CN203844510U - Electronic hourglass - Google Patents

Abstract

The utility model discloses an electronic hourglass. The electronic hourglass comprises a body, and a microprocessor, a power supply module, a three-axis acceleration sensor, a sound promotion module, a color selection module and a color-changing light emitting diode display module which are located in the body, wherein the microprocessor is respectively connected with the power supply module, the three-axis acceleration sensor, the sound promotion module, the color selection module and the color-changing light emitting diode display module; the microprocessor is further connected with an intelligent terminal by a wireless communication module. According to the electronic hourglass, the flowing direction of sand particles can be automatically changed and simulated according to data detected by the three-axis acceleration sensor and the microprocessor can be controlled to enter a dormant state to save electric power; a repeated timing function can be realized through simple shaking movements and the electronic hourglass is convenient and practical; a color-changing light emitting diode can display many colors so as to meet the requirements of users on different colors; the electronic hourglass is connected with the intelligent terminal so as to conveniently store and check timing data.

Description

Electronic sandglass

Technical field

The utility model belongs to time set, more specifically relates to a kind of electronic sandglass.

Background technology

The raw material that tradition hourglass adopts are sand grains, and weight is larger and not attractive in appearance.Electronic sandglass has solved the problem of traditional hourglass, but existing electronic sandglass cannot change flow direction automatically, do not have auto sleep function and reclocking function, and the color of light emitting diode is single.In addition, existing electronic sandglass cannot be connected with intelligent terminals such as smart mobile phone, panel computers, chronometric data can not be preserved with the later stage and is checked.

The specific embodiment

In order to solve the problems of the technologies described above, the utility model provides a kind of convenient and practical electronic sandglass that changes color, can be connected and can automatically change the flow direction with intelligent terminal, and the utility model also has auto sleep function, can save electric energy.

In order to reach above-mentioned technical purpose, the technical solution of the utility model is as follows:

A kind of electronic sandglass, comprise body and be positioned at intrinsic microprocessor, power module, 3-axis acceleration sensor, auditory tone cues module, color selection module and color-changing light-emitting diode display module, microprocessor selects module to be connected with color-changing light-emitting diode display module with power module, 3-axis acceleration sensor, auditory tone cues module, color respectively.Its beneficial effect is: the utility model represents sand grains by color-changing diode luminous in color-changing light-emitting diode display module, simulate the movement of sand grains, and then formation electronic sandglass, power module is microprocessor, 3-axis acceleration sensor, auditory tone cues module, color is selected module, color-changing light-emitting diode display module and wireless communication module provide electric energy, 3-axis acceleration sensor is used for responding to gravity direction, the data that detect are sent in microprocessor, microprocessor is according to the duty of the programme-control color-changing light-emitting diode display module of setting, the simulation sand grains of realizing in color-changing light-emitting diode display module changes the flow direction and auto sleep function automatically, user can also select module to select color by color, and microprocessor selects the instruction of module to control the color of color-changing light-emitting diode display module according to color, after electronic sandglass timing completes, auditory tone cues module can be sounded and be pointed out user.

In some embodiments, microprocessor is also connected with wireless communication module, and microprocessor is connected with intelligent terminal by wireless communication module.

Its beneficial effect is: by wireless communication module, microprocessor is connected with the intelligent terminal that is positioned at body exterior, microprocessor can transfer to chronometric data in intelligent terminal, is convenient to preserve and check.

In some embodiments, color-changing light-emitting diode display module comprises two groups of color-changing light-emitting diodes that quantity is identical, and every group of color-changing light-emitting diode is arranged in respectively equilateral triangle and del, and the drift angle of positive dihedral and del is relative.

Its beneficial effect is: the color-changing light-emitting diode fabrication in color-changing light-emitting diode display module is become to two triangles that drift angle is relative, be convenient to simulate hourglass.

In some embodiments, auditory tone cues module is connected with loudspeaker, color is selected module to be connected with color and is selected button, and color-changing light-emitting diode display module is connected with color-changing light-emitting diode, and loudspeaker, color select button and color-changing light-emitting diode to be positioned at the surface of body.

Its beneficial effect is: the prompt tone of auditory tone cues module conveys to user by loudspeaker, color is selected button to be positioned at body surface to be convenient to user the color of color-changing light-emitting diode is selected, and color-changing light-emitting diode is positioned at body surface and facilitates user to observe intuitively the mobility status of simulation sand grains.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model will be further described.

As shown in Fig. 1～2, electronic sandglass comprises body 1, and body 1 is rectangular-shaped.The first surface 11 of body 1 is provided with a plurality of color-changing light-emitting diodes 621.On body 1, the second surface 12 relative with first surface 11 is provided with a plurality of colors and selects button 251, and color is selected module 25 to be connected with color and selected button 251, and user selects button 251 can select corresponding color by color.In the present embodiment, color-changing light-emitting diode display module 26 is connected with 30 color-changing light-emitting diodes 261, wherein, 15 light emitting diodes form equilateral triangle, other 15 light emitting diodes form del, and the drift angle of equilateral triangle and del is relative, and the luminous interval scale of color-changing light-emitting diode 261 has sand grains, when not luminous, representing does not have sand grains, with this, simulates flowing of sand grains in hourglass.Auditory tone cues module 24 is connected with loudspeaker 241, on the second surface 12 of body 1, is also provided with loudspeaker 241, and auditory tone cues module 24 is by loudspeaker 241 reminding user of sounding.

