CN203208005U - Novel ophthalmological medical detection equipment - Google Patents

Abstract

The utility model provides novel ophthalmological medical detection equipment. The novel ophthalmological medical detection equipment comprises a bracket mechanism, an ophthalmological microscope module, a connecting mechanism, an ophthalmological optical coherence tomography (OCT) probe module and an ophthalmological OCT host module, wherein the ophthalmological microscope module is hung on the bracket mechanism; the connecting mechanism is hung below the ophthalmological microscope module; the ophthalmological OCT probe module is hung below the connecting mechanism; the ophthalmological OCT host module is connected with the ophthalmological OCT probe module in a split mode; the connecting mechanism enables the ophthalmological OCT probe module to switch between a detection work position and a non-detection work position. The novel ophthalmological medical detection equipment organically integrates an ophthalmological microscope observation function with an OCT detection function, so that the ophthalmological microscope observation function and the OCT detection function can be switched conveniently and are not interfered mutually; a using mode of the novel ophthalmological medical detection equipment is similar to that of existing common ophthalmological microscope equipment, so the using habits of ophthalmological doctors are taken into consideration to the maximum degree, and quick and wide popularization and application are facilitated.

Description

A kind of novel ophthalmic medical checkout equipment

[ Technical field]

This utility model relates to the ophthalmic medical instrument technical field, particularly a kind of novel ophthalmic medical checkout equipment that ophthalmology microscope and optical coherence tomography function are combined.

[ Background technology]

The ophthalmology microscope is auxiliary facilities very commonly used in the clinical ophthalmology operation process, and the doctor utilizes the ophthalmology microscope that the eye details of surgical object is amplified and real-time monitored, could carry out accurate ophthalmologic operation smoothly.

In recent years, optical coherence tomography (Optical Coherence Tomography is called for short OCT) technology obtains considerable development fast, progressively is used widely in fields such as ophthalmology, cardiovascular based endoscopic imagings.Be applied to the OCT equipment of field of ophthalmology, based on the optical coherence tomography principle, utilize the weak coherent interference technology of near infrared light that part tissue of eye is carried out cross-sectional scans, machine is handled as calculated, the part tissue of eye structure imaging be can realize, the desired real-time two-dimentional tomography of clinical diagnosis and even three-dimensional image obtained; The OCT system detects has distinct advantages such as high-resolution, noncontact not damaged.The OCT of difference in functionality can extensively detect the structure that shows anterior ocular segment tissue (cornea, iris etc.) and optical fundus retinal tissue different levels, and obtain objective, the quantitative measurement data of these microscopic structures, for the ophthalmic diagnosis foundation has been risen to the level of high-precision fixed component analysis from qualitative level.

In current clinical practice, ophthalmology microscope and ophthalmology OCT are two kinds of separate equipment, in ophthalmologic operation, are the comparison difficulties before the patient moved to different checkout equipments.Therefore, existing ophthalmology OCT equipment is often as the equipment of preoperative diagnosis, in ophthalmologic operation, use not extensive, this situation make the ophthalmologist in operation, lost a kind of in real time, precise quantification detects the particularly means of optical fundus deep tissues situation of patient's part tissue of eye.

[utility model content]

For overcome existing ophthalmologic operation clinical in ophthalmology microscope and ophthalmology OCT equipment be inconvenient to take into account the technical problem of use, this utility model provide a kind of in real time, the precise quantification detection patient part tissue of eye novel ophthalmic medical checkout equipment of optical fundus deep tissues situation particularly.

This utility model solves the problems of the technologies described above the technical scheme that adopts:

A kind of novel ophthalmic medical checkout equipment, comprise bracket institution, and the ophthalmology microscope module of carry on bracket institution, it comprises that also carry is in the bindiny mechanism of described ophthalmology microscope module below, carry is in the ophthalmology OCT probe module of described bindiny mechanism below, and with the split type ophthalmology OCT host module that is connected of described ophthalmology OCT probe module, and described bindiny mechanism can make ophthalmology OCT probe module switch between testing position and non-testing position.

According to a preferred embodiment of the present utility model: when described ophthalmology OCT probe module was in the testing position, described ophthalmology microscope module was in non-testing position.

