Intelligent self-service glasses optometry device

Abstract

The utility model discloses a kind of intelligent self-service spectacle optometry devices, including installation platform, the installation platform top outer wall is equipped with two optometry components, the optometry component includes the support column placed in installation platform top outer wall, the support column top outer wall is fixedly connected with optometry room, the optometry room bottom inner wall is fixedly connected with two mounting plates, two the outer wall of the end of mutually far away of mounting plate is fixedly installed with one motor, two the output end of motor is coaxially fixed with one mounting bracket, two the inside of mounting bracket is provided with several optometry lenses, wherein the several optometry lenses in the inside of one mounting bracket are large degree number lenses, the utility model is equipped with optometry component, can be adjusted lens according to the degree of eye easily at will, entire control process is very convenient and fast, user can easily complete operation without experiencing tedious step, improve the convenience of use.

Description

Technical Field

[0001] This utility model relates to the field of optometry device technology, specifically to an intelligent self-service eyeglass optometry device. Background Technology

[0002] Before manufacturing corrective glasses, patients need to undergo an eye exam to measure their vision. Only then can they customize corrective glasses to fit their specific needs based on the measured pupillary distance, visual acuity, and other data. With the rapid development of technology, the eyewear industry is undergoing profound changes.

[0003] A search revealed a utility model patent with Chinese patent publication number CN220512834U, which discloses an intelligent self-service eyeglasses optometry device, relating to equipment for testing eyes and the technical field of instruments for examining eyes. This intelligent self-service eyeglasses optometry device includes an eyeglasses frame, with a sliding ring fixedly connected to the front surface of the frame. A housing is slidably fitted inside the sliding ring, and the outer surface of the housing has a first sliding groove and a second sliding groove. The interior of the housing is hollow.

[0004] When using the aforementioned optometry device, frequent lens adjustments and replacements are required, necessitating frequent device removal and placement, which is time-consuming and results in a long overall process cycle. This hinders efficiency and leaves room for improvement. Utility Model Content

[0005] The purpose of this invention is to provide an intelligent self-service eyeglasses optometry device to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, this utility model provides the following technical solution: an intelligent self-service eyeglasses optometry device, comprising a mounting platform, two optometry components mounted on the top outer wall of the mounting platform, each optometry component including a support column placed on the top outer wall of the mounting platform, an optometry chamber fixedly connected to the top outer wall of the support column, two mounting plates fixedly connected to the bottom inner wall of the optometry chamber, a motor fixedly mounted on the outer wall of each of the two mounting plates at their opposite ends, a mounting frame coaxially fixed to the output ends of each of the two motors, and several optometry lenses disposed inside each of the two mounting frames, wherein several optometry lenses inside one mounting frame are high-power lenses, and several optometry lenses inside the other mounting frame are low-power lenses.

[0007] The lens can be easily and freely adjusted according to the eye's prescription. The entire control process is extremely convenient and quick, allowing users to easily complete the operation without going through cumbersome steps, thus improving ease of use. The optometry chart is placed outside the opening of the support column. Users can start the refraction test by observing the two optometry lenses opposite the observation port. First, adjust the optometry lens with the higher prescription, and then adjust the optometry lens with the lower prescription. The adjustment process is as follows: the controller controls the motor outside the mounting plate, and the motor output drives the mounting frame to start rotating. The optometry lens facing the observation port changes accordingly. Adjustment is carried out until the optometry chart can be clearly observed. The refraction device integrates a series of lenses, eliminating the need for frequent operation and replacement.

[0008] As a further preferred embodiment of this technical solution, a controller is installed on both sides of the outer wall of the top of the mounting platform, and the two motors on the same side are electrically connected to the controller via wires.

[0009] As a further preferred embodiment of this technical solution, an adjustment assembly is installed on the top of the mounting platform. The adjustment assembly includes two extension plates fixedly connected to the outer wall of the top of the mounting platform, and two limiting rods are fixedly connected between the two extension plates. Both support columns are slidably sleeved outside the two limiting rods.

