CN111277738B - Light filling lamp assembly and electronic equipment - Google Patents

Abstract

The invention discloses a light supplementing lamp assembly and electronic equipment, wherein the light supplementing lamp assembly comprises a light supplementing lamp, a blood sugar sensing diaphragm, a mounting base and a circuit board; wherein: the light filling lamp and the blood sugar sensing diaphragm are arranged on the mounting base, the circuit board is electrically connected with the light filling lamp, and the circuit board is electrically connected with the blood sugar sensing diaphragm. In the above scheme, the blood sugar response diaphragm is arranged on the mounting base of the light supplement lamp assembly, so that the blood sugar response diaphragm is integrated on the light supplement lamp assembly, and therefore the mounting space of the blood sugar response diaphragm is not required to be reserved in the shell of the electronic equipment, the thickness of the electronic equipment is small, and the light and thin performance of the electronic equipment is improved. Simultaneously, blood sugar response diaphragm and light filling lamp sharing circuit board, the blood sugar response diaphragm need not additionally to set up circuit structure and electronic equipment's mainboard electricity and is connected this moment, consequently makes the occupation condition of electronic equipment's mainboard improve to some extent, and then makes electronic equipment's structural design simpler.

Description

Light filling lamp assembly and electronic equipment

Technical Field

The invention relates to the technical field of communication equipment, in particular to a light supplementing lamp assembly and electronic equipment.

Background

Electronic devices such as smart phones and tablet computers have become indispensable products in modern life. In order to improve the use performance of the electronic equipment, a blood sugar detection device is installed on part of the electronic equipment, so that the blood sugar of a user can be detected, the user can be helped to effectively control the blood sugar of the user, and the diabetes can be prevented from being attacked.

The installation position of the blood glucose detection device needs to be reserved in the shell of the electronic equipment, and at the moment, the blood glucose detection device can occupy the space of the shell of the electronic equipment, so that the thickness of the electronic equipment is large, and the lightness and thinness of the electronic equipment are required to be improved. In addition, the circuit structure of the blood glucose detecting device needs to be electrically connected with the main board of the electronic device, thereby occupying the connection position of the main board of the electronic device and bringing difficulty to the structural design of the electronic device.

Disclosure of Invention

The invention discloses a light supplementing lamp assembly and electronic equipment, and aims to solve the problems that the thickness of the electronic equipment is large and the structural design difficulty is large due to installation of a blood sugar monitoring device.

In order to solve the technical problem, the invention is realized as follows:

in a first aspect, the embodiment of the invention discloses a light supplement lamp assembly, which comprises a light supplement lamp, a blood sugar sensing membrane, a mounting base and a circuit board; wherein:

the light filling lamp with the blood sugar response diaphragm all set up in the mounting base, the circuit board with the light filling lamp electricity is connected, the circuit board with the blood sugar response diaphragm electricity is connected.

In a second aspect, an embodiment of the present invention discloses an electronic device, including the above light supplement lamp assembly.

The technical scheme adopted by the invention can achieve the following beneficial effects:

in the embodiment of the invention, the blood sugar sensing membrane is arranged on the mounting base of the light supplement lamp component, so that the blood sugar sensing membrane is integrated on the light supplement lamp component, and the mounting space of the blood sugar sensing membrane does not need to be reserved in the shell of the electronic equipment, so that the thickness of the electronic equipment is smaller, and the light and thin property of the electronic equipment is improved.

Simultaneously, blood sugar response diaphragm and light filling lamp sharing circuit board, the blood sugar response diaphragm need not additionally to set up circuit structure and electronic equipment's mainboard electricity and is connected this moment, consequently makes the occupation condition of electronic equipment's mainboard improve to some extent, and then makes electronic equipment's structural design simpler.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments or the background art of the present invention, the drawings used in the description of the embodiments or the background art will be briefly described below, and it is obvious for those skilled in the art to obtain other drawings without any inventive exercise.

