CN117268568A - Temperature measurement clothes based on memory spring - Google Patents

Abstract

The invention discloses a temperature-measuring garment based on a memory spring, which comprises: the probe assembly is fixed on clothes, a memory spring is arranged in the probe assembly, the memory spring is directly or indirectly connected with the pull rope, and the memory spring is elastically deformed by taking the body temperature as energy; the mechanical box is arranged on clothes and comprises a mechanical box body, a watchcase is arranged on the mechanical box body, a hollow surface cavity is formed in the inner side of the watchcase, an indicating ring is arranged in the surface cavity, scales are arranged on the indicating ring, the scales correspond to the pointers, the readings can be read out, the pointers are arranged on the pointer ring, the pointer ring is arranged on an indicating shaft in a non-circumferential rotation manner, one end of the indicating shaft penetrates through the watchcase and then is assembled with an indicating gear and a shaft seat in a circumferential rotation manner, and the shaft seat is arranged on the mechanical box body; the indicating gear is meshed with the indicating rack for transmission, the indicating rack is arranged on the sliding seat, the sliding seat is assembled with the pull rope in a clamping mode, and the memory spring drives the pull rope to generate displacement when stretching out and drawing back, so that the sliding seat is driven to move by the indicating rack.

Description

Temperature measurement clothes based on memory spring

Technical Field

The invention relates to a temperature measurement technology and clothes, in particular to a temperature measurement clothes based on a memory spring.

Background

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

The applicant has devised a memory spring based thermometry garment capable of measuring the body temperature of the wearer and displaying it on a touch screen.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present invention is to provide a temperature measuring garment based on a memory spring.

In order to achieve the above object, the present invention provides a memory spring-based temperature measuring garment, comprising:

the probe assembly is fixed on clothes, a memory spring is arranged in the probe assembly, the memory spring is directly or indirectly connected with the pull rope, and the memory spring is elastically deformed by taking the body temperature as energy;

the mechanical box is arranged on clothes and comprises a mechanical box body, a watchcase is arranged on the mechanical box body, a hollow meter cavity is formed in the inner side of the watchcase, an indication ring is arranged in the meter cavity, scales are arranged on the indication ring, the scales correspond to pointers, the readings can be read, the pointers are arranged on the pointer ring, the pointer ring is arranged on an indication shaft in a non-circumferential rotation mode, one end of the indication shaft penetrates through the watchcase and then is assembled with an indication gear and a shaft seat in a circumferential rotation mode, and the shaft seat is arranged on the mechanical box body; the indicating gear is meshed with the indicating rack for transmission, the indicating rack is arranged on the sliding seat, the sliding seat is clamped and assembled with the pull rope, and the memory spring drives the pull rope to displace when stretching out and drawing back so as to drive the sliding seat and the indicating rack to move; the pointer corresponds to the scale on the indicating ring to read out the body temperature value or the expansion amount corresponding to the current memory spring.

As a further improvement of the invention, the invention also comprises an electric box, wherein the electric box is used for acquiring the signal of the probe, analyzing the signal into a temperature value and finally displaying the temperature value on a touch screen so as to be convenient for an operator to observe; the probe is arranged in the probe assembly;

the electric box comprises an electric box body, wherein a touch screen, a circuit board, a battery, a fixed connector and a wake-up switch are respectively arranged on the electric box body, and the circuit board is respectively provided with: the temperature measuring circuit, the charging circuit, the main control chip and the flash memory are connected with the signal of the probe directly or indirectly, so that the signal detected by the probe can be input into the main control chip after being analyzed by the temperature measuring circuit, and the main control chip displays the corresponding body temperature value and picture on the touch screen through a built-in program;

the main control chip is respectively in communication connection with a signal end of the touch screen, an output end of the temperature measuring circuit, a signal end of the flash memory and a signal end of the wake-up switch, and the wake-up switch sends a wake-up instruction to the main control chip after being triggered;

the fixed connector is used for pressing and conducting with the movable connector on the mechanical box so as to be electrically connected with the signal end of the probe and the signal end of the micro switch, and the micro switch sends a wake-up instruction to the main control chip when triggered so as to wake up the main control chip to monitor the body temperature;

The electric box body is also provided with an indicator light board, and the circuit board is also provided with an indicator light circuit which is used for driving the indicator light so as to control the working state of the indicator light; the pilot lamp is installed on the pilot lamp plate, and the control end of pilot lamp circuit is connected with main control chip's signal end communication.

As a further improvement of the invention, a lock shell is respectively arranged on two sides of the electric box body, an unlocking through groove and a lock shell groove are respectively arranged on the lock shell, a lock block is clamped in the lock shell groove and is slidably arranged in the lock shell groove, one end of the lock block is tightly pressed or assembled with one end of a lock block spring, the other end of the lock block spring is tightly pressed with the inner wall of the lock shell groove, and the lock block spring is used for applying elastic force pushing the lock block to the outside of the lock shell groove;

the second lock pin is arranged on the lock block, the second lock pin is arranged in an unlocking groove and is clamped with the unlocking groove in a sliding manner, the unlocking groove is arranged on the unlocking rod, the middle part of the unlocking rod is hinged with the lock box through the second lock pin, and one end of the unlocking rod, which is far away from the locking groove, penetrates out of the unlocking through groove and is clamped with the unlocking through groove in a sliding manner;

the other end of the locking piece is arranged in a locking groove of the mechanical box and is tightly clamped with the locking groove; and the electric box body is also provided with a box body clamping end, and the box body clamping end is clamped into an installation clamping groove of the mechanical box.

As a further improvement of the invention, damping mounting plates are also arranged at the two ends of the electric box body and at the positions corresponding to the unlocking rods, damping boxes are arranged on the damping mounting plates, a penetrating groove is formed in one side of each damping box facing the unlocking rod, a spring piece is also arranged in each damping box, a damping seat is arranged on each spring piece, friction plates are arranged on the damping seats, and the end faces of the friction plates penetrate through the penetrating grooves; the friction plate is made of soft high friction coefficient material; the side surface of the unlocking rod is tightly pressed with the friction plate, so that the rotation of the unlocking rod is damped.