[0010] As a further preferred embodiment of this technical solution, the two support columns are rotatably connected by the same bidirectional lead screw, and the two support columns are respectively threaded to the threads at both ends of the bidirectional lead screw, with a knob adapted to it provided at one end of the bidirectional lead screw.

[0011] As a further preferred embodiment of this technical solution, each of the two optometry room doors is provided with an observation port, and the two observation ports are arranged close to each other.

[0012] As a further preferred embodiment of this technical solution, a support assembly is installed inside the mounting platform. The support assembly includes a support frame that is slidably inserted into the mounting platform. A lead screw is rotatably connected to the bottom outer wall of the mounting platform. The lead screw is threaded into the support frame. Two limiting rods are fixedly connected to the bottom outer wall of the mounting platform. The support frame is slidably sleeved on the outside of the two limiting rods. A support groove is provided on the top outer wall of the support frame.

[0013] The user places their chin inside the support slot of the support frame, then adjusts the height of the support frame so that the user's eyes are directly facing the observation port. By turning the knob, the lead screw is rotated, and the support frame, which is restricted by the limit rod, can only move up and down. The lead screw can then drive the support frame to move horizontally along the mounting platform, which helps to improve the adaptability of the device. The support frame can support the user's head and prevent the user from getting tired.

[0014] As a further preferred embodiment of this technical solution, a soft pad is provided inside the support groove.

[0015] This utility model provides an intelligent self-service eyeglasses optometry device, which has the following beneficial effects:

[0016] (1) This utility model, by setting up an optometry component, can easily and freely adjust the lenses according to the degree of the eyes. The entire control process is extremely convenient and quick. Users can easily complete the operation without going through tedious steps, which improves the ease of use. The optometry table is placed outside the opening of the support column. Users can start the optometry by observing the two optometry lenses opposite the observation port. First, adjust the optometry lens with a larger power, and then adjust the optometry lens with a smaller power. The adjustment process is as follows: the motor outside the mounting plate is controlled by the controller. The motor output drives the mounting frame to start to rotate. The optometry lens facing the observation port changes accordingly. Adjustment is carried out until the optometry table can be clearly observed. The optometry device integrates a series of lenses, eliminating the need for frequent operation and replacement.

[0017] (2) By setting up a support component, the user places his chin inside the support groove of the support frame and then adjusts the height of the support frame so that the user's eyes are facing the observation port. By turning the knob to drive the lead screw one to rotate, the support frame, which is restricted by the limit rod two, can only move up and down. The lead screw one can drive the support frame to move horizontally along the mounting platform, which is beneficial to improving the adaptability of the device. The support frame can support the user's head and avoid the user from getting tired. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the overall first-view structure of this utility model;

[0019] Figure 2 This is a schematic diagram of the overall second-view structure of this utility model;

[0020] Figure 3 This is a schematic diagram of the overall third-view structure of this utility model;

[0021] Figure 4 For the present utility model Figure 3 Enlarged structural diagram at point A in the middle;

[0022] In the diagram: 1. Mounting platform; 2. Observation port; 3. Controller; 4. Optometry assembly; 5. Adjustment assembly; 6. Support assembly; 401. Support column; 402. Optometry chamber; 403. Mounting plate; 404. Mounting frame; 405. Optometry lens; 406. Motor; 501. Extension plate; 502. Two-way lead screw; 503. Limiting rod one; 601. Lead screw one; 602. Support frame; 603. Limiting rod two; 604. Support groove; 605. Soft pad. Detailed Implementation

[0023] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.

[0024] This utility model provides a technical solution: such as Figure 2 , Figure 3 and Figure 4 As shown in this embodiment, an intelligent self-service eyeglasses optometry device includes a mounting platform 1. Two optometry components 4 are mounted on the top outer wall of the mounting platform 1. Each optometry component 4 includes a support column 401 placed on the top outer wall of the mounting platform 1. An optometry chamber 402 is fixedly connected to the top outer wall of the support column 401. Two mounting plates 403 are fixedly connected to the bottom inner wall of the optometry chamber 402. A motor 406 is fixedly mounted on the outer wall of each of the two mounting plates 403 at their opposite ends. A mounting frame 404 is coaxially fixed to the output end of each of the two motors 406. A plurality of optometry lenses 405 are provided inside each of the two mounting frames 404. The plurality of optometry lenses 405 inside one mounting frame 404 are high-power lenses, and the plurality of optometry lenses 405 inside the other mounting frame 404 are low-power lenses.

