阅读说明：本技术 一种测量手套 (Measuring glove ) 是由 不公告发明人 于 2019-10-08 设计创作，主要内容包括：本发明涉及一种测量手套,包括按键、可充电第一电池,可充电第二电池、第一蓝牙模块、第二蓝牙模块、第一控制器、第二控制器、超声波发射模块、超声波接收模块、导电纱线A、导电纱线B、第一手套以及第二手套；可充电第一电池为第一蓝牙模块、第一控制器、超声波接收模块供电；可充电第二电池为第二蓝牙模块、第二控制器、超声波发射模块供电；充电第一电池、第一蓝牙模块以及第一控制器安装固定在第一手套的手背位置外；可充电第二电池、第二蓝牙模块以及第二控制器安装固定在第二手套的手背位置外；超声波接收模块安装固定于第一手套食指指尖背部；超声波发射模块安装固定于第二手套食指指尖背部。本发明成本低,使用方便,测量效率高。(The invention relates to a measuring glove, which comprises a key, a rechargeable first battery, a rechargeable second battery, a first Bluetooth module, a second Bluetooth module, a first controller, a second controller, an ultrasonic transmitting module, an ultrasonic receiving module, conductive yarns A, conductive yarns B, a first glove and a second glove, wherein the first battery is arranged on the key; the rechargeable first battery supplies power to the first Bluetooth module, the first controller and the ultrasonic receiving module; the rechargeable second battery supplies power to the second Bluetooth module, the second controller and the ultrasonic transmitting module; the first battery, the first Bluetooth module and the first controller are fixedly arranged outside the hand back position of the first glove; the rechargeable second battery, the second Bluetooth module and the second controller are fixedly arranged outside the back of the hand of the second glove; the ultrasonic receiving module is fixedly arranged on the back of the index finger tip of the first glove; the ultrasonic emission module is fixedly arranged on the back of the index finger tip of the second glove. The invention has the advantages of low cost, convenient use and high measuring efficiency.)

1. A measuring glove, characterized by: the measuring glove comprises a key, a rechargeable first battery, a rechargeable second battery, a first Bluetooth module, a second Bluetooth module, a first controller, a second controller, an ultrasonic transmitting module, an ultrasonic receiving module, a conductive yarn A, a conductive yarn B, a first glove and a second glove; the rechargeable first battery supplies power to the first Bluetooth module, the first controller and the ultrasonic receiving module; the rechargeable second battery supplies power to the second Bluetooth module, the second controller and the ultrasonic transmitting module; the first battery, the first Bluetooth module and the first controller are fixedly arranged outside the back of the hand of the first glove; the rechargeable second battery, the second Bluetooth module and the second controller are fixedly arranged outside the back of the hand of the second glove; the ultrasonic receiving module is fixedly arranged on the back of the index finger tip of the first glove; the ultrasonic emission module is fixedly arranged on the back of the index finger tip of the second glove; the conductive yarn A and the conductive yarn B are respectively knitted on the first glove and the second glove; the conductive yarn A is connected with the first controller and the ultrasonic receiving module, so that the first controller and the ultrasonic receiving module can carry out data communication; the conductive yarn B is connected with the second controller and the ultrasonic transmitting module, so that the conductive yarn B and the ultrasonic transmitting module can carry out data communication; the first controller is connected with the first Bluetooth module; the second controller is connected with a second Bluetooth module; the first Bluetooth module and the second Bluetooth module can carry out data communication through Bluetooth wireless connection; the key is arranged on the back of the index finger of the second glove and can be pressed by the thumb, and is connected with the second controller;

in a working state, a user wears the first glove on the left hand and the second glove on the right hand; when the volume of the package needs to be measured, a user puts two hands wearing the gloves on the long edge L of the package, presses down a key on the second glove, and after receiving key information, the second controller commands the second Bluetooth module to send the current time T1 to the first Bluetooth module and commands the ultrasonic wave emitting module to emit ultrasonic waves at the same time; after the ultrasonic receiving module receives the ultrasonic waves, the first controller immediately records the current time T2, the first controller sends T2 to the second controller in a Bluetooth mode, the difference value between T2 and T1 is the transmission time of the ultrasonic waves in the distance L, and then L = v (T2-T1) is calculated according to the transmission speed v of the ultrasonic waves in the air; the width W and the height H of the package can be measured by the same method; volume of the wrap V = L W H.

2. The measuring glove of claim 1, wherein: the measuring glove further comprises a third Bluetooth module, and the third Bluetooth module is mounted on the first glove and connected with the first controller; in the working state, the third Bluetooth module can be in data connection with the external equipment and sends the measurement result to the external equipment.

