CN213788128U - Intelligent hand warmer - Google Patents

Abstract

The utility model provides an intelligence hand warmer belongs to the smart machine field. The utility model discloses a casing, the casing include the casing center and with casing center fixed connection's heat conduction shell, be equipped with control mainboard and battery in the casing center, heat conduction shell inboard is equipped with the piece that generates heat that links to each other with control mainboard output, the touch shell of heat conduction shell for can responding to the staff touch, the output passing signal line of touch shell links to each other with the control mainboard input. The utility model has the advantages that: the use is simpler and more convenient, and the good experience of the product is improved. Touch-sensitive, compare hardware switch, power saving and energy saving more has also prolonged the life of product to a great extent.

Description

Intelligent hand warmer

Technical Field

The utility model relates to an intelligent device structure especially relates to an intelligence hand warmer.

Background

Hand warmer is because its portable, and it is effectual to keep warm, is the good product that keeps warm that is essential winter, but, traditional hand warmer all is through mechanical key switch control product switch, when needing service function, needs the manual switch that opens, and hand warmer begins work. When the product is started to work, the product can be closed only by remembering to actively close the switch. If the heating process is interrupted, the product is not turned off through the mechanical switch in time, and the hand warmer can work all the time until the energy of the battery is exhausted. When the battery is reused, recharging is needed, which brings inconvenience to operators. In addition, repeated charging and discharging can also influence the service life of the product, and in addition, the energy conservation and the environmental protection are not facilitated.

SUMMERY OF THE UTILITY MODEL

For solving the problem among the prior art, the utility model provides an intelligence hand warmer.

The utility model discloses a casing, the casing include the casing center and with casing center fixed connection's heat conduction shell, be equipped with control mainboard and battery in the casing center, heat conduction shell inboard is equipped with the piece that generates heat that links to each other with control mainboard output, the touch shell of heat conduction shell for can responding to the staff touch, the output passing signal line of touch shell links to each other with the control mainboard input.

The utility model discloses do further improvement, still including setting up in the heat conduction shell, detect the temperature-detecting device of heat conduction shell temperature, temperature-detecting device's output links to each other with the control mainboard input.

The utility model discloses make further improvement, the touch shell is metal heat conduction shell.

The utility model discloses make further improvement, the touch shell includes non-metal heat conduction shell and sets up the metal film in the inboard or outside of non-metal heat conduction shell, the metal film links to each other with the control mainboard.

The utility model discloses make further improvement, the metallic film includes first metallic film and the second metallic film that non-coplanar set up, the second metallic film sets up the periphery of first metallic film, first metallic film and second metallic film concatenate control mainboard input.

The utility model discloses make further improvement, the quantity of heat conduction shell is two, and the symmetry sets up the both sides of casing center, the parallelly connected setting of touch shell is in control mainboard input.

The utility model discloses make further improvement, still including setting up power source and the switch at the casing center.

The utility model discloses make further improvement, still including setting up the status indication module on the casing center, status indication module's input links to each other with control mainboard output.

Compared with the prior art, the beneficial effects of the utility model are that: the hand touch recognition function is added on the basis of the traditional hand warmer, the hand touch recognition function can be achieved by collecting a capacitance touch signal of the hand, when the hand touches the hand, the hand starts to work, and when the control mainboard detects that the hand leaves a product, the hand can be actively closed to stop working of the hand, so that electric energy can be saved more possibly. The purpose of mechanical key operation can be achieved by reducing operation, so that the product is simpler and more convenient to use, and the good experience of the product is improved. The energy-saving and environment-friendly effects are achieved, and the service life of the product is prolonged to a great extent.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural view of a second embodiment of the present invention;

fig. 3 is a schematic structural view of a third embodiment of the present invention;

FIG. 4 is a schematic structural view of a metal film according to a third embodiment of the present invention;

FIG. 5 is a schematic circuit diagram of an MCU control module of the control motherboard of the third embodiment;

FIG. 6 is a schematic circuit diagram of a touch sensing acquisition module of the control motherboard;

FIG. 7 is a schematic circuit diagram of a temperature sensor and heating power control module;

