CN114646404A

CN114646404A - Temperature measurement clothes based on temperature change material

Info

Publication number: CN114646404A
Application number: CN202210265333.1A
Authority: CN
Inventors: 向东; 向奥凌; 熊友英; 向升
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-17
Filing date: 2022-03-17
Publication date: 2022-06-21

Abstract

The invention discloses temperature measurement clothes based on a temperature change material, which comprises: the probe module is internally provided with a dyeing tube, a dyeing lens is arranged in the dyeing tube, and a temperature change material is sprayed on the dyeing lens; the light shows the box, install into light lens, it gathers the one end that the light entered light fiber with outside natural light to enter light lens, it inputs the dye tube of probe module and gives off with light to enter light fiber, light gets into the one end of returning light fiber after the colour dyeing of dye tube inner wall, returning light fiber carries the light of dyeing to returning light lens department and gives off to shine the reflection of light box, the reflection of light box outwards reflects light, then can judge the contrast condition of current body temperature and default through observing the light colour in the reflection of light box. The invention uses the light inlet lens and the light inlet optical fiber to lead light into the dyeing tube, the temperature change coating in the dyeing tube changes color to dye the light and then input the light back into the light return optical fiber, finally the light is emitted in the light reflection inner cavity, and the current approximate body temperature can be judged by using the color of the light.

Description

Temperature measurement clothes based on temperature change material

Technical Field

The invention relates to a body temperature detection technology and clothes, in particular to temperature measurement clothes based on a temperature change material.

Background

In some special use environments, the operator needs to monitor the body temperature of the operator, such as a low-temperature environment, an infected environment, long outdoor travel, outdoor survival, daily self-monitoring, and the like. At present, thermometers such as mercury thermometers, electronic thermometers and infrared thermometers are mainly adopted for monitoring body temperature, the thermometers need to be additionally carried, continuous monitoring cannot be carried out within at least a period of time, and the thermometers are inconvenient to carry, easy to lose, relatively troublesome to use and the like.

For this, the applicant designs a temperature measurement garment based on a temperature change material, which can feed back body temperature through the temperature change material.

Disclosure of Invention

In view of the above-mentioned defects of the prior art, the technical problem to be solved by the present invention is to provide a temperature measurement garment based on a temperature change material.

In order to achieve the purpose, the invention provides temperature measurement clothes based on a temperature change material, which comprises:

the probe module is internally provided with a dyeing tube, a dyeing lens is arranged in the dyeing tube, and temperature change materials are sprayed on the dyeing lens and the inner wall of the dyeing tube;

the light display box is provided with a light inlet lens, a light inlet optical fiber, a light return lens and a light reflection box, wherein the light inlet lens collects external natural light and enters one end of the light inlet optical fiber, the light inlet optical fiber inputs the light into a dyeing tube of the probe module and distributes the light, the light enters one end of the light return optical fiber after being dyed by the color of the inner wall of the dyeing tube, the light which is dyed is conveyed to the light return lens by the light return optical fiber to be distributed so as to irradiate the light reflection box, the light is reflected outwards by the light reflection box, and then the contrast condition of the current body temperature preset value and the current body temperature preset value can be judged by observing the color of the light in the light reflection box.

As a further improvement of the invention, the probe module comprises a probe shell, a dyeing tube is arranged in the probe shell, a hollow dyeing cavity is arranged in the dyeing tube, the inner wall of the dyeing cavity is a mirror surface and is provided with a temperature change coating, the temperature change coating is sprayed by a temperature change material, and the temperature change coating generates color change in a preset temperature interval;

the two ends of the light dyeing cavity are respectively provided with a light inlet joint, an astigmatic lens and a condenser lens, the light inlet joint is positioned at the focus of the astigmatic lens, and the light inlet joint is communicated with a light inlet optical fiber;

the middle part of the dyeing cavity is provided with a dyeing lens, two end surfaces of the dyeing lens are respectively sprayed with a temperature change coating, and the temperature change coating on the surface of the dyeing lens is in a semitransparent state; the condensing lens is used for focusing light rays in the dyeing cavity to the first light returning joint, and the first light returning joint is connected with the second light returning joint through a connecting optical fiber so as to transmit the light rays to the second light returning joint;

the probe shell is internally provided with a probe which is used for acquiring a body temperature electrical signal; the signal end of the probe is electrically connected with the power connection socket, the power connection socket is electrically connected with the power connection plug in a plugging mode, and the power connection plug is electrically connected with the lead, so that the electric signal of the probe is input into the movable connector.

As a further improvement of the present invention, the second return optical connector is communicated with a return optical plug, and the return optical plug is communicated with a return optical fiber, so that the second return optical connector is introduced into the return optical plug, and then the light is transmitted to the return optical fiber through the return optical plug;

the light inlet connector, the light return plug and the electric connection plug are all arranged on the connecting seat, the connecting seat and the probe shell are assembled in a sealing mode, and the light inlet optical fiber, the light return optical fiber and the conducting wire form a comprehensive optical cable;

the probe shell is also provided with a connecting part, a sealing ring groove, a clamping protrusion, a clamping groove and a sealing end face are respectively arranged on the connecting part, a sealing ring is arranged in the sealing ring groove, the clamping protrusion is clamped and assembled with the clamping groove, the clamping groove is clamped and assembled with the clamping head, and the sealing end face and the sealing gasket are tightly pressed to seal the inner wall of the connecting seat and the sealing end face;

the clamping groove is arranged in the connecting seat, a clamping cavity and a display hole are respectively arranged in the connecting seat, the clamping head is arranged on the clamping buckle, the clamping buckle has elasticity and is arranged in the clamping cavity, and the clamping head is kept to be clamped and assembled with the clamping groove under the elasticity of the clamping buckle, so that the connecting seat and the probe shell are clamped and fixed;

the sealing ring is sealed with the inner wall of the connecting seat in an extruding way, and the display hole is communicated with the buckle cavity and is separated by the sealing gasket; install the display block in the display hole, the display block adopts to meet water and discolour the preparation or the spraying has and meets water and discolour, still install magnifying glass, sealing plug in the display hole, magnifying glass, sealing plug are transparent state, and the sealing plug is sealed the display hole, and magnifying of magnifying glass with display block department so that observe.

As a further improvement of the invention, the light display box comprises a light display box body, a hollow light display cavity with an opening on the top surface is arranged in the light display box body, the opening on the top of the light display cavity is sealed by a light display cover plate, the light display cover plate is in a transparent state, and a light inlet lens is arranged on the light display cover plate; the light inlet lens focuses light on one end of the light inlet optical fiber, so that the light is input into the light inlet optical fiber, and the light inlet optical fiber inputs the light into the dyeing tube of the probe module through the plug and the comprehensive optical cable; light output by the dyeing tube is input into a light returning lens through a light returning optical fiber, and the light returning lens is arranged in the lamp tube; the light ray sent by the light returning optical fiber is diffused by the light returning lens and then is irradiated into the lamp tube; the inner wall of the lamp tube is a mirror surface, and one end of the lamp tube facing the reflecting inner cavity is provided with an opening, so that light rays emitted by the light returning lens can be reflected to the reflecting inner cavity from the opening of the lamp tube to irradiate the reflecting inner cavity; the reflecting inner cavity is arranged in the reflecting box, and the reflecting box is arranged in the light display cavity.