Fig. 1 is an exploded view of a fill light assembly according to an embodiment of the present invention;

fig. 2 is a partial cross-sectional view of an electronic device disclosed in an embodiment of the invention.

Description of reference numerals:

100-a light supplement lamp,

210-a mounting base, 211-a first base, 211 a-a first thread structure, 212-a second base, 212 a-a second thread structure, 213-an avoidance hole, 214-a limit projection, 240-a circuit board,

300-blood sugar sensing membrane,

410-first, 420-second, 430-third, 440-fourth,

510-first seal, 520-second seal, 530-third seal, 540-fourth seal,

600-shell body,

700-a lead,

800-user's finger,

900-optical module, 910-lens, 920-photosensitive chip, 921-main body part, 922-base part.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions disclosed in the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 and 2, a light supplement lamp assembly according to an embodiment of the present invention includes a light supplement lamp 100, a blood glucose sensing diaphragm 300, a mounting base 210, and a circuit board 240.

The fill-in light 100 is used for shooting or lighting in a dark place by electronic equipment. The fill light 100 may be an LED light.

The light supplement lamp 100 and the blood glucose sensing diaphragm 300 are both disposed on the mounting base 210, the mounting base 210 provides a mounting space for components of the light supplement lamp assembly, the circuit board 240 is electrically connected to the light supplement lamp 100, and the circuit board 240 is electrically connected to the blood glucose sensing diaphragm 300. At this moment, the blood sugar sensing diaphragm 300 can be electrically connected with the main board of the electronic device through the circuit board 240, and the main board of the electronic device processes the data of the blood sugar sensing diaphragm 300 and displays the processed data on the display screen of the electronic device, so that a user can observe the blood sugar variation trend of the user and judge whether the blood sugar of the user is stable. Meanwhile, the main board of the electronic device may control the light supplement lamp 100 to be turned on or turned off through the circuit board 240. Optionally, the fill-in light 100 and the blood glucose sensing diaphragm 300 may be electrically connected to the circuit board 240 through a wire 700.

Alternatively, the circuit board 240 may be a rigid circuit board or a circuit board with a certain flexibility. For example, the circuit board 240 may be a printed circuit board, a rigid-flex board, or the circuit board 240 includes a flexible circuit board and a stiffener that are attached to each other. Of course, other configurations may be used, and are not limited herein.

In the embodiment of the present disclosure, the blood glucose sensing diaphragm 300 is disposed on the mounting base 210 of the light supplement lamp assembly, so that the blood glucose sensing diaphragm 300 is integrated on the light supplement lamp assembly, and therefore, an additional mounting space for the blood glucose sensing diaphragm 300 is not required to be reserved in the housing 600 of the electronic device, so that the thickness of the electronic device is small, and the improvement of the lightness and thinness of the electronic device is facilitated.

Meanwhile, the blood sugar sensing diaphragm 300 and the light supplement lamp 100 share the circuit board 240, and at this time, the blood sugar sensing diaphragm 300 does not need to be additionally provided with a circuit structure to be electrically connected with a main board of the electronic device, so that the occupation situation of the main board of the electronic device is improved to some extent, and the structural design of the electronic device is simpler.

Conventional blood glucose testing methods require a user's finger to be pricked and blood to be dropped onto a blood glucose test strip. The blood sugar detection mode enables a user to feel painful, and the user experience is poor. In addition, the blood glucose test paper needs to be replaced every time blood glucose is detected, so that the blood glucose detection operation is complicated.

In the embodiment of the present disclosure, the blood glucose sensing membrane 300 employs a reverse iontophoresis technique, which is to reverse the direction of iontophoresis transport, so as to change the ion flow, and allow glucose in interstitial fluid to permeate through the hair follicle and reach the skin surface. After being captured by the sensor on the blood glucose sensing membrane 300, the glucose reacts with glucose oxidase on the sensor to generate hydrogen peroxide and generate a corresponding electric signal, and the signal intensity is in direct proportion to the blood glucose concentration, so that the accurate blood glucose value is calculated. The blood sugar detection mode does not need a user to puncture fingers, and noninvasive blood sugar detection is realized. Meanwhile, when the blood sugar is detected, the blood sugar test paper does not need to be replaced, so that the blood sugar detection operation is simple. The glucose sensing diaphragm 300 is well known in the art and will not be described herein.