As a further improvement of the invention, the sliding seat is also respectively provided with a sliding rail and a pull rope seat, the sliding rail is clamped with a sliding rail groove and can be assembled in a sliding way, the sliding rail groove is arranged on the base, the pull rope seat is assembled with the pressing seat, and the pull rope is assembled with the pressing seat and the pull rope seat in a sliding way; one end of the pull rope is assembled and wound with a winding wheel, and the winding wheel can be assembled with the sliding seat in a circumferential rotation way through a winding wheel shaft; the other end of the pull rope passes through the connecting pipe and then enters the rope pipe, and is finally directly or indirectly connected with the memory spring on the probe assembly; the connecting pipe is arranged on the mechanical box body, and the connecting pipe is fixedly connected with the rope pipe through a connecting sleeve;

A wire is also arranged in or outside the rope tube, one end of the wire is electrically connected with the signal end of the probe, and the other end of the wire is directly or indirectly electrically connected with the access end of the movable joint;

the sliding seat is also provided with a hinged plate, the hinged plate is hinged with the middle part of the rope plate through a hinge pin, and one end of the rope plate is tightly pressed on the stay rope and the stay rope seat, so that the stay rope is clamped; the other end of the rope plate is assembled with one end of a U-shaped spring, the other end of the U-shaped spring is arranged on the base, the U-shaped spring has elasticity, and the U-shaped spring drives the rope plate to compress the pull rope through self-generated elasticity to lock the pull rope in an initial state.

As a further improvement of the invention, the slide seat is also provided with a shaft plate, the shaft plate is assembled with one end of a guide shaft, the other end of the guide shaft is arranged in a guide pipe and can be axially and slidably assembled with the guide pipe, the guide pipe is arranged on a pipe seat, and the pipe seat and a base are both arranged in a mechanical box; and the part of the guide shaft and the guide tube, which is positioned between the slide rail and the tube seat, is sleeved with a slide seat spring, and the slide seat spring is used for applying elastic force for preventing the slide seat from sliding towards the tube seat.

As a further improvement of the invention, a triggering lug is also arranged on the rope plate, a micro switch is also arranged in the mechanical box body, the triggering end of the micro switch is opposite to the micro spring plate, the micro spring plate is arranged in the mechanical box body and has elasticity, and a guiding cambered surface is arranged on the micro spring plate and is used for being matched with the triggering lug so as to trigger the micro switch; the signal end of the micro switch is electrically connected with the access end of the movable joint, so that signals are input into the main control chip through the movable joint.

As a further improvement of the invention, the movable joint realizes sealing and expansion through a joint assembly, the joint assembly comprises a joint groove, a bottom groove, a first sealing door and a second sealing door, the joint groove and the bottom groove are respectively arranged on a vertical plate and a transverse plate, and the vertical plate and the transverse plate are both arranged on a mechanical box body; the movable joint can penetrate out of the joint groove and is pressed with the fixed joint to conduct electricity;

the movable joint is directly or indirectly assembled with a joint pressing seat, the joint pressing seat is sleeved on a joint screw rod and screwed with the joint screw rod through threads, the joint screw rod can be assembled with a door frame and a support plate in a circumferential rotation and axial movement manner respectively, and the door frame and the support plate are both arranged in a mechanical box body;

the joint screw rod is connected with the follow-up shaft through a belt and forms a belt transmission mechanism, the follow-up shaft is respectively assembled with the support plate and the follow-up block in a circumferential rotation way, and the follow-up block is arranged on the mechanical box body; the follow-up shaft is sleeved with a follow-up gear, the follow-up gear is meshed with a follow-up rack for transmission, and the follow-up rack is assembled with a second sealing door or a door seat;

the second sealing door and the first sealing door are respectively arranged on the door seat, the second sealing door and the first sealing door are respectively positioned at two end surfaces of the joint groove arranged on the transverse plate, the first sealing door penetrates through the bottom groove and is clamped with the bottom groove and can be assembled in a sliding manner, and the top of the first sealing door penetrates out of the transverse plate; the door seat is assembled with one end of the door lock spring, the other end of the door seat spring is assembled with the mechanical box body, and the door seat spring is used for applying upward jacking thrust to the door seat;

The both sides of second sealing door block respectively into the door pocket, and the door pocket sets up in the door frame, the door frame is located the upper and lower both ends face department that connects the seat of pressing and still installs a seat pressing splint respectively, connect the seat of pressing and press seat splint block and slidable assembly.

As a further improvement of the invention, the probe assembly comprises a probe shell, a probe tube and a probe, wherein the probe tube and the probe are both arranged in the probe shell, and the probe is used for detecting a body temperature signal; the probe tube is internally provided with a hollow tube cavity, the tube cavity is clamped with the piston and can be assembled in a sliding way, two end faces of the piston are respectively assembled with one end of the memory spring and the traction seat, and the other end of the memory spring is assembled with the closed end of the tube cavity;

the traction seat is provided with a traction rod which is arranged in the extension hole and can be axially and slidably assembled with the extension hole, the extension hole is arranged in the extension tube, and the extension tube is arranged on the probe tube; the traction rod is also provided with a screwing part, the screwing part and the threaded sleeve are assembled in a screwing way through threads, the threaded sleeve is sleeved on the rope plug and is assembled in a circumferential rotation way, the rope plug is fixed on the pull rope, and the threaded sleeve can be installed in the extension hole and can be assembled in an axial sliding way.

As a further improvement of the invention, the pull rope passes through the connecting cap and then enters the rope tube, the rope tube is fixed with the connecting cap, and the pull rope and the connecting cap can be assembled in a sliding way; the connecting cap is directly or indirectly assembled with the probe shell;

the probe is electrically connected with the fixed contact through a probe wire, the fixed contact is arranged on the extension tube and is in contact conduction with the movable contact, the movable contact is arranged on the connecting cap and is electrically connected with the lead through a data wire, so that the probe is electrically connected with the movable joint;

the probe shell is also respectively provided with an inner pipe and an outer pipe, a plug hole is formed between the inner pipe and the outer pipe, a sealing gasket is arranged in the plug hole, the connecting cap is inserted into the plug hole, and the end face of the connecting cap is tightly pressed with the sealing gasket so as to realize the sealing between the connecting cap and the plug hole;

the connecting cap is characterized in that a cap hole and an annular groove are formed in the inner side of the connecting cap respectively, the cap hole is covered outside the pull rope and the data line, the annular groove is assembled with the buckle head in a clamping mode, the buckle head is arranged at one end of the buckle piece, the other end of the buckle piece is arranged on the buckle ring, the buckle ring is sleeved on the inner tube, and the buckle piece is elastic and is clamped in the annular groove through the elastic retaining buckle head.

The beneficial effects of the invention are as follows:

1. the invention has simple structure, and the quick assembly disassembly design of the electric box greatly improves the service conditions of clothes requiring water washing and batteries requiring charging, thereby improving the convenience of use. The invention adopts two modes of the micro switch and the wake-up switch to wake up the main control chip, which is more flexible on one hand and can greatly reduce the energy consumption on the other hand.

