CN2734163Y - Pre-cooling type device for treating tumor - Google Patents
Pre-cooling type device for treating tumor Download PDFInfo
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- CN2734163Y CN2734163Y CN 200420002448 CN200420002448U CN2734163Y CN 2734163 Y CN2734163 Y CN 2734163Y CN 200420002448 CN200420002448 CN 200420002448 CN 200420002448 U CN200420002448 U CN 200420002448U CN 2734163 Y CN2734163 Y CN 2734163Y
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- cryogenic fluid
- gas
- high temperature
- probe
- carrier pipe
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Abstract
The utility model relates to a pre-cooling type tumor treating device, which comprises a concentrically nested reducer vacuum outer sleeve with both ends provided with plugs, and a probe head connected with a lower plug. A core axle is arranged in the outer sleeve, and a closing plate is covered on the upper end of the core axle; the peripheral wall of the core axle is wound with low-temperature actuating medium transport pipes which are spirally arranged; the upper end of the low-temperature actuating medium transport pipe is connected with the low temperature actuating medium air source, and the lower end is provided with throttling apertures extending to the lower part of the probe head; the peripheral wall of the inner core of the probe is also fixedly provided with high-temperature actuating medium transport pipes for pre-cooling the actuating mediums in the low-temperature actuating medium transport pipes; the upper end of the high-temperature actuating medium transport pipe is communicated with the high-temperature actuating medium air source, and the lower end is provided with throttling apertures extending to the middle part of the connecting block; an air-return pipe respectively passing through the closing plate and the upper plug and communicated with the inner core of the probe is communicated with the connecting pipeline for communicating the low-temperature actuating medium transport pipe and the low-temperature actuating medium air source, or is communicated with the connecting pipeline for connecting the high-temperature actuating medium transport pipe and the high-temperature actuating medium air source; the air-return pipe is provided with an air release valve. The pre-cooling type tumor treating device has low actuating pressure which is easy to obtain, and moreover, has high safety, economy and stability.
Description
Invention field
This utility model belongs to the cold therapy technical field that surgical operation is used, particularly a kind of pre-cooling type therapy equipment that is used for oncotherapy.
Technical background
By frozen cell the surgical operation of active mass's structural deterioration is normally used for destroying cancerous cell or benign tumor.Operate on operation with respect to surgery, the cryosurgery operation has many advantages: fast, almost painless, need not local anesthesia, no postoperative infection risk, and preventing from scar almost.
Cause the mechanism of cytoclasis to have by cryosurgery:
1. if tissue is slowly cooled, moisture content leaves cell, makes harmful electrolyte concentration raising in the cell, causes tissue necrosis;
2. if tissue is cooled off fast, will form many and small ice crystal, make the ice crystal refinement, this moment, cell was not fragile.But in melting process, if ice to the phase transformation of water too soon, all ice crystals are by brief melting.If thawing speed lowers, the ice crystal that takes place to have melted will be cooled off its tissue on every side, thereby make some water form ice once more, recrystallization process will make some ice crystals be lengthened out and form the ice cutting edge of a knife or a sword, ice cutting edge of a knife or a sword thorn breaking cell wall causes cell death, thereby makes tissue necrosis.
3. when metabolism continues, ice the supply of block cell nutrition and the processing of metabolite, cell death just takes place.
Surgical operation can use refrigerated source such as dry ice, liquid nitrogen to directly apply to pending tissue and finish.The simplest method is to dip in liquid refrigerant with cotton swab, directly contacts into treatment sites with the cotton balls that soaks into cold-producing medium then, perhaps cold-producing medium is imported the metal catheter of a sealing, implements cryosurgery by metal catheter ejector refrigeration agent to application site.Yet, this method has many places of not complying with one's wishes: (1) is directly used cold-producing medium to cause and is organized quick freezing with the method for dipping in or spraying, and causes the ice crystal refinement rather than forms big ice crystal, cell is not easy dehydration, has reduced to destroy by high electrolysis concentration the generation of cell.After cold-producing medium left, heat froze organized delivery to quilt again in health, caused melting relatively fast, should not form the ice cutting edge of a knife or a sword, thereby had reduced the cell degree that wrecks that makes.Directly using cold-producing medium is the size of uncontrollable freezing area in the greatest problem of local organization, uncontrollable freezing degree, cooling time and heating-up time.
