CN210786005U - Disposable luminous capsule - Google Patents

Abstract

The utility model discloses a disposable luminous capsule, which comprises a shell, wherein a photoelectric control element and a luminous element which are electrically connected with a battery are arranged in the shell; the shell is transparent at the position where the photoelectric control element is arranged, and the photoelectric control element triggers the light-emitting capsule to work after receiving set light irradiation. The product of the patent adopts an original photoelectric starting mode, reduces electronic control elements, is convenient and easy to use, and can automatically emit light in the gastrointestinal tract through the medical LED light-emitting element to promote the health of the digestive tract.

Description

Disposable luminous capsule

Technical Field

The utility model belongs to the technical field of electronic equipment, concretely relates to electronic capsule.

Background

The gastrointestinal tract of people often has some small problems, such as gastric ulcer, intestinal harmful bacteria increase and intestinal unsmooth, and no effective luminous capsule which can kill harmful bacteria in the intestinal tract and promote the health of the digestive tract exists at present.

In order to treat constipation and promote intestinal peristalsis, some of the existing digestive tract vibration capsules adopt wireless control, so that the capsules are too large in size and too many electronic components are arranged in the capsules. Still the vibration capsule adopts magnetic induction control, brings the inconvenient problem of operation. Chinese patent application No. cn201010526989. x discloses a magnetic vibration capsule method, which treats constipation by orally taking a vibration capsule and controlling the vibration of the vibration capsule by an alternating magnetic field generated by a control mechanism; however, the vibration capsule has some defects that the vibration capsule can be realized only by the alternating magnetic field generated by the control mechanism when vibrating, and the control mechanism has larger volume and is inconvenient to carry and use for people going out. The existing in vivo treatment capsule scheme starting mode adopts the modes of wireless signal activation, magnetic control activation and the like, and all the modes require specific starting equipment to start the capsule, so that the cost is high, and the operation is inconvenient. Therefore, it is very important to find a capsule which is convenient to operate and can effectively promote the health of the digestive tract.

SUMMERY OF THE UTILITY MODEL

The utility model provides a disposable luminous capsule, which is convenient to operate and can emit light to promote the health of the digestive tract.

The disposable luminous capsule comprises a shell, wherein a photoelectric control element and a luminous element which are electrically connected with a battery are arranged in the shell; the shell is transparent at a position where one end of the shell is provided with the photoelectric control element, and the photoelectric control element triggers the light-emitting element to work after receiving set light irradiation.

Further, the shell is made of high polymer materials meeting the biocompatibility requirement, and is completely transparent; or partially transparent.

Further, the photoelectric control element is a photosensitive sensor, and the luminous vibration capsule is triggered to work when the visible light/infrared light irradiation exceeding the brightness threshold value is received; or the photoelectric control element is a photosensitive diode and triggers the luminous vibration capsule to work after receiving the visible light/infrared light irradiation exceeding the brightness threshold; or the photoelectric control element is a photoelectric switch and triggers the luminous vibration capsule to work after receiving visible light/infrared light irradiation for a certain set time.

Furthermore, both ends of the capsule are arc-shaped, the diameter of the capsule is less than or equal to 12 mm, and the length of the capsule is less than or equal to 26.5 mm.

Furthermore, the disposable light-emitting capsule also comprises a light-emitting control circuit, one end of the light-emitting control circuit is connected with the photoelectric control element, the other end of the light-emitting control circuit is connected with the light-emitting element, the light-emitting wavelength of the light-emitting element is controlled, and continuous illumination or illumination according to specific frequency is carried out on the alimentary canal.

Further, the light-emitting control circuit is arranged on an MCU controller chip and controls the light-emitting capsule to work.

Further, the light-emitting element is an LED element and emits blue light with the wavelength of 440-475 nm; or red light with the wavelength of 625-740 nanometers. Preferably, the LED element emits blue light with the wavelength of 450-465 nm; or emit red light with the wavelength of 640-730 nanometers.

Further, the housing is integrally formed in one piece; or the shell is divided into a front cover body and a rear cover body, and the joint parts of the front cover body and the rear cover body are connected together through medical UV glue.

Compared with the prior art, this patent has following beneficial effect:

(1) the product adopts an original photoelectric starting mode, reduces electronic control elements, is convenient and easy to use, and does not need additional starting control equipment; in practical application, the light-emitting capsule can be triggered to work by accurately irradiating the photoelectric control element with a light source which is a little higher than the ambient light intensity, for example, a mobile phone LED lamp, a common light source of a flashlight lamp or infrared light irradiation with certain intensity are adopted for starting, the operation is very convenient, and a patient can master the capsule at once. Of course, the infrared light can also be adopted to trigger the light-emitting capsule to work after a certain set time of irradiation.