2. The probe assembly of the invention utilizes the heat of the body to shrink through the memory spring, thereby pulling the stay cord to drive the indicating needle in the mechanical box to rotate for storing the mechanical type, and no electric energy is needed, thereby the probe assembly can also detect the approximate body temperature without an electric box, greatly improving the convenience under the condition of lack of electricity and the adaptability to the severe environment.

3. The connector assembly provided by the invention has the advantages that the first sealing door is extruded by the electric box to realize the extension and extrusion of the movable probe to the fixed probe, so that on one hand, the waterproof performance of the movable probe can be ensured, and on the other hand, the effective contact conduction between the movable probe and the fixed probe can be ensured.

4. The electric box can be quickly assembled and disassembled with the mechanical box, so that the electric box can be charged and replaced conveniently, the mechanical box and clothes can be washed by water, and meanwhile, due to the quick-disassembly design of the electric box, the electric box can be directly taken down before clothes washing, and the electric box is sealed without considering high cost, so that the manufacturing cost of the electric box can be effectively reduced.

Drawings

Fig. 1 is a block diagram of an electrical system of the present invention.

Fig. 2 to 5 are schematic structural views of the mechanical and electrical boxes, wherein fig. 4 is a sectional view of the lock case in a longitudinal and height direction, and fig. 5 is a sectional view of the movable joint in a cross-sectional direction.

Fig. 6 to 12 are schematic structural views of the mechanical box.

Fig. 13-17 are schematic structural views of the joint assembly.

Fig. 18 is a schematic view of the mechanical cassette after removal of the joint assembly.

Fig. 19 is a schematic structural view of the electrical box.

Fig. 20 is a schematic view of the internal structure of the electrical box.

Fig. 21 is a schematic view of an improved structure at the unlocking lever.

Fig. 22-23 are schematic structural views of the probe assembly, with fig. 23 being an enlarged view of fig. 22 at F1.

Detailed Description

The technical solutions 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 should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1, a memory spring-based temperature measuring garment, comprising:

and the probe assembly is fixed on the clothes and is used for acquiring the body temperature signal. The probe assembly of the embodiment is internally provided with a probe of a temperature sensor, and can be arranged at the positions of armpits, breasts, abdomen, arms, wrists and the like for detecting the body temperature of a wearer.

And the mechanical box A is arranged on the clothes and is directly or indirectly connected with a memory spring on the probe assembly through a pull rope, so that the pointer of the mechanical box A is driven to rotate through the expansion and the contraction of the memory spring to approximately display the body temperature. In this embodiment, the mechanical box may be mounted in a sleeve, a front rail of a garment, or the like.

And the electric box B is arranged on the mechanical box A and used for acquiring signals of the probe assembly, analyzing the signals into temperature values and finally displaying the temperature values on a touch screen so as to be convenient for an operator to observe.

Referring to fig. 1-5 and fig. 19-20, the electrical box B includes an electrical box B110, a touch screen B210, a circuit board B220, a battery B250, an indicator light board B230, an interface board B270, a fixed connector B240, a charging interface B260 and a wake-up switch B280 are respectively installed on the electrical box B110, the charging interface B260 is communicated with an access end of a charging circuit, an output end of the charging circuit is electrically connected with an electrode of the battery B250, and thus, when in use, the battery B250 can be charged by plugging and conducting the charging interface B260 through a charging plug.

The circuit boards B220 are respectively mounted with: the temperature measuring circuit, the charging circuit, the pilot lamp circuit, the main control chip and the flash memory, wherein the access end of the temperature measuring circuit is directly or indirectly electrically connected with the signal of the probe C410, so that the signal detected by the probe can be input into the main control chip after being analyzed by the temperature measuring circuit, and the main control chip displays the corresponding body temperature value and picture on the touch screen through a built-in program. The temperature measuring circuit of the embodiment selects the corresponding circuit part of the existing electronic thermometer or temperature sensor, and only needs to analyze the signal of the probe assembly into a digital body temperature signal.

The main control chip is used for receiving and transmitting the analysis control instruction, running the procedure and calculating parameters. The main control chip of this embodiment may be CPU, MCU, PLC or the like.

And the touch screen is used for displaying a picture or touch input signals.

Flash memory for storing data or a program built in advance.

And the battery is used for supplying power to each electric equipment.

The indicator light circuit is used for driving the indicator light B231 so as to control the working state of the indicator light, such as the lighting number, the color, the flicker frequency and the like; the indicator light is arranged on the indicator light board B230;

the main control chip is respectively in communication connection with the signal end of the touch screen, the output end of the temperature measuring circuit, the signal end of the flash memory, the control end of the indicator light circuit and the signal end of the wake-up switch, and the wake-up switch is triggered to send a wake-up instruction to the main control chip so as to wake up the main control chip to enter a working state.

The fixed connector B240 is used for pressing and conducting with the movable connector A820 on the mechanical box A, so that the fixed connector B is electrically connected with the signal end of the probe C410 and the signal end of the micro switch A810, and the micro switch A810 also sends a wake-up instruction to the main control chip when triggered, so that the main control chip is woken up to monitor the body temperature. In this embodiment, the main control chip may be provided with a program, and directly enter the sleep state after a period of time if no other operation is performed after each wake-up, thereby reducing energy consumption.

The interface board B270 is respectively electrically connected with the fixed connector B240, the wake-up switch B280 and the indicator lamp B231, and the indicator lamp circuit, the main control chip, the temperature measuring circuit and the battery are respectively electrically connected with the interface board B270, so that an integrated wiring position is formed at the interface board, and the design is greatly beneficial to subsequent overhaul and maintenance. The prior art of interface boards can be regarded as the integration of the connectors, and the interface boards can be omitted.

Preferably, a microphone and a loudspeaker are also installed in the electrical box B110, and the signal ends of the microphone and the loudspeaker are both connected to the main control chip. When the device is used, a voice signal can be input to the main control chip through the microphone, and the main control chip performs voice recognition and then converts the voice signal into a corresponding execution instruction; the loudspeaker is used for making sound, so that the sound is made under the control of the main control chip, and the voice interaction with an operator is realized.

Referring to fig. 2-5 and fig. 19-20, the electrical box body B110 is further provided with a transparent film B310 in a sealing manner, the transparent film B310 has elasticity and is in a transparent state, and the inner side of the transparent film B310 is provided with an indication lamp panel B230 and a wake-up switch B280 respectively. The design is mainly used for conveniently observing the indicator lamp and pressing the wake-up switch.