FIG. 8 is a schematic diagram of an interface circuit for the control motherboard;

fig. 9 is a schematic circuit diagram of a power module.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

As shown in fig. 1-3, the hand touch recognition function is added to the traditional hand warmer, and specifically, the hand touch recognition function is added to the hand warmer, in this example, the hand touch recognition function includes a casing, the casing includes a middle frame casing enclosed by a middle frame 4 and a middle frame cover 7, and a heat conduction casing fixedly connected to the middle frame casing, a control mainboard 5 and a battery 6 are arranged in the middle frame casing, a heating sheet 2 connected to an output end of the control mainboard 5 is arranged on an inner side of the heat conduction casing, the middle frame casing of the example is made of an insulating material, such as a plastic material, the heat conduction casing is a touch casing capable of sensing hand touch, and an output end of the touch casing is connected to an input end of the control mainboard 5 through a signal line. Through the center casing, keep apart heat source and control mainboard to prevent that the heat source from getting into in the center, influencing hand warmer's performance.

The utility model discloses increased staff touch recognition function on traditional hand warmer's basis, can be through the electric capacity touch signal who gathers the staff, when the staff touches, the start work detects the staff and leaves the product back when the control mainboard, can initiatively close, stops its work to can save the electric energy more probably. The purpose of mechanical key operation can be achieved by reducing operation, so that the product is simpler and more convenient to use, and the good experience of the product is improved. The energy-saving and environment-friendly effects are achieved, and the service life of the product is prolonged to a great extent.

The temperature sensor 3 is fixed on one surface of the middle frame 4 close to the heat-conducting shell, the detection head is arranged close to the heat-conducting shell and used for detecting the temperature of the heat-conducting shell, and the output end of the temperature sensor 3 is connected with the input end of the control main board 5 through a wire penetrating through a wire hole in the middle frame. When the temperature of the heat conduction shell is detected to reach or exceed the set temperature, the control main board controls the heating sheet to stop working or reduces the heating power.

In this embodiment, a switch port and an interface through hole are further formed in the side surface of the middle frame 4, a power interface and a switch 8 are further arranged on the control main board, the power interface and the interface through hole are correspondingly arranged, and the switch 8 is arranged in the switch port.

The working principle of the embodiment is as follows:

the battery energy is controlled by the circuit main board, the electric energy is converted into heat energy from the heating sheet 2, and the heat energy is conducted through the heat conduction shell, so that people can obtain heating experience; the temperature that piece 2 specifically generates heat, through NTC temperature sensor acquisition feedback control mainboard, the temperature that makes generate heat is controllable, and the people just experience when using warm hand better.

As shown in fig. 1, as the first embodiment of the present invention, the touch shell of this embodiment is a metal heat-conducting shell 1, the symmetry is disposed on both sides of the middle frame shell, one side of the middle frame 4 and the middle frame cover 7 close to the metal heat-conducting shell 1 is respectively provided with a heat generating slot for installing the heat generating sheet 2, the bottom of the heat generating slot is provided with a wire hole for connecting the heat generating sheet 2 with the control motherboard, and the metal heat-conducting shell is tightly attached to the middle frame 4 and the heat generating sheet 2.

As shown in fig. 2, as a second embodiment of the present invention, the metal heat-conducting casing of the first embodiment is replaced by a non-metal heat-conducting casing 9, and a metal film 10 is disposed inside or outside the non-metal heat-conducting casing 9, and the metal film 10 is connected to the input end of the control motherboard. The metal film 10 of the present embodiment plays a role in temperature equalization conduction and touch signal sensing acquisition, so that the hand warmer of the present embodiment has a touch sensing function. The metal film 10 of this example is an integer, and one piece is respectively installed at the nonmetal heat conduction shell 9 inboard of two sides, and two pieces are 2 touch PAD (PADs) altogether, and respectively link to each other with the control mainboard, when the control mainboard detects that arbitrary one side has the touch of staff, can open the work.