Cooper at first used liquid nitrogen as low-temperature receiver in 1961, adopted the metallic conduit of liquid nitrogen by sealing, flow to the tip of pipe under certain pressure, by the vaporization cooling effect of liquid nitrogen the local temperature of enduring cold was fallen and reach about-190 ℃.He has treated 100 routine parkinson with this device.
The operating theater instruments of using liquid nitrogen to make as low-temperature receiver is widely used.Particularly in the department of dermatologry for the treatment of nevus class, acne, freckle, wart etc.Yet the liquid nitrogen hypothermy unit tool in many aspects can not be satisfactory.Liquid nitrogen serious problems can occur in the most advanced and sophisticated evaporation of freezing head: owing to return from the tip, discharge nitrogen all around makes the part liquid nitrogen heating, can make the liquid nitrogen vaporization in the supply pipe.This is that liquid nitrogen partly evaporates formation gas in the supply pipe and make because the nitrogen of discharging than the liquid nitrogen temperature height in the supply pipe, has formed counter current heat exchange, hinders the nitrogen bubble that liquid nitrogen flows to the tip and form.Increasing liquid nitrogen pressure or reduction liquid nitrogen temperature can make liquid nitrogen supercool, thereby address this problem.But this makes system more complicated again; Secondly, liquid nitrogen uses inconvenient, the equipment complicated operation.
So, as coolant, rely on Jiao Er-refrigerating method of Thomson throttle effect to be subject to people's attention and to welcome with gas.At present, can think current more advanced cold therapy device with regard to the argon-helium cutter of this principle invention in the world, its cryoprobe contains two circuits at argon, helium, the technology that argon fast-refrigerating helium then heated up rapidly when principle was to utilize throttling, thereby cause the function of interval rapid cooling and intensification at cutter head, by tumor tissues being frozen, melts circulation, the destroyed tumor focus, with Min. or do not damage the injury of tumor periphery normal structure, the effect that reach no wound, has no side effect.Yet, argon-employed bleed pressure of helium cutter is very high, the argon inlet pressure is higher than 210bar, high pressure like this, make the security performance of cryoprobe have great hidden danger, and the used gases at high pressure preparation specially of argon-helium cutter, source of the gas obtains very difficult, surgery cost is therefore also very high, and each surgery cost is above 5,000 yuan.In addition, because the operating pressure of argon is too high, just, in use, when pressure drops to 210bar, just can not use, the argon bottle that must in time more renew has so just caused one bottle of gas can utilize the amount of part very little, one bottle of gas even can not satisfy once the needs of operation, therefore need to change gas cylinder in the middle of operation process, this causes great inconvenience to operation, also causes accident easily.
Summary of the invention
The purpose of this utility model is: a kind of novel pre-cooling type therapeutic apparatus for treating tumor is provided, and the cheap gas that this device can use and be easy to obtain, operating pressure reduces greatly, and also its safety, economy and stability all are improved.
