CN211794376U - Self-adaptive controllable heat-preservation underwear - Google Patents

Abstract

The application discloses a self-adaptive controllable heat-preservation underwear, which comprises an underwear, a heating module and a power supply module, wherein the heat-preservation underwear comprises a controller, the controller comprises an environment monitoring module, a clock module and a visual operation module, and the controller is arranged at cuffs of the underwear; the infrared sensor is arranged at the back of the underwear, the temperature sensor is arranged in the underwear and the heating module, the environment temperature sensor is arranged at the cuff, and the environment monitoring module is in electric signal connection with the environment temperature sensor, the underwear temperature sensor and the infrared sensor; the heating module is arranged at the back and the chest of the underwear, and the environment monitoring module is in electric signal connection with the controller. The utility model discloses a set up different temperature sensor, real-time detection external environment temperature, inside clothes real-time temperature and heating temperature reach required temperature through the controller and then control the soft strip of electric heating carbon fiber, improve cold-proof underwear's travelling comfort when reducing the consumption.

Description

Self-adaptive controllable heat-preservation underwear

Technical Field

The utility model relates to a heating thermal underwear field, in particular to controllable heat preservation underwear of self-adaptation.

Background

In cold winter, particularly in northern China, the outdoor temperature is extremely low, and a plurality of outdoor workers and outdoor sport enthusiasts need to be heavily dressed to keep out cold, so that the effect of keeping warm can be achieved, the flexibility of limbs can be affected, the working efficiency of the outdoor workers is reduced, and the common thermal underwear cannot ensure the thermal effect in cold environment; in the face of various severe and complex cold working environments, thermal underwear integrating lightness, thinness, comfort and good thermal insulation effect is very important for outdoor workers.

The existing heating thermal underwear mainly comprises an electric heating underwear, wherein a rechargeable battery, a heating element and a control switch are arranged in the electric heating underwear, and the control switch controls the rechargeable battery to further control the heating element to work; heating wires are arranged in the heating elements and are sewn on underwear through two pieces of cloth, so that the heating purpose is achieved. However, the existing electric heating underwear has the advantages of simple structure, poor comfort, incapability of realizing real-time monitoring and temperature adjustment of internal and external temperatures, single detection means of a heating device, and easy overheating, thereby generating certain influence on the safety of users.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a controllable heat preservation underwear of self-adaptation to realize the real-time supervision and the adaptive control to inside and outside temperature, improve security and the travelling comfort that heating heat preservation underwear wore.

The utility model provides a controllable heat preservation underwear of self-adaptation, includes underwear, the module of generating heat and power module, its characterized in that: the thermal insulation underwear comprises a controller, wherein the controller comprises an environment monitoring module, a clock module and a visual operation module, and is arranged at the cuffs of the underwear; the environment monitoring module is composed of an environment temperature sensor, an underwear temperature sensor and an infrared sensor, the infrared sensor is arranged on the back of underwear, the underwear temperature sensor is arranged in the underwear and the heating module, the environment temperature sensor is arranged at the cuff, and the environment monitoring module is in electric signal connection with the environment temperature sensor, the underwear temperature sensor and the infrared sensor; the heating module is arranged at the back and the chest of the underwear, the environment monitoring module is in electric signal connection with the controller, the controller is in electric signal connection with the power module, and the power module is in electric signal connection with the heating module. The environment monitoring module transmits the acquired various temperature information to the controller so as to control the working temperature of the heating module, thereby realizing the self-adaption controllability of the temperature of the thermal underwear.

Furthermore, the environment monitoring module, the clock module and the visual operation module are arranged in the controller in a built-in mode, the controller is in data connection with the environment monitoring module, the clock module and the visual operation module, and the environment monitoring module acquires three kinds of temperature information and transmits the temperature information to the controller through a data line.

The environment monitoring module transmits a data signal acquired by the sensor to the controller, the controller processes and analyzes the data signal acquired by the sensor to generate a control signal, the control signal is transmitted to the clock module and the visual operation module through the data line, the clock module and the visual operation module generate a new control signal and transmit the new control signal to the power supply module, and the power supply module receives the control signal and then adjusts the power of the heating module.

Further, infrared sensor sets up in the center department of underwear back, is responsible for gathering the heat source signal of underwear, and the heat source signal that infrared sensor gathered sends the environment monitoring module to through the data line, and the environment monitoring module sends the controller to through the data line.