As a further improvement of the invention, a reflective film is arranged at the opening of the reflective inner cavity, the reflective film reflects light rays irradiated from the light display cover plate to the reflective inner cavity, and the light rays in the reflective inner cavity can penetrate out of the reflective film so as to be convenient for an operator to observe; the interior of the reflective inner cavity is a reflective mirror surface, the bottom of the reflective inner cavity is adhered with a display film, and color patterns which are similar to the color of the output light of the dyeing tube before and after color change and in the middle are printed on the display film.

As a further improvement of the invention, the light display box body is provided with an inserting strip which is inserted and clamped with an inserting groove on the screen display box for assembly; the light display box body is provided with two through grooves; the two through grooves can be sealed in an opening and closing manner through sealing doors on the two joint mechanisms respectively; the two through grooves are respectively opposite to the locking groove and the fixed joint on the screen display box;

the joint mechanism comprises a sealing door, and a sealing sheet is fixed on the end face of one end of the sealing door facing the through groove; the sealing door is further provided with door connecting plates, the door connecting plates of the two joint mechanisms are respectively connected with two ends of a pull rope, the pull rope penetrates through a shaft groove and can be assembled with the shaft groove in a sliding mode, two ends of the shaft groove respectively penetrate through a gear shaft, the gear shaft and a gear shaft plate can be assembled in a circumferential rotating mode, the gear shaft plate is installed in a light display cavity, a pull rope gear is sleeved on the gear shaft and is in meshing transmission with a pull rope rack, the pull rope rack is clamped with a pull rope rack seat and can be assembled in a sliding mode, and the pull rope rack seat is installed on the gear shaft plate;

the gear shaft plate is also provided with two fixed shaft blocks which are respectively clamped with different door sliding shafts and can be assembled in an axial sliding manner, the two door sliding shafts are also respectively provided with a first push block and a second push block, and a part of one door sliding shaft, which is positioned between the first push block and the fixed shaft block assembled with the first push block, is sleeved with a first damping spring; the other door sliding shaft is sleeved with another first damping spring at the part between the second pushing block and the fixed shaft block assembled with the second pushing block; the first push block and the second push block are respectively pressed with the corresponding door connecting plate and can be assembled in a sliding manner; the second push block is assembled and fixed with the pull rope rack.

As a further improvement of the invention, the door connecting plate is also provided with a spring pin, the spring pin is assembled with one end of a tension spring, the other end of the tension spring is assembled with one end of a linkage pull rope, the other end of the linkage pull rope is assembled with a linkage push plate after bypassing a guide wheel, the guide wheel is sleeved on a guide wheel shaft in a circumferential rotation manner, the guide wheel shaft is arranged on a wheel shaft plate, two ends of the wheel shaft plate are respectively assembled and fixed with the inner wall of the light display cavity and a support plate, and the support plate is fixed in the light display cavity;

a matching shaft plate is arranged outside one side of the through groove, which is far away from the gear shaft plate, the matching shaft plate is fixed in the light display cavity, the matching shaft plate and the support plate are respectively assembled with two ends of the linkage guide shaft, the linkage push plate is sleeved on the linkage guide shaft in an axially slidable manner, and a second damping spring is sleeved on the part, located between the linkage push plate and the matching shaft plate, of the linkage guide shaft;

but linkage push pedal still with linkage pipe axial sliding assembly, linkage pipe one end and plug connector assembly, and the linkage pipe is equipped with third damping spring on the part that is located between plug connector and the linkage push pedal.

As a further improvement of the invention, the joint mechanism corresponding to the locking groove is a locking block joint mechanism, and the joint mechanism corresponding to the fixed joint is a joint block joint mechanism; the plug connector of the locking block joint mechanism is a locking block, the plug connector of the joint block joint mechanism is a joint block, a magnetic suction block is further mounted on the sealing door of the joint block joint mechanism, the magnetic suction block can be adsorbed with a magnet, and the magnetic suction block can be driven to move through an external magnetic field;

a joint sliding groove is arranged in the joint block, a movable joint is clamped in the joint sliding groove and is slidably mounted, the movable joint is electrically connected with one end of a lead, and the other end of the lead is electrically connected with the probe through a plug-in joint; the movable joint is fixed with the linkage pipe, the linkage pipe and the joint block can be assembled in an axial sliding mode, and a lead penetrates through the linkage pipe and is electrically connected with the movable joint; the linkage pipe corresponding to the joint block joint mechanism and the linkage push plate corresponding to the movable joint cannot be assembled in an axially movable mode; the linkage pipe corresponding to the lock block joint mechanism and the linkage push plate corresponding to the lock block can be assembled in an axial sliding mode.

As a further improvement of the invention, the screen display box further comprises a screen display box body, the screen display box body is divided into two independent magnetic lock cavities and an electric cavity by a partition plate, the tops of the magnetic lock cavities and the electric cavity are opened and are respectively sealed by a magnetic lock cover and an electric cover, and an elastic film is arranged on the magnetic lock cover and has elasticity;

the touch screen is arranged on the electrical cover, the circuit board, the battery and the fixed joint are respectively arranged in the electrical cavity, and the battery is used for supplying power to each electric device; the fixed joint is electrically connected with the movable joint so as to be electrically connected with the probe and supplies power to the probe through the fixed joint to obtain an electric signal of the probe;

the circuit board is respectively provided with a temperature measuring circuit, an MCU, a flash memory and a power switch, the temperature measuring circuit is used for acquiring an electric signal of the probe, converting the electric signal into a digital signal after processing the electric signal and inputting the digital signal into the MCU, and the MCU processes a corresponding signal according to a built-in program and then displays a body temperature value corresponding to the digital signal on the touch screen so as to be convenient for an operator to observe; the touch screen can display pictures or input instructions to the MCU through touch; the power switch is used for controlling the on-off of the current output by the battery and inputting a wake-up instruction to the MCU;

the flash memory is in communication connection with the MCU, the temperature measuring circuit is in communication connection with the fixed joint, and the fixed joint is also electrically connected with the battery; the screen display box body is also provided with an inserting groove and a locking groove, and the locking groove and the locking block are clamped and assembled.

As a further improvement of the invention, a magnetic lock mechanism is arranged in the magnetic lock cavity, the magnetic lock mechanism comprises a magnetic insulation shell, a first magnet block and a rotating seat are respectively arranged in the magnetic insulation shell, a second magnet block is arranged on the rotating seat, the magnetic insulation shell is made of a material capable of isolating magnetism, one end of the magnetic insulation shell is opened, and the opening end of the magnetic insulation shell is sealed by a soft iron block; the first magnet block and the second magnet block are both magnetic, and the soft iron block is made of soft iron;

two ends of the second magnet block are respectively provided with a magnet rotating shaft, the two magnet rotating shafts are respectively assembled with the magnetic insulation shell in a circumferential rotating mode, and one magnet rotating shaft penetrates out of the magnetic insulation shell and then is assembled and fixed with the first friction ring; the end face of the first friction ring is tightly pressed with the end face of the second friction ring, and transmission is realized through friction force;

the second friction ring is arranged on the rotating assembly, and the rotating assembly is used for driving the second friction ring to rotate circumferentially; the two rotating assemblies respectively correspond to the positions of the first friction ring when the sealing door is closed and the sealing door is completely opened, so that the first friction ring is respectively in friction pressing transmission with the corresponding second friction when positioned at two preset displacement points;

the rotating assembly further comprises a friction shaft, one end of the friction shaft is assembled with the second friction ring, the other end of the friction shaft is assembled with a sliding ring, the sliding ring is arranged in the transmission sleeve and can axially slide and be assembled with the transmission sleeve in a non-circumferential rotating mode, the bottom of the transmission sleeve can circumferentially rotate and is assembled with the shaft sleeve in a non-axial moving mode, and the shaft sleeve is arranged on the bottom surface of the magnetic lock cavity;

the transmission sleeves of the two rotating assemblies are connected through a belt to form a belt transmission mechanism, one transmission sleeve is sleeved with a rotating gear, the rotating gear is in meshing transmission with a latch on a rotating rack, the rotating rack is clamped with a rack seat and can be assembled in a sliding mode, and the rack seat is installed on the bottom surface of the magnetic lock cavity; one end of the rotary rack penetrates out of the screen display box body and is assembled with the pull block, and the rotary rack is assembled with the side wall of the screen display box body in a sliding mode.

