CN204971205U - Intraocular pressure monitor and intraocular pressure monitoring system - Google Patents
Intraocular pressure monitor and intraocular pressure monitoring system Download PDFInfo
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- CN204971205U CN204971205U CN201520523876.4U CN201520523876U CN204971205U CN 204971205 U CN204971205 U CN 204971205U CN 201520523876 U CN201520523876 U CN 201520523876U CN 204971205 U CN204971205 U CN 204971205U
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Abstract
The utility model relates to the technical field of medical equipment, a intraocular pressure monitor is disclosed, install on the former wife who has died pours into the pipe, include: be used for monitoring the monitoring devices of intraocular pressure and the fixing device who is connected with monitoring devices, fixing device be used for with monitoring devices fix the former wife who has died pour into the pipe the former wife who has died pour into the head the exit, wherein, monitoring devices includes: one is filled with gaseous seal chamber, setting forced induction mechanism and the wireless signal transmission module of setting in the cavity in the cavity, arbitrary one side of cavity is for producing the elasticity face of deformation along with the intraocular pressure intensity change, and forced induction mechanism is connected with the elasticity face, and forced induction mechanism is used for converting the deformation of elasticity face into the signal of telecommunication, wireless signal transmission module and forced induction mechanism are connected, and wireless signal transmission module is used for electric signal transmission to outside terminal equipment. The utility model provides a fill the intraocular pressure monitor of first looks adaptation with the former wife who has died, IOP value in the eye operation art need not additionally to increase the incision of performing the operation in can real -time supervision.
Description
Technical field
This utility model relates to medical instruments field, particularly a kind of intraocular pressure monitor and system for monitoring intraocular pressure.
Background technology
The cataractous sickness rate of China remains high, and cataract belongs to relatively blind.In recent years, usually utilize ultrasonic emulsification for cataract and intraocular lens implants to treat this disease, wherein the technical merit of surgical condition and doctor plays a part very important for the recovery of patient's Postoperative visual acuity.In this kind of surgical operation, due to the restriction of microscopy conditions or technical conditions, operating theater instruments need pass in and out anterior chamber of eyeball repeatedly, make in whole operation process, to maintain good, stable anterior chamber depth and Real-Time Monitoring intraocular pressure (IntraocularPressure, be called for short " IOP "), thus cause anterior chamber to shoal, disappear, corneal damage endothelium, iris, even cause posterior capsule rupture, bullous keratopathy and artificial intraocular lenses is caused to implant, operation safety and postoperative rate of recovering lost eyesight are reduced greatly, and then causes more serious consequence as blind.
In addition, some other intraocular surgery, stablizes to keep anterior chamber as vitrectomy, Secondary intraocular lens implantation, pupil moulding art etc. all need to maintain certain IOP value in art.In order to address this problem, operator often with its personal experience, by Intraocular tamponade viscoelastic agent in art or select the amount control IOP value of pumping liquid.But experienced doctor also cannot accurately know instant IOP value in art again, and keep normal intraocular pressure all significant for the prognosis of the smooth enforcement of performing the operation and intraocular surgery.
In order to stable anterior chamber depth and IOP value, start extensive use anterior chamber maintaining apparatus (anteriorchambermaintainer is called for short " ACM ") clinically.ACM is that first knolle in 1980 introduces and be applied to clinical, and through the development in more than 30 years, this technology has been applied and various ophthalmologic operation.ACM is made up of syringe needle and silica gel tube two parts, and the former enters anterior chamber, and the latter connects perfusion bottle, and in bottle, fluid level is apart from horizontal plane of eye certain altitude (be often 25-35cm, be equivalent to 18-26mmHg), regulates IOP value by regulating the height of perfusion bottle.ACM has apparent advantage, it can keep certain anterior chamber depth in art, can adjust in time, discission needle corneal damage endotheliocyte when stable dark anterior chamber it also avoid capsulorhexis, by ACM eternal BSS continual rinsing anterior chamber, visual area not only can be made more clear, also can reduce the hot injury of super nipple corneal simultaneously.
