CN212879788U - Retina laser photocoagulation treatment recording device - Google Patents

Abstract

The utility model relates to a retina laser photocoagulation treatment recording device, which comprises a main body bracket, a slit lamp microscope, a micro printing system, a host, a plug and a camera; the main body bracket consists of a base, a bottom wheel, a supporting rod, an operating platform, a U-shaped frame, a chin placing plate, a forehead placing plate, a height adjusting knob and a host placing platform; a slit lamp microscope is arranged on the operating platform, and a camera is also arranged above the slit lamp microscope; the host computer and the micro printing system are connected through a wire. Its advantages are: the inconvenience of writing records by a treating doctor is replaced, and the recorded contents are directly printed into paper files through a micro printing system; the recorded content can be directly stored in the host computer or the data can be exported through a USB interface; the patient is difficult to cause the communication on the medical history information to be unsmooth when changing the doctor for treatment or referral; the patient can clearly understand the professional records of the doctor and understand the treatment condition of the patient.

Description

Retina laser photocoagulation treatment recording device

Technical Field

The utility model belongs to the technical field of retina laser photocoagulation treatment recording technology and specifically relates to a retina laser photocoagulation treatment recording device.

Background

Retinal laser photocoagulation is a main method for treating fundus diseases, belongs to one of invasive treatments, and is widely applied clinically.

At present, retina laser photocoagulation treatment records are selected on a patient record book or a tabular record through handwriting records of a treating doctor, the recorded contents include exposure time, spot diameter, energy, photocoagulation number and photocoagulation range, the handwriting records are not easy to store, the recorded data are too simple and not accurate enough, the patient visit loss rate is high, the treating doctor fills in the records according to self experience, the records are not objective enough, and the treating doctor is transferred or replaced, so that the communication on the medical history information is easy to cause unsmooth. However, the patient as the person to be treated does not understand the professional records of the physician, and is difficult to understand the treatment condition, which may cause doubt to the heart of the treatment and further induce doctor-patient contradiction.

Chinese patent documents: CN103870687A, published: 2014.06.18, comparing different laser modes in 3 months of laser treatment, finding that the whole retinal laser photocoagulation obviously causes visual field defect of the affected eye, and the local retinal laser photocoagulation and quadrant laser photocoagulation protect the retinal function outside the macular area.

Chinese patent documents: CN107330260A, published: 2017.11.07, discloses a clinical grading diagnosis and treatment data management system for diabetic retinopathy patients, a database module for storing all information data and classifying and managing the information; compressing, transmitting and reading information data by adopting an information security secrecy technology; the clinical diagnosis and treatment module comprises: providing a complete clinical diagnosis and treatment process, and recording follow-up visits according to follow-up visit periods; a clinical follow-up module: providing clinical specialized medical service and accumulating scientific research original data platforms; a patient management module: guiding a patient to participate in a clinical diagnosis and treatment process, and carrying out eye care status assessment on the patient, wherein the eye care status assessment comprises an eye care status questionnaire and a life quality record, and monitoring self-management of the patient in a diagnosis process; a knowledge base module: current guidelines for the treatment of diabetic retinopathy, patient questionnaire-related knowledge are stored.

However, the recording device for retinal laser photocoagulation treatment of the present invention has not been reported at present.

Disclosure of Invention

The utility model aims at providing a retina laser photocoagulation treatment recording device.

In order to achieve the purpose, the utility model adopts the technical proposal that:

a retina laser photocoagulation treatment recording device comprises a main body support (1), a slit lamp microscope (2), a micro printing system (3), a host (4), a plug (5) and a camera (6);

the main body support (1) consists of a base (11), a bottom wheel (12), a support rod (13), an operation table (14), a U-shaped frame (15), a chin placing plate (16), a forehead placing plate (17), a height adjusting knob (18) and a host placing table (19); the lower end of the base (11) is provided with a bottom wheel (12), and the upper end of the base (11) is fixedly connected with a support rod (13); one end of the supporting rod (13) is connected with the base (11), and the other end is fixedly connected with an operating platform (14); a U-shaped frame (15) is arranged in front of the operating table (14), and a chin placing plate (16) and a forehead placing plate (17) are arranged on the U-shaped frame (15); an external thread (151) is arranged on the side face of the right end rod of the U-shaped frame (15), and a height adjusting knob (18) is sleeved on the external thread (151);