In an optional embodiment, the light supplement lamp assembly disclosed in the present invention may further include an optical module 900, the optical module 900 may include a lens 910 and a photosensitive chip 920, the lens 910 and the photosensitive chip 920 are both disposed on the mounting base 210, the photosensitive chip 920 has a photosensitive area, the lens 910 is disposed opposite to the photosensitive area, and the circuit board 240 is electrically connected to the photosensitive chip 920. Optionally, the circuit board 240 may be electrically connected to a main board of the electronic device, so as to supply power to the fill light lamp 100 and the optical module 900, and meanwhile, the main board of the electronic device and the optical module 900 may perform data transmission through the circuit board 240.

Alternatively, the photosensitive chip 920 may include a body portion 921 and a base portion 922, the body portion 921 and the base portion 922 are overlapped, the body portion 921 is used for receiving light, the body portion 921 may transmit the received light data to a main board of the electronic device, the body portion 921 may be electrically connected to the circuit board 240, and the base portion 922 is used for supporting the body portion 921, so as to prevent the body portion 921 from being rigidly connected to the mounting base 210. The body section 921 has a larger outer dimension than the base section 922.

In order to further optimize the structure of the light supplement lamp assembly, in another embodiment, the blood glucose sensing membrane 300 may be disposed on the surface of the lens 910, and at this time, the blood glucose sensing membrane 300 and the lens 910 are arranged in the thickness direction of the light supplement lamp assembly, so that the overall size of the light supplement lamp assembly is relatively small, and the structure of the light supplement lamp assembly is relatively compact. It is noted that the glucose-sensing diaphragm 300 should have a light transmittance such that light reflected from the user's finger 800 passes through the glucose-sensing diaphragm 300.

In an alternative embodiment, the photosensitive chip 920 may be an optical health detection chip, and since electronic devices have become indispensable products in modern life, medical care is integrated into the electronic devices, so that the health condition of the user can be monitored in real time, and medical expenses can be reduced. Optionally, the optical health detection chip may be used to detect health data of a user, such as blood pressure, heart rate, pulse, and the like. The optical health detection chip can transmit detected data to a mainboard of the electronic equipment, and the mainboard of the electronic equipment processes the data and displays the processed data on a display screen of the electronic equipment, so that a user can visually observe own health data.

Optionally, the blood glucose sensing diaphragm 300 and the light supplement lamp 100 may work independently, and meanwhile, the blood glucose sensing diaphragm 300 and the light sensing chip 920 may also work independently.

In another embodiment, the photosensitive chip 920 may be an image photosensitive chip, and the image photosensitive chip is used to collect image information, so that functions such as fingerprint identification and shooting can be implemented, and the service performance of the light supplement lamp assembly is improved.

In the above embodiment, the user finger 800 covers the lens 910, the light supplement lamp 100 emits light, the light is reflected by the user finger 800, the light enters the photosensitive chip 920 through the lens 910, and the photosensitive chip 920 processes the received light, so as to obtain fingerprint information or health data of the user.

The photosensitive chip 920 may be an optical health detection chip or an image photosensitive chip, and certainly, the photosensitive chip 920 may also be other chips that need to implement their functions through optics, and the embodiment of the present invention does not limit the specific kind of the photosensitive chip 920. The lens 910 may be a lens 910 mounted on a short-focus lens, or may be a lens 910 mounted on other types of lenses, which is not limited herein. When the photosensitive chip 920 can be an image photosensitive chip, the image photosensitive chip can obtain an external image through the lens 910, so that the light supplement lamp assembly can realize a shooting function.