The infrared sensor collects heat source signals of the underwear, the state information of the underwear is judged according to whether a heat source exists or not, the state information of the underwear reflects the wearing state of a user, when the infrared sensor detects the heat source signals, the underwear represents that the underwear is in a wearing use state, the infrared sensor sends the obtained wearing use state information to the controller, the controller sends control signals to the power supply module, and the power supply module receives the control signals and controls the power supply module to be electrified so that the heating module is in a working state; when the infrared sensor does not detect the heat source signal, the underwear is in an idle state, the infrared sensor sends the acquired idle state information to the controller, the controller sends a control signal to the power module, and the power module receives the control signal and controls the power module to be powered off so that the heating module is in a standby state.

Further, underwear temperature sensor sets up in the belly of underwear, the back, in the chest and the module that generates heat, underwear temperature sensor is responsible for gathering the temperature information of the different positions department of underwear, set up in the abdominal temperature sensor of underwear and gather the temperature of belly region, set up in the regional temperature of the temperature sensor collection chest of underwear chest, set up in the regional temperature of the back of the temperature sensor collection of underwear back, the temperature information of the module that generates heat is gathered to the temperature sensor who sets up in the module that generates heat of underwear, the temperature information that underwear temperature sensor gathered sends the environmental monitoring module to through the data line.

The underwear temperature sensor acquires temperature information of different positions of underwear and temperature information of the heating module, the temperature information of different positions of the underwear reflects the temperature of different parts of the current underwear, the temperature information of the heating module reflects the current heating temperature of the heating module, when the temperature of a certain position of the underwear acquired by the temperature sensor is low, the underwear temperature sensor transmits the acquired underwear temperature information and the acquired temperature information of the heating module to the controller, the controller sends a control signal to the power supply module, the power supply module receives the control signal to adjust the corresponding heating module, and the output power of the heating module is increased; when the temperature of the underwear at a certain position acquired by the temperature sensor is too high, the underwear temperature sensor transmits acquired underwear temperature information and temperature information of the heating module to the controller, the controller sends a control signal to the power supply module, the power supply module receives the control signal to adjust the corresponding heating module, and the output power of the heating module is reduced; when the temperature sensor acquires that the temperature of the heating module is abnormal, the temperature sensor transmits the acquired abnormal temperature information of the heating module to the controller, the controller sends a control signal to the power supply module, and the power supply module receives the control signal to cut off the power supply of the heating module, so that the monitoring and protecting functions are achieved.

Furthermore, the surfaces of the collar and/or the left and right cuffs of the underwear, which are provided with the environment temperature sensors, are responsible for collecting the outside temperature, and the outdoor environment temperature collected by the environment temperature sensors is transmitted to the environment monitoring module through a data line and then transmitted to the comparator in the controller.

The environment temperature sensor acquires temperature information of an external environment, the temperature information of the external environment reflects the current outdoor environment temperature, the environment temperature sensor transmits the acquired external environment temperature information to the controller through a data line, a comparator in the controller compares the received external environment temperature information with the internal temperature information of different positions, if the external environment temperature is too low, a control signal generated by comparison of the controller is transmitted to the power supply module, and the power supply module receives the control signal and controls the power supply module to increase the output power; if the external environment temperature is too high, the control signal generated by the controller is transmitted to the power supply module, and the power supply module receives the control signal and controls the power supply module to reduce the output power.

Furthermore, a visual operation module is integrated in the controller and consists of a control panel and a touch screen, the touch screen displays temperature, time and temperature control modes, current and past temperature and state information is transmitted to a user through screen display, and the user sets heating temperature, warm keeping temperature, heating module timing and temperature control modes through the touch screen.

Further, the visual operation module is a wrist strap type module, the module is arranged at the left cuff or the right cuff of the underwear, the visual operation module is integrated in the controller, and the visual operation module is connected with the controller through a data line.

Furthermore, a clock module is arranged in the controller and is in data connection with the controller, and a user sets a heat preservation time interval and/or selects a specific time point to automatically preserve heat through the clock module.

Further, the heating module sets up in the back department of underwear, the right side thorax department of underwear and the left side thorax department of underwear, and the heating module includes the soft strip of the polylith electric heat carbon fiber of embedded at heat preservation underwear, and the soft strip of electric heat carbon fiber is provided with underwear temperature sensor, and the underwear temperature sensor on the soft strip of electric heat carbon fiber connects the real-time heating temperature of common feedback on a bus.