a slit lamp microscope (2) is arranged on the operating table (14); the upper surface of the crack lamp microscope (2) is also provided with a camera (6), the side surface of the camera (6) is provided with an upright post (61), the camera (6) and the crack lamp microscope (2) are fixedly connected through the upright post (61), an infrared positioning device (62), an LED lamp light supplementing device (63), a storage device (64) and a built-in power supply (65) are further arranged inside the camera (6), and a USB transmission line (66) connected with a host is further arranged on one side surface of the camera (6); a printing system installation groove (141) is formed in the right side of the slit lamp microscope (2), and a wire guide hole (142) is formed in the bottom of the printing system installation groove (141); a host placing table (19) is fixedly connected to the lower surface of the operating table (14);

the printing system mounting groove (141) is provided with a micro printing system (3), a USB transmission line (66) is arranged behind the micro printing system (3), the USB transmission line (66) is used for connecting the host (4), and a display (31) is mounted on the micro printing system (3); a display screen (32) is arranged in front of the display (31), and five operation buttons (33) are arranged below the display screen (32); an operation keyboard (34) is arranged below the display (31), and a box cover (35) and a file outlet (36) are arranged in front of the micro printing system (3);

the camera is characterized in that a host (4) is placed on the host placing table (19), a control module (43) is further arranged inside the host (4), the control module (43) is respectively connected with an infrared positioning device (62), an LED lamp light supplementing device (63) and a storage device (64) inside the camera (6) through lines, the lines of the host (4) are connected with the camera (6) through a USB transmission line (66), and the host (4) is integrally rectangular; a switch button (41) is arranged in front of the host (4), and a plurality of USB interfaces (42) are arranged on the right side of the switch button (41); a plug (5) is connected to the rear of the host (4); the host (4) and the micro printing system (3) are connected through a lead.

The display (31) is used for displaying the recorded data during retinal laser photocoagulation treatment.

The display (31) can visually present the analysis of the data by the micro printing system (3).

The micro-printing system (3) is used for printing the retina laser photocoagulation treatment record exposure time, the diameter of a light spot, the energy size, the number of photocoagulation points and the photocoagulation range information into a paper file.

The USB interface (42) may export data.

The height of the chin placing plate (16) can be adjusted by the height adjusting knob (18).

The infrared positioning device (62), the LED lamp light supplementing device (63) and the storage device (64) in the camera (6) are electrically connected with the built-in power supply (65).

The display (31) on the micro printing system (3) is connected with the control module (43) in the host (4) through a USB transmission line (66).

The utility model has the advantages that:

1. the retina laser photocoagulation treatment recording device of the utility model replaces the inconvenience of writing records by hand of treating doctors, and directly prints the recorded contents into paper files through a micro printing system; the record is accurate and objective.

2. The retina laser photocoagulation treatment recording device of the utility model can directly save the recorded content in the host computer or export the data through the USB interface; the doctor is difficult to cause the unsmooth communication on the medical history information by changing the doctor for treatment or referral, thereby avoiding the contradiction between doctors and patients.

3. The utility model discloses a retina laser photocoagulation treatment recorder can make clear understanding doctor's of patient professional record, understands the treatment condition of oneself.

Drawings

FIG. 1 is a schematic structural diagram of a retinal laser photocoagulation treatment recording device.

FIG. 2 is a schematic structural diagram of a main body bracket of a retinal laser photocoagulation treatment recording device.

Fig. 3 is a schematic view of a main body support and a slit lamp microscope of the retinal laser photocoagulation treatment recording device combined together.

FIG. 4 is a schematic diagram of a micro-printing system of a retinal laser photocoagulation treatment recording device.

FIG. 5 is a schematic view of the combination of the main body frame, slit lamp microscope, and micro-printing system of the retinal laser photocoagulation treatment recording device.

Fig. 6 is a partial operational flow diagram of a retinal laser photocoagulation treatment recording device.

Detailed Description

The invention will be further described with reference to the following examples and with reference to the accompanying drawings.