The principle that current modal IOP measures is mostly and makes certain pressure act on cornea, and the degree of depth be driven plain by cornea or area estimate IOP value.Although utilize this principle to measure the equipment varied (such as, classical Schiotz tonometer or Goldman tonometer) of IOP value.But, be all for measuring instant IOP value, there is no the function of Real-Time Monitoring mostly.Therefore, even if application ACM, the IOP value in art is still patient and rule of thumb estimates and with this to regulate perfusion bottle height, not suitable with it at present, can continue to monitor the device of IOP value in art.
Utility model content
The object of utility model is the monitoring device providing a kind of intraocular pressure value suitable with intraocular surgery reverse headgear head.This device continues to monitor patient's intraocular pressure in performing the operation within the eye, without the need to additional surgical otch and operation technique, also without the need to expanding operative incision, light small and exquisite, can not harmed eye inner tissue.
For solving the problems of the technologies described above, embodiment of the present utility model provides a kind of intraocular pressure monitor, be arranged on reverse headgear pipe, it comprises: for the monitoring device of monitoring intraocular pressure and the fixture be connected with monitoring device, fixture is used for the exit of reverse headgear head monitoring device being fixed on reverse headgear pipe.
Wherein, monitoring device comprises: a seal chamber being filled with gas, the wireless signal transmitting apparatus being arranged on the pressure sensitive mechanism in cavity and being arranged in cavity.
Any side of cavity is the elastic surface producing deformation with intraocular pressure Strength Changes, and pressure sensitive mechanism is connected with elastic surface, and pressure sensitive mechanism is used for the deformation of elastic surface to be converted to the signal of telecommunication.
Radio signal transmitter structure is connected with pressure sensitive mechanism, and radio signal transmitter structure is used for wireless signal to be sent to exterior terminal equipment.
Of the present utility modelly embodiment further provides a kind of system for monitoring intraocular pressure, comprise exterior terminal equipment and intraocular pressure monitor mentioned above;
Exterior terminal equipment comprises wireless signal receiver structure, process chip and storage chip;
Wireless signal receiver structure is all connected with process chip respectively with storage chip, and wireless signal receiver structure receives the signal of telecommunication, and the signal of telecommunication is passed to process chip, and transform electrical signals is force value by process chip, and force value is stored in storage chip.
In terms of existing technologies, embodiment of the present utility model provides a kind of intraocular pressure monitoring device suitable with intraocular surgery reverse headgear head.It continues to monitor patient's intraocular pressure in performing the operation within the eye, without the need to additional surgical otch and operation technique, also without the need to expanding operative incision, light small and exquisite, can not harmed eye inner tissue.The resistance of reading can also be fitted to corresponding IOP value by embodiment of the present utility model, and stores for postoperative Analysis.
As preferably, pressure sensitive mechanism is slide rheostat, the rheostat circuit that slide rheostat comprises slide plate, resistance and is connected with slide plate and resistance respectively; One end of slide plate is connected with elastic surface, and the other end acts on resistance; Rheostat circuit is connected with radio signal transmitter structure.Slide rheostat volume small wood light weight, is applicable to the monitoring device that same volume is gently little, and the change of displacement can be converted to the signal of telecommunication by slide rheostat, utilizes the transmission of information.
Further, as preferably, slide rheostat is fixed on the inwall of cavity, the edge conjunction of slide plate and elastic surface, realizes simple, easily operates.
Or slide rheostat is fixed on the middle part of cavity, slide plate is connected with the central authorities of elastic surface, and in the middle part of elastic surface, deformation is large, and corresponding resistive displacement is large, and change in electric is more obvious, and respond to sensitiveer, the data detected are more accurate.
In addition, as preferably, rheostat circuit comprises independent current source and wireless charging circuit; Independent current source is connected with slide plate and resistance respectively, and independent current source carries out wireless charging by wireless charging circuit.Owing to transmitting energy with inductive between charger and wireless charging circuit, do not need by wired connection between the two, the device of therefore charger and electricity consumption can be accomplished to expose without conductive junction point.Can charge as long as intraocular pressure monitor is put near charger during charging, easy to operate.
In addition, as preferably, cavity comprises an elastic surface and five rigid faces, and six faces are interconnected to form cuboid; The regular texture of cuboid is convenient to the installation of pressure sensitive mechanism, and it is simple that it realizes technique, and the rate that manufactures a finished product is high, can make the length direction of the connecting portion of pressure sensitive mechanism along cavity and the inwall compact siro spinning technology of cavity.
