CN108378818B

CN108378818B - Optometry lens box

Info

Publication number: CN108378818B
Application number: CN201810471066.7A
Authority: CN
Inventors: 李小丹
Original assignee: Beijing Xingfu Yuanjian Medical Technology Co ltd
Current assignee: Beijing Xingfu Yuanjian Medical Technology Co ltd
Priority date: 2018-05-16
Filing date: 2018-05-16
Publication date: 2023-10-31
Anticipated expiration: 2038-05-16
Also published as: CN108378818A

Abstract

The invention relates to an optometry lens box, which comprises a box body, wherein a base plate is arranged in the box body, a plurality of placement concave positions for placing different kinds of optometry lenses are arranged on the base plate, respective indication circuits are respectively arranged at the placement concave positions, each indication circuit comprises a power supply, an indication lamp arranged outside the placement concave positions, a first circuit conducting piece and a second circuit conducting piece which are arranged inside the placement concave positions, the indication lamp, the first circuit conducting piece and the second circuit conducting piece are connected in series and then are connected with the power supply to form a closed loop, insulation protrusions are respectively arranged at the edges of each optometry lens, and the insulation protrusions of each optometry lens are different in arrangement positions along the edges of the optometry lens. The invention can display whether the optometry lenses are correctly placed in the box body or not through the indication circuit, thereby avoiding confusion among the optometry lenses, accelerating optometry efficiency, and avoiding taking errors for the optometry lenses, so as to reduce optometry error rate and ensure correctness of optometry results.

Description

Optometry lens box

Technical Field

The invention relates to the field of ophthalmic optometry equipment, in particular to an optometry lens box.

Background

At present, an optometry lens used for ophthalmic optometry mainly comprises a positive ball lens, a negative ball lens, a positive column lens, a negative column lens, a prism lens, an auxiliary lens and the like, and because the external shapes of the optometry lenses are identical, the optometry lenses are easily mixed up with each other, so that the optometry accuracy is affected.

In order to prevent the lenses from being confused with each other, optometrists often need to spend a long time for searching and comparing, so that the problem that the optometrists are inconvenient to take and put the optometrized lenses and have low optometry efficiency exists; in addition, during actual optometry, multiple optometry lenses are often required to be taken and placed so that the optometry lenses are selectively used, and due to the fact that the lenses are numerous, the situation that the lenses are taken by mistake due to placement errors in the taking process cannot be avoided, so that the accuracy of an optometry prescription and a diagnosis result is seriously affected.

Disclosure of Invention

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide an optometry lens box, which can avoid confusion between optometry lenses, facilitate an optometrist to take and place the optometry lenses quickly so as to speed up the optometry efficiency, and avoid taking errors for the optometry lenses so as to reduce the optometry error rate and ensure the correctness of the optometry result.

The following technical scheme is adopted for realizing the purpose of the invention.

The invention of claim 1 is an optometry lens box comprising a box body.

The inside of box is provided with the base plate that is used for placing the optometry lens be provided with a plurality of concave positions that are used for placing the optometry lens of different types on the base plate, each place concave position and be provided with respective indicating circuit respectively.

Each indicating circuit comprises a power supply, an indicating lamp arranged outside the placing concave position, a first circuit conducting sheet arranged inside the placing concave position and a second circuit conducting sheet arranged inside the placing concave position and capable of being mutually contacted with the first circuit conducting sheet, wherein the indicating lamp, the first circuit conducting sheet and the second circuit conducting sheet are mutually connected in series and then are connected with the power supply to form a closed loop.

The edge of each optometry lens is respectively provided with an insulating protrusion capable of separating the first circuit conducting piece and the second circuit conducting piece from each other under the condition that the optometry lens is placed in the inside of the placement concave position, and the setting positions of the insulating protrusions of each optometry lens on the edge along the optometry lens are different.

In addition, as an improvement of the technical scheme 1, the optometry lens box of the technical scheme 2 is characterized in that the indication circuits are connected in parallel and then connected with the same power supply to form a closed loop.