The technical solution of the utility model is as follows:
The pre-cooling type therapeutic apparatus for treating tumor that this utility model provides is characterized in that, comprising:
One overcoat 1, this overcoat 1 comprises the reducing stainless steel tube that concentric locking collar is fitted together, the two ends of reducing stainless steel tube are welded evacuation and sealing between upper plug head 11 and lower end cap 14, the two reducing stainless steel tubes respectively;
One is connected in the probe 3 of lower end cap 14 lower ends, and this probe 3 is hollow cavity, and its termination portion is that external diameter is the thin cone of 2-5 millimeter, and the tapering of cone is 30-90 °;
One is installed on the hollow cylinder core barrel 21 in the overcoat 1, and shrouding 211 is stamped in its upper end;
Cryogenic fluid carrier pipe 22 helical arrangement that one upper end is connected with cryogenic fluid source of the gas 5 are coiled on described mandrel 21 perisporiums, its leading portion 22a is spirally coiled on the mandrel 21 top 212a, constitute first order heat exchanger I, the back segment 22b of cryogenic fluid carrier pipe 22 is spirally coiled on the 212c of mandrel bottom, constitute second level heat exchanger II, cryogenic fluid carrier pipe 22 hold the inner chamber that is provided with a throttling pore 221 and stretches into the interior pipe of overcoat to extend the bottom of probe 3 inner chambers;
One is fixedly mounted on the high temperature refrigerant carrier pipe 23 that is used for the working medium of cryogenic fluid carrier pipe 22 is carried out pre-cooling on the described mandrel 21, these high temperature refrigerant carrier pipe 23 upper ends are connected with high temperature refrigerant source of the gas 4, and its lower end is provided with throttling pore 231 and extends the below of first order heat exchanger I;
Also comprise pass shrouding 211 and and the muffler 24 of mandrel 21 intracavity inter-connections, installation vent valve 8 on this muffler 24; The below of described first order heat exchanger I is provided with an I shape contiguous block, and described high temperature refrigerant carrier pipe 23 lower ends extend the middle part of this I shape contiguous block; On the connecting pipe that is connected between described high temperature refrigerant carrier pipe 23 and the high temperature refrigerant source of the gas 4 by-pass valve control 9 is installed; On the connecting pipe that is connected between described cryogenic fluid carrier pipe 22 and the cryogenic fluid source of the gas 5 by-pass valve control 6 is installed; Described cryogenic fluid carrier pipe 22 is flexible copper tube of good heat conductivity or stainless steel tube, and it twines thin fin on the outer surface; Described muffler 24 is connected with the connecting pipe that is communicated with between cryogenic fluid carrier pipe 22 and the cryogenic fluid source of the gas 5 by by-pass valve control 7, perhaps is connected with the connecting pipe that is connected between high temperature refrigerant carrier pipe 23 and the high temperature refrigerant source of the gas 4; The inner chamber of described probe 3 is the screw-type inner chamber; Described high temperature refrigerant source of the gas 4 built-in high temperature refrigerant gases are CO
2, N
2O, C
2H
6Or C
2H
4Described cryogenic fluid source of the gas 5 built-in cryogenic fluid gases are Ar, O
2Or N
2The head of described probe 3 is equipped with temperature sensor.
Overcoat 1 can divide upper and lower two sections making with two reducing stainless steel tubes, and the epimere outer tube is connected the operating grip that upper plug head 11 constitutes probe with interior pipe, and the hypomere outer tube is connected lower end cap 14 common formation probe rods, sealed after being vacuumized between the stainless steel tube with interior pipe; This structure has good effect of heat insulation, effect with two aspects: the one, can make in the cold therapy process except probe 3 positions is the low temperature, other position of probe all is a room temperature, helps doctor's operation like this, and cause big damage can for other positions, reach Wicresoft's effect; The 2nd, owing to be with good effect of heat insulation outward, can make full use of the cold of probe, raise the efficiency, reduce air consumption.Operating grip when overcoat top is operation simultaneously, the overcoat bottom is a probe rod, partly stretches into during operation in the body, probe 3 is thrust the position that needs treatment;
Operation principle of the present utility model and advantage thereof are: as Fig. 1, when freezing, the cryogenic fluid of normal temperature high voltage is cooled to certain temperature in advance by the high temperature refrigerant after the throttling cooling when flowing through the heat exchange of I level, enter the heat exchange of II level, the cryogenic fluid that is refluxed after the throttling further cools off, in the throttling blood pressure lowering of throttling pore 221 places, because the J-T effect can obtain required low temperature; Because the pre-cooling of high temperature refrigerant is arranged, and the inlet pressure of cryogenic fluid can reduce greatly, required like this source of the gas just can directly obtain from the market, and air consumption significantly reduces simultaneously, and this is one of advantage of the present utility model; When rising again, return-air duct 23 is connected highly compressed cryogenic fluid source of the gas 4, like this, the atmosphere gas of probe 3 is compressed suddenly, and temperature rises suddenly, discharges a large amount of heats, needn't use other working medium instead like this, and this is two of an advantage of the present utility model; This utility model also can realize that probe reaches the purpose of rising again fast fast by the flow direction that changes working medium, makes tumor tissues freeze/melt circulation, reaches the purpose of destroyed tumor tissue.Can select the probe of difformity, specification, be applicable to different depth, the treatment of different size tumor, also can the temperature of thermocouple with the end of probe in the monitor treatment process be set in end of probe.