The utility model has the advantages that:

1. through setting up different temperature sensor, can real-time detection external environment temperature, inside clothes real-time temperature and heating temperature, and then control the soft strip of electric heat carbon fiber through the controller and reach required temperature.

2. Realize the control to human user state and to the switch of clothes heating module through infrared sensor, reduce the use loss when improving user safety in utilization.

3. The human-computer interaction function is realized through the touch screen module, the temperature regulation of a user is improved, the power consumption is reduced, and the comfort of the thermal underwear is improved.

Drawings

Fig. 1 is a schematic structural diagram of an adaptive controllable heat-preservation underwear.

Fig. 2 is a control structure block diagram of the self-adaptive controllable heat-preservation underwear.

The labels in the figure are: a fast heating soft strip 1 and a wrist strap type control panel 2.

Detailed Description

As an implementation mode, as shown in fig. 1, the structure of the thermal insulation underwear includes a wrist strap type control panel 2 and a fast heating soft strip 1, where the fast heating soft strip 1 includes three electric heating carbon fiber soft strips embedded in the thermal insulation underwear, which are respectively an electric heating carbon fiber soft strip a, an electric heating carbon fiber soft strip B and an electric heating carbon fiber soft strip C, and each electric heating carbon fiber soft strip is provided with a corresponding underwear temperature sensor, which is respectively an underwear temperature sensor a, an underwear temperature sensor B and an underwear temperature sensor C; wherein, the electric heating carbon fiber soft strip A is placed at the back of the underwear, the electric heating carbon fiber soft strip B is placed at the right chest of the underwear, and the electric heating carbon fiber soft strip C is placed at the left chest of the underwear; the underwear temperature sensor A, the underwear temperature sensor B and the underwear temperature sensor C are connected to a bus to feed back the real-time clothing temperature together; the right cuff of the underwear is a wrist strap type control panel 2 which comprises a touch screen control panel and an environmental temperature sensor.

As an embodiment, as shown in fig. 2, the self-adaptive controllable thermal insulation underwear comprises: the underwear comprises underwear, a controller, a heating module and a power supply module, wherein the controller comprises an environment monitoring module, a clock module and a visual operation module; the environment monitoring module is by ambient temperature sensor, underwear temperature sensor and infrared sensor constitute, the data signal transmission that the environment monitoring module acquireed through the sensor transmits for the controller, the data signal generation control signal that the controller processing analysis was acquireed by the sensor, control signal transmits for clock module and visual operation module through the circuit, clock module and visual operation module generate new control signal and transmit for power module, power module receives control signal and then adjusts the power of the module that generates heat, thereby it is controllable to realize the self-adaptation to cold-proof underwear temperature.

Preferably, thereby switch on power module starts the controllable heat preservation underwear of self-adaptation, make it be in operating condition. At the moment, the infrared sensor can actively acquire the state information of whether a person wears clothes, if no person wears clothes, the infrared sensor sends the state of no person wearing clothes to the controller, the controller sends a control signal to the power module to command the power module to power off, and at the moment, the clothes can not consume any energy; if someone wears the clothes, the infrared sensor can transmit the state signal of someone wearing the clothes to the controller, and simultaneously, the underwear temperature sensor also will gather the temperature information of the soft strip that generates heat fast and transmit the temperature information to the controller, and the controller automatically regulated output after receiving underwear temperature sensor's temperature information to reduce the consumption.

Preferably, the user starts the ambient temperature sensor through the touch screen module to measure the ambient temperature in real time, so as to provide effective reference data for the user to set the underwear temperature.

Preferentially, the controllable heat preservation underwear of self-adaptation has still increased the clock module, can set for the heat preservation time interval and select the automatic heat retaining function at specific time point through the clock module user, simultaneously, the controllable heat preservation underwear of self-adaptation still dispose the touch-sensitive screen module, can show temperature, time, control by temperature change mode to the realization is direct to user's transmission data, reaches human-computer interaction's function.

Preferably, the temperature sensor can detect the external environment temperature and the internal clothes real-time temperature, the controller further controls the electric heating carbon fiber soft strips to reach the required temperature, and the infrared sensor is used for monitoring the human body and adjusting the clothes; the touch screen module realizes a human-computer interaction function so as to adjust the corresponding temperature, is widely applied to daily life and is suitable for people of all ages.

Preferably, the controller adopts STM32 embedded chip, has the advantage of low-power consumption, short delay, and the power module selects ZEC series 75-150W power, can output 5V, 12V, 15V, 24V, 28V, 48V, 110V and 220V's voltage, and has the function of antivibration, dustproof, smoke prevention.