(2) The luminous capsule not only automatically moves safely in the digestive tract, but also can emit light in the gastrointestinal tract through the LED luminous element to promote the health of the digestive tract. The inventor discovers through research that the medical LED adopted in the patent can emit blue light with the wavelength of 440-475 nm, and most preferably 450-465 nm, so that the medical LED has the functions of sterilization and inflammation diminishing, because bacteria on the inner wall of the gastrointestinal tract can absorb the light with the wavelength, photolysis can kill harmful bacteria, and the endocrine can be normalized, and hundreds of experiments prove that the medical LED has a certain treatment effect on the gastroenteritis. The medical LED is controlled to emit red light with the wavelength of 625-740 nanometers, and the red light with the wavelength of 640-730 nanometers has the functions of promoting blood circulation and removing blood stasis, because the red light can accelerate microcirculation, increase capillary permeability, accelerate metabolism, repair damaged capillaries, achieve the effects of sterilizing, diminishing inflammation and promoting digestive tract microcirculation, and experiments prove that the medical LED plays a role in promoting the improvement of gastric ulcer.

(3) The luminous capsule can be used for producing various functional models, such as capsules which emit light by adopting a single specific wavelength; a control circuit can also be added to control the light-emitting wavelength, and the treatment working mode of the light-emitting capsule can be adjusted according to different symptoms of the user. For example, the patient has dyspepsia and gastritis symptoms, and the light-emitting capsule can be set in a blue-light-emitting treatment working mode; if the patient has a gastric ulcer, the light emitting capsule can be placed in a red light emitting therapeutic mode of operation.

(4) The luminous capsule of this patent uses very safely, adopts the polymer shell that accords with the biocompatibility requirement, can not dissolved by gastric acid, and the capsule is disposable product, aseptic health, and the size is fit for swallowing, discharges in vitro along the intestinal peristalsis is automatic.

Drawings

Fig. 1 is a schematic view of a light-emitting capsule according to an embodiment of the present invention;

fig. 2 is a schematic view of a light-emitting capsule according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, a disposable light-emitting capsule according to an embodiment includes a housing 1, in which a photoelectric control element 3 and a light-emitting element 5 are disposed, and the photoelectric control element and the light-emitting element are electrically connected to a battery 2 in sequence; the shell is transparent at the position where the photoelectric control element is arranged at one end, namely the shell is transparent at the position 11 close to the semicircular cover of the photoelectric control element in the figure, the light emitted by the light-emitting element can also pass through the semicircular cover for treatment, and the photoelectric control element triggers the light-emitting element to work after receiving the set light irradiation.

The shell is made of a high polymer material meeting the biocompatibility requirement and can be dissolved in acid and alkali, and the shell can be made of a completely transparent high polymer material; or, one end of the shell is made of opaque high polymer material, the other end of the shell is made of transparent material, and the photoelectric control element and the light-emitting element are arranged in the shell at one end of the transparent material. The two ends of the capsule are arc-shaped, the diameter of the capsule is less than or equal to 12 mm, and the length of the capsule is less than or equal to 26.5 mm, so that the capsule is convenient to swallow and is automatically discharged out of the body along intestinal peristalsis. The housing is integrally formed in one step, and can be integrally formed by a blow molding machine after the electronic components are placed. Or the shell is divided into a front cover body and a rear cover body, after the electronic elements are placed, the butt joint parts of the front cover body and the rear cover body are bonded together through medical UV glue, so that the shell is very stable and cannot be damaged by gastric acid.

In order to prevent the capsule from being triggered by an external light source by mistake, the light-proof protective sleeve is wrapped outside the light-emitting capsule, and the protective sleeve is detached when in use.

As a way of triggering work by various lights, the photoelectric control element is a photosensitive sensor, and the light-emitting capsule is triggered to work by receiving visible white light or infrared light irradiation exceeding a brightness threshold, for example, the brightness threshold of the visible white light is 8000LUX (lumen), and a common light source of a mobile phone LED lamp and a flashlight lamp can be adopted for starting. In practical application, the light-emitting capsule can be triggered to work by accurately irradiating the photoelectric control element for more than 3 seconds by adopting a light source with the intensity higher than that of indoor ambient light, and the work can also be started by adopting matched professional illumination equipment. Or the photoelectric control element is a photosensitive diode, and the light-emitting capsule is triggered to work when the visible light/infrared light irradiation exceeding the brightness threshold value is received. Or the photoelectric control element is a photoelectric switch, and the light-emitting capsule is triggered to work after the visible light/infrared light irradiation is received for a certain set time, for example, 5 seconds of continuous irradiation.

The light-emitting element is a medical LED and emits blue light with the wavelength of 440-475 nm, and most preferably 450-465 nm, so that the light-emitting element has the functions of sterilization and inflammation diminishing, because bacteria on the inner wall of the gastrointestinal tract can absorb the light with the wavelength, photolysis kills harmful bacteria and normalizes endocrine, and hundreds of experiments prove that the light-emitting element has a certain treatment effect on gastroenteritis. The medical LED is controlled to emit red light with the wavelength of 625-740 nanometers, and the red light with the wavelength of 640-730 nanometers has the functions of promoting blood circulation and removing blood stasis, because the red light can accelerate microcirculation, increase capillary permeability, accelerate metabolism, repair damaged capillaries, achieve the effects of sterilizing, diminishing inflammation and promoting digestive tract microcirculation, and experiments prove that the medical LED plays a role in promoting the improvement of gastric ulcer.