In addition, as an improvement of claim 1, in the optometry lens box of claim 3, in each of the indication circuits, the first circuit conducting piece and the second circuit conducting piece are respectively formed in an arc shape, and the first circuit conducting piece and the second circuit conducting piece are respectively bent in directions deviating from each other.

At least one of the first circuit conducting piece and the second circuit conducting piece is connected with the electric wire of the indication circuit through a conductive spring, and an abutting plate capable of abutting one end of the conductive spring connected with the electric wire of the indication circuit is arranged on one side of the placement concave position.

Under the condition that the optometry lens is not placed in the concave place, the middle part of the first circuit conducting piece and the middle part of the second circuit conducting piece are in contact with each other, so that the indicator lamp is in a lighted state.

In addition, as an improvement of claim 1, in the optometry lens box of claim 4, in each of the indication circuits, the first circuit conduction piece and the second circuit conduction piece are each formed in an arc shape, and the first circuit conduction piece and the second circuit conduction piece are each bent in directions facing each other.

Under the condition that the optometry lens is not placed in the concave place, two ends of the first circuit conducting piece and two ends of the second circuit conducting piece are in contact with each other, so that the indicator lamp is in a lighted state.

In addition, as an improvement of claim 1, in the optometric lens box of claim 5, in each of the indication circuits, the first circuit conduction piece and the second circuit conduction piece are each formed in a straight piece shape.

Under the condition that the optometry lens is not placed in the concave place, the conductive spring can control the first circuit conducting piece and the second circuit conducting piece to be in contact with each other, so that the indicator lamp is in a lighted state.

In addition, as an improvement of claim 1, in the optometry lens box according to claim 6, in each of the indication circuits, the first circuit conducting piece and the second circuit conducting piece are respectively disposed horizontally, and the first circuit conducting piece is disposed above the second circuit conducting piece in a manner of partially overlapping contact with the second circuit conducting piece.

The second circuit conducting piece is connected with the electric wire of the indicating circuit through an elastic piece, and a supporting block capable of supporting the elastic piece is arranged on one side of the concave place.

Under the condition that the optometry lens is placed in the concave place, the insulation protrusion can press the second circuit conducting piece down to be mutually separated from the first circuit conducting piece, and under the condition that the optometry lens is not placed in the concave place, the elastic piece can control the second circuit conducting piece to be mutually contacted with the first circuit conducting piece.

In addition, the optometry lens box of claim 7 is an improvement of claim 1, and a notch for facilitating taking and placing of the optometry lens is provided on each side of the placement recess.

In addition, as an improvement of claim 1, the optometric lens box of claim 8 is characterized in that a routing channel is provided inside the substrate.

In addition, as an improvement of claim 1, the optometric lens box of claim 9 is characterized in that a label for indicating the type of the optometric lens is attached to each of the indicator lamps.

In addition, as an improvement of claim 1, the optometry lens box of claim 10 is characterized in that the indicator lamps are different in color.

Compared with the prior art, the invention has the following beneficial effects.

In contrast, the invention provides an optometry lens box, which comprises a box body.

The inside of box is provided with the base plate that is used for placing the optometry lens, is provided with a plurality of concave positions that are used for placing the optometry lens of different types on the base plate, is provided with respective indication circuit respectively at each concave position of placing.

Each indicating circuit comprises a power supply, an indicating lamp arranged outside the placing concave position, a first circuit conducting sheet arranged inside the placing concave position and a second circuit conducting sheet arranged inside the placing concave position and capable of being in contact with the first circuit conducting sheet.

The indicator lamp, the first circuit conducting piece and the second circuit conducting piece are connected in series and then connected with a power supply to form a closed loop.

The edge of each optometry lens is provided with an insulating protrusion which can separate the first circuit conducting piece and the second circuit conducting piece from each other under the condition that the optometry lens is placed in the concave place, and the insulating protrusions of each optometry lens are different in setting positions along the edge of the optometry lens.