Or the cavity of monitoring device comprises an elastic surface and a rigid face, and rigid face is arc, and elastic surface and rigid face are connected to form tangent plane spheroid; Because the surface of spheroid does not have corner, be therefore not easy to damage part tissue of eye.
Or the cavity of monitoring device comprises an elastic surface and two rigid faces, and one of them rigid face is arc, and three faces are connected to form cylinder.Cylindrical column construction is convenient to the installation of pressure sensitive mechanism, makes the length direction of the connecting portion of pressure sensitive mechanism along cavity and the inwall compact siro spinning technology of cavity, and cylindrical arc-shaped outer surface does not have sharp-pointed projection simultaneously, is not easy to damage part tissue of eye.
Further, as preferably, the edge of cavity forms round edge, makes sharpened edge passivation, prevents from damaging part tissue of eye.
In addition, as preferably, fixture is a pair elastic claw, and the root of elastic claw connects monitoring device, and arm is bent to form clamp structure in opposite directions, and monitoring device is fixed on the exit of reverse headgear head by clamp structure.By the elastic restoring force of elastic claw the link of elastic claw drawn and is close together, thus apply thrust to anterior chamber's pouring head, elastic claw is pressed on reverse headgear head, thus to guarantee between elastic claw with reverse headgear head firmly and No leakage be connected.
Or as preferably, fixture also can comprise the first magnetic part and the second magnetic part; First magnetic part comprises a pair magnetic pawl, and the root of magnetic pawl connects monitoring device, and arm is protruding; Reverse headgear head is between the two-arm of magnetic pawl; Second magnetic part comprise backboard and be connected with backboard two ends adsorb pawl a pair, absorption pawl attracts each other with magnetic pawl and is connected, and the first magnetic part and the second magnetic part attract each other and block reverse headgear head.Magnetic part not only can reinforce room pouring head, and person easy to use is easy to unload and gets.
Further, as preferably, the contact surface of fixture and reverse headgear head is matsurface, with increasing friction force, thus provides clamping force better, prevents slippage.
In addition, as preferably, exterior terminal equipment also comprises alert mechanism, and alert mechanism connects with process chip; When force value is higher than high pressure alarm threshold value or lower than low pressure alert threshold, process chip sends signal to alert mechanism, active alarm mechanism, reminds the abnormal conditions of IOP value in time.
Accompanying drawing explanation
Fig. 1 is the perspective diagram under the usual state of intraocular pressure monitoring device of this utility model embodiment;
Fig. 2 is the perspective diagram of intraocular pressure monitoring device after being subject to certain pressure of this utility model embodiment;
Operation chart when Fig. 3 is the intraocular pressure monitoring device installation of this utility model embodiment;
Fig. 4 is the intraocular pressure monitoring device of this utility model embodiment top view when being applied to operation;
Fig. 5 is the intraocular pressure monitoring device of this utility model embodiment side view when being applied to operation;
Fig. 6 is the schematic diagram of the system for monitoring intraocular pressure of this utility model embodiment.
Detailed description of main elements:
1, cavity; 2, elastic surface; 3, pressure sensitive mechanism; 4, slide plate; 5, radio signal transmitter structure; 6, fixture; 7, elastic claw; 8, reverse headgear pipe; 9, intraocular pressure monitor; 10, process chip; 11, storage chip; 12, alert mechanism.
Detailed description of the invention
For making the purpose of this utility model, technical scheme and advantage clearly, below in conjunction with accompanying drawing, each embodiment of the present utility model is explained in detail.But, persons of ordinary skill in the art may appreciate that in each embodiment of this utility model, proposing many ins and outs to make reader understand the application better.But, even without these ins and outs with based on the many variations of following embodiment and amendment, each claim of the application technical scheme required for protection also can be realized.
First embodiment of the present utility model relates to a kind of intraocular pressure monitor 9, as shown in Figure 1, comprise: for the monitoring device of monitoring intraocular pressure and the fixture 6 be connected with monitoring device, fixture 6 is for being fixed on the exit of the reverse headgear head of reverse headgear pipe 8 by monitoring device.
