CN218647356U - Multi-parameter intelligent heating clothes temperature control device - Google Patents

Abstract

The utility model provides a many parameters intelligent clothing temperature control device that generates heat belongs to intelligence and dresses the dress field. The utility model is formed by buckling an upper shell and a lower shell, and rigidly connects the upper shell and the lower shell by adopting an ultrasonic welding mode, and a control panel is arranged between the upper shell and the lower shell; the magnetic suction connecting device I is connected with the conductive contact outside the upper shell, the conductive contact I on the inner side of the upper shell and the conductive contact II on the inner side of the lower shell are connected with the control panel, and the control panel is connected with the heating diaphragm and the internal temperature sensor through the conductive contact II and the magnetic suction connecting device II. The utility model discloses not only possess the temperature perception function, can provide the whole temperature control strategy, moreover can and power supply part between interconnection intercommunication. The device adopts an integrated injection molding structure, the structural strength is enhanced, the device is not easy to deform, and a built-in vibration motor can provide vibration feedback for a user; the panel adopts the design of light transmission formula hiding, and different operating condition of clear instruction.

Description

Multi-parameter intelligent heating clothes temperature control device

Technical Field

The utility model relates to a many parameters intelligent clothing temperature control device that generates heat belongs to intelligence and dresses the dress field.

Background

At present, a plurality of manufacturers are engaged in the production and manufacturing of heating clothes on the market, various wearable heating clothes and articles are widely used, the active heating characteristic can continuously generate heat under the low-temperature condition, extra heat can be provided for the body, the temperature can be kept, heat loss is prevented, the special requirements of different users are met, and the good comfort and the convenience of the majority of users are brought. But its functions are too single: (1) The heating device is only simple in heating on and off, direct operation feedback cannot be given to a user, the working temperature sensing is too rough, or the temperature sensing function is not provided, so that the experience of the user on the temperature is seriously lost; (2) Due to the defect of the temperature sensing function, the heating control is not accurate enough, the whole temperature control strategy is not available, the overtemperature or temperature failure condition is caused, and the energy is seriously wasted. There are also many irrationales in the structure: (1) switch material is mostly soft rubber, can cushion feedback (2) when pressing the switch to a certain extent because the material is black opaque or partial translucent, lead to the pilot lamp display effect poor, be difficult to all adopt the interface mode of inserting with the different operating condition (3) power supply lines of the fine differentiation of LED of different colours to connect, the problem of the difficult direction that distinguishes of ubiquitous appears the condition that can not successfully insert very easily under the condition of not going to observe.

Disclosure of Invention

The utility model aims at solving the problems existing in the prior art and further providing a multi-parameter intelligent heating clothes temperature control device.

The utility model aims at realizing through the following technical scheme:

a multi-parameter intelligent heating garment temperature control device comprises a shell, a control panel, an ambient temperature sensor, a vibration motor, an internal temperature sensor, a heating diaphragm, a magnetic suction connecting device I and a magnetic suction connecting device II;

the shell is formed by buckling an upper shell and a lower shell and is rigidly connected with the upper shell and the lower shell in an ultrasonic welding mode, a control panel is arranged between the upper shell and the lower shell, a concave clamping groove is formed around the top of the upper shell, and a first magnetic suction connecting device is arranged in the concave clamping groove;

the upper shell comprises a first conductive contact, a magnet and a semitransparent PVC panel, the first conductive contact is arranged in a concave clamping groove of the upper shell, the first conductive contact and the semitransparent PVC panel are designed integrally, the inner side of the semitransparent PVC panel is provided with a clamping groove, and the magnet is placed in the clamping groove;

the lower shell comprises a second conductive contact, a magnet, a vibration motor and a semitransparent PVC panel, wherein the second conductive contact is arranged on the semitransparent PVC panel and is integrally designed with the semitransparent PVC panel, the lower part of the lower shell is provided with the second conductive contact, the inner side of the semitransparent PVC panel is provided with a clamping groove, the magnet is placed in the clamping groove, the inner side of the semitransparent PVC panel is also provided with a circular clamping groove, and the vibration motor is placed in the circular clamping groove;

the magnetic suction connecting device I is connected with a conductive contact on the outer side of the upper shell, the conductive contact on the inner side of the upper shell and the conductive contact on the inner side of the lower shell are connected with the control panel, the control panel is connected with the heating diaphragm and the internal temperature sensor through the conductive contact and the magnetic suction connecting device II, the LED and the environmental temperature sensor are placed on the front side of the control panel and are electrically connected with the control panel, and the vibration motor is electrically connected with the control panel.