The working principle is that under the condition that each optometry lens is not placed in the concave position, the first circuit conducting piece and the second circuit conducting piece are in contact with each other, the indication circuit at each concave position is conducted, the indication lamp is in a lighted state, and the optometrist is reminded that the optometry lens is not reset;

under the condition that each optometry lens is respectively placed in each concave place, the insulation protrusions of the optometry lens separate the first circuit conducting piece from the second circuit conducting piece, the indication circuit at each concave place is disconnected, the indication lamp is closed, and the optometry lens returns to the original position;

and because the insulating bulge of each optometry lens is different along the setting position on the edge of optometry lens to, the insulating bulge of different kinds of optometry lens can't imbed in the concave position of placing with it mismatch, and then ensures the accuracy that optometry lens returns to the position, and further, eliminates the optometry error condition that leads to because the optometry lens takes by mistake, can guarantee the accuracy of optometry result.

The optometry lens box provided by the invention can display whether the optometry lenses are correctly placed in the box body or not through the indicator lamp in the indicator circuit, so that confusion among the optometry lenses is avoided, an optometrist can conveniently and rapidly take and place the optometry lenses, so that the optometry efficiency is improved, meanwhile, taking errors of the optometry lenses are avoided, the optometry error rate is reduced, and the correctness of an optometry result is ensured.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view showing the overall structure of a first embodiment of an optometric lens case according to the present invention.

Fig. 2 is a schematic diagram showing the structure of an indication circuit of a first embodiment of an optometry lens box according to the present invention.

Fig. 3 is a schematic diagram showing a connection structure between a first circuit conducting piece and a second circuit conducting piece in an indication circuit of a first embodiment of an optometry lens box according to the present invention.

Fig. 4 is a schematic diagram showing a connection structure between a first circuit conducting piece and a second circuit conducting piece in an indication circuit of a second embodiment of an optometry lens box according to the present invention.

Fig. 5 is a schematic diagram showing a connection structure between a first circuit conducting piece and a second circuit conducting piece in an indication circuit of a third embodiment of an optometry lens box according to the present invention.

Fig. 6 is a schematic diagram showing a connection structure between a first circuit conducting piece and a second circuit conducting piece in an indication circuit of a fourth embodiment of an optometry lens box according to the present invention.

Reference numerals: 1-a box body; 2-a substrate; 3-placing the concave position; 31-notch; 4-indicator lights; 5-a first circuit conducting plate; 6-a second circuit conducting plate; 7-a conductive spring; 8-tag; 9-an elastic sheet; 10-supporting blocks.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; the connection can be mechanical connection or connection; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The overall structure of the optometric lens case provided by the invention can be divided into the following specific embodiments.

First embodiment

Fig. 1 is a schematic view showing the overall structure of a first embodiment of an optometric lens case according to the present invention. Fig. 2 is a schematic diagram showing the structure of an indication circuit of a first embodiment of an optometry lens box according to the present invention. Fig. 3 is a schematic diagram showing a connection structure between a first circuit conducting piece and a second circuit conducting piece in an indication circuit of a first embodiment of an optometry lens box according to the present invention.

As shown in fig. 1 to 3, the optometric lens case includes a case body 1.

A base plate 2 for placing the optometric lenses is arranged in the box body 1, a plurality of placing concave positions 3 for placing the different kinds of optometric lenses are arranged on the base plate 2, and respective indication circuits are respectively arranged at the placing concave positions 3.

Each indication circuit comprises a power supply, an indication lamp 4 arranged outside the placed concave position 3, a first circuit conducting sheet 5 arranged inside the placed concave position 3 and a second circuit conducting sheet 6 arranged inside the placed concave position 3 and capable of being in contact with the first circuit conducting sheet 5.

The indicator lamp 4, the first circuit conducting piece 5 and the second circuit conducting piece 6 are connected in series and then connected with a power supply to form a closed loop.

The edge of each optometry lens is provided with an insulating protrusion which can separate the first circuit conducting piece 5 and the second circuit conducting piece 6 from each other under the condition that the optometry lens is placed in the concave position 3, and the insulating protrusions of each optometry lens are different in setting positions on the edge of the optometry lens.

Further, the indication circuits are connected in parallel and then connected with the same power supply to form a closed loop.