As shown in fig. 3 and 4, as a third embodiment of the present invention, in this embodiment, on the basis of the second embodiment, the metal film 10 is modified, and includes a first metal film 101 and a second metal film 102, the second metal film 102 is disposed on the periphery of the first metal film 101, and the first metal film 101 and the second metal film 102 are connected in series to the input end of the control main board. The area of a single integral metal film is divided into two metal films, the insides of two sides of the shell are all installed, and 2 PADs on the two sides are connected in parallel in the circuit; if it is real staff and holds, will contact first metallic film 101 and second metallic film 102 simultaneously to only contact first metallic film 101 and second metallic film 102 simultaneously, just can open the utility model discloses warm hand of intelligence is precious, just so can effectively solve single finger isopoint and touch the problem of spurious triggering. The two are preferably arranged on the same plane, so that the probability that the same plane is opened due to contact with a conductive substance is avoided.

Of course, the heat-conducting shells of the hand warmer of this embodiment can also be arranged asymmetrically, and the middle frame shell can also be arranged on one side of the hand warmer, the number of the heat-conducting shells is 1, and the heat-conducting shells are arranged on one side of the middle frame shell, such as a bulb shape and the like.

As shown in fig. 5-9, the control main board of this embodiment includes an MCU control module, a touch sensing acquisition module, a heating power control module, and a power module connected to the battery, wherein an input terminal of the MCU control module is connected to an output terminal of the touch sensing acquisition module, an input terminal of the touch sensing acquisition module is connected to an output terminal of the touch casing, an input terminal of the heating power control module is connected to an output terminal of the MCU control module, and an output terminal of the heating power control module is connected to an input terminal of the heating device. Of course, the heater module of this example may be a heater module whose heating power cannot be adjusted.

As shown in fig. 5, the MCU control module includes a control chip U1, a touch switch SW1 and a dial switch S1 connected to the control chip U1, wherein one end of the touch switch SWI is grounded, the other end is connected to a pin 14 of the control chip U1, a normally connected pin 2 of the dial switch S1 provides power for the touch sensing acquisition module, a selection pin 1 of the dial switch S1 is connected to the power, and the other selection pin 3 is grounded. The touch switch SW1 realizes the traditional switch for controlling the intelligent hand warmer through a mechanical switch key. The on or off of the touch smart mode can be controlled by the dip switch S1. The MCU control module also comprises a state indicating unit, and the input end of the state indicating unit is connected with the output end of the control chip U1. The state indicating unit of this example is showing the charactron, can indicate battery power or present hand warmer's shell temperature. The status indication unit of this example may also be provided with more than 1 LED indicator light.

As shown in fig. 6, since the metal film 10 of the third embodiment of the present invention is composed of two parts, the touch sensing acquisition module of the present embodiment includes a touch acquisition chip U2, an input pin 5 of the touch acquisition chip U2 is connected to the first metal film 101, an input pin 6 is connected to the second metal film 102, an output pin 8 of the touch acquisition chip U2 is connected to a pin 2 of a control chip U1 of the MCU control module, and an output pin 7 of the touch acquisition chip U2 is connected to a pin 3 of a control chip U1 of the MCU control module. Because the number of the heat-conducting shells is two, the heat-conducting shells are symmetrically arranged on two sides of the middle frame shell, the number of the touch shells is also 2, the touch shells are arranged in parallel, and the output ends of the 2 touch shells are simultaneously connected with two input pins of the touch acquisition chip U2.

Of course, if the metal film 10 of this embodiment is a whole, the two input pins of the touch sensing chip U2 of this embodiment may be connected to the two metal films 10 on the two sides, respectively, so as to sense a single-sided touch signal and control the operation of the single-sided heating sheet 2, thereby saving more energy and power. As another embodiment of the present invention, the present embodiment can also connect to the same input pin of the touch capture chip U2 at the same time.

The touch sensing acquisition module of the embodiment further comprises a mode selection unit, wherein the mode selection unit comprises a resistor R2 and a resistor R3, a power supply pin 3 of the touch acquisition chip U2 is connected with a normally-connected pin 2 of the dial switch S1 through the resistor R3, a pin 7 of the control chip U1 is connected between the resistor R3 and the normally-connected pin 2 of the dial switch S1 through a resistor R2, and the control chip U1 detects the power supply state of the touch acquisition chip U2 through the resistor R2.