The utility model relates to a many reference amounts intelligent clothes temperature control device that generates heat, the control panel still has the bluetooth chip, and bluetooth and control panel carry out wireless communication.

The utility model relates to a multi-parameter intelligent clothing temperature control device that generates heat, the middle zone of going up the casing is white translucent, and this region sets up touch switch and LED display area.

The utility model relates to a multi-parameter intelligent clothing temperature control device that generates heat, the inboard of going up casing and casing down is provided with the square draw-in groove of fixed square magnet and the semi-circular draw-in groove of fixed semicircular magnet.

The utility model relates to a many parameters intelligent clothing temperature control device that generates heat, casing and magnetism are inhaled connecting device one and are the trapezoidal casing that falls, and magnetism is inhaled connecting device one and is the fretwork design in the middle of.

The utility model relates to a many parameters intelligent clothes temperature control device that generates heat, inside temperature sensor and the diaphragm that generates heat are connected two conductive contact that the casing was down connected through magnetism to inhale connecting device two and are connected, and conductive contact two is connected with the control panel, and the diaphragm that generates heat is made in the centre of clothes surface fabric, and inside temperature sensor fixes on the diaphragm that generates heat.

The utility model relates to a multi-parameter intelligent clothing temperature control device that generates heat, the diaphragm that generates heat is graphite alkene material.

The utility model relates to a many parameters intelligent clothes temperature control device that generates heat, magnetism is inhaled connecting device one and is inhaled connecting device two with magnetism and be provided with magnet, and power supply unit inhales connecting device one through magnetism and is connected with the control panel.

The utility model relates to a many parameter intelligent clothing temperature control device that generates heat is a novel heating clothing intelligence switch control system who designs to heating dress control system, not only possesses the temperature perception function, can provide whole temperature control strategy, moreover can and power supply part between interconnection intercommunication. The device adopts an integrated injection molding structure, the structural strength is enhanced, the device is not easy to deform, and a built-in vibration motor can provide vibration feedback for a user, so that the user can effectively sense the working state in any environment; the panel adopts the design of printing opacity formula hiding, and the light energy of different colours is even pierces through the panel, and different operating condition are instructed to the clear.

Drawings

Fig. 1 is the utility model relates to a multi-parameter intelligent heating clothes temperature control device's schematic structure diagram.

Fig. 2 is the utility model relates to a multi-parameter intelligent heating clothes temperature control device's stereogram.

Fig. 3 is the utility model relates to a many parameter intelligence type generate heat and obey temperature control device's lower casing's top view.

Fig. 4 is the utility model relates to a many parameter intelligence type generate heat clothes temperature control device's top view.

Fig. 5 is a perspective view of the multi-parameter intelligent heating clothes temperature control device of the present invention.

In the figure, 1 is

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings: the present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation is given, but the scope of the present invention is not limited to the following embodiments.

The first embodiment is as follows: as shown in fig. 1 and 2, the multi-parameter intelligent heating suit temperature control device according to the present embodiment includes:

control panel, generate heat diaphragm, shock motor, ambient temperature sensor (NTC), inside temperature sensor (NTC). Referring to the attached drawing 1, the housing structure includes a magnetic attraction connecting device, an upper housing, an LED, and a lower housing. The magnetic attraction connecting device is connected to the conductive contacts of the shell and then connected in a magnetic attraction mode, the middle triangular area of the upper shell is a touch switch touch area, the circular clamping groove in the lower shell is an installation vibration motor area, the square and semicircular areas are installation magnet clamping grooves, the upper shell and the lower shell are matched for use, and the main part of the switch can play a role in fixing and protecting a control panel.