Wherein, monitoring device comprises: a seal chamber 1 being filled with gas, the wireless signal sending module being arranged on the pressure sensitive mechanism 3 in cavity 1 and being arranged in cavity 1.
Any side of cavity 1 is the elastic surface 2 producing deformation with intraocular pressure Strength Changes, and pressure sensitive mechanism 3 is connected with elastic surface 2, and pressure sensitive mechanism 3 is for being converted to the signal of telecommunication by the deformation of elastic surface 2.
Radio signal transmitter structure 5 is connected with pressure sensitive mechanism 3, and radio signal transmitter structure 5 is for being sent to exterior terminal equipment by the signal of telecommunication.
In the present embodiment, owing to being filled with gas in seal chamber 1, therefore there is an initial pressure.This pressure is just fixed in process of production, generally at 8.0mmHg to 11.0mmHg.The gas filled can be the combination of one or more gases of nitrogen, argon and sulfur hexafluoride gas.The chemical property of nitrogen, argon and sulfur hexafluoride is all inertia, even if leak, also little on the impact of eyeball, therefore has good safety.
In the present embodiment, any side of cavity 1 can be elastic surface 2, and elastic surface 2 will produce recoverable deformation with the change of external pressure.
Specifically, cavity 1 can comprise an elastic surface 2 and five rigid faces, and six faces are interconnected to form cuboid, further, also can be cube.The regular texture of cuboid is convenient to the installation of pressure sensitive mechanism 3, and it is simple that it realizes technique, and the rate that manufactures a finished product is high, can make the length direction of the connecting portion of pressure sensitive mechanism 3 along cavity 1 and the inwall compact siro spinning technology of cavity 1.Certainly, cavity 1 also can comprise an elastic surface 2 and a rigid face, and rigid face is arc, and elastic surface 2 and rigid face are connected to form tangent plane spheroid.Because the surface of spheroid does not have corner, be therefore not easy to damage part tissue of eye.Even, cavity 1 can comprise an elastic surface 2 and two rigid faces, and one of them rigid face is arc, and three faces are connected to form cylinder.Cylindrical column construction is convenient to the installation of pressure sensitive mechanism 3, make the length direction of the connecting portion of pressure sensitive mechanism 3 along cavity 1 and the inwall compact siro spinning technology of cavity 1, cylindrical arc-shaped outer surface does not have sharp-pointed projection simultaneously, is not easy to damage part tissue of eye.User can select suitable cavity 1 structure according to the actual requirements.
In the present embodiment, the edge of cavity 1 forms round edge.The edge of cavity 1 forms round edge, makes sharpened edge passivation, prevents from damaging part tissue of eye.In practical application, the mode of the Passivation Treatment such as chamfering, polishing can be adopted to make the edge of cavity 1 form round edge.In addition, rigid face can be light and can not produce the material of deformation by material, and such as carbon fiber, ceramic material are made; Elastic surface 2 is Portable durable and can ensures the material of certain deformability, and such as macromolecular material is made.
Specifically, in the present embodiment, the operation of this intraocular pressure monitor 9 can be as follows:
(1) when operation prepares: as shown in Figure 3, intraocular pressure monitor 9 fixedly should be fixed on the exit of the reverse headgear head of reverse headgear pipe 8 by fixture 6.
(2), in operation process: as shown in Figure 4 and Figure 5, the reverse headgear head that intraocular pressure monitor 9 is housed is placed in anterior chamber through cornea 12.Wherein, the arrow 11 of Fig. 4 and Fig. 5 represents the flow direction of Anterior chamber irrigating solution.Can finding out, implementing this process without the need to extra operative incision and operation technique, also without the need to expanding operative incision.
(3) change of ophthalmic pressure will cause the distortion of the elastic surface 2 of monitoring device, and the deformation of elastic surface 2 is converted to the signal of telecommunication by the pressure sensitive mechanism 3 in monitoring device, radio signal transmitter structure 5 is connected with pressure sensitive mechanism 3, and the signal of telecommunication is sent to exterior terminal equipment.Doctor is by exterior terminal equipment Real-Time Monitoring IOP value, once occur abnormal, doctor can regulate IOP by the height adjusting perfusion bottle.