Description of drawings
Accompanying drawing 1 is the structural representation of this utility model (embodiment);
Accompanying drawing 2 is the structural representation of second embodiment of the present utility model;
Accompanying drawing 3 is the structural representation of the 3rd embodiment of the present utility model;
Accompanying drawing 4 is the structural representation of the 4th embodiment of the present utility model;
Wherein: an overcoat 1 upper plug head 11 lower end caps 14
Cryogenic fluid carrier pipe 22 cryogenic fluid sources of the gas 5 throttling pore 231,221
High temperature refrigerant carrier pipe 23 high temperature refrigerant sources of the gas 4 by-pass valve controls 6,7,8,9
Muffler 24 is risen again and is managed 25 high-pressure air source 4,5
Vent valve 8 by-pass valve controls 6,7,9 contiguous block 212b
The specific embodiment
Further describe this utility model below in conjunction with drawings and Examples:
Shown in Fig. 1-4, the pre-cooling type therapeutic apparatus for treating tumor that this utility model provides comprises:
Overcoat 1, this overcoat 1 comprises the reducing stainless steel tube that concentric locking collar is fitted together, the two ends of reducing stainless steel tube are welded evacuation and sealing between upper plug head 11 and lower end cap 14, the two reducing stainless steel tubes respectively; Overcoat 1 can divide upper and lower two sections making, and the epimere outer tube is connected the operating grip that upper plug head 11 constitutes probe with interior pipe, and the hypomere outer tube is connected lower end cap 14 common formation probe rods, sealed after being vacuumized between the stainless steel tube with interior pipe; This structure has good effect of heat insulation, effect with two aspects: the one, can make in the cold therapy process except probe 3 positions is the low temperature, other position of probe all is a room temperature, helps doctor's operation like this, and cause big damage can for other positions, reach Wicresoft's effect; The 2nd, owing to be with good effect of heat insulation outward, can make full use of the cold of probe, raise the efficiency, reduce air consumption.Operating grip when overcoat top is operation simultaneously, the overcoat bottom is a probe rod, partly stretches into during operation in the body, probe 3 is thrust the position that needs treatment;
Be installed on the hollow cylinder core barrel 21 in the overcoat 1, shrouding 211 is stamped in its upper end; Cryogenic fluid carrier pipe 22 helical arrangement that one upper end is connected with cryogenic fluid source of the gas 5 are coiled on described mandrel 21 perisporiums, its leading portion is spirally coiled on mandrel 21 tops, constitute first order heat exchanger I, the back segment of cryogenic fluid carrier pipe 22 is spirally coiled on the mandrel bottom, constitute second level heat exchanger II, cryogenic fluid carrier pipe 22 hold the inner chamber that is provided with a throttling pore 221 and stretches into the interior pipe of overcoat to extend the bottom of probe (3) inner chamber;
One is fixedly mounted on the high temperature refrigerant carrier pipe 23 that is used for the working medium of cryogenic fluid carrier pipe 22 is carried out pre-cooling on the described mandrel 21, these high temperature refrigerant carrier pipe 23 upper ends are connected with high temperature refrigerant source of the gas 4, and its lower end is provided with throttling pore 231 and extends the below of first order heat exchanger I;
Embodiment 1:
As Fig. 1, when freezing, opening controlling valve 6,8 and 9, highly compressed cryogenic fluid flows into cryogenic fluid carrier pipe 22 from gas cylinder 5 by control valve 6, at first by its leading portion, carry out heat exchange at this and from the high temperature refrigerant in the middle part of the contiguous block, be cooled to certain temperature in advance, enter cryogenic fluid carrier pipe back segment, the cryogenic fluid that is refluxed after the throttling further cools off, in the throttling blood pressure lowering of throttling pore 221 places, because the J-T effect can obtain required low temperature; High temperature refrigerant enters high temperature refrigerant carrier pipe 23 by control valve 9, and by throttle orifice 231 back throttling coolings, constitute the