The invention has the beneficial effects that:

1. the invention uses the light-entering lens and the light-entering optical fiber to lead light into the dyeing tube, and the light is input into the light-returning optical fiber after being dyed by the dyeing lens in the dyeing tube, and finally the light is diffused in the light-reflecting inner cavity or irradiated on the display film. The color of the dyed lens changes within a preset temperature value range, so that the approximate body temperature can be judged according to the colored light of the reflective inner cavity. The whole process does not need power consumption, and is very suitable for long-time outdoor operation and severe operation environment. The temperature can be accurately detected by the probe after the probe and the screen display box are additionally arranged, so that the body temperature is further monitored, the detection of thickness combination is realized, the battery endurance time can be greatly improved on one hand, and the actual requirements of a wearer can be met on the other hand.

2. The magnetic lock mechanism of the invention determines whether to be tightly absorbed with the magnetic block by utilizing whether the magnetic field between the first magnet block and the second magnet block is outwards diffused, thereby driving the sealing door to move. The non-contact design can greatly improve the sealing performance of the light display box and simplify the structure, so that the light display box can be washed along with clothes.

3. The joint mechanism can realize the automatic opening and closing of the sealing door and the linkage of the plug connector when the sealing door is opened and closed by the driving of the magnetic lock mechanism, thereby greatly facilitating the opening and closing of the channel and the disassembly and assembly of the screen display box.

4. The probe module realizes the color change of the dyeing lens through the body temperature, and dyes the projected light by using the dyeing lens, so that the approximate body temperature can be directly judged through the color of the output light, the use is very convenient, and the detection result is not influenced by the state of limbs. In addition, the probe module can be combined with the probe to detect the electric signal of the body temperature, so that the detection precision is greatly improved.

Drawings

Fig. 1 is a schematic block diagram of the present invention.

Fig. 2-6 are schematic structural diagrams of the light display box and the screen display box.

Fig. 7 to 11 are schematic structural views of the magnetic lock mechanism, in which fig. 8 is a sectional view of the second magnet block B252 at the end face, and fig. 11 is a sectional view of the friction shaft B730 at the center face where the axis is located.

FIGS. 12-13 are schematic views of the structure of the light display box.

FIGS. 14 to 15 are schematic views showing the internal structure of the light display box.

Fig. 16 is a partial structural view of the joint block joint mechanism a 300-2.

Fig. 17 to 20 are schematic structural views of the lock block joint mechanism a300-1, in which fig. 19 is a sectional view at a central plane where an axis of the link guide shaft a430 is located.

Fig. 21 is a sectional view of the joint block joint mechanism a300-2 at the center plane of the axis of the interlocking guide shaft a 430.

Fig. 22-24 are schematic structural views of the probe module. Wherein FIG. 23 is an enlarged view at F1 in FIG. 22; with an enlarged view at F2 in fig. 24 and 22.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1, a temperature measurement garment based on temperature change material comprises:

the probe module C is internally provided with a dyeing tube, the inner wall of the dyeing tube is coated with a temperature change material, and the probe module is arranged at the core body temperature of a human body, such as the positions of armpits, the front part of the chest, the abdomen, the arms and the like. In this embodiment, the temperature change material completes color change at 38 ℃, is red when the temperature is lower than 38 ℃ and is yellow when the temperature is higher than 38 ℃, and the temperature range of the color change is 2-4 ℃, namely, a range of the color change gradually from red to yellow is formed at about 38 ℃.

The light display box A is provided with a light inlet lens, a light inlet optical fiber, a light return lens and a light reflection box, wherein the light inlet lens collects external natural light into one end of the light inlet optical fiber, the light inlet optical fiber inputs the light into a dyeing tube of the probe module and distributes the light, the light enters one end of the light return optical fiber after being dyed by the color of the inner wall of the dyeing tube, the light return optical fiber conveys the dyed light to the light return lens to be distributed so as to irradiate the light reflection box, the light is reflected outwards by the light reflection box, and then the current body temperature can be roughly judged to be lower than 38 ℃ or higher than 38 ℃ or about 38 ℃ by observing the color of the light in the light reflection box. Certainly, the thermochromic powder or the thermochromic paint which changes from red to colorless at 38 ℃ can also be selected, so that the light output by the return optical fiber can change from red to colorless when the optical fiber is used.

Because a certain error exists in a temperature sensing and color changing mode, accurate detection of body temperature cannot be realized, and therefore, a screen display box B can be additionally arranged in the probe module, the probe is a probe of a temperature sensor or a probe of an existing thermometer, a temperature measuring circuit and a touch screen are installed in the screen display box, the temperature measuring circuit acquires an electric signal detected by the probe and then inputs the electric signal to the touch screen for display, so that the body temperature can be accurately detected, and the current body temperature can be known through the touch screen.

Referring to fig. 1 to 11, the screen display box B includes a screen display box body B110, the inside of the screen display box body B110 is divided into two independent magnetic lock cavities B112 and an electric cavity B111 by a partition B113, top openings of the magnetic lock cavities B112 and the electric cavity B111 are sealed by a magnetic lock cover B120 and an electric cover B130, respectively, an elastic film B121 is installed on the magnetic lock cover B120, and the elastic film B121 has elasticity. The touch screen B210 is mounted on the electrical cover B130, a circuit board B220, a battery B230 and a fixed joint B240 are respectively mounted in the electrical cavity B111, and the battery B230 is used for supplying power to each electric device; the fixed joint B240 is used for being electrically connected with the movable joint A210 so as to be electrically connected with the probe, and power is supplied to the probe through the fixed joint B240 to obtain an electric signal of the probe.

The circuit board B220 is provided with a temperature measurement circuit, an MCU, a flash memory, and a power switch (the capacitive touch switch is arranged in the touch screen, and therefore is not shown), the temperature measurement circuit is used to obtain the electrical signal of the probe, process the electrical signal and convert the processed electrical signal into a digital signal to be input into the MCU, and the MCU processes the corresponding signal according to a built-in program and then displays the body temperature value corresponding to the digital signal on the touch screen for the operator to observe. The touch screen can display a picture or input an instruction to the MCU by touch. The power switch is used for controlling the on-off of the current output by the battery and inputting a wake-up instruction to the MCU, and the power switch can be arranged on the screen display box body B110. During the use, can realize according to switch that the battery just also realizes the switching on and shutting down to the break-make of external current, and press switch for a short time and can input awakening signal to MCU to awaken MCU and carry out body temperature detection, when not awakening MCU, MCU is in the dormant state of low-power consumption. The temperature measuring circuit selects a corresponding circuit part of the existing temperature sensor or a corresponding circuit part of the existing electronic thermometer. The flash memory is in communication connection with the MCU, so that the MCU can read and write data into the flash memory. The temperature measuring circuit is in communication connection with a fixed joint B240, and the fixed joint B240 is also electrically connected with a battery. When the temperature measuring device is used, a probe signal of the probe module can be input into the temperature measuring circuit through the fixed connector B240, and when the temperature measuring device is charged, the charger can charge the battery B230 through the fixed connector B240.