According to a preferred embodiment of the present utility model: when described ophthalmology OCT probe module was in non-testing position, described ophthalmology microscope module was in the testing position.

According to a preferred embodiment of the present utility model: described ophthalmology OCT probe module be positioned at the ophthalmology microscope module under, and the light path of the light path of described ophthalmology OCT probe module and ophthalmology microscope module is coaxial.

According to a preferred embodiment of the present utility model: also comprise the device systems computer that is connected with ophthalmology OCT host module.

According to a preferred embodiment of the present utility model: described bindiny mechanism is connected with described ophthalmology OCT probe module guide rail.

According to a preferred embodiment of the present utility model: described bracket institution comprises floor stand, and the rotatable cantilever that is installed on the described floor stand, and described ophthalmology microscope module carry is on described cantilever.

With respect to prior art, the beneficial effects of the utility model are: ophthalmology microscopic function and OCT measuring ability are organically combined, make microscopic function and OCT measuring ability to switch easily and finish that two kinds of functions do not interfere with each other simultaneously; Equipment is similar to existing ophthalmology microscope device commonly used on occupation mode simultaneously, has taken into account ophthalmologist's use habit substantially, is very beneficial for being applied widely fast.

[description of drawings]

Fig. 1. be novel ophthalmic medical assay device structures figure described in the utility model;

Fig. 2. be novel ophthalmic medical checkout equipment workflow diagram described in the utility model.

Description of reference numerals: 1, bracket institution, 2, the ophthalmology microscope module, 3, bindiny mechanism, 4, ophthalmology OCT probe module, 5, ophthalmology OCT host module, 6, the device systems computer.

[specific embodiment]

The utility model is described in further detail below in conjunction with drawings and embodiments.

Consult shown in Figure 1, for this utility model provides a kind of novel ophthalmic medical checkout equipment, comprise bracket institution 1, and the ophthalmology microscope module 2 of carry on bracket institution 1, it comprises that also carry is in the bindiny mechanism 3 of ophthalmology microscope module 2 belows, carry is in the ophthalmology OCT of bindiny mechanism 3 belows probe module 4, and with the ophthalmology OCT probe module 4 split type ophthalmology OCT host modules 5 that are connected, wherein: bindiny mechanism 3 can make ophthalmology OCT probe module 4 switch between testing position and non-testing position.

Preferable, when ophthalmology OCT probe module 4 is in the testing position, ophthalmology microscope module 2 is in non-testing position, at this moment, ophthalmology OCT probe module 4 be positioned at ophthalmology microscope module 2 under, and the light path of the light path of ophthalmology OCT probe module 4 and ophthalmology microscope module 2 is coaxial; When ophthalmology OCT probe module 4 was in non-testing position, ophthalmology microscope module 2 was in the testing position.Namely in ophthalmologist's operation process, when only using ophthalmology microscope module 2 to observe, ophthalmology OCT probe module 4 staggers with the position of ophthalmology microscope module 2 by bindiny mechanism 3, does not block and disturbs the standalone feature of ophthalmology microscope module 2 to finish; And when needs used ophthalmology OCT measuring ability, the doctor can move the microscopical below of ophthalmology by bindiny mechanism 3 with ophthalmology OCT probe module 4 parts, thereby switches to the OCT measuring ability; After the OCT measuring ability was finished, the doctor can move back original position by bindiny mechanism 3 with ophthalmology OCT probe module 4 again, continued to use ophthalmology microscope module 2.Concrete, because bindiny mechanism 3 has handoff functionality, structurally, bindiny mechanism 3 can be for guide rail be connected with ophthalmology OCT probe module 4, and the slip by ophthalmology OCT probe module 4 makes ophthalmology OCT probe module 4 be in testing position and non-testing position like this; Certainly bindiny mechanism 3 can when namely bindiny mechanism 3 rotates, drive ophthalmology OCT probe module 4 and rotate, and then make ophthalmology OCT probe module 4 be in testing position and non-testing position with the structure that adopts a rotating disc type.