The resistor R3 of the embodiment is controlled by the mechanical dial switch S1 to supply power to the touch acquisition chip U2, and has two purposes: one is that the touch design can be closed under the situation of a non-intelligent mode, so that the electric energy is saved; and the other is to enable the touch sensing reference to have a reset function. The touch module is electrified every time, the electricity moment is the initial capacitance value as the reference value according to the touch input environment, and when a human body touches, the capacitance induction difference value which changes is generated to judge that the induction is effective. The product can have certain variation errors according to the assembly or placement environment, if the touch intelligent mode is powered on, the initial value of the environment is determined in the assembly process, so that the difference value of the induction capacitance of touch is uncertain, and the possibility of sensitivity failure is increased in the actual use.

The resistor R2 is used for detecting the touch power supply state, and a signal is sent to the control chip U1 to judge that the intelligent mode is started by detecting the high level of the power supply of the touch module, so that the product working program can be switched to the intelligent mode to work.

As shown in fig. 7, the number of the temperature sensors in this example is 2, the two circuit diagrams are the same, and here are 1 circuit, and the output end of the temperature sensor is connected to pin 5 of the main control chip U1, and the other is connected to pin 6 of the main control chip U1.

The heating power control module of the embodiment controls the heating and power regulation of the two heating sheets 2 at the same time, and the two heating sheets are respectively connected with the interfaces HOT1 and HOT 2.

As shown in fig. 8, the interface module of this embodiment includes a first interface USB1 and a second interface USB2, the first interface USB1 is a TYPE-C female socket, the second interface USB2 is a common USB female socket, one of which is a charging port for charging a battery, and the other is a discharging port for providing power to an external device, and TEST1-6 of this embodiment is a reserved pin for a function of a charger, which is matched with the discharging port of this embodiment, so that it can serve as a charger, and a product has a practical function of a charger.

As shown in fig. 9, the power module of this embodiment includes a charging and boosting management unit and a lithium battery protection unit, and is used for providing power for the whole intelligent hand warmer.

The above-mentioned embodiments are the preferred embodiments of the present invention, and the scope of the present invention is not limited to the above-mentioned embodiments, and the scope of the present invention includes and is not limited to the above-mentioned embodiments, and all equivalent changes made according to the present invention are within the protection scope of the present invention.

Claims (7)

1. The utility model provides an intelligence hand warmer which characterized in that: comprises a shell, the shell comprises a shell middle frame and a heat conduction shell fixedly connected with the shell middle frame, a control mainboard and a battery are arranged in the shell middle frame, a heating sheet connected with the output end of the control mainboard is arranged on the inner side of the heat conduction shell, the heat conduction shell is a touch shell capable of sensing the touch of a hand, the output end of the touch shell is connected with the input end of the control mainboard through a signal line,

still including setting up in the heat conduction shell, detect the temperature-detecting device of heat conduction shell temperature, temperature-detecting device's output links to each other with control mainboard input.

2. The intelligent hand warmer of claim 1, wherein: the touch shell is a metal heat conduction shell.

3. The intelligent hand warmer of claim 1, wherein: the touch shell comprises a nonmetal heat conduction shell and a metal film arranged on the inner side or the outer side of the nonmetal heat conduction shell, and the metal film is connected with the control mainboard.

4. The intelligent hand warmer of claim 3, wherein: the metal film comprises a first metal film and a second metal film which are arranged on the same plane, the second metal film is arranged on the periphery of the first metal film, and the first metal film and the second metal film are connected in series at the input end of the control mainboard.

5. The intelligent hand warmer of claim 1, wherein: the number of the heat conduction shells is two, the heat conduction shells are symmetrically arranged on two sides of the middle frame of the shell, and the touch shells are arranged at the input end of the control mainboard in parallel.

6. The intelligent hand warmer of claim 1, wherein: the power supply device also comprises a power interface and a switch which are arranged on the middle frame of the shell.

7. The intelligent hand warmer of claim 1, wherein: the intelligent control device further comprises a state indicating module arranged on the middle frame of the shell, and the input end of the state indicating module is connected with the output end of the control main board.

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