In the above embodiment, the light supplement lamp 100 and the optical module 900 are integrated into a single structure, and at this time, no additional light emitting element is required to be disposed on the optical module 900, so that the manufacturing cost of the electronic device is reduced.

In order to fasten the casing 600 of the electronic device and the light supplement lamp assembly, the light supplement lamp assembly can be bonded on the casing 600 of the electronic device, when the light supplement lamp assembly needs to be maintained, the maintenance personnel can detach the whole light supplement lamp assembly from the electronic device, and the casing 600 or the mounting base 210 is easily damaged. In an alternative embodiment, the mounting base 210 may include a first base 211 and a second base 212, the first base 211 is detachably connected to the second base 212, and the fill light 100, the blood glucose sensing diaphragm 300 and the lens 910 are disposed on the second base 212. At this time, the first base 211 may be bonded to the housing 600 of the electronic device, the vulnerable component of the light supplement lamp assembly may be disposed on the second base 212, and the second base 212 may be detached when the light supplement lamp assembly is maintained, so that the maintenance performance of the light supplement lamp assembly is improved. The first base 211 and the second base 212 can be connected by magnetic attraction, clamping, screw threads, etc.

In an alternative embodiment, the first base 211 may have a receiving groove, and a portion of the second base 212 is disposed in the receiving groove, and at this time, a portion of the second base 212 is hidden in the receiving groove, so that the stacking dimension of the first base 211 and the second base 212 is smaller, and the overall dimension of the light supplement lamp assembly is reduced.

When the first base 211 and the second base 212 are clamped, after the first base 211 and the second base 212 are disassembled for many times, the connecting clamping hook between the first base 211 and the second base 212 is easy to break, so that the service life of the light supplement lamp assembly is shortened; when first base 211 and second base 212 magnetism are inhaled and are connected, the magnetism piece between first base 211 and the second base 212 causes the magnetization of partial part of light filling banks spare easily to damage light filling banks spare, and then reduced light filling banks spare security and reliability.

For this, in another embodiment, the side wall of the receiving groove may be provided with a first screw structure 211a, the outer wall of the second base 212 may be provided with a second screw structure 212a, and the first base 211 and the second base 212 may be screw-coupled by the first screw structure 211a and the second screw structure 212 a. In this manner, during the process of detaching and attaching the first base 211 and the second base 212, the second base 212 may be detached from the first base 211 or the second base 212 may be attached to the first base 211 by screwing the second base 212. At this time, the stress of the first thread structure 211a and the second thread structure 212a is small in the screwing process, so that the acting force between the first thread structure 211a and the second thread structure 212a is small, the first thread structure 211a and the second thread structure 212a are not easily damaged, and the service life of the fill-in light assembly is prolonged. Meanwhile, the first and second screw structures 211a and 212a do not magnetize the components of the light supplement lamp assembly, thereby improving the safety and reliability of the light supplement lamp assembly. In addition, the threaded connection has self-locking performance, so that the second base 212 can be prevented from rotating relative to the first base 211, and the reliability of the light supplementing lamp assembly is improved. Alternatively, the first and second thread structures 211a and 212a may be fine threads having a nominal diameter of 8 mm. The first and second thread structures 211a and 212a may also be of other types and are provided herein as merely one embodiment and are not intended to limit the specific structure herein.

In an alternative embodiment, the bottom wall of the receiving groove has a gap with the second base 212, and a portion of the photo chip 920 may be located in the gap, and at this time, the gap can limit the movement of the photo chip, so that a fixing member for additionally disposing the photo chip 920 on the bottom wall of the receiving groove or the second base 212 is not required, and the structure of the fill-in lamp assembly is simplified.