As an implementation mode, the infrared sensor collects the state information of the underwear, the state information of the underwear reflects the wearing state of a user, the infrared sensor sends the obtained state information to the controller, the controller sends a control signal to the power supply module, and the power supply module receives the control signal and controls the power-on and power-off of the power supply module.

Preferably, the infrared sensor is a human body sensor HP-208 based on an infrared technology, belongs to an infrared pyroelectric sensor, and has the advantages of full-automatic induction, repeatable triggering, wide working voltage, low power consumption, high sensitivity and high reliability.

As an implementation mode, the underwear temperature sensor collects temperature information of underwear and temperature information of the heating module, the temperature information of the underwear reflects the current temperature of the underwear, the temperature information of the heating module reflects the current heating temperature of the heating module, the underwear temperature sensor transmits the obtained underwear temperature information and the obtained heating temperature information of the heating module to the controller, the controller sends a control signal to the power supply module, and the power supply module receives the control signal to adjust the output power of the power supply module.

Preferably, the environment temperature sensor collects temperature information of an external environment, the temperature information of the external environment reflects the current outdoor environment temperature, the environment temperature sensor transmits the acquired external environment temperature information to the controller, the controller transmits a control signal generated by comparing the acquired different temperature information to the power module, and the power module receives the control signal to control the power-on and power-off of the power module and can adjust the output power of the power module.

Preferably, the environment temperature sensor and the underwear temperature sensor both adopt STT-R platinum resistance temperature sensors, and have the advantages of high precision and good stability.

As an implementation mode, the visual operation module consists of a control panel and a touch screen, the touch screen displays temperature, time and temperature control modes, current temperature and state information is transmitted to a user through display, and the user sets heating temperature, warm keeping temperature, heating module timing and temperature control modes through the touch screen.

Preferably, the visual operation module is a wrist strap type module, the module is arranged at the cuff of the underwear, and the visual operation module is connected with the controller through wired and/or wireless Bluetooth.

Preferably, the touch screen is a 7-inch LCD four-wire resistance type touch screen, and the control KEYs are embedded FIT-KEY88/44 matrix keyboards.

As an implementation mode, the clock module is in data connection with the controller, a user can set a heat preservation time interval and select a specific time point to automatically preserve heat through the clock module, and a high-precision clock system is embedded in the clock module.

As an implementation mode, the heating module comprises a plurality of electric heating carbon fiber soft strips embedded in the heat-insulating underwear, the electric heating carbon fiber soft strips are provided with underwear temperature sensors, and the underwear temperature sensors on the electric heating carbon fiber soft strips are connected to a bus and can feed back real-time heating temperature together.

Preferably, the quick heating soft strip selects the electric heating carbon fiber as a material carrier, the electric heating carbon fiber is a non-metal solid material, the electric heating carbon fiber material is connected to a low voltage of 12-40V, and after power supply, the electric heating carbon fiber material can conduct electricity and generate heat in a very short time, so that the quick heating soft strip has the advantages of good wear resistance, static resistance, uniform heating, good far infrared radiation performance and safety in use.

Preferably, the infrared sensor is arranged at the back of the underwear, the underwear temperature sensor is arranged in the abdomen, the back and the heating module of the cotton underwear, and the environment temperature sensor is arranged at the collar; the clock module is arranged in the controller; the heating module is arranged at the back of the underwear, the right chest of the underwear and the left chest of the underwear.

The beneficial effects of the utility model reside in that: by arranging different temperature sensors, the external environment temperature, the internal clothes real-time temperature and the heating temperature can be detected in real time, and the electric heating carbon fiber soft strips are controlled to reach the required temperature through the controller; the use state of a human body and the on-off of the clothes heating module are monitored through the infrared sensor, so that the use safety of a user is improved, and the use loss is reduced; the human-computer interaction function is realized through the touch screen module, the adjustment and control of a user on the temperature are improved, the power consumption is reduced, and meanwhile, the comfort of the thermal underwear is improved.

The utility model shown and described herein may be implemented in the absence of any element, limitation, or limitations specifically disclosed herein. The terms and expressions which have been employed are used as terms of description and not of limitation, and there is no intention in the use of such terms and expressions of excluding any equivalents of the features shown and described or portions thereof, and it is recognized that various modifications are possible within the scope of the invention. It should therefore be understood that although the present invention has been specifically disclosed by various embodiments and optional features, modification and variation of the concepts herein described may be resorted to by those skilled in the art, and that such modifications and variations are considered to be within the scope of this invention as defined by the appended claims.