More specifically, in each of the indication circuits, the first circuit conduction piece 5 and the second circuit conduction piece 6 are each formed in an arc shape, and the first circuit conduction piece 5 and the second circuit conduction piece 6 are each bent in directions away from each other.

At least one of the first circuit conduction piece 5 and the second circuit conduction piece 6 is connected to the electric wire of the indication circuit through a conductive spring 7, for example, as shown in fig. 3, the first circuit conduction piece 5 is connected to the electric wire of the indication circuit through the conductive spring 7, and an abutting plate (not shown) capable of abutting against one end of the conductive spring 7 connected to the electric wire of the indication circuit is provided on the side where the recess 3 is placed.

Under the condition that the optometry lens is not placed in the concave position 3, the middle part of the first circuit conducting piece 5 and the middle part of the second circuit conducting piece 6 are in contact with each other, so that the indicator lamp 4 is in a lighted state.

In addition, a notch 31 for facilitating taking and placing of the optometric lenses is provided on one side of each of the concave portions 3.

In addition, wiring channels are provided inside the substrate 2.

A label 8 for indicating the type of the prescription lens is attached to one side of each indicator lamp 4.

In addition, the color of each indicator lamp 4 is different.

Second embodiment

On the basis of the first embodiment, "more specifically, in each of the indication circuits, the first circuit conduction piece 5 and the second circuit conduction piece 6 are respectively formed in an arc shape, and the first circuit conduction piece 5 and the second circuit conduction piece 6 are respectively bent in directions away from each other" will be compared with the first embodiment.

Under the condition that the optometry lens is not placed in the concave position 3, the middle part of the first circuit conducting piece 5 and the middle part of the second circuit conducting piece 6 are in contact with each other, so that the indicator lamp 4 is in a lighted state. "the structure is replaced with the following structure:

more specifically, "as shown in fig. 4, in each of the indication circuits, the first circuit conduction sheet 5 and the second circuit conduction sheet 6 are each formed in an arc shape, and the first circuit conduction sheet 5 and the second circuit conduction sheet 6 are each bent in directions facing each other.

At least one of the first circuit conduction piece 5 and the second circuit conduction piece 6 is connected to the electric wire of the indication circuit through a conductive spring 7, for example, as shown in fig. 4, the first circuit conduction piece 5 is connected to the electric wire of the indication circuit through the conductive spring 7, and an abutting plate (not shown) capable of abutting against one end of the conductive spring 7 connected to the electric wire of the indication circuit is provided on the side where the recess 3 is placed.

When the optometry lens is not placed in the concave portion 3, the two ends of the first circuit conducting piece 5 and the two ends of the second circuit conducting piece 6 are in contact with each other, so that the indicator lamp 4 is in a lighted state. "

The other structure is the same as the first embodiment.

Third embodiment

more specifically, as shown in fig. 5, in each of the indication circuits, the first circuit conduction sheet 5 and the second circuit conduction sheet 6 are formed in a straight sheet shape, respectively.

At least one of the first circuit conduction piece 5 and the second circuit conduction piece 6 is connected to the electric wire of the indication circuit through a conductive spring 7, for example, as shown in fig. 5, the first circuit conduction piece 5 is connected to the electric wire of the indication circuit through the conductive spring 7, and an abutting plate (not shown) capable of abutting against one end of the conductive spring 7 connected to the electric wire of the indication circuit is provided on the side where the recess 3 is placed.

In the case where the optometry lens is not placed inside the placement recess 3, the conductive spring 7 can control the first circuit conduction piece 5 and the second circuit conduction piece 6 to be in contact with each other, thereby making the indicator lamp 4 in the lighted state.

The other structure is the same as the first embodiment.

Fourth embodiment

more specifically, "as shown in fig. 6, in each of the indication circuits, the first circuit conduction sheet 5 and the second circuit conduction sheet 6 are respectively disposed horizontally, and the first circuit conduction sheet 5 is disposed above the second circuit conduction sheet 6 in such a manner as to be in partial overlapping contact with the second circuit conduction sheet 6.