And a sealing plug B320 is arranged at the corresponding position of the electric box body B110 and the charging interface B260, and the sealing plug B320 is used for sealing the charging interface B260, so that dust prevention and water prevention are realized.

The electric box body B110 is characterized in that a lock shell B120 is further arranged on two sides of the electric box body B110 respectively, an unlocking through groove B121 and a lock shell groove B122 are respectively arranged on the lock shell B120, a lock block B520 is clamped in the lock shell groove B122 and is slidably arranged on the lock shell groove B, a lock block inclined plane B521 is arranged at one end of the lock block B520, the other end of the lock block inclined plane B521 is tightly pressed or assembled with one end of a lock block spring B610, the other end of the lock block spring B610 is tightly pressed with the inner wall of the lock shell groove B122, and the lock block spring B610 is used for applying elastic force pushing the lock block B520 to the outside of the lock shell groove B122. The second lock pin B420 is installed on the lock block B520, the second lock pin B420 is installed in the unlocking groove B511 and is clamped and slidably assembled with the unlocking groove B511, the unlocking groove B511 is arranged on the unlocking rod B510, the middle part of the unlocking rod B510 is hinged with the lock box B120 through the second lock pin B410, and one end of the unlocking rod B510, which is far away from the locking groove B511, penetrates out of the unlocking through groove B121 and is clamped and slidably assembled with the unlocking through groove B121. In use, the unlocking lever B510 can be rotated about the first lock pin B410, so that the unlocking lever B510 drives the second lock pin B420 to move through the unlocking slot B511, and thus the lock block B520 is driven to move. The end of the locking block B520 provided with the locking block inclined plane B521 is arranged in the locking groove A121 of the mechanical box A and is clamped with the locking groove A, so that the assembly of the electrical box and the mechanical box is realized. The electrical box body B110 is also provided with a box body clamping end B111, and the box body clamping end B111 is clamped into the mounting clamping groove A131 of the mechanical box A, so that the electrical box and the mechanical box A are assembled and fixed.

Referring to fig. 4, when the electrical box B needs to be disassembled, one end of the unlocking lever B510 penetrating out of the unlocking through groove B121 is broken towards the mechanical box, so that the unlocking lever B510 drives the locking piece B520 to move away from the locking groove a121 against the elastic force of the locking piece spring until the locking piece B exits from the locking groove a121; and then the electric box B is pulled upwards, so that the box body clamping end B111 moves out of the mounting clamping groove A131. The detachable design of the electric box mainly considers that the electric equipment in the electric box is relatively more, the battery needs to be charged for a long time, and the clothes need to be worn frequently and washed with water. Therefore, after the electric box is disassembled, the battery can be charged, and clothes can be washed, so that the electric box is convenient to use, and electric equipment in the electric box is effectively protected.

Referring to fig. 21, preferably, damping mounting plates B130 are further mounted at two ends of the electrical box body B110 and corresponding to the unlocking lever B510, a damping box B140 is mounted on the damping mounting plates B130, a penetrating groove B141 penetrating through is formed on one side of the damping box B140 facing the unlocking lever B510, a spring piece B620 is further mounted in the damping box B140, a damping seat B621 is disposed on the spring piece B620, a friction plate B630 is mounted on the damping seat B621, and an end surface of the friction plate B630 penetrates out of the penetrating groove B141; friction plate B630 is made of a soft, high coefficient of friction material, such as rubber. The spring piece B620 has elasticity and is used to apply an elastic force to the damping mount B621 to keep pressing against the through groove B141. The side of the unlocking lever B510 is pressed against the friction plate B630, thereby damping the rotation of the unlocking lever B510. This design can prevent the malfunction of the unlocking lever B510 on the one hand, and also ensures that the unlocking lever B510 can be rotated at any time to unlock on the other hand.

Preferably, a spring piece and a friction piece are respectively installed at two maximum displacement points of the rotation of the unlocking lever B510. This design can make unlocking lever B510 rotate and be locked when reaching the maximum displacement point to the dismouting of electric box of being convenient for greatly.

More preferably, the friction plate B630 is provided with a friction guiding surface B631, and the friction guiding surface B631 is used for guiding the unlocking lever B510 to press against the end surface of the friction plate B630 so as to lock the unlocking lever B510.

Referring to fig. 2-18, the mechanical box a includes a mechanical box body a110, a locking groove block a120, a mounting fixture block a130 and a watchcase a140 are respectively mounted on the mechanical box body a110, a locking groove a121 is disposed inside the locking groove block a120, and the locking groove a121 is assembled in a clamping manner with the locking block mounted on the electrical box B; an installation clamping groove A131 is formed in the inner side of the installation clamping block A130, and the installation clamping groove A131 is assembled with a box body clamping end B111 on the electric box B in a clamping mode.

The inside of the watchcase A140 is a hollow watch cavity A141, an indicating ring A250 is arranged in the watch cavity A141, a scale is arranged on the indicating ring A250, the scale corresponds to a pointer A261, the reading can be read, the pointer A261 is arranged on a pointer ring A260, the pointer ring A260 is arranged on an indicating shaft A620 in a non-circular rotation mode, one end of the indicating shaft A620 penetrates out of the watchcase A140 and then is assembled with an indicating gear A521 and a shaft seat A150 in a circular rotation mode sequentially, and the shaft seat A150 is arranged on a mechanical box body A110. The top of the watch cavity A141 is sealed by the transparent plate A310, and the transparent plate A310 is in a transparent state and is arranged on the watch case A140, so that the watch cavity A141 can be sealed, and the scales and pointers in the watch cavity A141 are not influenced.

The indication gear A521 is in meshed transmission with the indication rack A522, the indication rack A522 is mounted on the sliding seat A160, the sliding seat A160 is further provided with a sliding rail A161, a shaft plate A162, a pull rope seat A163 and a hinge plate A164 respectively, the sliding rail A161 is clamped with a sliding rail groove A171 and can be assembled in a sliding mode, the sliding rail groove A171 is formed in the base A170, the shaft plate A162 is assembled with one end of a guide shaft A641, the other end of the guide shaft A641 is mounted in a guide pipe A642 and can be assembled in an axial sliding mode with the guide pipe A642, the guide pipe A642 is mounted on a pipe seat A172, and the pipe seat A172 and the base A170 are mounted in a mechanical box A110. The guide shaft a641 and the guide tube a642 are sleeved with a slide spring a710 at a part between the slide rail a161 and the tube seat a172, and the slide spring a710 is used for applying elastic force to the slide a160 for preventing the slide a from sliding towards the tube seat a 172.