The medical LED light and the common LED are the most different in that the power and the energy of the medical LED light are larger, so that the treatment effect is achieved. According to different wavelengths of light, capsules can be produced into red light capsules, blue light capsules and other types. As a specific product embodiment, after being started by light irradiation with set intensity, the red light capsule can continuously vibrate for 4 hours after being swallowed, and continuously emit red light with the wavelength of 625-740 nanometers for 4 hours, so that 80% of harmful bacteria can be killed, and the health of the digestive tract can be effectively promoted.

Referring to fig. 2, the disposable light-emitting capsule provided in the second embodiment is an improvement on the first embodiment, and includes a housing 1, in which a positive electrode of a battery 2, a photoelectric control element 3, a light-emitting control circuit 4, a light-emitting element 5, and a negative electrode of the battery 2 are electrically connected in sequence to form a light-emitting circuit. The photoelectric control element 3 triggers the light-emitting capsule to work after receiving set light irradiation, and the shell is completely transparent.

The light emission control circuit 4 controls the light emission wavelength of the light emitting element to continuously illuminate the digestive tract or illuminate the digestive tract at a specific frequency. For example, the blue light with the wavelength of 440-475 nm can be emitted for five minutes and the red light with the wavelength of 625-740 nm can be emitted for six minutes according to the time setting, so as to carry out comprehensive health care treatment on the digestive tract of the user.

As an improved implementation mode, the light-emitting control circuit is arranged on an MCU (microprogrammed control Unit) controller chip, and software can be input during the production of the chip to control the light-emitting capsule to emit light, so that the circuit element integration degree is better, and the size is smaller.

The product adopts an original photoelectric starting mode, reduces electronic control elements, is convenient and easy to use, and does not need additional starting control equipment; in practical application, the light-emitting capsule can be triggered to work by accurately irradiating the photoelectric control element with a light source with a light intensity higher than that of the environment, for example, a mobile phone LED lamp and a common light source of a flashlight lamp are adopted for starting, and the operation is very convenient. The luminous capsule can emit light in the gastrointestinal tract through the medical LED luminous element to promote the health of the digestive tract.

The luminous capsule is very safe to use, adopts the polymer shell meeting the biocompatibility requirement, cannot be dissolved by gastric acid, and has no side effect.

Claims (9)

1. Disposable light-emitting capsule, its characterized in that: the battery comprises a shell, wherein a photoelectric control element and a light-emitting element which are electrically connected with a battery are arranged in the shell; the shell is transparent at a position where one end of the shell is provided with the photoelectric control element, and the photoelectric control element triggers the light-emitting element to work after receiving set light irradiation.

2. The single use lighting capsule of claim 1, wherein: the shell is made of high polymer materials meeting the biocompatibility requirement, and is completely transparent; or partially transparent.

3. The single use lighting capsule of claim 1, wherein: the photoelectric control element is a photosensitive sensor and triggers the luminous vibration capsule to work when receiving visible light/infrared light irradiation exceeding a brightness threshold; or the photoelectric control element is a photosensitive diode and triggers the luminous vibration capsule to work after receiving the visible light/infrared light irradiation exceeding the brightness threshold; or the photoelectric control element is a photoelectric switch and triggers the luminous vibration capsule to work after receiving visible light/infrared light irradiation for a certain set time.

4. The single use lighting capsule of claim 1, wherein: the two ends of the capsule are arc-shaped, the diameter of the capsule is less than or equal to 12 mm, and the length of the capsule is less than or equal to 26.5 mm.

5. The single use lighting capsule of claim 1, wherein: the device also comprises a light-emitting control circuit, wherein one end of the light-emitting control circuit is connected with the photoelectric control element, the other end of the light-emitting control circuit is connected with the light-emitting element, the light-emitting wavelength of the light-emitting element is controlled, and the light-emitting control circuit can continuously illuminate the alimentary canal or illuminate according to a specific frequency.

6. The single use lighting capsule of claim 1, wherein: the light-emitting control circuit is arranged on an MCU controller chip and controls the light-emitting capsule to work.

7. A single-use light-emitting capsule according to claim 1 or 5, wherein: the light-emitting element is an LED element and emits blue light with the wavelength of 440-475 nm; or red light with the wavelength of 625-740 nanometers.

8. The single use lighting capsule of claim 7, wherein: the LED element emits blue light with the wavelength of 450-465 nanometers; or emit red light with the wavelength of 640-730 nanometers.

9. The single use lighting capsule of claim 1, wherein: the shell is integrally formed in one step; or the shell is divided into a front cover body and a rear cover body, and the joint parts of the front cover body and the rear cover body are connected together through medical UV glue.

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