The reference numerals and components referred to in the drawings are as follows:

1. main body support

11. Base seat

12. Bottom wheel

13. Support rod

14. Operation table

141. Mounting slot for printing system

142. Wire guide hole

15. U-shaped frame

151. External thread

16. Board is placed to chin

17. Forehead placing plate

18. Height adjusting knob

19. Host placing table

2. Crack lamp microscope

3. Micro printing system

31. Display device

32. Display screen

33. Operating button

34. Operation keyboard

35. Box cover

36. Document outlet

4. Main unit

41. Switch button

42. USB interface

43. Control module

5. Plug with a locking mechanism

6. Video camera

61. Upright post

62. Infrared positioning device

63. light filling device for LED lamp

64. Storage device

65. Built-in power supply

66. USB transmission line

Example 1

Referring to fig. 1, fig. 1 is a schematic structural diagram of a recording apparatus for retinal laser photocoagulation treatment in this embodiment. The retina laser photocoagulation treatment recording device comprises a main body bracket (1), a slit lamp microscope (2), a micro printing system (3), a host (4), a plug (5) and a camera (6);

referring to fig. 2, fig. 2 is a schematic structural diagram of a main body frame of the recording apparatus for retinal laser photocoagulation treatment of the present embodiment. The main body support (1) consists of a base (11), a bottom wheel (12), a support rod (13), an operation table (14), a U-shaped frame (15), a chin placing plate (16), a forehead placing plate (17), a height adjusting knob (18) and a host placing table (19); the lower end of the base (11) is provided with a bottom wheel (12), and the upper end of the base (11) is fixedly connected with a support rod (13); one end of the supporting rod (13) is connected with the base (11), and the other end is fixedly connected with an operating platform (14); a U-shaped frame (15) is arranged in front of the operating table (14), and a chin placing plate (16) and a forehead placing plate (17) are arranged on the U-shaped frame (15); an external thread (151) is arranged on the side face of the right end rod of the U-shaped frame (15), and a height adjusting knob (18) is sleeved on the external thread (151);

referring to fig. 3 and fig. 6, fig. 3 is a schematic view of a combination of a main body frame and a slit lamp microscope of a retinal laser photocoagulation treatment recording device according to this embodiment, and fig. 6 is a partial working flow chart of the retinal laser photocoagulation treatment recording device. A slit lamp microscope (2) is arranged on the operating table (14); the upper surface of the crack lamp microscope (2) is also provided with a camera (6), the camera (6) and the crack lamp microscope (2) are fixedly connected through a stand column (61), the stand column (61) can be fixed with one side of the camera (6), the camera (6) adopted in the device is fixed through the stand column (61) and is not a single embodiment, the camera (6) can also be fixed on the upper surface of the crack lamp microscope (2) through a fixing plate, a supporting rod or the like, and the change of the mode of fixing the camera (6) on the crack lamp microscope (2) belongs to the simple variant or the change of the device and falls into the protection range of the utility model as long as the camera (6) is fixed on the crack lamp microscope (2); the system is characterized in that an infrared positioning device (62), an LED lamp light supplementing device (63), a storage device (64) and a built-in power supply (65) are further arranged inside the camera (6), a USB transmission line (66) connected with a host is further arranged on one side face of the camera (6), the infrared positioning device (62) is used for accurately positioning an inspection image, firstly, the distribution condition of retinal blood vessels of a patient is scanned and recorded, then, a camera inside the camera (6) scans aiming light spots through the infrared positioning device and confirms the position relation of the retinal blood vessels, and after the laser spots are determined to fall on the retina, the laser spots are recorded again; the LED lamp light supplementing device (63) is used for supplementing light to the unclear image during image acquisition and snapshot, so that the data of snapshot and positioning of the camera (6) is accurate, the storage device (64) is used for storing the snapshot picture data, the snapshot pattern is transmitted to the host (4) through the USB transmission line (66), the control module (43) in the host (4) is transmitted to the micro printing system (3) for printing and previewing, and the positive process is displayed on the display screen (31), so that the operation is more visual, simpler and faster; a printing system installation groove (141) is formed in the right side of the slit lamp microscope (2), and a wire guide hole (142) is formed in the bottom of the printing system installation groove (141); a host placing table (19) is fixedly connected to the lower surface of the operating table (14);

