WO2015013914A1

WO2015013914A1 - Electronic pedometer

Info

Publication number: WO2015013914A1
Application number: PCT/CN2013/080508
Authority: WO
Inventors: 谢虹
Original assignee: Xie Hong
Priority date: 2013-07-30
Filing date: 2013-07-31
Publication date: 2015-02-05
Also published as: CN103389108B; CN103389108A

Abstract

An electronic pedometer comprising an upper housing (2), a lower housing, an upper mainboard and a lower mainboard that are fixed within the housings, and a vibration sensor (3) that is electrically connected between the mainboards. A sensor limiting apparatus adapted to the shape of the vibration sensor (3) is provided on the inner surface of the upper housing (2). The vibration sensor (3) is fixed with glue within the vibrator limiting apparatus. Because the electronic pedometer has the sensor limiting apparatus provided on the inner surface of the upper housing (2), and the vibration sensor (3) is fixed with glue within the sensor limiting apparatus, during assembly, the vibration sensor (3) can be fixed effectively simply by coating the glue onto one side of the vibration sensor (3) and then sticking same into the sensor limiting apparatus, and when in use, the vibration sensor (3) is prevented from swaying back and forth, thus protecting the vibration sensor (3).

Description

Electronic pedometer

[Technical Field]

The present invention relates to the field of sports equipment and, more particularly, to an electronic pedometer. 【Background technique】

The pedometer calculates the amount of exercise by counting the number of steps, distance, speed, time and other data to calculate the amount of exercise, to prevent underactivity or excessive exercise.

The electronic pedometer is mainly composed of a vibration sensor and an electronic counter. The so-called vibration sensor is actually a balance hammer that is broken when the vibration is up and down, so that a contact can be turned on/off. The electronic counter records and displays the main Function, other heat consumption, and distance conversion are all done by the circuit.

I have designed an electronic pedometer, including an upper casing and a lower casing, an upper main plate and a lower main plate fixed inside the casing, and a vibration sensor electrically connected to the upper main plate is fixed to the front end of the upper casing and the lower casing. The display screen is connected to the upper motherboard through a flexible circuit board, and the upper motherboard is provided with an electronic counter for use with the vibration sensor, and the upper motherboard can complete the electronic pedometer The step function is provided; the lower main board is provided with a circuit having a function of a listener, and the lower main board performs the function of the radio of the electronic pedometer; the vibration sensor is placed on the upper and lower boards and the upper case Within the gap between them. This program is open. However, the vibration sensor is placed between the upper and lower mainboards and the upper casing, and the height between the upper and lower main plates and the upper casing is greater than the thickness of the vibration sensor, and the vibration sensor may slide when the user runs. , causing damage to the vibration sensor, thereby affecting the life of the electronic pedometer.

[Summary of the Invention]

The technical problem to be solved by the present invention is to provide an electronic pedometer that effectively fixes the vibration sensor.

The object of the present invention is achieved by the following technical solutions: an electronic pedometer, including an upper shell, a lower case, a vibration sensor fixedly connected to the upper main plate and the lower main plate inside the casing, and the upper main plate, wherein the inner surface of the upper case is provided with a sensor adapted to the shape of the vibration sensor The limiting device, the vibration sensor is fixed in the vibrator limiting device with glue.

Preferably, the vibration sensor is in the shape of a disk. Correspondingly, the sensor limiting device is an annular upwardly protruding vibrator limiting ring, and the inner diameter of the sensor limiting ring is greater than or equal to the The diameter of the vibration sensor. This is the specific structure of the vibration sensor and sensor limiter.

Preferably, the sensor limiting ring is located at the tail of the upper casing. This is the specific location where the vibration sensor is fixed.

Preferably, the height of the sensor limiting ring is greater than the thickness of the vibration sensor. In this way, after the vibration sensor is fixed, the vibration sensor does not expose the sensor limit ring, and the vibration sensor can be protected to some extent.