[0025] A controller 3 is installed on both sides of the top outer wall of the mounting platform 1. Two motors 406 on the same side are electrically connected to the controller 3 through wires. The controller 3 is equipped with a driver, such as TB6600, which supports microstepping settings and the controller, an Arduino microcontroller, generates pulse signals.

[0026] An optometry chart is placed outside the opening of the support column 401. The user can start the optometry test by observing the two optometry lenses 405 opposite the observation port 2. First, adjust the optometry lens 405 with the higher power, and then adjust the optometry lens 405 with the lower power. The adjustment process is as follows: the controller 3 controls the motor 406 outside the mounting plate 403. The output of the motor 406 drives the mounting bracket 404 to start rotating. The optometry lens 405 facing the observation port 2 changes accordingly. Adjustment is carried out until the optometry chart can be clearly observed. The optometry device integrates a series of lenses, eliminating the need for frequent operation and replacement.

[0027] like Figure 2 and Figure 3 As shown, an adjustment assembly 5 is installed on the top of the mounting platform 1. The adjustment assembly 5 includes two extension plates 501 fixedly connected to the outer wall of the top of the mounting platform 1. Two limiting rods 503 are fixedly connected between the two extension plates 501. Two support columns 401 are slidably sleeved on the outside of the two limiting rods 503.

[0028] The two support columns 401 are rotatably connected to the same bidirectional lead screw 502. The two support columns 401 are respectively threaded to the threads at both ends of the bidirectional lead screw 502. A knob adapted to it is provided at one end of the bidirectional lead screw 502.

[0029] Adjust the positions of the two refraction chambers 402 according to the distance between the eyes, and drive the bidirectional screw 502 to rotate by the knob. The two support columns 401, which are restricted by the limit rod 503, cannot rotate. The bidirectional screw 502 will drive the two support columns 401 to move towards each other, so that the device can adapt to the refraction work of different users.

[0030] like Figure 1 and Figure 2 As shown, each of the two optometry rooms 402 has an observation port 2 on its exterior door, and the two observation ports 2 are positioned close to each other. By placing the user's face against the exterior of the two observation ports 2, the influence of the external environment on the optometry process can be avoided.

[0031] like Figure 2 and Figure 3 As shown, a support assembly 6 is installed inside the mounting platform 1. The support assembly 6 includes a support frame 602 that is slidably inserted into the mounting platform 1. A lead screw 601 is rotatably connected to the bottom outer wall of the mounting platform 1. The lead screw 601 is threaded into the support frame 602. Two limit rods 603 are fixedly connected to the bottom outer wall of the mounting platform 1. The support frame 602 is slidably sleeved on the outside of the two limit rods 603. A support groove 604 is provided on the top outer wall of the support frame 602.

[0032] The support groove 604 is equipped with a soft pad 605, which helps to improve the comfort of the support frame 602 during use.

[0033] The user places their chin inside the support groove 604 of the support frame 602, and then adjusts the height of the support frame 602 so that the user's eyes are directly facing the observation port 2. By turning the knob, the first lead screw 601 is rotated. The support frame 602, which is restricted by the second limit rod 603, can only move up and down. The first lead screw 601 can then drive the support frame 602 to move horizontally along the mounting platform 1, which helps to improve the adaptability of the device. The support frame 602 can support the user's head and prevent the user from getting tired.