(4) operation terminates, and is taken out by the reverse headgear head that monitoring device is housed, unloads supervising device, clean up for subsequent use in anterior chamber.
Present embodiment also may be used in daily intraocular pressure monitoring, such as, when the intraocular pressure monitoring for glaucoma patient, is implanted in the anterior chamber of glaucoma patient, continues to monitor intraocular pressure by intraocular pressure monitor.Once intraocular pressure exceeds threshold value, patient can in time and doctor get in touch and take remedy measures.
In terms of existing technologies, embodiment of the present utility model provides a kind of intraocular pressure monitoring device 9 suitable with intraocular surgery reverse headgear head.It continues to monitor patient's intraocular pressure in performing the operation within the eye, without the need to additional surgical otch and operation technique, also without the need to expanding operative incision, light small and exquisite, can not harmed eye inner tissue.The resistance of reading can also be fitted to corresponding IOP value by embodiment of the present utility model, and stores for postoperative Analysis.
Second embodiment of the present utility model relates to a kind of intraocular pressure monitor 9.Second embodiment has done further optimization on the basis of the first embodiment, main optimization part is: in the second embodiment of the present utility model, pressure sensitive mechanism 3 comprises slide rheostat, the rheostat circuit that slide rheostat comprises slide plate 4, resistance and is connected with slide plate 4 and resistance respectively.
Wherein, one end of slide plate 4 is connected with elastic surface 2, and the other end acts on resistance.Rheostat circuit is connected with radio signal transmitter structure 5.
In the present embodiment, when ambient pressure changes, elastic surface produces deformation, and its slide plate 4 be connected produces the displacement corresponding with deformation on slide rheostat, and displacement causes corresponding resistance variations, and the change of resistance can reflect the change of IOP value.Such as, as shown in Figure 2, when ambient pressure increases i.e. IOP value lower than when being usually worth, elastic surface along arrow 11 direction to monitoring device inner recess, coupled slide plate 4 in slide rheostat slippage from the top down, the resistance decreasing of place in circuit.So diminishing of resistance just means that IOP value diminishes, otherwise the change of resistance greatly just means that IOP value becomes large.And after slide rheostat is connected on circuit, the resistance of change can cause the change of the signal of telecommunication.When being connected with radio signal transmitter structure 5 by resistor circuit, by radio signal transmitter structure 5, the signal of telecommunication will be sent to exterior terminal equipment.Slide rheostat volume small wood light weight, is applicable to the monitoring device that same volume is gently little, and the change of displacement can be converted to the signal of telecommunication by slide rheostat, utilizes the transmission of information.
In the present embodiment, radio signal transmitter structure 5 can be radio coupling device, the inactive component of such as, antenna on REID (RadioFrequencyIdentification is called for short " RFID ") label, is sent to processor with radiofrequency signal form data.
In the present embodiment, slide rheostat is fixed on the inwall of cavity 1, the edge conjunction of slide plate 4 and elastic surface 2; The mode that slide plate 4 is connected with elastic surface 2 edge, realizes simple, easily operates.Obviously, slide rheostat also can be fixed on the middle part of cavity 1, and slide plate 4 is connected with the central authorities of elastic surface 2.Because deformation in the middle part of elastic surface 2 is large, corresponding resistive displacement is large, and change in electric is more obvious, and respond to sensitiveer, the data detected are more accurate.
In the present embodiment, pressure sensitive mechanism 3 can also be semiconductor pressure sensor.Traditional pressure transducer is based on the device of frame for movement type, and physical dimension is large, quality weight, and electricity can not be provided to export.Along with the development of semiconductor technology, semiconductor pressure sensor arises at the historic moment, and is characterized in that volume is little, quality is light, accuracy is high, good temp characteristic.Such as, deposition tube impedance diffusion pressure sensor forms semiconductor strain pressure at sheet surface, makes thin metal plate and produce Piezoelectric Impedance effect, thus make the change of impedance convert the signal of telecommunication to by external force (pressure).In present embodiment, deposition tube impedance diffusion pressure sensor is fixed on the inwall of cavity 1, and one end is connected with elastic surface 2, realizes simple, easily operates.