In the above embodiment, the bottom wall of the accommodating groove and the first base 211 are easy to rigidly collide with the photosensitive chip 920, so that the photosensitive chip 920 is easily damaged, and the safety of the light supplement lamp assembly is reduced. In another embodiment, the fill-in light assembly may further include a first buffer 410, the first buffer 410 may be disposed in the gap, and the first buffer 410 is disposed around the photosensitive chip 920. At this time, the first buffer 410 can prevent rigid collision between the bottom wall and the first base 211, thereby preventing the photosensitive chip 920 from being damaged, and further improving the safety of the light supplement lamp assembly. Optionally, the first buffer 410 may be made of a polyurethane rubber material, the first buffer 410 is in interference fit with the first base 211 and the second base 212, and the interference magnitude may be 0.07-0.12 mm.

In order to allow the second base 212 to be smoothly fitted into the receiving groove, the size of the receiving groove may be larger than that of the second base 212. At this moment, be provided with the space between the inner wall of holding tank and the lateral wall of second base 212, dust or steam among the external environment get into the inside of light filling lamp subassembly from this space easily, cause the inside electronic components of light filling lamp subassembly to damage. In an optional embodiment, the fill light assembly may further include a first sealing member 510, the first sealing member 510 is disposed in the gap, and the first sealing member 510 is disposed around the first buffer 410. This kind of scheme prevents that steam or dust in the external environment from getting into from the clearance to prevent electronic components and parts from damaging. The first sealing member 510 may be made of sealing foam, or may be made of other sealing materials.

In the above embodiment, a gap is formed between the inner wall of the accommodating groove and the sidewall of the second base 212, and when dust in the external environment enters the gap from the opening side of the accommodating groove, the dust may adhere to the inner wall of the accommodating groove or the sidewall of the second base 212, thereby making it difficult to detach the first base 211 and the second base 212. In another embodiment, the open side of the receiving groove may be formed with a groove, and the second sealing member 520 may be disposed in the groove, and the second sealing member 520 is disposed around the second base 212. At this time, the second seal 520 can prevent dust from being collected in the gap, thereby facilitating the disassembly of the first and second bases 211 and 212. Optionally, the second sealing element 520 may be made of sealing foam, or may be made of other sealing materials.

Specifically, the third cushion 430 may be disposed between the bottom surface of the groove and the second base 212, and the third cushion 430 is disposed around the second base 212, at this time, the third cushion 430 can prevent the second base 212 from rigidly colliding with the first base 211. The third buffer member 430 may be made of a urethane rubber material.

In order to improve the working performance of the light supplement lamp assembly, the number of the light supplement lamps 100 can be multiple, the plurality of light supplement lamps 100 are distributed around the blood glucose sensing membrane 300 at intervals, and the light supplement lamps 100 can be arranged adjacent to the blood glucose sensing membrane 300 or arranged at intervals. At this moment, the light that the light filling lamp subassembly launches is more, and the light that reflects back through user's finger 800 increases for the light that sensitization chip 920 received increases, and then has improved the working property of light filling lamp subassembly. In addition, when the light supplement lamp assembly supplements light for the camera module, the light supplement lamps 100 are more in number and have higher brightness, so that the light supplement effect is better. Or, when the light supplement lamp assembly is used for lighting, the light supplement lamp assembly has high brightness and a good lighting effect because the number of the light supplement lamps 100 is large.

In the above embodiment, dust in the external environment easily enters the mounting base 210 through the gap between the mounting base 210 and the lens 910, the dust is easily attached to the lens 910, and the attached dust blocks light, so that the light entering the photo sensor chip 920 is reduced. In an alternative embodiment, a third seal 530 is disposed between the mounting base 210 and the lens 910, and the third seal 530 is disposed around the lens 910. At this time, the third sealing member 530 can prevent dust from entering the mounting base 210, so that the dust is not easily attached to the lens 910, and therefore light is not blocked, and more light entering the photo sensor chip 920 is ensured. The third sealing member 530 may be made of sealing foam, or may be made of other sealing materials.