return gas channel backflow from epimere inwall and cryogenic fluid carrier pipe leading portion then, absorb the heat of the cryogenic fluid of the cryogenic fluid carrier pipe 22 of flowing through by mandrel epimere outer wall, overcoat internal layer reducer pipe.Because the pre-cooling of high temperature refrigerant is arranged, and the inlet pressure of cryogenic fluid can reduce greatly, required like this source of the gas just can directly obtain from the market, and air consumption significantly reduces simultaneously, and this is one of advantage of the present utility model; When rising again, return-air duct 24 is connected highly compressed cryogenic fluid source of the gas 5, equally also can connect highly compressed high temperature refrigerant source of the gas 4 like this, the low-pressure gas of probe 3 inner chambers is compressed suddenly, temperature rises suddenly, discharges a large amount of heats, reaches the purpose of rising again, needn't use new working medium like this instead and just can realize rising again, this is two of an advantage of the present utility model; This utility model also can realize that probe reaches the purpose of rising again fast fast by the flow direction that changes working medium, makes tumor tissues freeze/melt circulation, reaches the purpose of destroyed tumor tissue.According to the treatment needs, can select the probe of difformity, specification, to be applicable to different depth, the treatment of different size tumor, also can the temperature of thermocouple with the end of probe in the monitor treatment process be set in end of probe; The high temperature refrigerant gas that uses in the high temperature refrigerant source of the gas 4 in the present embodiment is CO
2, the cryogenic fluid gas that uses in the cryogenic fluid source of the gas 5 is Ar.
Embodiment 2:
As shown in Figure 2, this is an another kind of embodiment of the present utility model, and the embodiment principle of this embodiment and accompanying drawing 1 is basic identical, and cryogenic fluid arrives the bottom of probes 3 inner chambers by conveyance conduit 22 after through twice pre-cooling, in this throttling cooling, reach needed treatment temperature.Different is, muffler 24 is by by-pass valve control 8 directly emptyings of back, and other establishes the lower end that the pipe 25 of rising again extends mandrel 21.Closed control valve 7 when refrigerating process, opening controlling valve 6,8 and high temperature refrigerant control valve 9, cryogenic fluid when flowing through its conveyance conduit 22 successively by high temperature refrigerant after the throttling and the cryogenic fluid pre-cooling that refluxes from probe 3, lower the temperature by connecing discharge orifice 221 throttlings at the inner chamber place of probe 3 at last, realize freezing.Closed control valve 8 and control valve 9 when rising again, high-pressure air source directly feed through the pipe 25 of rising again, and the low-pressure gas in the probe is compressed, and produce heat, realize rising again.Such purpose be avoid when rising again gases at high pressure by return gas channel the time by the lower mandrel cooling of temperature, the influence effect of rising again.The pipe 25 of rising again also can communicate with high temperature refrigerant source of the gas 4, and the high pressure with high temperature refrigerant when rising again compresses the interior low-pressure gas of probe, reaches the effect of rising again.The high temperature refrigerant gas that uses in the high temperature refrigerant source of the gas 4 among the embodiment is N
2O, the cryogenic fluid gas that uses in the cryogenic fluid source of the gas 5 is O
2
Embodiment 3:
As shown in Figure 3, this is the third embodiment of the present utility model, in this embodiment, mandrel 21 is divided into upper and lower two parts, the top of probe 3 inner chambers is stretched in its underpart by inner chamber, the leading portion of cryogenic fluid carrier pipe is spirally coiled in the mandrel epimere, and the back segment of cryogenic fluid carrier pipe is spirally coiled in the mandrel hypomere.The high temperature refrigerant gas that uses in the high temperature refrigerant source of the gas 4 among the embodiment is C
2H
6, the cryogenic fluid gas that uses in the cryogenic fluid source of the gas 5 is N.