Preferably, the vibration sensor is electrically connected to the upper main board. This is the specific way to electrically connect the upper board to the vibration sensor.

Preferably, the upper main board is fixed to the front end of the upper casing, and a wire avoiding opening is disposed at an end of the sensor limiting ring adjacent to the upper main board. Since the vibration sensor is fixed at the rear end of the upper casing, and the upper main plate is fixed at the front end of the upper casing, and the vibration sensor is electrically connected with the upper main plate, the wire avoidance opening is disposed on the upper plate of the sensor limiting ring. One end can reduce the amount of wire used.

Preferably, one end of the wire is soldered to a vibration sensor near the wire avoidance opening. This also reduces the amount of wire used.

Preferably, the upper main board is fixed to the front end of the upper shell by screws, the width of the upper main board head is larger than the width of the tail part of the upper main board, and the middle position of the tail part of the upper main board is provided with a direction. a protruding block-shaped platform, a screw hole is disposed in the middle of the platform, and correspondingly, a screw hole column is used on the upper shell for use with the screw hole; The bit ring is located at the rear end of the screw hole post. This is the specific position of the sensor limit ring. This setting can be as close as possible to the distance between the vibration sensor and the upper board. Preferably, the wire avoidance opening is located at one side of the screw hole column. This is the specific location of the wire avoidance opening.

Preferably, the vibration sensor is a 3D sensor. 3D means to feel the vibration of the human body in all directions, that is, it does not need to be worn on the vertical floor. As long as it is carried in the pocket around it, the handbag can be counted.

The invention is provided with a sensor limiting device on the inner surface of the upper casing, and the vibration sensor is fixed in the sensor limiting device by glue, so that only one side of the vibration sensor sensor is glued and then glued to the sensor during assembly. In the limit device, the vibration sensor can be effectively fixed, and the vibration sensor does not sway back and forth during use, thereby protecting the vibration sensor.

[Description of the Drawings]

1 is a schematic overall view of an electronic pedometer according to an embodiment of the present invention;

2 is a schematic view of the vibration sensor and the upper case of the embodiment of the present invention assembled.

Among them: 1, electronic pedometer; 2, upper shell; 21, sensor limit ring; 22, wire avoidance opening; 23, screw hole column; 3, vibration sensor.

【detailed description】

An electronic pedometer includes an upper casing, a lower casing, a vibration sensor connected to the upper main plate and the lower main plate of the casing, and an electric connection between the upper main plate and the upper main plate. The inner surface of the upper casing is provided with A sensor limiting device adapted to the shape of the vibration sensor, wherein the vibration sensor is fixed in the vibrator limiting device with glue. The invention is provided with a sensor limiting device on the inner surface of the upper casing, and the vibration sensor is fixed in the sensor limiting device by glue, so that only one side of the vibration sensor sensor is glued and then glued to the sensor during assembly. In the limit device, the vibration sensor can be effectively fixed, and the vibration sensor does not sway back and forth during use, thereby protecting the vibration sensor.

The invention will now be further described with reference to the drawings and preferred embodiments.

As shown in FIGS. 1 to 2, the electronic pedometer 1 includes an upper case 2 and a lower case, and is fixed to the upper case 2 by screws. The inner upper and lower main boards, the vibration sensor 3 electrically connected to the upper main board, and the display screen fixed to the upper case 2 and the lower case head are connected by a flexible circuit board between the display screen and the upper main board. A screw hole 23 for fixing the upper main board and the lower main board is disposed on the upper shell 2, and correspondingly, a screw hole is formed on the upper main board and the lower main board to cooperate with the screw hole post 23, and the upper main board is fixed. Before the next motherboard. A sensor device adapted to the shape of the vibration sensor 3 is provided on the inner surface of the upper casing 2. The vibration sensor 3 has an annular shape, and the sensor limiting device is an annular upwardly protruding sensor limiting ring 21 disposed on the inner surface of the upper casing 2, and the inner diameter of the sensor limiting ring 21 is greater than or equal to the diameter of the vibration sensor 3, Moreover, the height of the sensor limiting ring 21 is greater than the thickness of the vibration sensor 3, so that after the vibration sensor 3 is fixed, the vibration sensor 3 does not expose the sensor limiting ring 21, and the vibration sensor 3 can be protected to a certain extent. The height of the sensor limiting ring 21 is smaller than the height of the screw hole column on the upper casing 2 for fixing the upper main board and the lower main board.