Present embodiment also comprises the device systems computer 6 that is connected with ophthalmology OCT host module 5; Because ophthalmology OCT host module 5 receives the light detecting signal of passing back from ophthalmology OCT probe module 4, and carries out corresponding signal processing; And device systems computer 6 is used for receiving the signal data from ophthalmology OCT host module 5, and utilize corresponding software to carry out view data and handle, according to demand data processed result is presented with forms such as two-dimensional ct image, three-dimensional image, data file, statistic curves, for the ophthalmologist provides in real time, precise quantification detects the particularly information of optical fundus deep tissues situation of patient's part tissue of eye.

Further, bracket institution 1 comprises floor stand, and the rotatable cantilever that is installed on the floor stand, and ophthalmology microscope module 2 carries are on cantilever, and its occupation mode and existing ophthalmology microscope device are similar.

Again in conjunction with shown in Figure 2, be the concrete workflow diagram of the novel ophthalmic medical checkout equipment of present embodiment:

Step 101: equipment is enabled, and ophthalmology microscope module 2 is in the testing position; Ophthalmology OCT probe module 4 is initially in non-testing position, and ophthalmology OCT probe module 4 is positioned at the initial carry position of bindiny mechanism 3 at this moment;

Does step 102: the doctor determine that the OCT measuring ability enables as required? if do not need to enable the OCT function, then make the state in the equipment continuation maintenance step 101; If need enable the OCT function, then enter operating process step 103;

Step 103: ophthalmology OCT probe module 4 is moved to the testing position by bindiny mechanism 3, this operating position be in ophthalmology microscope module 2 under, and coaxial with the light path of microscope objective module 2;

Step 104:OCT function is opened, and ophthalmology OCT probe module 4 is gathered the part tissue of eye detectable signals, and signal is transmitted back ophthalmology OCT host module 5 carries out signal processing;

Step 105: the signal data that device systems computer 6 receives from ophthalmology OCT host module 5, and utilize corresponding software to carry out view data and handle, according to demand data processed result is presented with forms such as two-dimensional ct image, three-dimensional image, data file, statistic curves;

Step 106: judge that OCT detects and finish? if do not finish, then continue execution in step 104 and step 105; If finish, then execution in step 107;

Step 107: ophthalmology OCT probe module 4 is moved by bindiny mechanism 3 and is back to initial carry position, and the doctor continues to use the operation of ophthalmology microscope module 2 assisted surgeries.

Above content be in conjunction with concrete optimal technical scheme to further describing that this utility model is done, can not assert that concrete enforcement of the present utility model is confined to these explanations.For this utility model person of an ordinary skill in the technical field, under the prerequisite that does not break away from this utility model design, the some deduction or replace that can make all should be considered as belonging to protection domain of the present utility model.

Claims (7)

1. novel ophthalmic medical checkout equipment, comprise bracket institution, and the ophthalmology microscope module of carry on bracket institution, it is characterized in that: comprise that also carry is in the bindiny mechanism of described ophthalmology microscope module below, carry is in the ophthalmology OCT probe module of described bindiny mechanism below, and with the split type ophthalmology OCT host module that is connected of described ophthalmology OCT probe module, and described bindiny mechanism can make ophthalmology OCT probe module switch between testing position and non-testing position.

2. novel ophthalmic medical checkout equipment according to claim 1, it is characterized in that: when described ophthalmology OCT probe module was in the testing position, described ophthalmology microscope module was in non-testing position.

3. novel ophthalmic medical checkout equipment according to claim 1, it is characterized in that: when described ophthalmology OCT probe module was in non-testing position, described ophthalmology microscope module was in the testing position.

4. novel ophthalmic medical checkout equipment according to claim 2 is characterized in that: described ophthalmology OCT probe module be positioned at the ophthalmology microscope module under, and the light path of the light path of described ophthalmology OCT probe module and ophthalmology microscope module is coaxial.

5. novel ophthalmic medical checkout equipment according to claim 1 is characterized in that: also comprise the device systems computer that is connected with ophthalmology OCT host module.

6. novel ophthalmic medical checkout equipment according to claim 1, it is characterized in that: described bindiny mechanism is connected with described ophthalmology OCT probe module guide rail.

7. novel ophthalmic medical checkout equipment according to claim 1, it is characterized in that: described bracket institution comprises floor stand, and the rotatable cantilever that is installed on the described floor stand, described ophthalmology microscope module carry is on described cantilever.

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