referring to fig. 4 and 5, fig. 4 is a schematic structural diagram of a micro-printing system of a retinal laser photocoagulation treatment recording system of the present embodiment, and fig. 5 is a schematic diagram of a combination of a main body bracket, a slit lamp microscope and the micro-printing system of the retinal laser photocoagulation treatment recording system of the present embodiment. The printing system mounting groove (141) is provided with a micro printing system (3), a USB transmission line (66) is arranged behind the micro printing system (3), the USB transmission line (66) is used for connecting the host (4), and a display (31) is mounted on the micro printing system (3); a display screen (32) is arranged in front of the display (31), and five operation buttons (33) are arranged below the display screen (32); an operation keyboard (34) is arranged below the display (31), and a box cover (35) and a file outlet (36) are arranged in front of the micro printing system (3); the miniature printing system (3) is connected to a control module (43) on the host (3) through a USB transmission line (66), picture data transmitted by the camera (6) is transmitted to the display (31) through the control module (43), the captured picture data is displayed by a display screen (32) on the display (31), and a transmitted file can be printed and recorded through an operation button (33), so that the transmitted data is more visually presented, the miniature printing system (3) in the device can facilitate medical staff to smoothly and accurately read medical record information of a patient, the problem that the medical staff inconveniently writes medical record records for the medical record of the patient is solved, the workload of the medical staff is reduced, and the information of the patient is easier to store;

referring to fig. 1 and fig. 6, fig. 1 is a schematic structural diagram of a retinal laser photocoagulation treatment recording system of this embodiment, and fig. 6 is a partial work flow diagram of a retinal laser photocoagulation treatment recording device. The camera is characterized in that a host (4) is placed on the host placing table (19), a control module (43) is further arranged inside the host (4), the control module (43) is respectively connected with an infrared positioning device (62), an LED lamp light supplementing device (63) and a storage device (64) inside the camera (6) through lines, the lines of the host (4) are connected with the camera (6) through a USB transmission line (66), and the host (4) is integrally rectangular; a switch button (41) is arranged in front of the host (4), and two USB interfaces (42) are arranged on the right side of the switch button (41); a plug (5) is connected to the rear of the host (4); the host (4) and the miniature printing system (3) are connected through a lead, and the control module (43) in the device is mainly used for controlling and converting between the camera (6) and the miniature printing system (3) and controlling and converting images captured by the camera (6), so that a display (31) on the miniature printing system (3) can be clearly displayed, medical workers can conveniently observe and record, the condition of a patient can be timely and accurately judged when the patient is transferred or different doctors are replaced, the patient and the doctors can conveniently communicate smoothly, and medical contradictions are avoided.

It should be noted that:

when the video camera in the device works specifically, the data of the eyes of a patient can be captured by an optical lens arranged in the video camera (6), an infrared positioning device (62) arranged in the video camera can accurately position the positions of the eyes of the patient, and when the data are not clear, a led lamp light supplementing device (63) automatically starts the brightness of debugging light, so that the data captured and positioned by the video camera are more accurate, a storage device (64) arranged in the video camera stores the captured data, the data are transmitted to a control module (43) arranged in a host (3) through a USB (universal serial bus) transmission line (66), and a built-in power supply (65) is used for providing required electric energy for the video camera (6); the control module (43) controls and converts received data to the micro printing system (3) through the USB transmission line (66), a display (31) on the micro printing system (3) is used for displaying accurate recording data during retinal laser photocoagulation treatment, and the display (31) can visually present the analysis of the data by the micro printing system (3); the micro-printing system (3) is used for printing the retina laser photocoagulation treatment record exposure time, the diameter of a light spot, the energy size, the number of photocoagulation points and the photocoagulation range information into a paper file; wherein the USB interface (42) can export data; the height of the chin placing plate (16) can be adjusted by the height adjusting knob (18).

Example 2

Referring to fig. 1, fig. 1 is a schematic structural diagram of a recording apparatus for retinal laser photocoagulation treatment in this embodiment.