The screen display box body B110 is further provided with an inserting groove B114 and a locking groove B115, and the locking groove B115 is clamped and assembled with the locking block A310, so that the screen display box body B110 is fixed on the light display box A. The magnetic lock cavity B112 is provided with a magnetic lock mechanism B300, the magnetic lock mechanism B300 comprises a magnetic insulation shell B310, a first magnet block B251 and a rotating base B320 are respectively arranged in the magnetic insulation shell B310, a second magnet block B252 is arranged on the rotating base B320, the magnetic insulation shell B310 is made of a material capable of isolating magnetism, one end of the magnetic insulation shell B310 facing the optical display box A is opened, and the opening end is sealed through a soft iron block B330. The first magnet block B251 and the second magnet block B252 are both magnetic, in this embodiment, the first magnet block B251 and the second magnet block B252 are made of magnets, and the soft iron block B330 is made of soft iron. In an initial state, the opposite polarities of the first magnet block B251 and the second magnet block B252 are opposite to each other, so that the magnetic fields of the first magnet block B251 and the second magnet block B252 are not emitted outwards, and when the second magnet block B252 rotates 180 degrees so that the same poles of the first magnet block B251 and the second magnet block B252 are opposite to each other, the first magnet block B251 and the second magnet block B252 emit the magnetic fields outwards and fast magnetize the soft iron blocks, so that the magnetic attraction blocks are attracted by magnetic force to drive the sealing door to move or the magnetic attraction blocks to move.

Two ends of the second magnet block B252 are respectively provided with a magnet rotating shaft B2521, the two magnet rotating shafts B2521 are respectively assembled with the magnetism insulating housing B310 in a circumferential rotating manner, and one of the magnet rotating shafts B2521 penetrates out of the magnetism insulating housing B310 and then is assembled and fixed with the first friction ring B710; the end face of the first friction ring B710 is pressed against the end face of the second friction ring B720 and transmission is realized through friction force, and at the moment, the first friction ring B710 can be driven to rotate by rotating the second friction ring B720, so that the second magnet block B252 is driven to rotate.

The second friction rings B720 are arranged on the rotating assembly, and the rotating assembly has two positions which respectively correspond to the positions of the first friction ring B710 when the sealing door is closed and the sealing door is completely opened, so that the first friction ring B710 respectively presses and drives the corresponding second friction ring B720 when the two displacement points of the first friction ring B710 are respectively. The rotating assembly further comprises a friction shaft B730, one end of the friction shaft B730 is assembled with a second friction ring B720, the other end of the friction shaft B730 is assembled with a sliding ring B731, the sliding ring B731 is arranged in a transmission sleeve B740 and can be axially slidably and non-rotatably assembled with the transmission sleeve B731, the bottom of the transmission sleeve B740 is assembled with a shaft sleeve B750 in a circumferential rotating and non-axially movable mode, and the shaft sleeve B750 is installed on the bottom surface of the magnetic lock cavity B112. A fourth spring B640 is further installed inside the driving sleeve B740 and between the bottom surface of the magnetic lock cavity B112 and the slip ring B731, the fourth spring B640 is used for applying an upward pushing elastic force to the friction shaft B730, so that the second friction ring B720 is kept pressed against the first friction ring B710, and after the first friction ring B710 moves out of one of the second friction rings B720, the other second friction ring B720 can be gradually pressed until the end surface of the other second friction ring B720 presses against the cross section of the first friction ring B710 for transmission. And the magnetism insulating case B310 can be moved down by compressing the fourth spring B640 when the magnetism insulating case B310 is moved down.

The transmission sleeves B740 of the two rotating assemblies are connected through a belt B440 to form a belt transmission mechanism, one transmission sleeve B740 is sleeved with a rotating gear B430, the rotating gear B430 is in meshing transmission with a latch on a rotating rack B420, the rotating rack B420 is in clamping fit with a rack seat B390 and can be assembled in a sliding mode, and the rack seat B390 is installed on the bottom surface of the magnetic lock cavity B112; one end of the rotating rack B420 penetrates out of the screen display box body B110 and then is assembled with the pull block B421, and the rotating rack B420 is clamped, sealed and assembled with the side wall of the screen display box body B110 in a sliding manner. When the magnetic iron is used, the rotating gear B430 can be driven to rotate by pushing and pulling the rotating rack B420, the rotating gear B430 drives the transmission sleeves B740 assembled with the rotating gear B to rotate, the two transmission sleeves B740 synchronously rotate through a belt, the transmission sleeves B740 respectively drive the corresponding second friction rings B720 to synchronously rotate, and the second friction rings B720 tightly pressed with the first friction rings B710 drive the second magnet blocks to rotate for 180 degrees. In this embodiment, when the first magnet block and the second magnet block need to release magnetism outwards, the rotating rack B420 is pulled outwards by the pulling block B421, so that the second magnet block rotates 180 degrees, and at this time, the first magnet block and the second magnet block attract the magnetic blocks tightly by magnetic force; and then the magnetic insulation shell B310 is moved, so that the first magnet block and the second magnet block are tightly attracted through magnetic force and move by carrying the magnetic attraction block, and the sealing door is driven to move and open. After the sealing door moves in place, the rotating rack B420 is pushed inwards, the second magnet block is enabled to rotate reversely by 180 degrees, and the first magnet block and the second magnet block are restored to the state that the magnetic field is not emitted outwards.

The magnetism insulation shell B310 is clamped with the magnetic lock cavity B112 and can be assembled in a sliding mode, the bottom surface of the magnetism insulation shell B310 is attached to the bottom support plate B370 and can be assembled in a sliding mode, a second spring B620 is installed between the bottom support plate B370 and the bottom surface of the magnetic lock cavity B112, the second spring B620 exerts elastic force on the bottom support plate B370 to press the magnetism insulation shell B310, and when the magnetism insulation shell B310 presses downwards, the second spring B can overcome the elastic force of the second spring to move downwards, so that the corresponding magnetic attraction blocks are driven to move downwards.

Preferably, the magnetism-insulating shell B310 is further provided with a cable block B350 and a reset block B360, the cable block B350 is fixedly assembled with one end of a cable B410, the other end of the cable B410 bypasses a guide wheel B412, penetrates through the screen display box body B110 and is assembled with a pull ring B411, and the cable B410 and the screen display box body B110 are hermetically assembled in a pulling manner; the guide wheel B412 is sleeved on the guide wheel shaft B510 in a circumferential rotating mode, the guide wheel shaft B510 is installed on the shaft sliding plate B340, the shaft sliding plate B340 is clamped with the magnetic lock cavity B112 and is assembled in a sliding mode, a third spring B630 is installed between the shaft sliding plate B340 and the bottom face of the magnetic lock cavity B112, and the third spring B630 is used for applying elastic force to push the shaft sliding plate B340 to the magnetic insulation shell B310, so that the cable block B350 and the shaft sliding plate B340 are kept pressed tightly. When the magnetism insulating shell B310 needs to be moved, the pull ring B411 pulls the pull rope B410 outwards, and the pull rope B410 drives the magnetism insulating shell B310 to move towards the partition plate B113.

