CN213721920U - Probe sleeve for tongue bottom microcirculation probe - Google Patents

Abstract

The utility model discloses a probing pipe sleeve for a tongue bottom microcirculation probe, aiming at the problems that the tongue bottom microcirculation probe is inevitably contacted with human oral secretion when in use to cause unclean and shorten the service life, at least one section of the probing pipe sleeve is bent into a hook-shaped structure, the middle part of the probing pipe sleeve is longitudinally provided with an opening hole to facilitate the longitudinal sheathing of the probing pipe sleeve on the tongue bottom microcirculation probe, and the probing pipe sleeve is also provided with a clamping structure for fixing the tongue bottom microcirculation probe and facilitating the disassembly of the tongue bottom microcirculation probe; the sublingual microcirculation detection device is suitable for a sublingual microcirculation detection body with a hook type sensor structure, when sublingual microcirculation detection is carried out, as long as a detection pipe sleeve is longitudinally sleeved on the sublingual microcirculation detection body, the detection pipe sleeve is positioned and arranged on a tooth body matched with the sublingual tissue pre-detection position through the hook type structure, after sublingual microcirculation detection is finished, the detection pipe sleeve is separated from the sublingual microcirculation detection body, cross infection is avoided when different users use, and the sublingual microcirculation detection device is convenient to operate.

Description

Probe sleeve for tongue bottom microcirculation probe

Technical Field

The utility model belongs to the design field of microcirculation monitoring especially relates to a spy pipe box that is used for tongue bottom microcirculation to survey the body.

Background

Microcirculation refers to the circulation of blood between the oligodynamic and the venules. The most fundamental function of the blood circulation is to perform the exchange of substances between blood and tissues, which is performed in the microcirculation part. In recent years, microcirculation has been considered the ultimate destination of the cardiovascular system responsible for the supply of oxygen to tissues by red blood cell transport, and is considered the primary "responsible" for tissue health because it is a crucial factor affecting tissue oxygen supply. The ultimate goal of fluid therapy is to improve perfusion at the level of microcirculation. Only fluid therapies that improve microcirculation blood flow and cause correction of clinical parameters that reflect hypovolemia (e.g., tachycardia, oliguria, hyperlactacidosis, or low central venous oxygen saturation) will have a positive impact on the patient's condition.

Sublingual microcirculation has been gradually emphasized in clinical application because of its advantages such as convenience at bedside and non-invasiveness. Currently, the microcirculation monitoring means used clinically mainly include orthogonal polarization spectroscopy, lateral flow dark field imaging, laser doppler imaging, near infrared spectroscopy, pulse oximetry monitoring, laser scanning confocal microscopy, and the like. The first generation of Orthogonal Polarization Spectroscopy (OPS) and hand-held electron microscopy opened a new era of microcirculation monitoring by studying microcirculation of exposed tissues and organs of the human body. Second generation lateral flow dark field imaging (SDF) is currently the most widely used means for monitoring microcirculation changes in clinical studies [ Milstein DM, Lindeboom JA, Inc. C. internal digital Stream Data Field (SDF) imaging used in a diagnostic model for continuous diagnosis of pathological changes and quantification of biological diagnosis and regeneration of biological diagnosis and surrounding health: adaptive [ J ] Arch biological, 2010, 55(5): 343-) 349 ]. The third generation is a handheld dark field microscope based on Incident dark field imaging mode (IDF), which is a successor to lateral flow dark field imaging (SDF), with the advantages of improved optical resolution. The SDF optically isolates incident light from reflected light, while the IDF illuminates the entire monitoring area in a hemoglobin absorption dark field manner, so that the IDF provides an advantage of increasing the field area of view.

