumor system after heating;
First level sensor of the water level for detecting degassing water tank that described control device includes controller, be located on degassing water tank, the second level sensor of the water level for detecting heating water tank being located in described heating water tank, being dehydrated the time set of timing, the first electromagnetic valve being located on the first pipeline and the second electromagnetic valve being located on inlet channel for carrying out dewatering box, described first level sensor, the second level sensor, the first electromagnetic valve and the second electromagnetic valve all electrically connect with described controller.
2. the water treatment facilities for ultrasound tumor therapeutic system as claimed in claim 1, it is characterised in that: also include that the position on described inlet channel between input and deaeration pipe is located at by a water purifier, described water purifier.
3. the water treatment facilities for ultrasound tumor therapeutic system as claimed in claim 2, it is characterised in that: on described inlet channel, the position near its input is additionally provided with first manual valve.
4. the water treatment facilities for ultrasound tumor therapeutic system as claimed in claim 1, it is characterized in that: described degassing water tank has one first water inlet, one first outlet and one first gap, first water inlet of described degassing water tank connects with the outfan of described inlet channel, first outlet of described degassing water tank is connected with described circulation delivery side of pump by a second pipe, described circulation delivery side of pump is connected with the input of described deaeration pipe by the 3rd pipeline, the outfan of described deaeration pipe is connected by the water inlet of described inlet channel with described degassing water tank;Spilling water in degassing water tank is got rid of outside degassing water tank by described first gap by one first overflow pipe.
5. the water treatment facilities for ultrasound tumor therapeutic system as claimed in claim 4, it is characterized in that: described heating water tank has one second water inlet, one second outlet and the second gap, described second water inlet is connected by the first outlet of described first pipeline with described degassing water tank, water after heating is delivered to described main frame by one first outlet conduit by described second outlet, and described second gap is got rid of outside heating water tank for by spilling water by one second overflow pipe connection.
6. the water treatment facilities for ultrasound tumor therapeutic system as claimed in claim 5, it is characterized in that: described second water inlet and the second outlet are same port, by the first tee T, outfan with described first pipeline connects and the input connection of the first outlet conduit respectively, is provided with the second hand-operated valve on described first outlet conduit.
7. the water treatment facilities for ultrasound tumor therapeutic system as claimed in claim 6, it is characterized in that: described first outlet conduit is one second tee T, first end of described second tee T connects with described first tee T as input, second end conduct of the second tee T adds output end of hot water and connects with described main frame, and the 3rd end of the second tee T is as discharge ends.
8. the water treatment facilities for ultrasound tumor therapeutic system as claimed in claim 5, it is characterised in that: described vacuum pump connects with described inlet channel also by one the 4th pipeline, is provided with the 3rd electromagnetic valve on described 4th pipeline;Arranging the 3rd gap on described vacuum pump, the aqueous vapor in vacuum pump is discharged by the 3rd gap by one the 3rd overflow pipe.
9. the water treatment facilities for ultrasound tumor therapeutic system as claimed in claim 1, it is characterized in that: also include an overflow tank, described overflow tank has the 3rd water inlet, the 4th water inlet and the 5th water inlet, and the 3rd to the 5th water inlet is connected with degassing water tank, heating water tank and vacuum pump by the first overflow pipe, the second overflow pipe and the 3rd overflow pipe respectively;Described overflow pipe also has a spilling water outlet, and this spilling water outlet discharges the water in overflow tank by a drainage pipeline.
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CN201620219192.XU CN205556352U (en) | 2016-03-22 | 2016-03-22 | A water treatment facilities for supersound oncotherapy system |
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CN201620219192.XU CN205556352U (en) | 2016-03-22 | 2016-03-22 | A water treatment facilities for supersound oncotherapy system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108911001A (en) * | 2018-08-21 | 2018-11-30 | 深圳市普罗医学股份有限公司 | A kind of medicinal water processing equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108911001A (en) * | 2018-08-21 | 2018-11-30 | 深圳市普罗医学股份有限公司 | A kind of medicinal water processing equipment |
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