The pull rope seat A163 is assembled with the pressing seat A165, and the pull rope 120 is slidably assembled with the pressing seat A165 and the pull rope seat A163; the hinge plate A164 is hinged with the middle part of the rope plate A220 through a hinge pin A630, and one end of the rope plate A220 is pressed on the pull rope 120 and the pull rope seat A163, so that the pull rope is clamped; the other end of the rope plate A220 is provided with a trigger lug A230; one end of the trigger bump a230 installed on the rope plate a220 is assembled with one end of the U-shaped spring a740, the other end of the U-shaped spring a740 is installed on the base a170, the U-shaped spring a740 has elasticity, the U-shaped spring a740 drives the rope plate a220 to press towards the pull rope through self-generated elasticity to lock the pull rope in an initial state, and when the pull rope is required to be pulled, only the rope plate a220 needs to be pressed to be located at one end of the U-shaped spring a740, so that the rope plate a220 does not press the pull rope 120 any more.

One end of the pull rope 120 is assembled and wound with the winding wheel A510, the winding wheel A510 is assembled with the sliding seat A160 in a circumferential rotation way through the winding wheel shaft A610, and the length of the pull rope can be adjusted by receiving and transmitting the pull rope through the winding wheel during use. The other end of the pull rope 120 passes through the connecting pipe A210 and then enters the rope pipe 110, and finally is directly or indirectly connected with the memory spring on the probe assembly. The connecting pipe A210 is arranged on the mechanical box body A110, and the connecting pipe A210 and the rope pipe 110 are fixedly connected through the connecting sleeve 140. When the temperature sensor is used, the memory spring is contracted, so that the pull rope is pulled to move, the pull rope pulls the sliding seat A160 to overcome the elastic force of the sliding seat spring to move, the indication rack is driven to move, the indication rack A522 drives the indication gear A521 to rotate, the pointer is driven to rotate, and the current body temperature of a user can be roughly judged by combining the angle of the pointer with the scale. The design is purely mechanical, does not need a power supply, has no higher waterproof requirement, is suitable for clothes to be washed, and can be approximately known about the body temperature even if no electric box is arranged in the outdoor long-time operation or wearing, so that a wearer can be approximately known about the health state of the wearer.

Preferably, a wire 130 is further installed in the rope tube 110 or outside the rope tube 110, one end of the wire 130 is electrically connected with the signal end of the probe C410, and the other end is directly or indirectly electrically connected with the access end of the movable joint a 820. In this embodiment, the conductive wire 130 is electrically connected to the connection wire a241 through the plug a240, the connection wire a241 is electrically connected to the access end of the movable connector a820, the plug a240 is mounted on the mechanical box a110, and the plug a240 is preferably molded with resin, so that the waterproof performance is high.

Preferably, a micro switch a810 is further installed in the mechanical box body a110, a trigger end of the micro switch a810 is opposite to the micro spring piece a720, the micro spring piece a720 is installed in the mechanical box body a110 and has elasticity, a guide arc surface a721 is provided on the micro spring piece a720, and the guide arc surface a721 is used for being matched with the trigger bump a230 to trigger the micro switch a810. The signal end of the micro switch A810 is electrically connected with the access end of the movable connector A820, so that signals are input into the main control chip through the movable connector A820.

In the initial state, the micro-motion elastic sheet A720 does not trigger the micro-motion switch A810, once the memory spring is contracted, the sliding seat A160 is pulled back to move until the trigger projection A230 is gradually compressed with the micro-motion elastic sheet A720 through the guide cambered surface A721, at the moment, the micro-motion elastic sheet A720 elastically deforms to touch the micro-motion switch, and the micro-motion switch sends a signal to the main control chip, so that the main control chip is awakened to detect the temperature by adopting the probe, the temperature accuracy detected by the probe is far higher than the accuracy detected by the pointer and the scale, at the moment, the body temperature can be obtained more accurately, and more accurate data reference is provided for the follow-up evaluation of the physical condition.

Preferably, the movable joint A820 realizes sealing and expansion and contraction through a joint assembly, the joint assembly comprises a joint groove A1121, a bottom groove A1111, a first sealing door A410 and a second sealing door A420, the joint groove A1121 and the bottom groove A1111 are respectively arranged on a vertical plate A112 and a horizontal plate A111, and the vertical plate A112 and the horizontal plate A111 are respectively arranged on a mechanical box body A110; the movable connector a820 can pass through the connector slot a1121 and press against the fixed connector B240 for electrical conduction.

The movable joint A820 is assembled with one end of the joint optical axis A660, the other end of the joint optical axis A660 is sleeved with a joint spring A750, then penetrates out of the joint pressing seat A440 and can be axially and slidably assembled with the joint pressing seat A, and the joint spring A750 is used for applying elastic force for preventing the movable joint A820 from moving towards the joint pressing seat A440. The joint pressing seat A440 is sleeved on the joint screw rod A652 and screwed with the joint screw rod A652, the joint screw rod A652 and the door frame A180 and the support plate A113 can rotate circumferentially and can not move axially to be assembled, and the door frame A180 and the support plate A113 are both installed in the mechanical box body A110. The joint screw rod A652 is connected with the follow-up shaft A651 through a belt A540 and forms a belt transmission mechanism, the follow-up shaft A651 is respectively assembled with the support plate A113 and the follow-up block A114 in a circumferential rotation mode, and the follow-up block A114 is arranged on the mechanical box body A110. The follow-up shaft A651 is sleeved with a follow-up gear A531, the follow-up gear A531 is in meshed transmission with a follow-up rack A532, and the follow-up rack A532 is assembled with the second sealing door A420 or the door seat A430.

The second sealing door A420 and the first sealing door A410 are both installed on the door seat A430, the second sealing door A420 and the first sealing door A410 are respectively positioned at two end surfaces of the joint groove A1121 formed in the transverse plate A111, the first sealing door A410 penetrates through the bottom groove A1111 and is engaged with the bottom groove A1111 in a sliding assembly manner, and the top of the first sealing door A410 penetrates out of the transverse plate A111; the movable joint A820, the second sealing door A420, the first sealing door A410 and the door seat A430 are respectively provided with a joint sealing ring A330, a first door sealing ring A350, a second door sealing ring A340 and a door seat sealing ring A320, and the joint sealing ring A330 is used for being tightly pressed between the movable joint A820 and the fixed joint B240, so that the sealing between the movable joint A820 and the fixed joint B240 is realized. The first door gasket a350 is compressed between the riser a112 and the first sealing door a410, thereby sealing the side of the joint groove a1121 facing the first sealing door a 410. The second door gasket a340 is compressed between the second sealing door a420 and the riser a112, thereby sealing the side of the joint groove a1121 facing the second sealing door a 420. The seat seal a320 is pressed between the cross plate a111 and the seat a430, thereby sealing the bottom groove a 1111.