Embodiment 4:
As shown in Figure 4, this is the 4th a kind of embodiment of the present utility model, and in this embodiment, mandrel 21 is a hollow cylinder.Muffler 24 is by control valve 8 directly emptyings of back, and the pipe 25 of rising again passes mandrel inner chamber and outer tube bore and extends the top of probe 3 inner chambers.The leading portion of cryogenic fluid conveyance conduit is spirally coiled in the outer wall of mandrel 21 and is close to the inwall formation first order heat exchanger of outer tube; The back segment of cryogenic fluid conveyance conduit is spirally coiled in the outer wall of the pipe 25 of rising again and is close to outer tube wall and constitutes second level heat exchanger.High temperature refrigerant carrier pipe 23 passes shrouding 211 and enters the inner chamber of mandrel 21 and pass its end.When rising again like this, high-pressure air source directly directly feeds end of probe by the pipe 25 of rising again, and compresses its original low-pressure gas, produces a large amount of heats, realizes rising again.By temperature lower mandrel and the cooling of other position, influence the effect of rising again when high-pressure air source is flowed through return gas channel when so just having avoided rising again.The high temperature refrigerant gas that uses in the high temperature refrigerant source of the gas 4 among the embodiment is C
2H
4, the cryogenic fluid gas that uses in the cryogenic fluid source of the gas 5 is N.
Claims (9)
1, a kind of pre-cooling type therapeutic apparatus for treating tumor that is used for oncotherapy is characterized in that, comprising:
One overcoat (1), this overcoat (1) comprises the reducing stainless steel tube that concentric locking collar is fitted together, the two ends of reducing stainless steel tube are welded upper plug head (11) and lower end cap (14) respectively, evacuation and sealing between the two reducing stainless steel tubes;
One is connected in the probe (3) of lower end cap (14) lower end, and this probe (3) is hollow cavity, and its termination portion is that external diameter is the thin cone of 2-5 millimeter, and the tapering of cone is 30-90 °;
One is installed on the hollow cylinder core barrel (21) in the overcoat (1), and shrouding (211) is stamped in its upper end;
Cryogenic fluid carrier pipe (22) helical arrangement that one upper end is connected with cryogenic fluid source of the gas (5) is coiled on described mandrel (21) perisporium, its leading portion (22a) is spirally coiled on mandrel (21) top (212a), constitute first order heat exchanger (I), the back segment (22b) of cryogenic fluid carrier pipe (22) is spirally coiled on the mandrel bottom (212c), constitute second level heat exchanger (II), cryogenic fluid carrier pipe (22) hold the inner chamber that is provided with a throttling pore (221) and stretches into the interior pipe of overcoat to extend the bottom of probe (3) inner chamber;
One is fixedly mounted on the high temperature refrigerant carrier pipe (23) that is used for the working medium of cryogenic fluid carrier pipe (22) is carried out pre-cooling on the described mandrel (21), this high temperature refrigerant carrier pipe (23) upper end is connected with high temperature refrigerant source of the gas (4), and its lower end is provided with throttling pore (231) and extends the below of first order heat exchanger (I);
Also comprise pass shrouding (211) and and the muffler (24) of mandrel (21) intracavity inter-connection, this muffler (24) is gone up installation vent valve (8).
2, by the described pre-cooling type therapeutic apparatus for treating tumor that is used for oncotherapy of claim 1, it is characterized in that, the below of described first order heat exchanger (I) is provided with an I shape contiguous block, and described high temperature refrigerant carrier pipe (23) lower end extends the middle part of this I shape contiguous block.
3, by the described pre-cooling type therapeutic apparatus for treating tumor that is used for oncotherapy of claim 1, it is characterized in that, on the connecting pipe that is connected between described high temperature refrigerant carrier pipe (23) and the high temperature refrigerant source of the gas (4) by-pass valve control (9) is installed; On the connecting pipe that is connected between described cryogenic fluid carrier pipe (22) and the cryogenic fluid source of the gas (5) by-pass valve control (6) is installed.
4, by claim 1 or the 2 described pre-cooling type therapeutic apparatus for treating tumor that are used for oncotherapy, it is characterized in that described cryogenic fluid carrier pipe 22 is flexible copper tube of good heat conductivity or stainless steel tube, it twines thin fin on the outer surface.