The contents of the articles, patents, patent applications, and all other documents and electronically available information described or cited herein are hereby incorporated by reference in their entirety to the same extent as if each individual publication was specifically and individually indicated to be incorporated by reference. Applicants reserve the right to incorporate into this application any and all materials and information from any such articles, patents, patent applications, or other documents.

Claims (9)

1. The utility model provides a controllable heat preservation underwear of self-adaptation, includes underwear, the module of generating heat and power module, its characterized in that: the thermal insulation underwear comprises a controller, wherein the controller comprises an environment monitoring module, a clock module and a visual operation module, and is arranged at the cuffs of the underwear; the environment monitoring module is composed of an environment temperature sensor, an underwear temperature sensor and an infrared sensor, the infrared sensor is arranged on the back of underwear, the underwear temperature sensor is arranged in the underwear and the heating module, the environment temperature sensor is arranged at the cuff, and the environment monitoring module is in electric signal connection with the environment temperature sensor, the underwear temperature sensor and the infrared sensor; the heating module is arranged at the back and the chest of the underwear, the environment monitoring module is in electric signal connection with the controller, the controller is in electric signal connection with the power module, and the power module is in electric signal connection with the heating module.

2. The adaptive, controlled thermal undergarment according to claim 1 further comprising: the environment monitoring module, the clock module and the visual operation module are arranged in the controller in an embedded mode, the controller is in data connection with the environment monitoring module, the clock module and the visual operation module, and the environment monitoring module acquires three kinds of temperature information and transmits the temperature information to the controller through a data line.

3. The adaptive, controlled thermal undergarment according to claim 1 further comprising: the infrared sensor is arranged at the center of the back of the underwear and is responsible for collecting heat source signals of the underwear, the heat source signals collected by the infrared sensor are transmitted to the environment monitoring module through a data line, and the environment monitoring module is transmitted to the controller through the data line.

4. The adaptive, controlled thermal undergarment according to claim 1 further comprising: underwear temperature sensor set up in the belly of underwear, the back, in the chest and the module that generates heat, underwear temperature sensor is responsible for gathering the temperature information of the different positions department of underwear, set up in the abdominal temperature sensor of underwear and gather the temperature in abdominal region, set up in the regional temperature of the temperature sensor collection chest of underwear chest, set up in the regional temperature of the temperature sensor collection back at underwear back, the temperature information of the module that generates heat is gathered to the temperature sensor who sets up in the underwear module that generates heat, the temperature information that underwear temperature sensor gathered sends the environmental monitoring module to through the data line.

5. The adaptive, controlled thermal undergarment according to claim 1 further comprising: the environment temperature sensor is arranged on the collar of the underwear or the surfaces of the left and right cuffs and is responsible for collecting the outside temperature, and the outdoor environment temperature collected by the environment temperature sensor is transmitted to the environment monitoring module through a data line and then transmitted to the comparator in the controller.

6. The adaptive, controlled thermal undergarment according to claim 1 further comprising: the visual operation module is integrated in the controller and consists of a control panel and a touch screen, the touch screen displays temperature, time and temperature control modes, current and past temperature and state information is transmitted to a user through screen display, and the user sets heating temperature, warm keeping temperature, heating module timing and temperature control modes through the touch screen.

7. An adaptive, controlled thermal undergarment according to claim 6 wherein: the visual operation module is a wrist strap type module, the module is arranged at the left cuff or the right cuff of the underwear, the visual operation module is integrated in the controller, and the visual operation module is connected with the controller through a data line.

8. The adaptive, controlled thermal undergarment according to claim 1 further comprising: the clock module is arranged in the controller and is in data connection with the controller, and a user sets a heat preservation time interval and/or selects a specific time point to automatically preserve heat through the clock module.

9. The adaptive, controlled thermal undergarment according to claim 1 further comprising: the heating module is arranged at the back of the underwear, the right chest of the underwear and the left chest of the underwear, the heating module comprises a plurality of electric heating carbon fiber soft strips embedded in the heat preservation underwear, the electric heating carbon fiber soft strips are provided with underwear temperature sensors, and the underwear temperature sensors on the electric heating carbon fiber soft strips are connected to a bus to feed back the real-time heating temperature together.

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