In the embodiment of the present invention, the circuit board 240 may be electrically connected to a motherboard of the electronic device, so that the electronic device is electrically connected to the fill-in light assembly, and at this time, the circuit board 240 needs to bypass the electronic components inside the mounting base 210 and extend out from one end of the mounting base 210. This way the circuit board 240 is more complex to arrange. In an alternative embodiment, the mounting base 210 may be formed with an avoiding hole 213, and a portion of the circuit board 240 is disposed through the avoiding hole 213. At this time, the circuit board 240 does not need to avoid electronic components, so that the layout of the circuit board 240 is simple. Optionally, one end of the circuit board 240 protrudes from the avoiding hole 213, and may be electrically connected to a main board of the electronic device.

Optionally, when the mounting base 210 may include the first base 211 and the second base 212, the avoiding hole 213 may be opened in the first base 211, or the avoiding hole 213 may also be opened in the second base 212. As shown in fig. 1 and 2, the first base 211 may be formed with a receiving groove, and at this time, a portion of the second base 212 is disposed in the receiving groove, so that the avoiding hole 213 may be formed on the side wall of the first base 211, and the avoiding holes 213 may be plural and formed at different positions of the side wall of the first base 211.

Dust is easily attached to the surface of the light supplement lamp 100, thereby affecting the light supplement effect of the light supplement lamp 100. Optionally, a fourth sealing member 540 may be disposed between the light supplement lamp 100 and the mounting base 210, and at this time, the fourth sealing member 540 may prevent dust from adhering to the surface of the light supplement lamp 100, so that the light supplement effect of the light supplement lamp 100 is not affected. The fourth sealing member 540 may be made of sealing foam, or may be made of other sealing materials.

In the above embodiment, the lens 910 is rigidly connected to the mounting base 210, which is likely to cause damage to the lens 910. Because there are many precise devices in the blood glucose sensing diaphragm 300, and the lens 910 is rigidly connected to the blood glucose sensing diaphragm 300, which is likely to damage the blood glucose sensing diaphragm 300, the light supplement lamp assembly disclosed in the present invention may further include a fourth buffer 440, the fourth buffer 440 surrounds the lens 910, and the blood glucose sensing diaphragm 300 covers the fourth buffer 440. At this time, the lens 910 is connected with the mounting base 210 by the fourth cushion 440, thereby preventing the lens 910 from being damaged. Meanwhile, the edge of the blood glucose sensing diaphragm 300 is connected to the fourth buffer 440, thereby preventing the rigid connection between the lens 910 and the blood glucose sensing diaphragm 300, and further preventing the blood glucose sensing diaphragm 300 from being easily damaged.

Based on the light supplement lamp assembly in the embodiment of the invention, the embodiment of the invention also discloses electronic equipment, and the disclosed electronic equipment is provided with the light supplement lamp assembly in the embodiment.

In an optional embodiment, the electronic device may further include a camera module, and the light supplement lamp assembly is used for supplementing light to the camera module. At this moment, the light filling lamp subassembly not only can realize functions such as blood sugar detection, fingerprint identification, health detection of electronic equipment, can also implement the light filling for the shooting of camera module to the diversified function of light filling lamp subassembly has been realized.

Optionally, the camera module and the light supplement lamp assembly can be arranged at intervals, or the camera module and the light supplement lamp assembly can be arranged adjacently. When the light filling lamp subassembly also had the shooting function, this light filling lamp subassembly can be used for the supplementary shooting of camera module to improve electronic equipment's the shooting effect, and then improve user experience.