The both sides of second sealing door A420 are blocked respectively and are packed into in door pocket A181, and door pocket A181 sets up in door frame A180, door frame A180 is located and connects the upper and lower both ends face department that presses seat A440 and still installs a seat clamping plate A182 respectively, connect seat A440 and seat clamping plate A182 block and slidable assembly. The door seat A430 is assembled with one end of the door lock spring A730, the other end of the door seat spring A730 is assembled with the mechanical box body A110, and the door seat spring A730 is used for applying upward jacking thrust to the door seat A430, so that the joint assembly is in the state of fig. 6 in the initial state, and the movable joint is positioned on one side of the second sealing door A420, close to the support plate A113, so that the movable joint has better waterproof sealing performance.

Fig. 6 shows an initial state of the connector assembly, and fig. 7 shows a state of the connector assembly after the electrical box is mounted. In the process that the electric box B is arranged in the mechanical box A, the bottom of the electric box B is firstly pressed with the top of the first sealing door A410, then the electric box B pushes the first sealing door A410 to move downwards against the elasticity of the door seat spring A730 until the locking block B520 is clamped into the locking groove A121, the assembly of the electric box and the mechanical box is completed, in the process, the joint rack B532 moves downwards along with the door seat A430 to drive the follow-up shaft A651 to rotate, the follow-up shaft A651 drives the joint screw A652 to rotate, and the joint screw A652 drives the joint pressing seat A440 to move towards the joint groove A1121; when the first sealing door a410 moves down to a general displacement amount, the first sealing door a410 and the second sealing door a420 are not in the shielding joint groove a1121, then the joint pressing seat a440 drives the movable joint a820 to gradually penetrate out of the joint groove a1121 along with the continuous downward movement of the door seat a430 and to gradually compress the movable joint a820 with the fixed joint B240 until the locking block B520 is blocked in the locking groove, and the first sealing door moves down to a maximum displacement point. At this time, the joint pressing seat a440 presses the joint spring a750, so that the movable joint a820 is stably pressed against the fixed joint under the action of spring force, thereby ensuring good contact conductivity between the movable joint a820 and the fixed joint B240, which is in the state of fig. 7 at this time. In the process of disassembling the electric box, the door lock spring A730 drives the door seat A730 to reset gradually, so that the movable joint is locked in the mechanical box first, and then the first sealing door and the second sealing door reset to seal the joint groove A1121 and the door seat reset and seal the bottom groove A1111. At the moment the locking piece exits the locking groove, the elastic thrust of the first sealing door A410 to the time of the electric box through the door seat spring A730 can enable the locking piece to rapidly move upwards so as to be misplaced with the locking groove, so that the locking piece is convenient to detach.

Referring to fig. 22-23, the probe assembly includes a probe housing C110, a probe tube C120, and a probe C410, wherein the probe tube C120 and the probe C410 are both installed in the probe housing C110, and a gap between the probe housing C110 and the probe tube C120 and the probe C410 is filled with a heat conductive material C210, which may be heat conductive cotton, heat conductive sponge, heat conductive silica gel, or the like. The probe C410 is used for detecting the body temperature signal, and the probe of the existing temperature sensor or the electronic thermometer can be directly used in the embodiment.

The probe tube C120 is internally provided with a hollow tube cavity C121, the tube cavity C121 is clamped with the piston C510 and can be assembled in a sliding manner, two end faces of the piston C510 are respectively assembled with one end of the memory spring C310 and the traction seat C520, and the other end of the memory spring C310 is assembled with the closed end of the tube cavity C121. In the embodiment, the deformation of the memory spring is shortened in the temperature range of 20-40 ℃, so that the piston and the traction seat can be driven to synchronously move. Specifically, the memory spring can be made of nickel-titanium alloy with the brand TiNi-01.

The traction seat C520 is provided with a traction rod C521, the traction rod C521 is arranged in the extension hole C131 and can be axially and slidably assembled with the extension hole C131, the extension hole C131 is arranged in the extension tube C130, and the extension tube C130 is arranged on the probe tube C120; the traction rod C521 is further provided with a screwing part C522, the screwing part C522 and a threaded sleeve C820 are assembled in a screwing mode through screw threads, the threaded sleeve C820 is sleeved on the rope plug C810 and assembled in a circumferential rotation mode, the rope plug C810 is fixed on the pull rope 120, and therefore the memory spring C310 is indirectly connected with the pull rope 120. The sleeve C820 may be received in the extension hole C131 and axially slidably fitted thereto.

The pull rope 120 passes through the connecting cap C610 and then enters the rope tube 110, the rope tube 110 is fixed with the connecting cap C610, and the pull rope 120 and the connecting cap can be assembled in a sliding way. The connection cap C610 is assembled with the probe housing C110 directly or indirectly. The probe C410 is electrically connected with the fixed contact C421 through a probe wire C411, the fixed contact C421 is arranged on the extension tube C130 and is in contact conduction with the movable contact C421, the movable contact C421 is arranged on the connecting cap C610 and the movable contact C421 is electrically connected with the lead 130 through a data wire C430, so that the probe is electrically connected with the movable joint. When the threaded sleeve C820 is connected with the screwing part C522, the pull rope is directly pulled out, and then the threaded sleeve C820 is screwed on the screwing part C522 until the threaded sleeve C is screwed, so that the connection is very convenient.

Preferably, the probe shell C110 is further provided with an inner tube C150 and an outer tube C140, an insertion hole C141 is formed between the inner tube C150 and the outer tube C140, a sealing pad C720 is installed in the insertion hole C141, the connection cap C610 is inserted into the insertion hole C141, and an end face of the connection cap C610 is tightly pressed against the sealing pad C720 to seal the connection cap C610 and the insertion hole C141. More preferably, the connection cap C610 is sleeved with a sealing ring C710, and the sealing ring C710 seals the outer tube C140 and the connection cap C610 by pressing the outer tube C140 and the connection cap C610.