The second circuit conducting plate 6 is connected with the electric wire of the indication circuit through an elastic plate 9, and a supporting block 10 capable of supporting the elastic plate 9 is arranged on one side where the concave position 3 is placed.

Under the condition that the optometric lens is placed in the concave position 3, the insulating protrusion can press the second circuit conducting piece 6 down to be separated from the first circuit conducting piece 5, and under the condition that the optometric lens is not placed in the concave position 3, the elastic piece 9 can control the second circuit conducting piece 6 to be in contact with the first circuit conducting piece 5.

The other structure is the same as the first embodiment.

The structure of the optometry lens box provided by the invention is described above, and the working principle thereof is described below.

The working principle is that under the condition that each optometry lens is not placed in the concave position 3, the first circuit conducting piece 5 and the second circuit conducting piece 6 are in contact with each other, the indication circuit at each concave position 3 is conducted, the indication lamp 4 is in a lighted state, and the optometrist is reminded that the optometry lens is not reset;

under the condition that each optometry lens is respectively placed in the concave position 3, the insulation protrusions of the optometry lens separate the first circuit conducting piece 5 and the second circuit conducting piece 6 from each other, the indication circuit at each concave position 3 is disconnected, the indication lamp 4 is closed, and the optometry lens is reset.

And because the insulating bulge of each optometry lens is different along the setting position on the edge of optometry lens to, the insulating bulge of different kinds of optometry lens can't imbed in with its unmatched concave position 3 of placing, and then ensure the accuracy that optometry lens returns to the position, and further, eliminate the optometry error condition that leads to because the optometry lens takes by mistake, can guarantee the accuracy of optometry result.

In addition, in the above embodiments, the indication circuits are connected in parallel and then connected to the same power supply to form a closed loop.

Through such structure, can make between each indicating circuit provide electric power through same power to save the inside space of box that the power occupy, make this optometry lens case have portable's advantage.

In addition, in the above embodiments, a notch is provided on one side of each concave position for facilitating the taking and placing of the optometric lens.

Therefore, each optometry lens can be quickly taken and placed through the notch, optometry efficiency is accelerated, and meanwhile, extrusion damage to the optometry lens in the taking and placing process is avoided.

In addition, in the above-described several embodiments, the wiring channels are provided inside the substrate.

Therefore, the electric wires of the indicating circuit can be routed from the routing channel, the exposed wires are prevented from being damaged, and meanwhile, the electric wires are prevented from obstructing the taking of the optometry lenses, so that the optometry efficiency is improved.

In the above-described embodiments, labels for indicating the types of the prescription lenses are attached to one side of each of the indicator lamps.

Therefore, the type of the optometry lens corresponding to each concave position can be accurately mastered through the label.

In addition, in the above-described several embodiments, the colors of the respective indicator lamps are different.

Therefore, the indicator lamps with different colors can be used for rapidly reflecting which type of optometry lenses have homing errors, and the optometry efficiency is further improved.

In the above embodiment, the specific configuration of the present invention has been described, but the present invention is not limited to this.

For example, in the above embodiments, the indication circuits are connected in parallel and then connected to the same power supply to form a closed loop.

But not limited to this, also can be, set up foretell each indicating circuit and include respective power respectively, and do not interconnect between each indicating circuit, can realize showing through the pilot lamp in the indicating circuit whether the optometry lens is correctly placed in the box equally, thereby avoid confusion between the optometry lens, thereby be convenient for optometrist gets fast to put optometry lens and accelerate optometry efficiency, simultaneously, avoid taking the mistake to optometry lens, thereby reduce optometry error rate, guarantee the effect of the correctness of optometry result, but, according to the structure in concrete implementation, set up each indicating circuit and interconnect with same power after being connected with each other in parallel, thereby, can make provide electric power through same power between each indicating circuit, thereby save the space in the box that the power occupy, make this optometry lens box have portable's advantage.