3rd embodiment of the present utility model relates to a kind of intraocular pressure monitor 9.3rd embodiment has done further improvement on the basis of the second embodiment, and main improvements are: in the 3rd embodiment of the present utility model, rheostat circuit comprises independent current source and wireless charging circuit.Wherein, independent current source is connected with slide plate 4 and resistance respectively, and independent current source carries out wireless charging by wireless charging circuit.
In the present embodiment, independent current source can be rechargeable battery.As the further improvement of present embodiment, rechargeable battery can be lithium polymer battery, the advantages such as energy is high, miniaturization, lightweight that it has.In shape, lithium polymer battery has ultrathin feature, can coordinate the needs of some products, is made into the battery of difformity and capacity.In practical application, also can adopt the battery of other type.
In the present embodiment, independent current source is used for providing electric power to pressure sensitive mechanism 3 and the radio signal transmitter structure 5 be arranged in cavity 1.Wireless charging circuit utilizes near field to respond to, and transmits its energy to wireless charging circuit by power supply unit (charger), and wireless charging circuit uses the energy received to charge to independent current source.Owing to transmitting energy with inductive between charger and wireless charging circuit, do not need by wired connection between the two, the device of therefore charger and electricity consumption can be accomplished to expose without conductive junction point.Can charge as long as intraocular pressure monitor 9 is put near charger during charging, easy to operate.In practical application, wireless charging can be carried out through the magnetic coupling of REID RFID link or other types.
4th embodiment of the present utility model relates to a kind of intraocular pressure monitor 9.It comprises each embodiment above-mentioned and detection of eyeball tension device, in the 4th embodiment of the present utility model, the fixture 6 of intraocular pressure monitor 9 comprises a pair elastic claw 7, the root of elastic claw 7 connects monitoring device, arm is bent to form clamp structure in opposite directions, and cavity 1 monitoring device is fixed on the exit of reverse headgear head by clamp structure.By the elastic restoring force of elastic claw 7 link of elastic claw 7 drawn and is close together, thus apply thrust to anterior chamber's pouring head, elastic claw 7 is pressed on reverse headgear head, thus to guarantee between elastic claw 7 with reverse headgear head firmly and No leakage be connected.
Obviously, fixture 6 can also have the fixing of other various ways.Such as can set up gripper jaw, and utilize be located at gripper jaw root and the rotating shaft that is connected with gripper jaw and cavity 1 respectively to control the anglec of rotation of gripper jaw, thus clamp reverse headgear head.
But, consider that the yardstick of the intraocular pressure monitor 9 involved by this utility model is less, in the present embodiment, the structure of fixture 6 should be as far as possible simple and reliable, therefore, in the present embodiment, fixture 6 also can comprise the first magnetic part and the second magnetic part.Wherein, the first magnetic part comprises a pair magnetic pawl, and the root of magnetic pawl connects monitoring device, and arm is protruding; Reverse headgear head is between the two-arm of magnetic pawl; Second magnetic part comprise backboard and be connected with backboard two ends adsorb pawl a pair, absorption pawl attracts each other with magnetic pawl and is connected, and the first magnetic part and the second magnetic part attract each other and block reverse headgear head.
In the present embodiment, magnetic part can be made up of different in nature Magnet, the link of magnetic pawl draws and is close together by the Magnet interaction force that there is a natural attraction between the sexes produces, thus apply thrust to anterior chamber's pouring head, magnetic pawl is pressed on room pouring head, so to guarantee between magnetic pawl with reverse headgear head firmly and No leakage be connected.Magnetic part also can be made up of Magnet and suction magnetic metal, the link of magnetic pawl draws and is close together by the interaction force of Magnet and the attracting generation of suction magnetic metal, thus apply thrust to anterior chamber's pouring head, magnetic pawl is pressed on room pouring head, so to guarantee between magnetic pawl with reverse headgear head firmly and No leakage be connected.Relative to because shape problem is for the different in nature Magnet of specific angle of approach generation repulsion force, the combination of Magnet and suction magnetic metal being utilized, its better effects if.Wherein, inhaling magnetic metal can be the metals such as ferrum, nickel, cobalt, in order to prevent corrosion, can also be surrounded by thin layer outside metal.