The reset block B360 is attached to the end face of the reset end block B380, the reset end block B380 is installed at one end of a guide shaft B521, the other end of the guide shaft B521 is installed in a guide tube B522 and can axially slide with the guide tube B522, the guide tube B522 is installed on the partition plate B113, a first spring B610 is installed between the reset end block B380 and the partition plate B113, and the first spring B610 is used for applying elastic force to the reset end block B380, wherein the elastic force is far away from the partition plate B113. Therefore, the reset block B360 and the magnetic-insulation shell B310 are kept in initial states, the soft iron block B330 is right opposite to the magnetic block at the moment, and the through groove A111 is sealed by the sealing door. When the sealing door needs to be opened, the second magnet block B252 rotates 180 degrees, so that the first magnet block and the second magnet block tightly attract the magnetic attraction block through magnetic force, then the inhaul cable is pulled, the magnetic insulation shell B310 moves towards the partition plate, and the first magnet block and the second magnet block drive the magnetic attraction block and the sealing door to synchronously move through the magnetic force until the sealing door is opened in place. At the moment, the first magnet block, the second magnet block and the magnetic block are tightly attracted through magnetic force, so that the magnetic insulation shell cannot move and reset at once. The rotating rack B410 is pushed inwards to reset, so that the second magnet block is reset by rotating 180 degrees, the first magnet block and the second magnet block do not emit magnetic fields outwards, and the magnetic insulation shell B310 is pushed to move reversely to reset under the action of the elastic force of the first spring B610. The mode is very simple, and in the initial state, the whole screen display box has no longer parts to stretch out, so the normal use is not influenced. When the sealing door needs to be recovered to seal the through groove A111, the second magnet block is driven to rotate 180 degrees, and then the magnetic insulation shell is moved to be opposite to and tightly attracted with the magnetic suction block when the sealing door is in an open state; and then the magnetism insulation shell is pressed downwards through the elastic membrane B121, so that the first magnet block and the second magnet block drive the magnetic attraction block to move downwards to release the locking of the second damping block, then the inhaul cable is released, the magnetism insulation shell and the magnetic attraction block move reversely to reset, and finally the rotating rack is pushed inwards, so that the second magnet block rotates 180 degrees reversely. The non-contact drive design can greatly improve the sealing performance of the light display box and simplify the structure, thereby reducing the weight of the light display box and enabling the light display box to be used for a long time without increasing obvious burden on a wearer. And the design of can dismantling soon of screen display box B, on the one hand be convenient for screen display box B charge, maintain, change, on the other hand when washing clothes, dismantle screen display box B, can avoid screen display box B to intake to cause screen display box B to damage when preventing to wash. The gaps of the light display box except the through groove A11 can be sealed by resin or glue, and the through groove is sealed by a sealing door, so that water can hardly enter in the direct washing, and great convenience is brought to a user for directly washing.

Referring to fig. 2-6 and 12-21, the light display box a includes a light display box body a110, a hollow light display cavity a113 with an open top is disposed inside the light display box body a110, an opening at the top of the light display cavity a113 is sealed by a light display cover plate a130, the light display cover plate a130 is in a transparent state, and a light inlet lens a230 is mounted on the light display cover plate a 130; the light inlet lens A230 focuses light on one end of the light inlet optical fiber 210, so that light is input into the light inlet optical fiber 210, and the light inlet optical fiber 210 inputs the light into the dye tube of the probe module through the plug A220 and the integrated optical cable 100; light output by the dyeing tube is input into a light returning lens A251 through a light returning optical fiber 220, and the light returning lens A251 is arranged in a lamp tube A250; the light returning lens a251 emits the light sent by the light returning fiber 220 and irradiates the inside of the lamp tube a 250. The inner wall of the lamp tube a250 is a mirror surface, and one end of the lamp tube a250 facing the reflective cavity a142 is open, so that the light emitted from the light returning lens a251 can be reflected to the reflective cavity a142 from the opening of the lamp tube a250 to illuminate the reflective cavity a 142. The retro-reflective interior A142 is disposed within the retro-reflective box A140, and the retro-reflective box A140 is mounted within the light display cavity A113. When the temperature indicator is used, the current body temperature state can be roughly judged by observing the light color of the reflective inner cavity A142 through the light display cover plate A130. When the temperature-change material is changed from red to yellow at 38 ℃, if the light is reddish, the body temperature does not exceed 38 ℃; if the light is orange, the body temperature is close to 38 ℃; if the light is yellowish, the body temperature is above 38 ℃. Thereby knowing the approximate body temperature status. When the body temperature needs to be measured accurately, the MCU is awakened through the power switch, and the body temperature value can be relatively accurately acquired by the MCU through the electric signal of the probe and displayed on the touch screen.

Preferably, in order to reduce the interference of the external light to the light in the reflective cavity a142, a reflective film a141 (or a one-way light-transmitting film) is further installed at the opening of the reflective cavity a142, the reflective film a141 reflects the light irradiated from the light display cover plate a130 to the reflective cavity a142, and the light in the reflective cavity a142 can pass through the reflective film a141 for the operator to observe. Because the reflective film has a certain color, the observed color can be changed when the reflective inner cavity A142 is observed through the reflective film, the change can be corrected through debugging, namely, the color difference between the light color seen after the reflective film is positioned and the actual light color in the reflective inner cavity A142 is corrected through the color difference.

More preferably, the inside of the reflective cavity a142 is a reflective mirror surface, and the bottom of the reflective cavity a142 is adhered with a display film a143, and the display film a143 is printed with color patterns which are similar to the colors of the output light of the dyeing tube before and after color change and in the middle. During the use, close chromatic light shines at the pattern of close colour, can make close colour pattern brighter, sees through the reflective membrane this moment and sees the brightest pattern and can represent corresponding colour, also can know approximate body temperature fast. When the temperature change material changes the color from red to yellow at 38 ℃, if the light is reddish, the red pattern on the display film A143 is brighter; if the light rays are orange, the pattern of the orange is brighter; if the light is yellow, the yellow pattern is brighter. The mode can directly adopt the patterns to replace color light, so that the observation of a wearer is more convenient and accurate. Of course, it is also possible to use the variation of the different color light on the different color pattern to correct, for example, the red light on the green pattern, the green pattern becomes dark, the green pattern is printed on the display film, and if the green pattern becomes dark, the green pattern represents the red light. The part is the prior art, and the color can be combined according to the reaction of the color development of the current color light on different colors. Of course, it is also possible to print light-reflecting patterns of different colors on the display film (light-reflecting paint printing), and the light-reflecting patterns are brighter when the same light-reflecting patterns are irradiated by the same colored light.

Preferably, the light display box body a110 is provided with an insertion strip a120, and the insertion strip a120 is inserted into and clamped with an insertion groove B114 on the screen display box B; the light display box body A110 is provided with two through grooves A111; the two through grooves A111 can be respectively sealed in an opening and closing manner through the sealing doors A350 on the two joint mechanisms A300. The two through grooves A111 are respectively opposite to a locking groove B115 and a fixed joint B240 on the screen display box B.

