CN103389108A

CN103389108A - Electronic pedometer

Info

Publication number: CN103389108A
Application number: CN201310326042XA
Authority: CN
Inventors: 谢虹
Original assignee: Individual
Current assignee: Zheng Ying
Priority date: 2013-07-30
Filing date: 2013-07-30
Publication date: 2013-11-13
Anticipated expiration: 2033-07-30
Also published as: CN103389108B; WO2015013914A1

Abstract

The invention discloses an electronic pedometer. The electronic pedometer comprises an upper shell, a lower shell, an upper mainboard, a lower mainboard and a vibrating sensor, wherein the upper mainboard and the lower mainboard are fixed inside the shell; the vibrating sensor is electrically connected with the upper mainboard; a sensor limiting device matched with the shape of the vibrating sensor is arranged on the inner surface of the upper shell; and the vibrating sensor is fixed in the sensor limiting device with glue. The electronic pedometer has the beneficial effects that as the sensor limiting device is arranged on the inner surface of the upper shell and the vibrating sensor is fixed in the sensor limiting device with glue, the vibrating sensor can be effectively fixed by only coating glue on one surface of the vibrating sensor and gluing the vibrating sensor in the sensor limiting device during assembly; and the vibrating sensor can not shake back and forth when in use, thus protecting the vibrating sensor.

Description

A kind of electronic pedometer

Technical field

The present invention relates to the sports equipment field, in particular, relate to a kind of electronic pedometer.

Background technology

Passometer calculates calorie or energy consumption by data such as statistics step number, distance, speed, times and grasps momentally, prevents hypomotility or excessive movement.

Electronic pedometer mainly is comprised of vibration transducer and electronic counter, to be exactly that balance bob balance when up-down vibration is destroyed in fact make a contact on/off action can occur with so-called vibration transducer, record and show by electronic counter and just completed major function, other heat exhaustion, distance converts and completes by circuit.

I have designed a kind of electronic pedometer, comprise upper casing, lower casing, am fixed on upper mainboard and the lower mainboard of enclosure interior,, with the shock sensor that described upper mainboard is electrically connected to, am fixed on the display screen of described upper casing and lower casing front end; Be connected by flexible PCB between described display screen and upper mainboard, be provided with the electronic counter that is used in conjunction with described vibration transducer on described upper mainboard, described upper mainboard can be completed the step function of electronic pedometer; Be provided with the circuit with listening device function on described lower mainboard, described lower mainboard is completed the wireless function of electronic pedometer; Described vibration transducer is placed in space between upper and lower mainboard and upper casing.This scheme is for open.But between vibration transducer is placed in space between upper and lower mainboard and upper casing, and the height in the space between upper and lower mainboard and upper casing is greater than the thickness of vibration transducer, vibration transducer is run and may be slided the user, the damage of Caused Vibration sensor, thus serviceable life of electronic pedometer affected.

Summary of the invention

Technical matters to be solved by this invention is to provide a kind of electronic pedometer that vibration transducer is effectively fixing.

The objective of the invention is to be achieved through the following technical solutions: a kind of electronic pedometer, comprise upper casing, lower casing, be fixed on upper mainboard and the lower mainboard of described enclosure interior, with the vibration transducer that is electrically connected between described upper mainboard, the inside surface of described upper casing is provided with a sensor stop means that adapts with described vibration transducer shape, and described vibration transducer is fixed in described Vib. stop means with glue.

Preferably, described vibration transducer is in the form of annular discs, corresponding, described sensor stop means is the Vib. spacing ring protruding upward of an annular, the internal diameter of described sensor spacing ring is greater than or equal to the diameter of described vibration transducer.This is the concrete structure of vibration transducer and sensor stop means.

Preferably, described sensor spacing ring is positioned at the afterbody of described upper casing.This is the fixing particular location of vibration transducer.

Preferably, the height of described sensor spacing ring is greater than the thickness of described vibration transducer.After fixing vibration transducer, vibration transducer can not expose the sensor spacing ring, can protect vibration transducer to a certain extent like this.