5, by the described pre-cooling type therapeutic apparatus for treating tumor of claim 1, it is characterized in that, described muffler (24) is connected with the connecting pipe that is communicated with between cryogenic fluid carrier pipe (22) and the cryogenic fluid source of the gas (5) by by-pass valve control (7), perhaps is connected with the connecting pipe that is connected between high temperature refrigerant carrier pipe (23) and the high temperature refrigerant source of the gas (4).
6, by the described pre-cooling type therapeutic apparatus for treating tumor that is used for oncotherapy of claim 1, it is characterized in that the inner chamber of described probe (3) is the screw-type inner chamber.
7, by the described pre-cooling type therapeutic apparatus for treating tumor of claim 1, it is characterized in that the built-in high temperature refrigerant gas of described high temperature refrigerant source of the gas (4) is CO2, N2O, C2H6 or C2H4.
By the described pre-cooling type therapeutic apparatus for treating tumor that is used for oncotherapy of claim 1, it is characterized in that 8, the built-in cryogenic fluid gas of described cryogenic fluid source of the gas (5) is Ar, O2 or N2.
9, by the described pre-cooling type therapeutic apparatus for treating tumor that is used for oncotherapy of claim 1, it is characterized in that the head of described probe (3) is equipped with temperature sensor.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 200420002448 CN2734163Y (en) | 2003-12-12 | 2004-01-20 | Pre-cooling type device for treating tumor |
Applications Claiming Priority (3)
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CN200320127918 | 2003-12-12 | ||
CN200320127918.X | 2003-12-12 | ||
CN 200420002448 CN2734163Y (en) | 2003-12-12 | 2004-01-20 | Pre-cooling type device for treating tumor |
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CN2734163Y true CN2734163Y (en) | 2005-10-19 |
Family
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CN 200420002448 Expired - Lifetime CN2734163Y (en) | 2003-12-12 | 2004-01-20 | Pre-cooling type device for treating tumor |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100361635C (en) * | 2003-12-12 | 2008-01-16 | 北京库蓝医疗设备有限公司 | Pre cooling type refrigeration method and pre cooling type treatment device for curing tumour |
CN102908186A (en) * | 2011-08-03 | 2013-02-06 | 上海交通大学医学院附属第九人民医院 | Pen type temperature-controllable refrigerator for shape memory alloy |
CN105902310A (en) * | 2016-04-11 | 2016-08-31 | 赵国江 | Cryosurgery device capable of achieving freezing and rewarming by adjusting gas pressure |
CN106725826A (en) * | 2017-01-11 | 2017-05-31 | 上海导向医疗系统有限公司 | The flexible cryoprobe of enhancing cutter head security and fixed J T groove locations |
-
2004
- 2004-01-20 CN CN 200420002448 patent/CN2734163Y/en not_active Expired - Lifetime
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100361635C (en) * | 2003-12-12 | 2008-01-16 | 北京库蓝医疗设备有限公司 | Pre cooling type refrigeration method and pre cooling type treatment device for curing tumour |
CN102908186A (en) * | 2011-08-03 | 2013-02-06 | 上海交通大学医学院附属第九人民医院 | Pen type temperature-controllable refrigerator for shape memory alloy |
CN102908186B (en) * | 2011-08-03 | 2015-03-11 | 上海交通大学医学院附属第九人民医院 | Pen type temperature-controllable refrigerator for shape memory alloy |
CN105902310A (en) * | 2016-04-11 | 2016-08-31 | 赵国江 | Cryosurgery device capable of achieving freezing and rewarming by adjusting gas pressure |
CN105902310B (en) * | 2016-04-11 | 2018-07-06 | 天津美电医疗科技有限公司 | Cryosurgery device for adjusting air pressure to realize freezing and rewarming |
CN106725826A (en) * | 2017-01-11 | 2017-05-31 | 上海导向医疗系统有限公司 | The flexible cryoprobe of enhancing cutter head security and fixed J T groove locations |
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GR01 | Patent grant | ||
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Effective date of abandoning: 20080116 |
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C25 | Abandonment of patent right or utility model to avoid double patenting |