The use process and the method of the retina laser photocoagulation treatment recording device are as follows:

during use, when a patient after retinal laser photocoagulation is observed through the device, the observed data of exposure time, the diameter of a light spot, the energy size, the number of photocoagulation points and the photocoagulation range can be snapshotted and positioned by the camera (2) on the slit lamp microscope (2) and transmitted to the host (4), then processed by the control module (43) inside the host (4) and transmitted to the micro printing system (3), and the detected numerical value can be visually displayed on the display screen (32) after being processed by the micro printing system (3); meanwhile, the information can be printed into a paper file and ejected from a file outlet (36); in addition, the host (4) can save the detected data, and the data can be exported through the USB interface (42).

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and additions can be made without departing from the principles of the present invention, and these improvements and additions should also be regarded as the protection scope of the present invention.

Claims (5)

1. A retina laser photocoagulation treatment recording device is characterized by comprising a main body bracket (1), a slit lamp microscope (2), a micro printing system (3), a host (4), a plug (5) and a camera (6);

the main body support (1) consists of a base (11), a bottom wheel (12), a support rod (13), an operation table (14), a U-shaped frame (15), a chin placing plate (16), a forehead placing plate (17), a height adjusting knob (18) and a host placing table (19); the lower end of the base (11) is provided with a bottom wheel (12), and the upper end of the base (11) is fixedly connected with a support rod (13); one end of the supporting rod (13) is connected with the base (11), and the other end is fixedly connected with an operating platform (14); a U-shaped frame (15) is arranged in front of the operating table (14), and a chin placing plate (16) and a forehead placing plate (17) are arranged on the U-shaped frame (15); an external thread (151) is arranged on the side face of the right end rod of the U-shaped frame (15), and a height adjusting knob (18) is sleeved on the external thread (151);

a slit lamp microscope (2) is arranged on the operating table (14); the upper surface of the crack lamp microscope (2) is also provided with a camera (6), the side surface of the camera (6) is provided with an upright post (61), the camera (6) and the crack lamp microscope (2) are fixedly connected through the upright post (61), an infrared positioning device (62), an LED lamp light supplementing device (63), a storage device (64) and a built-in power supply (65) are further arranged inside the camera (6), and a USB transmission line (66) connected with a host is further arranged on one side surface of the camera (6); a printing system installation groove (141) is formed in the right side of the slit lamp microscope (2), and a wire guide hole (142) is formed in the bottom of the printing system installation groove (141); a host placing table (19) is fixedly connected to the lower surface of the operating table (14);

the printing system mounting groove (141) is provided with a micro printing system (3), a USB transmission line (66) is arranged behind the micro printing system (3), the USB transmission line (66) is used for connecting the host (4), and a display (31) is mounted on the micro printing system (3); a display screen (32) is arranged in front of the display (31), and five operation buttons (33) are arranged below the display screen (32); an operation keyboard (34) is arranged below the display (31), and a box cover (35) and a file outlet (36) are arranged in front of the micro printing system (3);

the camera is characterized in that a host (4) is placed on the host placing table (19), a control module (43) is further arranged inside the host (4), the control module (43) is respectively connected with an infrared positioning device (62), an LED lamp light supplementing device (63) and a storage device (64) inside the camera (6) through lines, the lines of the host (4) are connected with the camera (6) through a USB transmission line (66), and the host (4) is integrally rectangular; a switch button (41) is arranged in front of the host (4), and a plurality of USB interfaces (42) are arranged on the right side of the switch button (41); a plug (5) is connected to the rear of the host (4); the host (4) and the micro printing system (3) are connected through a lead.

2. The retinal laser photocoagulation therapy recording device of claim 1, wherein the display (31) is used for displaying recorded data during retinal laser photocoagulation therapy; the display (31) can visually present the analysis of the data by the micro printing system (3); the micro-printing system (3) is used for printing the retina laser photocoagulation treatment record exposure time, the diameter of a light spot, the energy size, the number of photocoagulation points and the photocoagulation range information into a paper file; the USB interface (42) may export data.

3. The retinal laser photocoagulation therapy recording device of claim 1 wherein the height adjustment knob (18) adjusts the height of the chin rest plate (16).

4. The retinal laser photocoagulation treatment recording device of claim 1, wherein the infrared positioning device (62), the led light supplement device (63), and the storage device (64) inside the camera (6) are electrically connected with a built-in power supply (65).

5. The retinal laser photocoagulation therapy recording device of claim 1, wherein the upper display (31) of the micro printing system (3) is connected to a control module (43) inside the host (4) through a USB cable (66).

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