As shown in Figure 3, be provided with microprocessor 21 in body 1, microprocessor 21 selects module 25 to be connected with color-changing light-emitting diode display module 26 with power module 22,3-axis acceleration sensor 23, auditory tone cues module 24, color respectively.Microprocessor 21 is also connected with wireless communication module 27, and microprocessor 21 is connected with intelligent terminal 3 by wireless communication module 27.

Power module 22 comprises battery and electric power management circuit.Power module 22 is selected module 25, color-changing light-emitting diode display module 26 and wireless communication module 27 for microprocessor 21,3-axis acceleration sensor 23, auditory tone cues module 24, color electric energy is provided.3-axis acceleration sensor 23 is for detection of the placement state of body 1, and the data that detect are sent in microprocessor 21, and microprocessor 21 is according to the duty of the programme-control color-changing light-emitting diode display module 26 of setting.The X-axis of 3-axis acceleration sensor 23 is parallel with first surface 11, vertical with upper and lower two surfaces of body 1.In the present embodiment, 3-axis acceleration sensor 23 is selected the product that the model of Ya De promise semiconductor technology Co., Ltd is ADXL362.The data that microprocessor 21 records according to 3-axis acceleration sensor 23 are carried out the judgement of sand grains flow direction and duty, and specific algorithm is as follows:

At T1 constantly, 3-axis acceleration sensor 23 is delivered to the data of the X-axis detecting, Y-axis, Z axis in microprocessor 21.If the absolute value of X-axis is greater than the absolute value of Y-axis, and the absolute value of X-axis is greater than the absolute value of Z axis, and microprocessor 21 is controlled color-changing light-emitting diode display modules 26 and entered duty.If the numerical value of X-axis is greater than zero, the simulation sand grains edge+X-direction that microprocessor 21 is controlled in color-changing light-emitting diode display module 26 moves, if the numerical value of X-axis is less than zero, the simulation sand grains edge-X-direction that microprocessor 21 is controlled in color-changing light-emitting diode display module 26 moves.If the absolute value of Y-axis is greater than the absolute value of X-axis, or the absolute value of Z axis is greater than the absolute value of X-axis, and microprocessor 21 enters resting state, saves electric energy.

At T2, constantly set value value, the X-axis that 3-axis acceleration sensor 23 detects, Y-axis and Z axis data are delivered in microprocessor 21, microprocessor judges it according to the value value of setting, if X-axis data >=value, or X-axis data <=-value, or Y-axis data >=value, or Y-axis data <=-value, or Z axis data >=value, or Z axis data <=-value is true, so, microprocessor judges that user has implemented to shake one to electronic sandglass and shaken work, with reclocking.

User can select module 25 to select the color of color-changing light-emitting diode 261 in color-changing light-emitting diode display module 26 by color.Color-changing light-emitting diode 261 comprises dichromatic LED, Tricolor LED and multi-color LED.In the present embodiment, the color-changing light-emitting diode in color-changing light-emitting diode display module 26 is multi-color LED 261, comprises red, blue, green, Bai Si kind color.Correspondingly, in the present embodiment, body 1 is provided with four colors and selects button 251, user can select module 25 to select the color needing by color, color selects module 25 that instruction is delivered to microprocessor 21, and microprocessor 21 is controlled the glow color of color-changing light-emitting diode 261 in color-changing light-emitting diode display module 26 according to instruction.After electronic sandglass timing finishes, microprocessor 21 is delivered to auditory tone cues module 24 by instruction, and the auditory tone cues module 24 reminding user timing of sounding completes.User can also be connected microprocessor 21 by wireless communication module 27 with the intelligent terminal 3 that is positioned at body 1 outside, microprocessor 21 can, by the time tranfer of measuring to intelligent terminal 3, be convenient to preserve and check.

Above-described is only the preferred embodiment of the utility model electronic sandglass; it should be pointed out that for those of ordinary skills, do not paying under the prerequisite of creative work; can also make some distortion and improvement, these all belong to protection domain of the present utility model.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model specific embodiment, to the accompanying drawing of required use in the specific embodiment be briefly described below, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the theory diagram of the electronic sandglass of the utility model one embodiment;

Fig. 2 is that the master of body of the electronic sandglass of the utility model one embodiment looks schematic diagram;

Fig. 3 is the schematic rear view of body of the electronic sandglass of the utility model one embodiment.

The title of digital represented corresponding component in figure:

1. body, 21. microprocessors, 22. power modules, 23. 3-axis acceleration sensors, 24. auditory tone cues modules, 25. colors select modules, 26. color-changing light-emitting diode display modules, 261. color-changing light-emitting diodes, 27. to connect wireless communication modules, 3. intelligent terminal.

Claims (3)

1. an electronic sandglass, it is characterized in that, comprise body and be positioned at described intrinsic microprocessor, power module, 3-axis acceleration sensor, auditory tone cues module, color is selected module and color-changing light-emitting diode display module, described microprocessor respectively with described power module, 3-axis acceleration sensor, auditory tone cues module, color selects module to be connected with color-changing light-emitting diode display module, described color-changing light-emitting diode display module comprises two groups of color-changing light-emitting diodes that quantity is identical, every group of color-changing light-emitting diode is arranged in respectively equilateral triangle and del, the drift angle of described positive dihedral and del is relative.

2. electronic sandglass according to claim 1, is characterized in that, described microprocessor is also connected with wireless communication module, and described microprocessor is connected with intelligent terminal by wireless communication module.

3. electronic sandglass according to claim 2, it is characterized in that, described auditory tone cues module is connected with loudspeaker, described color is selected module to be connected with color and is selected button, described color-changing light-emitting diode display module is connected with color-changing light-emitting diode, and described loudspeaker, color select button and color-changing light-emitting diode to be positioned at the surface of described body.