The joint mechanism A300 comprises a sealing door A350, a sealing sheet A710 is fixed on one end face of the sealing door A350 facing the through groove A111, door pins A351 are respectively arranged on the upper end and the lower end of the sealing door A350, the door pins A351 are respectively clamped into corresponding door convex strips A160, a sealing pin groove A161, a communicating pin groove A162 and an opening pin groove A163 are respectively arranged on the door convex strips A160, the communicating pin groove A162 communicates the sealing pin groove A161 with the opening pin groove A163, and the distance between the sealing pin groove A161 and the through groove A111 is smaller than that between the opening pin groove A163 and the through groove A111. The door pin a351 is slidably fitted in one of the seal pin groove a161, the communication pin groove a162, and the opening pin groove a 163. When the door pin a351 is engaged with the seal pin groove a161, the seal door a350 presses against the through groove a111 to press the seal sheet a710 to seal the periphery of the through groove a111 with the seal door a 350. When sealing door A350 need be opened, door bolt A351 slides along intercommunication cotter way A162 and keeps away from logical groove A111 gradually, gets into at last and opens cotter way A163, and logical groove A111 is kept away from gradually to this in-process sealing door for the sealing door slides easily and reduces the wearing and tearing to the gasket, and directly communicates with light-display cavity A113 through groove A111 after sealing door A350 opens to the target.

The sealing door A350 is further provided with a magnetic suction block A810 and a door connecting plate A360, the magnetic suction block A810 can be attracted by a magnet, in this embodiment, the magnetic suction block A810 can be made of a magnet or iron, and preferably soft iron is adopted. The door connecting plates A360 of the two joint mechanisms are respectively connected with two ends of a pull rope A680, the pull rope A680 penetrates through a shaft groove A411 and is assembled with the shaft groove A411 in a sliding mode, two ends of the shaft groove A411 respectively penetrate through a gear shaft A410, the gear shaft A410 and a gear shaft plate A150 can be assembled in a circumferential rotating mode, the gear shaft plate A150 is installed in a light display cavity A113, a pull rope gear A510 is sleeved on the gear shaft A410, the pull rope gear A510 is in meshed transmission with a pull rope rack A520, the pull rope rack A520 is in clamping and assembly with a pull rope rack seat A530 in a sliding mode, and the pull rope rack seat A530 is installed on the gear shaft plate A150.

The gear shaft plate A150 is further provided with two fixed shaft blocks A151, the two fixed shaft blocks A151 are respectively clamped with different door sliding shafts A420 and can be assembled in an axial sliding mode, the two door sliding shafts A420 are further respectively provided with a first pushing block A330 and a second pushing block A340, and a first damping spring A610 is sleeved on a part, located between the first pushing block A330 and the fixed shaft block A151 assembled with the first pushing block A420, of one door sliding shaft A420; another first damping spring a610 is sleeved on the other door sliding shaft a420 between the second pushing block a340 and the fixed shaft block a151 assembled with the second pushing block a. The two first damping springs a610 are respectively used for applying elastic damping to the first pushing block a330 and the second pushing block a340 to hinder the first pushing block a330 and the second pushing block a340 from moving to the corresponding fixed shaft block a 151.

The first pushing block A330 and the second pushing block A340 are respectively pressed and slidably assembled with the corresponding door connecting plate A360. In the initial state, the first pushing block a330 and the second pushing block a340 respectively push the corresponding sealing door a350 to move in the direction away from the fixed shaft block a151, so as to ensure that the sealing door needs a certain resistance to open, thereby preventing the sealing door from being opened by mistake.

The second pushing block a340 is fixedly assembled with the pull rope rack a520, so that the second pushing block a340 can drive the pull rope rack a520 to synchronously move when moving. When the sealing door corresponding to the second push block A340 is opened, the pull rope rack A520 can be pushed to move towards the other sealing door, the pull rope rack drives the pull rope gear A510 to rotate, so that the gear shaft A410 is driven to rotate, the pull rope A680 is wound when the gear shaft A410 rotates, so that the other sealing door A350 is pulled to move towards the gear shaft, and therefore the two sealing doors are opened synchronously.

The door connecting plate A360 is further provided with a spring pin A661, the spring pin A661 is assembled with one end of a tension spring A660, the other end of the tension spring A660 is assembled with one end of a linkage pull rope A670, the other end of the linkage pull rope A670 is assembled with a linkage push plate A303 after bypassing a guide wheel A671, the guide wheel A671 is sleeved on a guide wheel shaft A450 in a circumferential rotation mode, the guide wheel shaft A450 is installed on a wheel shaft plate A301, two ends of the wheel shaft plate are respectively assembled and fixed with the inner wall of the light display cavity A113 and a support plate A302, and the support plate A302 is fixed in the light display cavity A113.

The outside of one side of the through groove A111, which is far away from the gear shaft plate A150, is provided with a matching shaft plate A112, the matching shaft plate A112 is fixed in the optical display cavity A113, the matching shaft plate A112 and the support plate A302 are respectively assembled with two ends of a linkage guide shaft A430, the linkage push plate A303 can be axially slidably sleeved on the linkage guide shaft A430, a second damping spring A620 is sleeved on a part, located between the linkage push plate A303 and the matching shaft plate A112, of the linkage guide shaft A430, and the second damping spring A620 is used for applying elastic damping to the linkage push plate A303, wherein the elastic damping is moved towards the matching shaft plate A112.

Linkage push pedal A303 still with but linkage pipe A440 axial sliding assembly, linkage pipe A440 one end and plug connector assembly, and linkage pipe A440 is located the cover and is equipped with third damping spring A630 on the part between plug connector and linkage push pedal A303, third damping spring A630 is used for exerting the elastic thrust who keeps away from linkage push pedal A303 to the plug connector.

In this embodiment, the plug-in components are a locking block a310 and a joint block a320, respectively, and the joint mechanisms a300 corresponding to the locking block a310 and the joint block a320 are a locking block joint mechanism a300-1 and a joint block joint mechanism a300-2, respectively, a magnetic attraction block a810 may not be disposed on the sealing door a350 corresponding to the joint block joint mechanism a300-2, the magnetic attraction block a810 of the locking block joint mechanism a300-1 is directly opposite to the magnetic locking mechanism, and the magnetic locking mechanism drives the magnetic attraction block a810 of the locking block joint mechanism a300-1 to realize linkage operation of the two sealing doors.

A connector sliding groove A321 is arranged in the connector block A320, a movable connector A210 is clamped in the connector sliding groove A321 and is slidably mounted, the movable connector A210 is electrically connected with one end of the lead 230, and the other end of the lead 230 is electrically connected with the probe through a plug connector A220; the movable joint A210 is fixed with a linkage pipe A440, the linkage pipe A440 and the joint block A320 can be assembled in an axial sliding mode, and a lead penetrates through the linkage pipe A440 and is electrically connected with the movable joint A210; the linkage pipe A440 corresponding to the movable joint A210 and the linkage push plate A303 corresponding to the movable joint A210 are assembled in a non-axial movable mode. The linkage pipe A440 corresponding to the locking piece A310 and the linkage push plate A303 corresponding to the locking piece A310 can be axially assembled in a sliding mode, so that the third damping spring A630 corresponding to the locking piece A310 can apply stable tension to the locking piece A310, and the locking piece and the locking groove can be kept in clamping assembly.

Preferably, a clamping ring A720 is fixed on one end face of the joint block A320 close to the display box B. When the screen display box is used, the pressing ring A720 is pressed between the joint block A320 and the screen display box body B110 so that the joint sliding groove A321 is sealed, and at the moment, the movable joint A210 and the fixed joint B240 are pressed to conduct electricity.