But not limited to this, also can not set up foretell breach, and get through using the sucking disc to draw modes such as putting to the optometry lens, but, use the sucking disc to draw and need optometrist to have abundant operation experience and just can guarantee that the optometry lens is not damaged, compared with it, adopt the structure in the concrete embodiment, be provided with the breach of being convenient for get to put the optometry lens in one side of each place concave position, thereby, accessible this breach gets fast to put each optometry lens for optometry efficiency, simultaneously, avoid getting to put the in-process and lead to the fact extrusion damage to the optometry lens.

However, the present invention is not limited thereto, and the wire of the indication circuit may be exposed without providing the wire passage, and the function of displaying whether the optometry lens is correctly placed in the case by the indication lamp in the indication circuit may be similarly realized.

However, the present invention is not limited to this, and the placement position of each of the prescription lenses may be recorded by additionally providing a note, or the like, but according to the configuration of the embodiment, a label for indicating the type of the prescription lens is attached to one side of each of the indicator lamps, so that the type of the prescription lens corresponding to each of the placement recesses can be accurately grasped by the label, and the use is more convenient than the use of the label additionally provided.

However, the present invention is not limited thereto, and the indicator lamps may be provided in the same color, and the function of indicating whether the lens is correctly returned by the on/off condition of the indicator lamps may be realized, but according to the structure of the embodiment, the indicator lamps may be provided in different colors, so that the indicator lamps in different colors may quickly reflect which lens is in wrong return, thereby further improving the optometry efficiency.

The present invention provides an optometric lens box which can be assembled from various configurations of the above embodiments, and can exhibit the above effects as well.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims

1. An optometry lens box is characterized by comprising a box body,

a base plate used for placing the optometry lenses is arranged in the box body, a plurality of placing concave positions used for placing the optometry lenses of different types are arranged on the base plate, respective indication circuits are respectively arranged at the placing concave positions,

each indicating circuit comprises a respective power supply, an indicating lamp arranged outside the placing concave position, a first circuit conducting sheet arranged inside the placing concave position and a second circuit conducting sheet which is arranged inside the placing concave position and can be mutually contacted with the first circuit conducting sheet,

the indicator light, the first circuit conducting piece and the second circuit conducting piece are connected in series and then connected with the power supply to form a closed loop,

insulation protrusions capable of separating the first circuit conducting piece and the second circuit conducting piece from each other in the case that the optometric lenses are placed inside the placement recess are respectively arranged at the edges of the optometric lenses, and the arrangement positions of the insulation protrusions of the optometric lenses along the edges of the optometric lenses are different;

the indication circuits are connected in parallel and then connected with the same power supply to form a closed loop;

and a wiring channel is arranged in the substrate.

2. The optotype lens case of claim 1, wherein in each of the indication circuits, the first and second circuit-conducting pieces are each formed in an arc shape, and the first and second circuit-conducting pieces are each bent in directions away from each other,

at least one of the first circuit conducting piece and the second circuit conducting piece is connected with the electric wire of the indication circuit through a conductive spring,

an abutting plate which can abut against one end of the conductive spring connected with the electric wire of the indication circuit is arranged on one side of the placement concave position,

3. The optotype lens case of claim 1, wherein in each of the indication circuits, the first and second circuit-conducting pieces are formed in arc shapes, respectively, and the first and second circuit-conducting pieces are bent in directions facing each other, respectively,

4. The optotype kit of claim 1, wherein in each of the indication circuits, the first circuit conduction piece and the second circuit conduction piece are each formed in a straight sheet shape,

5. The optotype lens case of claim 1, wherein in each of the indication circuits, the first circuit conduction piece and the second circuit conduction piece are respectively disposed horizontally, and the first circuit conduction piece is disposed above the second circuit conduction piece in partial overlapping contact with the second circuit conduction piece,

the second circuit conducting piece is connected with the electric wire of the indicating circuit through an elastic piece, a supporting block capable of supporting the elastic piece is arranged on one side of the concave position,

6. The optometric lens case of claim 1, wherein a notch is provided on each side of the placement recess to facilitate access to the optometric lens.

7. The prescription box of claim 1, wherein a label for indicating the type of prescription is attached to one side of each of said indicator lights.

8. The prescription lens housing of claim 1 wherein each of said indicator lights is a different color.