Referring to fig. 1, a control board is a main component for processing logic information during operation, two temperature sensors (NTC) disposed at different positions on the control board sense external environment temperature, two temperature sensors (NTC) disposed inside a system sense internal temperature, when a user selects a manual mode, a device is turned on by a touch button on the control board, a vibration motor is turned on by vibrating and feeding back the user, after the user sets a heating temperature, the temperature condition of the external environment where the user is located is sensed by the external temperature sensors (NTC), external environment temperature acquisition calibration and compensation are performed by the external temperature sensors (NTC), when a real-time temperature of the external environment is acquired, temperature acquisition of the internal environment is performed, the temperature condition inside the user is sensed by the internal temperature sensors (NTC), calibration and compensation of the internal temperature acquisition are performed by the internal temperature sensors (NTC), and after the real-time condition of the internal temperature is determined, the control board controls a heating diaphragm to start heating; when the external environment temperature is below 0 ℃, judging to be a low-temperature heating mode, operating a heating strategy 1, controlling the heating diaphragm to heat in full power by the control panel, when an internal temperature sensor (NTC) senses that the internal temperature reaches the temperature set by a user, controlling the heating diaphragm to close by the control panel, continuously collecting the external environment temperature, if the external environment temperature is still below 0 ℃ after 3 minutes, controlling the heating diaphragm to start a powerful heat preservation mode by the control panel, opening the heating diaphragm for 8 seconds, closing the heating diaphragm for 2 seconds, circulating until the external temperature is sensed to be above 0 ℃, or manually closing the device by the user, and ending heating. When the external environment temperature is sensed to be 0-5 ℃, a heating strategy 2 is operated, a control panel controls a heating diaphragm to heat at 80% of power, when the internal temperature reaches the set temperature of a user, the external environment temperature is still not changed for 3 minutes, a medium heat preservation mode is started, the heating diaphragm is opened for 5 seconds and closed for 5 seconds, circulation is carried out until the external environment temperature is more than 5 ℃ or the user manually closes the device, and heating is finished. When the external environment temperature is sensed to be 5-13 ℃, the heating strategy 3 is operated, the control panel controls the heating diaphragm to heat at 50% of power, when the acquired internal temperature reaches the temperature set by the user, the external environment temperature is not changed for 3 minutes, the energy-saving heat preservation mode is started, the heating diaphragm is started for 2 seconds, the heating diaphragm is closed for 8 seconds, the process is circulated until the external environment temperature is higher than 13 ℃ or the user manually closes the device, and the heating is finished. When a user selects the self-adaptive heating mode, the user does not need to set the heating temperature, the control panel senses that the external environment temperature is below 0 ℃, the heating diaphragm is automatically opened, a heating strategy 1 is executed, when the internal temperature is sensed to reach 45 ℃, the external temperature is not changed within 3 minutes, a powerful heat preservation mode is started until the external temperature is sensed to be above 0 ℃, or the user exits from the self-adaptive mode, and the heating is finished; when the control panel senses that the external environment temperature is 0-5 ℃, automatically opening the heating diaphragm, executing a heating strategy 2, when the internal temperature is sensed to reach 40 ℃, the external temperature is not changed within 3 minutes, starting a medium heat preservation mode until the external temperature is sensed to be more than 5 ℃, or a user exits from the self-adaptive mode, and finishing heating; when the control panel senses that the external environment temperature is 5-13 ℃, the heating diaphragm is automatically opened, the heating strategy 2 is executed, when the internal temperature is sensed to reach 38 ℃, the external temperature is not changed within 3 minutes, the energy-saving heat preservation mode is started until the external temperature is sensed to be more than 13 ℃, or the user exits from the self-adaptive mode, and the heating is finished. The control panel receives voltage, current, power consumption information and power supply unit's surplus electric quantity information through the bluetooth and sends to the cell-phone applet and show in real time, and when work was ended, normal work, work abnormal, mode switching etc. state, the control panel was distinguished through the different amplitudes of vibrations motor and is fed back and remind the user.

In the attached figure 2 precious magnetism that charges inhale connecting device just in time can block into the sunken draw-in groove of last casing, sunken design can guarantee to make precious magnetism that charges inhale connecting device and guarantee openly all the time be the plane when with last casing actuation, avoid because the connecting wire is protruding to lead to the risk that can bump it when the activity, precious magnetism that charges inhales the middle fretwork design that is of connecting device, thereby reach and still can not shelter from the purpose of touching region and status light in the connection, thereby realize the main control board when realizing different functions, the pilot lamp can carry out different state according to different functions and show, let the user can clearly and definitely judge whether the heating clothes works in the above-mentioned exact operating condition. Go up the casing and all be equipped with the draw-in groove of installation magnet with casing inside down, wherein the casing still additionally is equipped with the region of installation shock motor down, thereby installs shock motor in this region cooperation and realizes the function of vibrations feedback in the above-mentioned job description, can also avoid because the control panel damage that the vibrations of shock motor caused.