When the sealing door is opened, the linkage pull plate A303 is pulled through the linkage pull rope A670 to overcome the elastic force of the second damping spring A620 and move towards the through groove, until the through groove A111 is completely leaked, the linkage push plate A303 pushes the plug connector to penetrate out of the through groove A111, then along with the continuous opening of the sealing door, the linkage push plate A303 enables the plug connector to be respectively compressed to the screen display box body B110 through extruding the third damping spring A630. At this moment, the locking block A310 is inserted into the locking groove B115 to fix the screen display box and the light display box, the movable joint penetrates through the joint sliding groove A321 and then is pressed against the fixed joint B240 to conduct electricity, in the process, the joint block A320 is firstly pressed against the screen display box body on the outer side of the fixed joint B240, the joint block A320 cannot continuously move towards the screen display box body along with the movement of the linkage push plate A303 towards the screen display box body, the joint block A320 reversely extrudes the corresponding third damping spring A630 to gradually press the movable joint A210 against the fixed joint B240, and the movable joint A210 and the fixed joint B240 are pressed to conduct electricity.

Preferably, the magnetic lock mechanism needs to be reset after the sealing doors are opened and the locking block a310 and the joint block a320 are respectively assembled with the screen display box body in place, at this time, if the two sealing doors are not locked, the two sealing doors can respectively move in opposite directions so as to respectively press the locking block a310 and the joint block a320, so that the deformation of the sealing doors is easily caused, and the waterproof performance is greatly reduced. The implementation is further improved as follows:

a sliding frame A352 is arranged on a sealing door of the locking block joint mechanism A300-1, the magnetic suction block A810 is clamped and slidably arranged in the sliding frame A352, a magnetic suction connecting plate A811 is arranged on the magnetic suction block A810, and an unlocking rod A820 is arranged on the magnetic suction connecting plate A811; the door connecting plate A360 of the locking block joint mechanism A300-1 is further assembled with one end of a first spring piece A640, and the other end of the first spring piece A640 is tightly pressed against the bottom of the magnetic suction connecting plate A811, so that elastic damping is provided for downward movement of the magnetic suction connecting plate A811, and the magnetic suction block A810 is located at the uppermost displacement end in the initial state.

The locking end A341 is arranged on the second pushing block A340, and after the sealing door is opened in place, the locking end A341 is clamped into the locking groove A651, so that the second pushing block A340 cannot move towards the corresponding through groove A111, namely, the pull rope gear cannot rotate, and at the moment, the two sealing doors A350 are locked through the pull rope. The locking groove A651 is arranged on the second spring piece A650, and one end of the second spring piece A650, which is far away from the locking groove A651, is fixedly assembled with the bottom surface of the light display groove A113. The second spring piece a650 has elasticity. When the sealing door is opened, the door connecting plate pushes the second push block A340 to move towards the second spring piece A650, so that the bottom of the second push block A340 presses one end, provided with the locking groove A651, of the second spring piece A650, the second spring piece A650 is elastically deformed until the second push block A340 penetrates through the locking groove A651, the second spring piece A650 is elastically reset, at the moment, locking of the sealing door is released, the second push block A340 can move towards the locking groove A651 until the locking end A341 is clamped with the locking groove A651, at the moment, the sealing door cannot continuously move towards the through groove through locking of the pull rope, and therefore the sealing door cannot be in contact with or pressed against the locking block and the joint block.

Referring to fig. 22-24, the probe module C includes a probe shell C110 and a connecting seat C150, a dyeing tube C120 and a probe C210 are installed in the probe shell C110, and the probe C210 is used for acquiring a body temperature electrical signal and then transmitting the body temperature electrical signal to a temperature measuring circuit through a lead 230, so as to acquire an accurate body temperature value. The dyeing tube C120 is internally provided with a hollow dyeing cavity C121, the inner wall of the dyeing cavity C121 is a mirror surface and is provided with a temperature change coating, the temperature change coating is sprayed by a temperature change material, and the temperature change coating generates color change within a preset temperature interval. The temperature change temperature of the present example was 38 deg.C, and the color change was from red to yellow.

An optical inlet joint C350, an astigmatic lens C310 and a condenser lens C320 are respectively installed at two ends of the dye cavity C121, the optical inlet joint C350 is located at the focus of the astigmatic lens C310, and the optical inlet joint C350 is communicated with the optical inlet fiber 210, so that light in the optical inlet fiber can be introduced into the optical inlet joint C350 and emitted into the dye cavity C121 through the astigmatic lens C310, and the light is dyed through reflection of the dye cavity C121.

The middle part of the dyeing cavity C121 is provided with a dyed lens C340, and two end surfaces of the dyed lens C340 are also respectively sprayed with a temperature-variable coating, but the temperature-variable coating on the surface of the dyed lens C340 is in a semi-transparent state, so that light can pass through the dyed lens C340 and be dyed after passing through the dyed lens C340. The condenser lens C320 is configured to focus light inside the dyeing cavity C121 to a first optical return connector C331, and the first optical return connector C331 is connected to a second optical return connector C332 through a connecting optical fiber C330, so as to transmit the light to the second optical return connector C332. The second optical return connector C332 is communicated with the optical return plug C360, and the optical return plug C360 is communicated with the optical return fiber 220, so that the second optical return connector C332 is led into the optical return plug C360, and then the light is transmitted to the optical return fiber 220 through the optical return plug C360. In order to reduce the light loss at the dyed lens C340, the dyed lens C340 is made of a material with high light transmittance as much as possible, and the temperature-sensitive coating of the dyed lens C340 should improve the light transmittance as much as possible, for example, translucent temperature-sensitive ink is sprayed on the dyed lens C340.

The signal end of the probe C210 is electrically connected with the power connection socket C220, the power connection socket C220 is electrically connected with the power connection plug C230 in a plugging mode, the power connection plug C230 is electrically connected with the lead 230, and therefore the electric signal of the probe C210 is input into the movable connector A210.

The light inlet connector C350, the light return plug C360 and the power connection plug C230 are all installed on the connecting seat C150, the connecting seat C150 and the probe shell C110 are assembled in a sealing mode, the light inlet optical fiber 210, the light return optical fiber 220 and the conducting wire 230 form an integrated optical cable 100, and the integrated optical cable 100 is finally connected with the plug connector 220.

Preferably, the connecting seat C150 and the probe shell C110 are sealed by pressing a sealing end ring C410, and the sealing end ring C410 is disposed on the connecting seat C150.

Preferably, still be provided with coupling part C160 on probe shell C110, be provided with seal ring groove C161, protruding C162 of joint, draw-in groove C163, seal end face C164 on the coupling part C160 respectively, install sealing washer C420 in the seal ring groove C161, protruding C162 of joint and the block assembly of joint recess C151, draw-in groove C163 and the block assembly of buckle head C511, seal end face C164 compresses tightly with sealed C430 so that seal between the inner wall of connecting seat C150 and the seal end face C164.

Joint recess C151 sets up in connecting seat C150, inside buckle chamber C152, the display hole C153 of still being provided with respectively of connecting seat C150, buckle head C511 sets up on buckle C510, and buckle C510 has elasticity and installs in buckle chamber C152, buckle head C511 keeps assembling with draw-in groove C163 chucking under buckle C510's elasticity to make connecting seat C150 and probe shell C110 chucking fixed.

The sealing ring C420 is in extrusion sealing with the inner wall of the connecting seat C150, and the display hole C153 is communicated with the buckle cavity C152 and is isolated by a sealing gasket C430; install display block C610 in the display hole C153, display block C610 adopts to meet water and discolour the preparation or the spraying has met water and discolours, in case sealed C430 department of packing produces a leak, thereby water can get into and soak display block C610 in the display hole C153, thereby display block C610 meets water and discolours, as long as observe display block C610 interface that discolours this moment and judge for sealed pad department of packing to intake to remind the user in time to overhaul.