Preferably, a cap hole C611 and a ring groove C612 are respectively provided on the inner side of the connection cap C610, the cap hole C611 is covered outside the pull rope 120 and the data line C430, the ring groove C612 is assembled with the fastening head C640 in a clamping manner, the fastening head C640 is provided on one end of the fastening piece C630, the other end of the fastening piece C630 is mounted on the fastening ring C620, the fastening ring C620 is sleeved on the inner tube C150, the fastening piece C630 has elasticity, and the fastening piece is fastened in the ring groove by means of the elastic retaining fastening head C640, so that the connection cap C610 is fixedly assembled with the probe shell C110 in the length direction of the pull rope. When the connection cap C610 needs to be pulled out of the plugging hole C141, only enough pulling force needs to be applied to the connection cap C610, so that the fastening head is broken. Then the new parts that snap ring, buckle piece, buckle head are constituteed can be replaced, it is very convenient, and this kind of mode can prevent effectively that the connecting cap from separating with the probe shell in the use, causes trouble or intakes. In this embodiment, the probe is preferably mounted on the clothing of the armpit, and the mechanical box is preferably mounted on the clothing of the small arm, thereby facilitating the use and improving the detection accuracy. The rope tube 110 and the pull rope 120 are made of soft inelastic materials, so that the design can meet the wearing comfort, and the contraction amount of the memory spring can be ensured to be relatively accurate to the displacement amount of the pull rope pulled, so that the indication precision of the pointer is improved. And the pulling of the slide a160 may be generated when the pull rope 120 is bent, so that the detection precision of the memory spring is affected. The embodiment can select a detected positioning gesture when in use, such as bending of a small arm and fist making of a palm, pasting the small arm and the fist on the chest, anchoring the zero point of the pointer and the scale, and then penetrating the position of the pointer and the scale through the action when in subsequent use, thereby greatly reducing the traction influence of bending of a pull rope on the sliding seat and improving the precision. The way can anchor different actions of different people, such as making corresponding actions after opening the mechanical box; then the rope plate A220 is pressed, so that the rope plate A220 releases the locking of the pull rope, the pull rope is retracted and released through the reel A510, the pointer is enabled to be zero, and then the rope plate is released to restore the locking of the pull rope.

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

The foregoing describes in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the invention by one of ordinary skill in the art without undue burden. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by the person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims (10)

1. A memory spring based temperature sensing garment comprising: the probe assembly is fixed on clothes, a memory spring is arranged in the probe assembly, the memory spring is directly or indirectly connected with the pull rope, and the memory spring is elastically deformed by taking the body temperature as energy; the mechanical box is arranged on clothes and comprises a mechanical box body, a watchcase is arranged on the mechanical box body, a hollow meter cavity is formed in the inner side of the watchcase, an indication ring is arranged in the meter cavity, scales are arranged on the indication ring, the scales correspond to pointers, the readings can be read, the pointers are arranged on the pointer ring, the pointer ring is arranged on an indication shaft in a non-circumferential rotation mode, one end of the indication shaft penetrates through the watchcase and then is assembled with an indication gear and a shaft seat in a circumferential rotation mode, and the shaft seat is arranged on the mechanical box body; the indicating gear is meshed with the indicating rack for transmission, the indicating rack is arranged on the sliding seat, the sliding seat is clamped and assembled with the pull rope, and the memory spring drives the pull rope to displace when stretching out and drawing back so as to drive the sliding seat and the indicating rack to move; the pointer corresponds to the scale on the indicating ring to read out the body temperature value or the expansion amount corresponding to the current memory spring.

2. The thermometric garment of claim 1, further comprising an electrical box for acquiring signals from the probe and resolving the signals into temperature values for final display on a touch screen for operator viewing; the probe is arranged in the probe assembly; the electric box comprises an electric box body, wherein a touch screen, a circuit board, a battery, a fixed connector and a wake-up switch are respectively arranged on the electric box body, and the circuit board is respectively provided with: the temperature measuring circuit, the charging circuit, the main control chip and the flash memory are connected with the signal of the probe directly or indirectly, so that the signal detected by the probe can be input into the main control chip after being analyzed by the temperature measuring circuit, and the main control chip displays the corresponding body temperature value and picture on the touch screen through a built-in program; the main control chip is respectively in communication connection with a signal end of the touch screen, an output end of the temperature measuring circuit, a signal end of the flash memory and a signal end of the wake-up switch, and the wake-up switch sends a wake-up instruction to the main control chip after being triggered; the fixed connector is used for pressing and conducting with the movable connector on the mechanical box so as to be electrically connected with the signal end of the probe and the signal end of the micro switch, and the micro switch sends a wake-up instruction to the main control chip when triggered so as to wake up the main control chip to monitor the body temperature; the electric box body is also provided with an indicator light board, and the circuit board is also provided with an indicator light circuit which is used for driving the indicator light so as to control the working state of the indicator light; the pilot lamp is installed on the pilot lamp plate, and the control end of pilot lamp circuit is connected with main control chip's signal end communication.

3. The temperature-measuring garment as claimed in claim 2, wherein a lock case is further installed on both sides of the electrical box body, an unlocking through groove and a lock case groove are respectively provided on the lock case, a lock block is installed in the lock case groove in a clamping manner and can slide, one end of the lock block is pressed or assembled with one end of the lock block spring, the other end of the lock block spring is pressed with the inner wall of the lock case groove, and the lock block spring is used for applying elastic force pushing the lock block to the outside of the lock case groove; the second lock pin is arranged on the lock block, the second lock pin is arranged in an unlocking groove and is clamped with the unlocking groove in a sliding manner, the unlocking groove is arranged on the unlocking rod, the middle part of the unlocking rod is hinged with the lock box through the second lock pin, and one end of the unlocking rod, which is far away from the locking groove, penetrates out of the unlocking through groove and is clamped with the unlocking through groove in a sliding manner; the other end of the locking piece is arranged in a locking groove of the mechanical box and is tightly clamped with the locking groove; and the electric box body is also provided with a box body clamping end, and the box body clamping end is clamped into an installation clamping groove of the mechanical box.

4. The temperature measurement garment of claim 3, wherein damping mounting plates are further arranged at two ends of the electric box body and correspond to the unlocking rod, a damping box is arranged on the damping mounting plates, a penetrating groove is formed in one side, facing the unlocking rod, of the damping box, a spring piece is further arranged in the damping box, a damping seat is arranged on the spring piece, a friction plate is arranged on the damping seat, and the end face of the friction plate penetrates through the penetrating groove; the friction plate is made of soft high friction coefficient material; the side surface of the unlocking rod is tightly pressed with the friction plate, so that the rotation of the unlocking rod is damped.