Preferably, described vibration transducer wire and described upper mainboard conducting.This is the concrete mode that upper mainboard is electrically connected to vibration transducer.

Preferably, described upper mainboard is fixed on the front end of described upper casing, and an end of mainboard arranges a wire and dodges opening on described sensor spacing ring close described.It is the rear end that is fixed on upper casing due to vibration transducer, and upper mainboard is the front end that is fixed on upper casing, and be electrically connected between vibration transducer and upper mainboard, wire is dodged opening be arranged on an end of the close upper mainboard of sensor spacing ring, can reduce the use amount of wire.

Preferably, an end of described wire is welded near described wire and dodges near the vibration transducer of opening.So also can reduce the use amount of wire.

Preferably, described upper mainboard is screwed in the front end of described upper casing, the width of described upper mainboard head is greater than the width of described upper mainboard afterbody, the place, centre position of described upper mainboard afterbody is provided with an outwardly square shape platform, be provided with a screw hole in the centre of described platform, corresponding, be provided with a screw hole post that is used in conjunction with described screw hole on described upper casing; Described sensor spacing ring is positioned at the rear end of described screw hole post.This has been the particular location of sensor spacing ring, and the distance that can as far as possible further between vibration transducer and upper mainboard is set like this.

Preferably, described wire is dodged opening and is positioned at a side of screw hole post.This is the particular location that wire is dodged opening.

Preferably, described vibration transducer is the 3D sensor.3D means the comprehensive body shake of experiencing, and does not namely need vertical ground to wear again, and, as long as be with at one's side in pocket, can count the step in handbag.

The present invention is owing to being provided with the sensor stop means on the inside surface of upper casing; and vibration transducer is fixed in the sensor stop means with glue; need only the one side of vibration transducer sensor is applied glue when assembling like this; then be bonded in the sensor stop means; just can be effectively fixing vibration transducer; and vibration transducer can not rock back and forth in use, thereby protected vibration transducer.

Description of drawings

Fig. 1 is the overall schematic of the electronic pedometer of the embodiment of the present invention;

Fig. 2 is the vibration transducer of the embodiment of the present invention and the schematic diagram after the upper casing assembling.

Wherein: 1, electronic pedometer; 2, upper casing; 21, sensor spacing ring; 22, wire is dodged opening; 23, screw hole post; 3, vibration transducer.

Embodiment

A kind of electronic pedometer, comprise upper casing, lower casing, be fixed on upper mainboard and the lower mainboard of described enclosure interior, with the vibration transducer that is electrically connected between described upper mainboard, the inside surface of described upper casing is provided with a sensor stop means that adapts with described vibration transducer shape, and described vibration transducer is fixed in described Vib. stop means with glue.The present invention is owing to being provided with the sensor stop means on the inside surface of upper casing; and vibration transducer is fixed in the sensor stop means with glue; need only the one side of vibration transducer sensor is applied glue when assembling like this; then be bonded in the sensor stop means; just can be effectively fixing vibration transducer; and vibration transducer can not rock back and forth in use, thereby protected vibration transducer.

The invention will be further described below in conjunction with accompanying drawing and preferred embodiment.

As shown in Fig. 1 to 2, electronic pedometer 1 comprises upper casing 2 and lower casing, and is screwed in upper mainboard and the lower mainboard of upper casing 2 inside, the vibration transducer 3 that is electrically connected to upper mainboard, be fixed on the display screen of upper casing 2 and lower casing head, be connected with flexible PCB between display screen and upper mainboard.Be provided with on upper casing 2 protruding upward fixing on the screw hole post 23 of mainboard and lower mainboard, corresponding, the screw hole that setting matches with described screw hole post 23 on upper mainboard and lower mainboard, before upper mainboard is fixed on lower mainboard.Inside surface at upper casing 2 is provided with a sensor device that adapts with vibration transducer 3 shapes.Vibration transducer 3 is circular; the sensor stop means just is arranged on the sensor spacing ring 21 protruding upward of the annular of upper casing 2 inside surfaces so; the internal diameter of sensor spacing ring 21 is greater than or equal to the diameter of vibration transducer 3; and the height of sensor spacing ring 21 is greater than the thickness of vibration transducer 3; like this after fixing vibration transducer 3; vibration transducer 3 can not expose sensor spacing ring 21, can protect vibration transducer 3 to a certain extent.And the height of sensor spacing ring 21 is less than the height of the screw hole post that is used for fixing upper mainboard and lower mainboard on upper casing 2.