Preferably, a magnifying lens 370 and a sealing plug C380 are further installed in the display hole C153, the magnifying lens 370 and the sealing plug C380 are both in a transparent state, the sealing plug C380 seals the display hole C153, and the magnifying lens 370 magnifies the position of the display block C610 for convenient observation.

Preferably, still install absorption piece C520 on the buckle head C511, absorption piece C520 can adsorb with magnet, when connecting seat C150 needs to be dismantled, places a magnet in connecting seat C150 and absorption piece C520 correspondence department, and magnet exerts magnetic force to absorption piece C520 to it can to pull out draw-in groove C163 with the buckle head through absorption piece C520. The design is mainly convenient for subsequent overhaul and replacement.

Preferably, the gap between the probe shell C110 and the dyeing tube C120 and the gap between the probe C210 are filled with a filler C01, and the filler C01 is made of a material with high thermal conductivity coefficient, such as thermal conductive silicone grease, thermal conductive silica gel, and the like. This design is primarily intended to rapidly direct body temperature to the dye tube C120, probe C210.

The invention is not described in detail, but is well known to those skilled in the art.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the above teachings. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims

1. A temperature measurement clothes based on temperature change material, its characterized in that includes:

the probe module is internally provided with a dyeing tube, a dyeing lens is arranged in the dyeing tube, and a temperature change material is sprayed on the dyeing lens;

2. The temperature measurement garment of claim 1, wherein the probe module comprises a probe shell, a dyeing tube is installed in the probe shell, a hollow dyeing cavity is formed in the dyeing tube, the inner wall of the dyeing cavity is a mirror surface and is provided with a temperature change coating, and the temperature change coating is sprayed by a temperature change material and generates color change within a preset temperature range;

the probe shell is internally provided with a probe which is used for acquiring a body temperature electrical signal; the signal end of the probe is electrically connected with the power connection socket, the power connection socket is electrically connected with the power connection plug in an inserting mode, and the power connection plug is electrically connected with the conducting wire, so that the electric signal of the probe is input into the movable joint.

3. The temperature measurement garment of claim 2, wherein the second return optical connector is communicated with a return optical plug, and the return optical plug is communicated with a return optical fiber, so that the second return optical connector is led into the return optical plug, and then light is transmitted to the return optical fiber through the return optical plug;

the clamping groove is arranged in the connecting seat, a clamping cavity and a display hole are respectively arranged in the connecting seat, the clamping head is arranged on the clamping buckle, the clamping buckle has elasticity and is arranged in the clamping cavity, and the clamping head is clamped and assembled with the clamping groove under the elasticity of the clamping buckle, so that the connecting seat and the probe shell are clamped and fixed;

4. The temperature measurement garment according to claim 1, wherein the light display box comprises a light display box body, a hollow light display cavity with an open top surface is arranged inside the light display box body, the open top of the light display cavity is sealed by a light display cover plate, the light display cover plate is in a transparent state, and a light inlet lens is arranged on the light display cover plate; the light inlet lens focuses light on one end of the light inlet optical fiber, so that the light is input into the light inlet optical fiber, and the light inlet optical fiber inputs the light into the dyeing tube of the probe module through the plug and the comprehensive optical cable; light output by the dyeing tube is input into a light returning lens through a light returning optical fiber, and the light returning lens is arranged in the lamp tube; the light returning lens emits the light sent by the light returning optical fiber and irradiates the light in the lamp tube; the inner wall of the lamp tube is a mirror surface, and one end of the lamp tube facing the reflecting inner cavity is provided with an opening, so that light rays emitted by the light returning lens can be reflected to the reflecting inner cavity from the opening of the lamp tube to irradiate the reflecting inner cavity; the reflecting inner cavity is arranged in the reflecting box, and the reflecting box is arranged in the light display cavity.

5. The temperature measuring garment according to claim 4, wherein a reflective film is installed at the opening of the reflective cavity, the reflective film reflects light irradiated from the light display cover plate to the reflective cavity, and the light in the reflective cavity can penetrate out of the reflective film for an operator to observe; the interior of the reflective inner cavity is a reflective mirror surface, the bottom of the reflective inner cavity is adhered with a display film, and color patterns which are similar to the color of the output light of the dyeing tube before and after color change and in the middle are printed on the display film.

6. The temperature measurement garment of claim 4, wherein an insertion strip is arranged on the light display box body, and the insertion strip is inserted into and clamped with an insertion groove on the screen display box; the light display box body is provided with two through grooves; the two through grooves can be sealed in an opening and closing manner through sealing doors on the two joint mechanisms respectively; the two through grooves are respectively opposite to the locking groove and the fixed joint on the screen display box;

7. The temperature measuring garment according to claim 6, wherein a spring pin is further mounted on the door connecting plate, the spring pin is assembled with one end of a tension spring, the other end of the tension spring is assembled with one end of a linkage pull rope, the other end of the linkage pull rope is assembled with a linkage push plate after bypassing a guide wheel, the guide wheel is circumferentially rotatably sleeved on a guide wheel shaft, the guide wheel shaft is mounted on a wheel shaft plate, two ends of the wheel shaft plate are respectively assembled and fixed with the inner wall of the light display cavity and a support plate, and the support plate is fixed in the light display cavity;

a matching shaft plate is arranged outside one side of the through groove, which is far away from the gear shaft plate, the matching shaft plate is fixed in the light display cavity, the matching shaft plate and the support plate are respectively assembled with two ends of the linkage guide shaft, the linkage push plate is sleeved on the linkage guide shaft in an axially sliding manner, and a second damping spring is sleeved on a part of the linkage guide shaft, which is positioned between the linkage push plate and the matching shaft plate;

8. The temperature measurement garment of claim 7, wherein the joint mechanism corresponding to the locking groove is a locking piece joint mechanism, and the joint mechanism corresponding to the fixed joint is a joint piece joint mechanism; the plug connector of the locking block joint mechanism is a locking block, the plug connector of the joint block joint mechanism is a joint block, a magnetic suction block is further mounted on the sealing door of the joint block joint mechanism, the magnetic suction block can be adsorbed with a magnet, and the magnetic suction block can be driven to move through an external magnetic field;

9. The temperature measurement garment according to any one of claims 6 to 8, further comprising a screen box, wherein the screen box comprises a screen box body, the inside of the screen box body is divided into two independent magnetic lock cavities and an electric cavity through a partition plate, the tops of the magnetic lock cavities and the electric cavity are opened and respectively sealed through a magnetic lock cover and an electric cover, an elastic membrane is mounted on the magnetic lock cover, and the elastic membrane has elasticity;

the flash memory is in communication connection with the MCU, the temperature measuring circuit is in communication connection with the fixed joint, and the fixed joint is also electrically connected with the battery; the screen display box body is further provided with an inserting groove and a locking groove, and the locking groove and the locking block are clamped and assembled.

10. The temperature measurement garment as claimed in claim 9, wherein a magnetic lock mechanism is installed in the magnetic lock cavity, the magnetic lock mechanism comprises a magnetic insulation shell in which a first magnet block and a rotating base are respectively installed, a second magnet block is installed on the rotating base, the magnetic insulation shell is made of a material capable of isolating magnetism, one end of the magnetic insulation shell is open, and the open end of the magnetic insulation shell is closed by a soft iron block; the first magnet block and the second magnet block are both magnetic, and the soft iron block is made of soft iron;