The vibration sensor 3 is directly connected to the upper main board by a wire, and one end of the wire is welded to the vibration sensor 3, and the other end is welded to the upper main board. A wire avoiding opening 22 is disposed on the sensor limiting ring 21. Since the head of the upper casing 2 is provided with a large number of components, the vibration sensor 3 is fixed to the tail of the upper casing 2. To save the wire, the wire avoiding opening 22 is close to The end of the sensor limit ring 21 of the main board. Wire welding On the vibration sensor 3 near the wire avoidance opening 22, this also saves the length of the wire. The width of the head of the upper main board is larger than the width of the tail of the upper main board, and a square-shaped platform protruding outward is disposed at an intermediate position of the tail portion of the upper main board, and a screw hole is disposed in the middle of the platform, correspondingly, The upper casing 2 is provided with a screw hole 23 for use with the screw hole; the sensor limiting ring 21 is located at the rear end of the screw hole 23 and the wire avoiding opening 22 is located at one side of the screw hole column 23.

In the present embodiment, the vibration sensor 3 is a 3D sensor, and 3D means that the human body vibration is felt in all directions, that is, it is not required to be worn on the vertical floor, and it can be counted in the handbag as long as it is carried in the side pocket.

The above is a further detailed description of the present invention in conjunction with the specific preferred embodiments. It is not intended that the specific embodiments of the invention are limited to the description. It will be apparent to those skilled in the art that the present invention can be made without departing from the spirit and scope of the invention.

Claims

Rights request

1. An electronic pedometer, characterized in that it includes an upper shell, a lower shell, an upper main board and a lower main board fixed inside the housing, and a vibration sensor electrically connected to the upper main board. A sensor limiting device adapted to the shape of the vibration sensor is provided on the inner surface of the shell, and the vibration sensor is fixed in the vibrator limiting device with glue.

2. The electronic pedometer according to claim 1, characterized in that the vibration sensor is disk-shaped, and correspondingly, the sensor limiting device is an annular upwardly protruding sensor limiting ring, The inner diameter of the sensor limiting ring is greater than or equal to the diameter of the vibration sensor.

3. The electronic pedometer according to claim 2, characterized in that the sensor limit ring is located at the tail of the upper shell.

4. The electronic pedometer according to claim 2, characterized in that the height of the sensor limiting ring is greater than the thickness of the vibration sensor.

5. The electronic pedometer according to claim 3, characterized in that the vibration sensor is connected to the upper main board using wires.

6. The electronic pedometer according to claim 5, wherein the upper main board is fixed on the front end of the upper shell, and a wire is provided at one end of the sensor limit ring close to the upper main board. Avoid speaking.

7. The electronic pedometer according to claim 6, wherein one end of the wire is welded to a vibration sensor close to the wire escape opening.

8. The electronic pedometer according to claim 5, characterized in that, the upper main board is fixed to the front end of the upper case with screws, and the width of the head of the upper main board is greater than the width of the tail of the upper main board. Width, a square-shaped platform protruding outward is provided at the middle position of the tail of the upper motherboard, and a screw hole is provided in the middle of the platform. Correspondingly, a screw hole is provided on the upper shell corresponding to the The screw hole post is used in conjunction with the screw hole; the sensor limit ring is located at the rear end of the screw hole post.

9. The electronic pedometer according to claim 8, characterized in that the wire avoids the opening position. on one side of the screw hole post.

10. The electronic pedometer according to any one of claims 1 to 9, characterized in that the vibration sensor is a 3D sensor.