Vibration transducer 3 use wires and the direct conducting of upper mainboard, an end of wire is welded on vibration transducer 3, and the other end is welded on mainboard.Dodge on opening 22 being provided with wire on sensor spacing ring 21, because the head of upper casing 2 is provided with more parts, vibration transducer 3 is fixed on the afterbody of upper casing 2, and in order to save wire, wire is dodged the end of opening 22 near the sensor spacing ring 21 of upper mainboard.On near the vibration transducer 3 of wire bonds wire is dodged opening 22, the length that so also can save wire.The width of the head of upper mainboard is greater than the width of upper mainboard afterbody, the place, centre position of upper mainboard afterbody is provided with an outwardly square shape platform, be provided with a screw hole in the centre of described platform, corresponding, be provided with a screw hole post 23 that is used in conjunction with described screw hole on upper casing 2; Sensor spacing ring 21 is positioned at the rear end of described screw hole post 23 and wire and dodges opening 22 and be positioned at a side of screw hole post 23.

Vibration transducer 3 is the 3D sensor in the present embodiment, and 3D means the comprehensive body shake of experiencing, and does not namely need vertical ground to wear again, and, as long as be with at one's side in pocket, can count the step in handbag.

Above content is in conjunction with concrete preferred implementation further description made for the present invention, can not assert that specific embodiment of the invention is confined to these explanations.For the general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, can also make some simple deduction or replace, all should be considered as belonging to protection scope of the present invention.

Claims

1. electronic pedometer, it is characterized in that, comprise upper casing, lower casing, be fixed on upper mainboard and the lower mainboard of described enclosure interior, with the vibration transducer that is electrically connected between described upper mainboard, the inside surface of described upper casing is provided with a sensor stop means that adapts with described vibration transducer shape, and described vibration transducer is fixed in described Vib. stop means with glue.

2. electronic pedometer as claimed in claim 1, it is characterized in that, described vibration transducer is in the form of annular discs, corresponding, described sensor stop means is the sensor spacing ring protruding upward of an annular, and the internal diameter of described sensor spacing ring is greater than or equal to the diameter of described vibration transducer.

3. electronic pedometer as claimed in claim 2, is characterized in that, described sensor spacing ring is positioned at the afterbody of described upper casing.

4. electronic pedometer as claimed in claim 2, is characterized in that, the height of described sensor spacing ring is greater than the thickness of described vibration transducer.

5. electronic pedometer as claimed in claim 3, is characterized in that, described vibration transducer wire and described upper mainboard conducting.

6. electronic pedometer as claimed in claim 5, is characterized in that, described upper mainboard is fixed on the front end of described upper casing, and an end of mainboard arranges a wire and dodges opening on described sensor spacing ring close described.

7. electronic pedometer as claimed in claim 6, is characterized in that, an end of described wire is welded near described wire and dodges near the vibration transducer of opening.

8. electronic pedometer as claimed in claim 5, it is characterized in that, described upper mainboard is screwed in the front end of described upper casing, the width of described upper mainboard head is greater than the width of described upper mainboard afterbody, the place, centre position of described upper mainboard afterbody is provided with an outwardly square shape platform, be provided with a screw hole in the centre of described platform, corresponding, be provided with a screw hole post that is used in conjunction with described screw hole on described upper casing; Described sensor spacing ring is positioned at the rear end of described screw hole post.

9. electronic pedometer as claimed in claim 8, is characterized in that, described wire is dodged opening and is positioned at a side of screw hole post.

10. described electronic pedometer as arbitrary in claim 1-9, is characterized in that, described vibration transducer is the 3D sensor.