In the present embodiment, fixture 6 is matsurface with the contact surface of reverse headgear head.Fixture 6 is the frictional force that matsurface is conducive to increasing contact surface with the contact surface of reverse headgear head, thus prevents the slippage of fixture 6.Wherein, matsurface can be frosting.Comparatively speaking, frosting is comparatively soft, not easily damages part tissue of eye in use.Matsurface also can have saw-tooth grooves by array, and comparatively speaking, the skidproof effect of the matsurface of band groove is better.
5th embodiment of the present utility model relates to a kind of system for monitoring intraocular pressure, it comprise each embodiment above-mentioned and detection of eyeball tension device and exterior terminal equipment, in the 5th embodiment of the present utility model, as shown in Figure 6, system for monitoring intraocular pressure also comprises exterior terminal equipment; Exterior terminal equipment comprises wireless signal receiver structure, process chip 10 and storage chip 11;
Wireless signal receiver structure is all connected with process chip 10 respectively with storage chip 11, wireless signal receiver structure receives the signal of telecommunication, and the signal of telecommunication is passed to process chip 10, transform electrical signals is force value by process chip 10, and force value is stored in storage chip 11.
In present embodiment, signal transmission pressure sensitive mechanism 3 experienced by Radio Transmission Technology gives external wireless signal receiver structure (such as can use the Radio Transmission Technology of the short ranges such as bluetooth); After wireless signal receiver structure receives the signal of telecommunication, by electrical signal transfer to process chip 10, process chip 10 has more powerful information processing capability, can carry out analysis matching and be converted into digital signal, obtain the numerical value of corresponding intraocular pressure to the signal of telecommunication received.The data that process chip 10 obtains can be write storage chip 11 and therefrom read, and supply the collection process of postoperative Discuss and analyse and data.In practical application, process chip 10 can also perform other basic storage function, such as erasing or rewrite storage chip 11, check storage chip 11 residual capacity etc.Storage chip 11 can be semiconductor memory, such as NAND flash memory.
As the further improvement of present embodiment, exterior terminal equipment can also comprise indication mechanism.In present embodiment, indication mechanism is human-computer interaction interface, is stored in the IOP value of storage chip 11 for display in real time.Such as, human-computer interaction interface can be LCDs, makes patient directly by LCDs Real-Time Monitoring IOP value, and according to its change in value, immediately can adjust perfusion pressure in intraocular surgery, thus it is stable to maintain anterior chamber, ensures success rate of operation and prognosis.
6th embodiment of the present utility model relates to a kind of system for monitoring intraocular pressure.6th embodiment has done further improvement on the basis of the 5th embodiment, and main improvements are: in this 6th embodiment, shown in Figure 6, exterior terminal equipment also comprises alert mechanism 12, and alert mechanism 12 connects with process chip 10; When force value is higher than high pressure alarm threshold value or lower than low pressure alert threshold, process chip 10 sends signal to alert mechanism 12, active alarm mechanism 12.
In the present embodiment, in the process of Real-Time Monitoring IOP value, can set up a threshold value, if process chip 10 reads one or a series of IOP value higher or lower than threshold value, so instruction sending module just sends alarm command to alert mechanism 12.Wherein, threshold value can be set up and be stored in storage chip 11.After alert mechanism 12 receives alarm command, be activated and give the alarm.
In present embodiment, alert mechanism 12 can be speaker or buzzer, and alert mechanism 12 can send default the tinkle of bells, and to remind operative doctor to note, the height adjusting perfusion bottle is to regulate IOP value, and notes observing situation in operation in patients.
In the present embodiment, alert mechanism 12 can as shown in Figure 6, with process chip wireless connections, also can be wired.The alert mechanism 12 of wireless connections can set the position at its place more easily.
Persons of ordinary skill in the art may appreciate that the respective embodiments described above realize detailed description of the invention of the present utility model, and in actual applications, various change can be done to it in the form and details, and do not depart from spirit and scope of the present utility model.