In practical application, the technical means is integrated in the tongue bottom microcirculation detector, and when the tongue bottom microcirculation detector is used, the detector is placed in the oral cavity of a human body, namely, the bottom of the tongue, so that the detector is inevitably contacted with secretions in the oral cavity of the human body, and the detector is damaged. And one tongue bottom microcirculation detector cannot be discarded after being used once, so in order to keep the detector clean and avoid cross infection caused by the use of multiple people, the tongue bottom microcirculation detector needs to be disinfected and cleaned every time the tongue bottom microcirculation detector is used. Most of tongue bottom detectors are made of electronic products, water cannot enter the tongue bottom detectors, and the tongue bottom detectors can damage the tongue bottom detectors and shorten the service life of the tongue bottom detectors in the past; moreover, the operation of disinfection and cleaning is required to be carried out every time of use, the operation can be carried out under the condition of less patients, the time for a doctor to see a doctor can be prolonged when the patients are more, the fatigue degree of the doctor is increased, and the operation is very inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a probe tube cover for tongue end microcirculation probe body, as disposable article, can conveniently install and dismantle the tongue end microcirculation probe body, both kept the cleanness of the tongue end microcirculation probe body, also prolonged the life of the tongue end microcirculation probe body.

In order to solve the above problem, the technical scheme of the utility model is that:

a probe sleeve for a tongue bottom microcirculation probe is suitable for the tongue bottom microcirculation probe with a hook type sensor structure;

at least one section of the probe sleeve is bent into a hook shape to form a hook type structure, is matched with the hook type sensor structure of the tongue bottom microcirculation probe body, and can be hung on the tooth body of a user; the middle part of the probe pipe sleeve is longitudinally provided with an opening so as to facilitate the probe pipe sleeve to be longitudinally sleeved on the tongue bottom microcirculation probe body, and the probe pipe sleeve is provided with a clamping structure which is used for fixing the tongue bottom microcirculation probe body and facilitating the disassembly of the tongue bottom microcirculation probe body;

when sublingual microcirculation detection is carried out, the detecting tube sleeve is longitudinally sleeved on the tongue bottom microcirculation detecting body and is positioned and arranged on the tooth body matched with the sublingual tissue pre-detection position through the hook type structure.

According to an embodiment of the present invention, the contact portion between the probe sleeve and the tongue of the user is a bionic sublingual rounded surface.

According to the utility model discloses an embodiment, the length of visiting the pipe box and arranging user's oral cavity in is according to the user of difference, sets multiple size specification, the length and the one type of user adaptation of each kind of visiting the pipe box.

According to an embodiment of the present invention, the length of the probe sleeve placed in the oral cavity of the user is 1.5cm, which is suitable for detecting the sublingual microcirculation of the child.

According to an embodiment of the present invention, the length of the probing tube sleeve placed in the oral cavity of the user is 2cm, which is suitable for sublingual microcirculation detection of adult women.

According to an embodiment of the utility model, the length of probe cover placing in user's oral cavity is 2.5cm, is applicable to adult male's sublingual microcirculation and surveys.

The utility model discloses owing to adopt above technical scheme, make it compare with prior art and have following advantage and positive effect:

1) the utility model discloses a probe tube cover for tongue end microcirculation detector in an embodiment, to the problem that tongue end microcirculation detector inevitably contacts with human oral secretion when using and causes unclean and shorten life, form hook-like structure through bending at least one section of probe tube cover and vertically be equipped with the trompil in its middle part to make things convenient for probe tube cover to vertically overlap on tongue end microcirculation detector, and still be provided with the card on the probe tube cover and construct, be used for fixed tongue end microcirculation detector and conveniently dismantle tongue end microcirculation detector; the tongue bottom microcirculation probe is suitable for tongue bottom microcirculation probes with hook type sensor structures, when sublingual microcirculation probe is carried out, the probe sleeve is longitudinally sleeved on the tongue bottom microcirculation probe and is positioned and arranged on teeth adaptive to sublingual tissue pre-detection positions through the hook type structure, and the tongue bottom microcirculation probe can be discarded after being used up, so that the operation is very convenient.

2) The utility model discloses a probe tube cover for tongue end microcirculation probe body in an embodiment, according to the user crowd of difference, has designed the probe tube cover of different specification length, and the part of probing the tube cover and the sublingual contact of user be the design of bionical sublingual mellow and full cambered surface to effectively avoid the tongue end microcirculation probe body to the injury that probably causes under the tongue.