Through the intelligent control of many parameter intelligent clothing temperature control device circuit that generates heat, make the system can be in the direct repayment user of operation, not only possess the temperature perception function, provide whole temperature control strategy, and can and supply power the interconnection intercommunication between the part, connect through bluetooth and cell-phone applet, show external environment temperature in real time, inside temperature, and for the user customized strategy that generates heat according to inside and outside temperature situation, supply power the part also can pass through the bluetooth and insert simultaneously, carry out data interaction, after the analytic summary data, present various information for the user. The charger magnetic suction connecting wire, the upper shell, the control panel, the lower shell and the magnetic suction connecting device are structurally arranged, and the appearance is semitransparent white PVC. When the magnetic attraction connecting device is used, the magnetic attraction connecting device is clamped into the front clamping groove, and the conductive contacts are mutually connected, so that power supply to the heating clothes is realized. The magnetic suction connecting device with another shape is arranged at the back of the lower shell and is used for connecting a heating film of the heating suit, so that the state of the heating suit can be edited and controlled through the switch.

The above description is only the preferred embodiments of the present invention, and these embodiments are all based on the present invention, and the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. A multi-parameter intelligent heating clothes temperature control device is characterized by comprising a shell, a control panel (1), an ambient temperature sensor (2), a vibration motor (4), an internal temperature sensor (5), a heating diaphragm (6), a magnetic suction connecting device I (9) and a magnetic suction connecting device II (15);

the shell is formed by buckling an upper shell (10) and a lower shell (12) and rigidly connects the upper shell (10) and the lower shell (12) in an ultrasonic welding mode, a control panel (1) is arranged between the upper shell (10) and the lower shell (12), a concave clamping groove is formed in the periphery of the top of the upper shell (10), and a first magnetic suction connecting device (9) is arranged in the concave clamping groove;

the upper shell (10) comprises a first conductive contact (8), a magnet (3) and a semitransparent PVC panel, the first conductive contact (8) is arranged in a concave clamping groove of the upper shell (10), the first conductive contact (8) and the semitransparent PVC panel are designed into a whole, the inner side of the semitransparent PVC panel is provided with the clamping groove, and the magnet (3) is placed in the clamping groove;

the lower shell (12) comprises a second conductive contact (13), a magnet (3), a vibration motor (4) and a semitransparent PVC panel, the second conductive contact (13) is arranged on the semitransparent PVC panel, the second conductive contact (13) and the semitransparent PVC panel are designed into a whole, the second conductive contact (13) is arranged at the lower part of the lower shell (12), a clamping groove is formed in the inner side of the semitransparent PVC panel, the magnet (3) is placed in the clamping groove, a circular clamping groove is further formed in the inner side of the semitransparent PVC panel, and the vibration motor (4) is placed in the circular clamping groove;

magnetism is inhaled connecting device (9) and is connected with the conductive contact in last casing (10) outside, go up casing (10) inboard conductive contact (8) and lower casing (12) inboard conductive contact two (13) and be connected with control panel (1), control panel (1) is inhaled connecting device two (15) and is generated heat diaphragm (6) through conductive contact two (13) and magnetism, inside temperature sensor (5) are connected, LED (11) and ambient temperature sensor (2) are placed in control panel (1) openly and are connected with control panel (1) electricity, shock motor (4) are connected with control panel (1) electricity.

2. The multi-parameter intelligent heating garment temperature control device as claimed in claim 1, wherein the control panel (1) further comprises a Bluetooth chip, and Bluetooth is in wireless communication with the control panel (1).

3. The multi-parameter intelligent heating garment temperature control device as claimed in claim 1, wherein the middle area of the upper shell (10) is white and translucent, and the area is provided with a touch switch and an LED display area (14).

4. The multi-parameter intelligent heating garment temperature control device according to claim 1, wherein the inner sides of the upper shell (10) and the lower shell (12) are provided with a square clamping groove for fixing a square magnet and a semicircular clamping groove for fixing a semicircular magnet.

5. The multi-parameter intelligent heating garment temperature control device as claimed in claim 1, wherein the housing and the first magnetic attraction connecting device (9) are inverted trapezoidal housings, and the middle of the first magnetic attraction connecting device (9) is hollowed out.

6. The multi-parameter intelligent heating garment temperature control device according to claim 1, wherein the internal temperature sensor (5) and the heating diaphragm (6) are connected with a second conductive contact (13) of the lower shell (12) through a second magnetic attraction connecting device (15), the second conductive contact (13) is connected with the control panel (1), the heating diaphragm (6) is sewn in the middle of a garment fabric, and the internal temperature sensor (5) is fixed on the heating diaphragm (6).

7. The multi-parameter intelligent heating garment temperature control device according to claim 1 or 6, wherein the heating membrane (6) is made of graphene.

8. The multi-parameter intelligent heating suit temperature control device according to claim 1, wherein magnets are arranged in the first magnetic attraction connecting device (9) and the second magnetic attraction connecting device (15), and the power supply equipment is connected with the control panel (1) through the first magnetic attraction connecting device (9).

Images