Claims (10)
1. an intraocular pressure monitor, be arranged on reverse headgear pipe, it is characterized in that, comprising: for the monitoring device of monitoring intraocular pressure and the fixture be connected with described monitoring device, described fixture is used for the exit of the reverse headgear head described monitoring device being fixed on described reverse headgear pipe;
Wherein, described monitoring device comprises: a seal chamber being filled with gas, the radio signal transmitter structure being arranged on the pressure sensitive mechanism in described cavity and being arranged in described cavity;
Any side of described cavity is the elastic surface producing deformation with intraocular pressure Strength Changes, and described pressure sensitive mechanism is connected with described elastic surface, and described pressure sensitive mechanism is used for the deformation of described elastic surface to be converted to the signal of telecommunication;
Described radio signal transmitter structure is connected with described pressure sensitive mechanism, and described radio signal transmitter structure is used for the described signal of telecommunication to be sent to exterior terminal equipment.
2. intraocular pressure monitor according to claim 1, is characterized in that: described pressure sensitive mechanism comprises slide rheostat, the rheostat circuit that described slide rheostat comprises slide plate, resistance and is connected with described slide plate and described resistance respectively;
One end of described slide plate is connected with described elastic surface, and the other end acts on described resistance;
Described rheostat circuit is connected with described radio signal transmitter structure.
3. intraocular pressure monitor according to claim 2, is characterized in that: described slide rheostat is fixed on the inwall of described cavity, the edge conjunction of described slide plate and described elastic surface;
Or described slide rheostat is fixed on the middle part of described cavity, described slide plate is connected with the central authorities of described elastic surface.
4. intraocular pressure monitor according to claim 2, is characterized in that: described rheostat circuit comprises independent current source and wireless charging circuit;
Described independent current source is connected with described slide plate and described resistance respectively,
Described independent current source carries out wireless charging by described wireless charging circuit.
5. intraocular pressure monitor according to claim 1, is characterized in that: described cavity comprises an elastic surface and five rigid faces, and described six faces are interconnected to form cuboid;
Or described cavity comprises an elastic surface and a rigid face, and described rigid face is arc, and described elastic surface and described rigid face are connected to form tangent plane spheroid;
Or described cavity comprises an elastic surface and two rigid faces, and rigid face described in one of them is arc, described three faces are connected to form cylinder.
6. intraocular pressure monitor according to claim 5, is characterized in that: the edge of described cavity forms round edge.
7. intraocular pressure monitor according to claim 1, it is characterized in that: described fixture comprises a pair elastic claw, the root of described elastic claw connects described monitoring device, arm is bent to form clamp structure in opposite directions, and described cavity monitoring device is fixed on the exit of described reverse headgear head by described clamp structure;
Or described fixture comprises the first magnetic part and the second magnetic part; Described first magnetic part comprises a pair magnetic pawl, and the root of described magnetic pawl connects described monitoring device, and arm is protruding; Described reverse headgear head is between the two-arm of described magnetic pawl; Described second magnetic part comprise backboard and be connected with described backboard two ends adsorb pawl a pair, described absorption pawl attracts each other with described magnetic pawl and is connected, and described first magnetic part and described second magnetic part attract each other and block described reverse headgear head.
8. intraocular pressure monitor according to claim 7, is characterized in that: the contact surface of described fixture and described reverse headgear head is matsurface.
9. a system for monitoring intraocular pressure, is characterized in that: comprise the intraocular pressure monitor in claim 1 to 8 described in any one;
Described system for monitoring intraocular pressure also comprises exterior terminal equipment, and described exterior terminal equipment comprises wireless signal receiver structure, process chip and storage chip;
Described wireless signal receiver structure is all connected with described process chip respectively with described storage chip, described wireless signal receiver structure receives the described signal of telecommunication, and the described signal of telecommunication is passed to described process chip, described transform electrical signals is force value by described process chip, and described force value is stored in described storage chip.
10. system for monitoring intraocular pressure according to claim 9, is characterized in that: described exterior terminal equipment also comprises alert mechanism, and described alert mechanism connects with described process chip;
When described force value is higher than high pressure alarm threshold value or lower than low pressure alert threshold, described process chip sends signal to described alert mechanism, activates described alert mechanism.
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CN105054893A (en) * | 2015-07-17 | 2015-11-18 | 上海市同济医院 | Intraocular pressure monitor and intraocular pressure monitoring system |
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