5. The temperature-measuring garment of claim 1, wherein the slide base is further provided with a slide rail and a pull rope seat respectively, the slide rail is clamped with the slide rail groove and can be assembled in a sliding manner, the slide rail groove is arranged on the base, the pull rope seat is assembled with the pressing seat, and the pull rope is assembled with the pressing seat and the pull rope seat in a sliding manner; one end of the pull rope is assembled and wound with a winding wheel, and the winding wheel can be assembled with the sliding seat in a circumferential rotation way through a winding wheel shaft; the other end of the pull rope passes through the connecting pipe and then enters the rope pipe, and is finally directly or indirectly connected with the memory spring on the probe assembly; the connecting pipe is arranged on the mechanical box body, and the connecting pipe is fixedly connected with the rope pipe through a connecting sleeve; a wire is also arranged in or outside the rope tube, one end of the wire is electrically connected with the signal end of the probe, and the other end of the wire is directly or indirectly electrically connected with the access end of the movable joint; the sliding seat is also provided with a hinged plate, the hinged plate is hinged with the middle part of the rope plate through a hinge pin, and one end of the rope plate is tightly pressed on the stay rope and the stay rope seat, so that the stay rope is clamped; the other end of the rope plate is assembled with one end of a U-shaped spring, the other end of the U-shaped spring is arranged on the base, the U-shaped spring has elasticity, and the U-shaped spring drives the rope plate to compress the pull rope through self-generated elasticity to lock the pull rope in an initial state.

6. The temperature-measuring garment as set forth in claim 5, wherein the slide is further provided with a shaft plate, the shaft plate is assembled with one end of a guide shaft, the other end of the guide shaft is installed in a guide tube and can be axially and slidably assembled with the guide tube, the guide tube is installed on a tube seat, and the tube seat and the base are installed in a mechanical box; and the part of the guide shaft and the guide tube, which is positioned between the slide rail and the tube seat, is sleeved with a slide seat spring, and the slide seat spring is used for applying elastic force for preventing the slide seat from sliding towards the tube seat.

7. The temperature measurement garment according to claim 5, wherein the rope plate is further provided with a trigger lug, the mechanical box body is further provided with a micro switch, a trigger end of the micro switch is opposite to the micro elastic piece, the micro elastic piece is arranged in the mechanical box body and has elasticity, and the micro elastic piece is provided with a guide cambered surface which is used for being matched with the trigger lug to trigger the micro switch; the signal end of the micro switch is electrically connected with the access end of the movable joint, so that signals are input into the main control chip through the movable joint.

8. The temperature measurement garment of any one of claims 2-7, wherein the movable joint is sealed and telescopic through a joint assembly, the joint assembly comprises a joint groove, a bottom groove, a first sealing door and a second sealing door, the joint groove and the bottom groove are respectively arranged on a vertical plate and a horizontal plate, and the vertical plate and the horizontal plate are both arranged on a mechanical box body; the movable joint can penetrate out of the joint groove and is pressed with the fixed joint to conduct electricity; the movable joint is directly or indirectly assembled with a joint pressing seat, the joint pressing seat is sleeved on a joint screw rod and screwed with the joint screw rod through threads, the joint screw rod can be assembled with a door frame and a support plate in a circumferential rotation and axial movement manner respectively, and the door frame and the support plate are both arranged in a mechanical box body; the joint screw rod is connected with the follow-up shaft through a belt and forms a belt transmission mechanism, the follow-up shaft is respectively assembled with the support plate and the follow-up block in a circumferential rotation way, and the follow-up block is arranged on the mechanical box body; the follow-up shaft is sleeved with a follow-up gear, the follow-up gear is meshed with a follow-up rack for transmission, and the follow-up rack is assembled with a second sealing door or a door seat; the second sealing door and the first sealing door are respectively arranged on the door seat, the second sealing door and the first sealing door are respectively positioned at two end surfaces of the joint groove arranged on the transverse plate, the first sealing door penetrates through the bottom groove and is clamped with the bottom groove and can be assembled in a sliding manner, and the top of the first sealing door penetrates out of the transverse plate; the door seat is assembled with one end of the door lock spring, the other end of the door seat spring is assembled with the mechanical box body, and the door seat spring is used for applying upward jacking thrust to the door seat; the both sides of second sealing door block respectively into the door pocket, and the door pocket sets up in the door frame, the door frame is located the upper and lower both ends face department that connects the seat of pressing and still installs a seat pressing splint respectively, connect the seat of pressing and press seat splint block and slidable assembly.

9. The thermometric garment of any one of claims 1 to 7, wherein the probe assembly comprises a probe housing, a probe tube, a probe, both of which are mounted within the probe housing, the probe for detecting the body temperature signal; the probe tube is internally provided with a hollow tube cavity, the tube cavity is clamped with the piston and can be assembled in a sliding way, two end faces of the piston are respectively assembled with one end of the memory spring and the traction seat, and the other end of the memory spring is assembled with the closed end of the tube cavity; the traction seat is provided with a traction rod which is arranged in the extension hole and can be axially and slidably assembled with the extension hole, the extension hole is arranged in the extension tube, and the extension tube is arranged on the probe tube; the traction rod is also provided with a screwing part, the screwing part and the threaded sleeve are assembled in a screwing way through threads, the threaded sleeve is sleeved on the rope plug and is assembled in a circumferential rotation way, the rope plug is fixed on the pull rope, and the threaded sleeve can be installed in the extension hole and can be assembled in an axial sliding way.

10. The probe assembly of claim 9, wherein the pull cord passes through the connector cap and then enters the cord tube, the cord tube is fixed to the connector cap, and the pull cord is slidably assembled with the connector cap; the connecting cap is directly or indirectly assembled with the probe shell; the probe is electrically connected with the fixed contact through a probe wire, the fixed contact is arranged on the extension tube and is in contact conduction with the movable contact, the movable contact is arranged on the connecting cap and is electrically connected with the lead through a data wire, so that the probe is electrically connected with the movable joint; the probe shell is also respectively provided with an inner pipe and an outer pipe, a plug hole is formed between the inner pipe and the outer pipe, a sealing gasket is arranged in the plug hole, the connecting cap is inserted into the plug hole, and the end face of the connecting cap is tightly pressed with the sealing gasket so as to realize the sealing between the connecting cap and the plug hole; the connecting cap is characterized in that a cap hole and an annular groove are formed in the inner side of the connecting cap respectively, the cap hole is covered outside the pull rope and the data line, the annular groove is assembled with the buckle head in a clamping mode, the buckle head is arranged at one end of the buckle piece, the other end of the buckle piece is arranged on the buckle ring, the buckle ring is sleeved on the inner tube, and the buckle piece is elastic and is clamped in the annular groove through the elastic retaining buckle head.