[0034] This utility model provides an intelligent self-service eyeglasses optometry device, the specific working principle of which is as follows:

[0035] When the device is in operation, the user places their chin inside the support groove 604 of the support frame 602, and then adjusts the height of the support frame 602 so that the user's eyes are directly facing the observation port 2. By rotating the knob, the lead screw 601 is driven to rotate. The support frame 602, restricted by the limiting rod 603, can only move up and down. The lead screw 601 then drives the support frame 602 to move horizontally along the mounting platform 1, which improves the adaptability of the device. The support frame 602 can support the user's head, preventing fatigue. Next, the positions of the two optometry chambers 402 are adjusted according to the distance between the eyes. By rotating the knob, the bidirectional lead screw 502 is driven to rotate. The two support columns 401, restricted by the limiting rod 503, cannot rotate. The lead screw 502 will drive the two support columns 401 to move towards each other, so that the device can adapt to the optometry work of different users. The optometry table is placed outside the opening of the support column 401. The user can start the optometry by observing the two optometry lenses 405 opposite the observation port 2. First adjust the optometry lens 405 with a larger power, and then adjust the optometry lens 405 with a smaller power. The adjustment process is as follows: the controller 3 controls the motor 406 outside the mounting plate 403. The output end of the motor 406 drives the mounting bracket 404 to start to rotate. The optometry lens 405 facing the observation port 2 changes accordingly. Adjustment is carried out until the optometry table can be clearly observed. The optometry device integrates a series of lenses, eliminating the need for frequent operation and replacement.

[0036] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. An intelligent self-service eyeglasses optometry device, comprising a mounting platform (1), characterized in that: Two optometry components (4) are installed on the top outer wall of the mounting platform (1). Each optometry component (4) includes a support column (401) placed on the top outer wall of the mounting platform (1). An optometry chamber (402) is fixedly connected to the top outer wall of the support column (401). Two mounting plates (403) are fixedly connected to the bottom inner wall of the optometry chamber (402). A motor (406) is fixedly installed on the outer wall of the two mounting plates (403) at their opposite ends. A mounting bracket (404) is coaxially fixed to the output end of each of the two motors (406). Several optometry lenses (405) are provided inside each of the two mounting brackets (404). Several optometry lenses (405) inside one of the mounting brackets (404) are high-power lenses, and several optometry lenses (405) inside the other mounting bracket (404) are low-power lenses.

2. The intelligent self-service eyeglasses optometry device according to claim 1, characterized in that: A controller (3) is installed on both sides of the top outer wall of the mounting platform (1), and the two motors (406) on the same side are electrically connected to the controller (3) through wires.

3. The intelligent self-service eyeglasses optometry device according to claim 1, characterized in that: An adjustment assembly (5) is installed on the top of the mounting platform (1). The adjustment assembly (5) includes two extension plates (501) fixedly connected to the outer wall of the top of the mounting platform (1). Two limiting rods (503) are fixedly connected between the two extension plates (501). The two support columns (401) are slidably sleeved outside the two limiting rods (503).

4. The intelligent self-service eyeglasses optometry device according to claim 1, characterized in that: The two support columns (401) are rotatably connected to the same bidirectional lead screw (502). The two support columns (401) are respectively threaded to the threads at both ends of the bidirectional lead screw (502). A knob adapted to the bidirectional lead screw (502) is provided at one end.

5. The intelligent self-service eyeglasses optometry device according to claim 3, characterized in that: Each of the two optometry chambers (402) has an observation port (2) on its exterior door, and the two observation ports (2) are positioned close to each other.

6. The intelligent self-service eyeglasses optometry device according to claim 1, characterized in that: The mounting platform (1) is equipped with a support assembly (6). The support assembly (6) includes a support frame (602) that is slidably inserted into the mounting platform (1). A lead screw (601) is rotatably connected to the bottom outer wall of the mounting platform (1). The lead screw (601) is threaded into the support frame (602). Two limiting rods (603) are fixedly connected to the bottom outer wall of the mounting platform (1). The support frame (602) is slidably sleeved on the outside of the two limiting rods (603). A support groove (604) is provided on the top outer wall of the support frame (602).

7. The intelligent self-service eyeglasses optometry device according to claim 6, characterized in that: The support groove (604) is provided with a soft pad (605).

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