In order to make the external dimension of the electronic device smaller, in an optional embodiment, the electronic device may further include a housing 600, the housing 600 may be provided with a through hole, a part of the mounting base 210 may be disposed in the through hole, the mounting base 210 may be provided with a limiting protrusion 214, the limiting protrusion 214 is annularly disposed on the mounting base 210, and the limiting protrusion 214 is in limiting fit with an inner wall of the housing 600. At this time, part of the mounting base 210 is hidden in the through hole of the housing 600, so that the external appearance of the electronic device is small, thereby improving the user experience. Meanwhile, the mounting base 210 and the housing 600 are in limited fit through the inner wall of the housing 600 and the limiting protrusion 214, so that the mounting base 210 is limited from moving out of the housing 600, the mounting base 210 cannot slide out of the through hole, and the reliability of the electronic device is high. Alternatively, the limiting protrusion 214 and the inner wall of the casing 600 may be adhered by a bonding material such as double-sided tape or glue.

In order to prevent the rigid connection between the mounting base 210 and the casing 600, in an alternative embodiment, the electronic device may further include a second buffer 420, and the limiting protrusion 214 and the inner wall of the casing 600 may be connected by the second buffer 420. At this time, the second buffer member 420 can prevent a rigid collision between the inner wall of the case 600 and the mounting base 210, thereby preventing the surface of the case 600 or the surface of the mounting base 210 from being scratched, and further improving the safety of the electronic device. Alternatively, the second buffer 420 may be bonded to the stopper protrusion 214, and the second buffer 420 may be bonded to the inner wall of the case 600. The second buffer 420 may be made of a urethane rubber material.

The electronic device disclosed in the embodiment of the present invention may be a smart phone, a tablet computer, an electronic book reader, a wearable device (e.g., a smart watch), an electronic game machine, or the like, and the specific type of the electronic device is not limited in the embodiment of the present invention.

In the above embodiments of the present invention, the difference between the embodiments is mainly described, and different optimization features between the embodiments can be combined to form a better embodiment as long as they are not contradictory, and further description is omitted here in view of brevity of the text.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (11)

1. A light supplement lamp assembly is characterized by comprising a light supplement lamp, a blood sugar sensing diaphragm, a mounting base and a circuit board; wherein:

the light supplement lamp and the blood sugar sensing diaphragm are both arranged on the mounting base, the circuit board is electrically connected with the light supplement lamp, and the circuit board is electrically connected with the blood sugar sensing diaphragm;

the light supplementing lamp assembly further comprises an optical module, and the optical module comprises a lens and a photosensitive chip;

the lens with sensitization chip all set up in the mounting base, sensitization chip has the sensitization region, the lens with the sensitization region sets up relatively, the circuit board with sensitization chip electricity is connected, blood sugar response diaphragm set up in the lens surface.

2. The fill-in light lamp assembly according to claim 1, wherein the light sensing chip is an optical health detection chip.

3. The light supplement lamp assembly of claim 1, wherein the mounting base comprises a first base and a second base, the first base is detachably connected to the second base, and the light supplement lamp, the blood glucose sensing diaphragm and the lens are all disposed on the second base.

4. The light supplement lamp assembly of claim 3, wherein the first base defines a receiving groove, and a portion of the second base is disposed in the receiving groove.

5. The light supplementing lamp assembly according to claim 4, wherein a first thread structure is provided on a side wall of the accommodating groove, a second thread structure is provided on an outer wall of the second base, and the first base and the second base are threadedly connected through the first thread structure and the second thread structure.

6. The light supplementing lamp assembly of claim 4, wherein a gap is formed between the bottom wall of the accommodating groove and the second base, and a part of the photosensitive chip is located in the gap.

7. The fill-in light lamp assembly according to claim 1, wherein the light sensing chip is an image sensing chip.

8. The light supplement lamp assembly of claim 1, wherein the number of the light supplement lamps is plural, and the plural light supplement lamps are distributed around the blood glucose sensing diaphragm at intervals.

9. The light supplement lamp assembly according to claim 1, wherein the mounting base is provided with an avoiding hole, and a part of the circuit board penetrates through the avoiding hole.

10. An electronic device, comprising the fill light assembly of any one of claims 1 to 9.

11. The electronic device of claim 10, further comprising a camera module, wherein the fill light module is configured to fill light into the camera module.

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