Drawings

Fig. 1 is a schematic view of a tongue bottom microcirculation detecting device according to an embodiment of the present invention;

fig. 2 is a schematic view of a probe sleeve for a tongue bottom microcirculation probe according to an embodiment of the present invention;

fig. 3 is a schematic view of a probe body sleeved with a probe sleeve according to an embodiment of the present invention;

fig. 4 is a schematic view of a plurality of probe sleeves with different lengths according to an embodiment of the present invention.

Description of reference numerals:

10: a sublingual microcirculation probe; 1: a probe sleeve; 101: bionic sublingual rounded cambered surface; 102: a clamping structure; 20: an image processing unit.

Detailed Description

The present invention provides a probe sleeve for sublingual microcirculation probe, which is described in detail below with reference to the accompanying drawings and specific embodiments. The advantages and features of the present invention will become more fully apparent from the following description and appended claims.

Optical fibers play an important role in the fields of medical imaging, sensing, laser therapy, and the like due to their excellent signal transduction capabilities. Among them, the image guidance system using the endoscope is most widely used: according to the total internal reflection of the light at the interface of the fiber core and the cladding, the light is transmitted from the outside to the inside of the body, and the affected part is illuminated; and reflected light on the surface of the tissue is collected by the probe body and is transmitted to a rear processing system through the optical fiber, so that endoscopic imaging is realized. Based on this, as shown in fig. 1, the sublingual microcirculation probe 10 uses optical fibers for optical signal transmission, and separates the probe from the image processing unit 20. During operation, as long as hang the miniature probe body that has the optic fibre with the parcel on user's tooth, ensure that the probe body is fixed under the tongue relatively, and separately set up with the probe body about instruments such as signal image processing to optic fibre is connected, compares handheld monitoring instrument nimble more light.

The utility model discloses to the sublingual microcirculation probe 10 who has couple formula sensor structure in fig. 1, designed a kind of spy pipe box, as shown in fig. 2. The probe sleeve 1 at least comprises a front end part, a middle section part and a rear end part. The portion that can contact the sublingual tissue of the user is defined as the front end portion of the probe cover 1, and the middle section and the rear end portion also have the function of holding by the medical staff. The probe cover 1 is in a hollow tubular shape, and the tubular body can be integrally formed or can be formed by a front end part, a middle section part and a rear end part respectively. The front end part, the middle section part and the rear end part can integrally form a hook-shaped structure, and are hung on the tooth body (such as teeth, gums and the like) of a user when in use and then fixed in position through medical adhesive tapes.

The sublingual microcirculation probe 10 suitable for the probe sleeve in the embodiment needs to have a hook type sensor structure. That is to say, at least one section of the sublingual microcirculation probe 10 is bent into a hook shape to form a hook structure, when sublingual microcirculation probe is used for sublingual microcirculation probe, the front end part of the sublingual microcirculation probe 10 is used for detecting sublingual tissues, and the sublingual microcirculation probe 10 is positioned and arranged on the tooth body matched with the sublingual tissue pre-detection position through the hook structure; the hook part of the hook type structure is a flexible structure, so that the hook width of the hook part can be adjusted to be matched with the tooth body of a user, or the position of the hook part at the position of the detection body can be adjusted to adjust the distance between the front end part of the detection body and the sublingual tissue. The front end of the sublingual microcirculation probe 10 is provided with a microcirculation signal collector, the inside of the sublingual microcirculation probe 10 is provided with an optical fiber, and the optical fiber is optically connected with the microcirculation signal collector and is used for transmitting optical signals. The microcirculation signal collector generally comprises a light source and a light receiving device of an imaging receiving channel.

As shown in fig. 3 and 4, the probe sleeve 1 is sleeved on the sublingual microcirculation probe 10, and the contact part of the probe sleeve 1 and the sublingual of the user is in a bionic sublingual round-arc shape, so that the possible damage of the sublingual microcirculation probe 10 to the sublingual is effectively avoided.

The shape of the probe sleeve 1 is matched with the hook type sensor structure of the sublingual microcirculation probe body 10, the middle part of the probe sleeve is longitudinally provided with an opening so as to facilitate the longitudinal sleeving of the probe sleeve 1 on the sublingual microcirculation probe body 10, and the probe sleeve 1 is also provided with a clamping structure 102 which is used for fixing the sublingual microcirculation probe body 10 and facilitating the detachment of the sublingual microcirculation probe body 10. A user is provided with a probe sleeve, when in use, the probe sleeve is sleeved on the sublingual microcirculation probe body 10, and after the probe sleeve is used up, the probe sleeve 1 is separated from the sublingual microcirculation probe body 10, so that cross infection is avoided when different users use the probe sleeve.

In the embodiment, the probe sleeves 1 with different specifications and lengths are designed according to different user groups, as shown in fig. 4. The length of the front end part of the probe sleeve 1 is 1.5cm, so that the probe sleeve is suitable for sublingual microcirculation detection of children; the length of the front end part of the probe sleeve 1 is 2cm, so that the probe sleeve is suitable for sublingual microcirculation detection of adult women; the length of the front end part of the probe sleeve 1 is 2.5cm, and the probe sleeve is suitable for sublingual microcirculation detection of adult men.

In the embodiment, the probe sleeve for the tongue bottom microcirculation probe body aims at the problems that the tongue bottom microcirculation probe inevitably contacts with oral secretion of a human body when in use, so that the tongue bottom microcirculation probe is dirty and the service life is shortened, at least one section of the probe sleeve is bent into a hook-shaped structure, the middle part of the probe sleeve is longitudinally provided with an opening, so that the probe sleeve is conveniently and longitudinally sleeved on the tongue bottom microcirculation probe body, and the probe sleeve is also provided with a clamping structure for fixing the tongue bottom microcirculation probe body and conveniently disassembling the tongue bottom microcirculation probe body; the sublingual microcirculation detection device is suitable for a sublingual microcirculation detection body with a hook type sensor structure, when sublingual microcirculation detection is carried out, as long as a detection pipe sleeve is longitudinally sleeved on the sublingual microcirculation detection body and is positioned and arranged on a tooth body matched with the sublingual tissue pre-detection position through the hook type structure, after sublingual microcirculation detection is finished, the detection pipe sleeve is separated from the sublingual microcirculation detection body, cross infection is avoided when different users use the sublingual microcirculation detection device, and the sublingual microcirculation detection device is very convenient to operate.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments. Even if various changes are made to the present invention, the changes are still within the scope of the present invention if they fall within the scope of the claims and their equivalents.

Claims (6)

1. A probe sleeve for a tongue bottom microcirculation probe body is characterized in that the probe sleeve is suitable for the tongue bottom microcirculation probe body with a hook type sensor structure;

at least one section of the probe sleeve is bent into a hook shape to form a hook type structure, is matched with the hook type sensor structure of the tongue bottom microcirculation probe body, and can be hung on the tooth body of a user; the middle part of the probe pipe sleeve is longitudinally provided with an opening so as to facilitate the probe pipe sleeve to be longitudinally sleeved on the tongue bottom microcirculation probe body, and the probe pipe sleeve is provided with a clamping structure which is used for fixing the tongue bottom microcirculation probe body and facilitating the disassembly of the tongue bottom microcirculation probe body;

when sublingual microcirculation detection is carried out, the detecting tube sleeve is longitudinally sleeved on the tongue bottom microcirculation detecting body and is positioned and arranged on the tooth body matched with the sublingual tissue pre-detection position through the hook type structure.

2. The probe cover for the sublingual microcirculation probe of claim 1, wherein the contact part of the probe cover and the sublingual of a user is in a bionic sublingual rounded cambered surface shape.

3. The probe sheath for a sublingual microcirculation probe of claim 2, wherein the length of the probe sheath in the oral cavity of a user is set to various sizes according to different users, and the length of each probe sheath is adapted to one type of user.

4. The probe cover for a sublingual microcirculation probe of claim 3, wherein the probe cover is 1.5cm long in the mouth of a user and is suitable for sublingual microcirculation probe of children.

5. The probe cover for the sublingual microcirculation probe of claim 3, wherein the probe cover is 2cm long in the mouth of the user and is suitable for sublingual microcirculation probe for adult women.

6. The probe cover for the sublingual microcirculation probe of claim 3, wherein the probe cover is 2.5cm long in the mouth of a user and is suitable for sublingual microcirculation detection by adult men.

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