3. The measuring glove of claim 1, wherein: the measuring glove further comprises a clock unit A and a clock unit B, and the clock unit A is mounted on the first glove and connected with the first controller; the clock unit B is arranged on the second glove and connected with the second controller; when the whole glove is powered on, the first Bluetooth module firstly sends the time information of the clock unit A to the second Bluetooth module; the second controller records the time difference between the clock unit A and the clock unit B; the second controller adjusts the time information of the clock unit B to keep the time of the clock unit B consistent with that of the clock unit A.

4. Measuring glove according to claim 1 or 3, characterized in that: the specific model of the control A and the second controller is MSP430G2433IRHB 32R; controlling the A to carry out data communication with the first Bluetooth module through a UART protocol; controlling the B to carry out data communication with a second Bluetooth module through a UART protocol; the first controller communicates data with clock unit a via I2C protocol; the second controller is in data communication with clock unit B via the I2C protocol.

5. The measuring glove of claim 1, wherein: in a working state, a user presses a key once, the measuring glove can continuously measure five times in a short time, and five groups of data are recorded; the second controller removes the maximum and minimum values from the five sets of data and averages the three sets of values in the middle as the final result.

6. The measuring glove of claim 1, wherein: first gloves, the second gloves are anti-cutting gloves, are exclusively used in express delivery transport work, prevent that user's hand from being wrapped up fish tail, incised wound.

7. Measuring glove according to claim 1 or 2, characterized in that: the measuring glove further comprises a mechanical shell A and a mechanical shell B; the machine shell A is sewn on a first glove, and the machine shell B is sewn on a second glove; the rechargeable first battery, the first Bluetooth module, the first controller and the third Bluetooth module are arranged in the mechanical shell A; the rechargeable first battery, the first Bluetooth module and the first controller are arranged in the mechanical shell B; the conductive yarn A penetrates through the mechanical shell A and is connected with a first controller; and the conductive yarn B penetrates through the mechanical shell B and is connected with a second controller.

8. The measuring glove of claim 7, wherein: the button-type LED lamp also comprises a circuit board A, a metal button B and a circuit board B; the first controller is attached to the circuit board A, and the conductive yarn A is pressed on the circuit board A through the metal button A, so that the first controller is connected with the conductive yarn A to carry out electric communication; the second controller is attached to the circuit board B in a surface mode, the conductive yarn B is pressed on the circuit board B through the metal button B, and therefore the second controller is connected with the conductive yarn B to conduct electric communication.

Technical Field

The invention belongs to the field of wearable devices, particularly relates to a wearable device for package measurement, and particularly relates to a protective glove integrated with a measurement function.

Background

Currently, the express delivery industry is continuously developed, the corresponding parcel measuring speed matched with the express delivery industry is not obviously improved, and expensive machine identification equipment or a manual size method is adopted for volume measurement of parcels and then the parcels are input into the system. Both of these measurement methods are inefficient and high in equipment or labor costs.

In view of this, the present invention provides a wearable device with a measurement function, and a measurement glove applied to parcel measurement in the express delivery industry is a research content of the present invention.

Disclosure of Invention

In view of the above problems, the present invention provides a measuring glove, which aims to solve the existing problems.

In order to achieve the purpose, the invention adopts the following technical scheme: a pair of measuring gloves comprises keys, a rechargeable first battery, a rechargeable second battery, a first Bluetooth module, a second Bluetooth module, a first controller, a second controller, an ultrasonic transmitting module, an ultrasonic receiving module, conductive yarns A, conductive yarns B, a first glove and a second glove; the rechargeable first battery supplies power to the first Bluetooth module, the first controller and the ultrasonic receiving module; the rechargeable second battery supplies power to the second Bluetooth module, the second controller and the ultrasonic transmitting module; the first battery, the first Bluetooth module and the first controller are fixedly arranged outside the back of the hand of the first glove; the rechargeable second battery, the second Bluetooth module and the second controller are fixedly arranged outside the back of the hand of the second glove; the ultrasonic receiving module is fixedly arranged on the back of the index finger tip of the first glove; the ultrasonic emission module is fixedly arranged on the back of the index finger tip of the second glove; the conductive yarn A and the conductive yarn B are respectively knitted on the first glove and the second glove; the conductive yarn A is connected with the first controller and the ultrasonic receiving module, so that the first controller and the ultrasonic receiving module can carry out data communication; the conductive yarn B is connected with the second controller and the ultrasonic transmitting module, so that the conductive yarn B and the ultrasonic transmitting module can carry out data communication; the first controller is connected with the first Bluetooth module; the second controller is connected with a second Bluetooth module; the first Bluetooth module and the second Bluetooth module can carry out data communication through Bluetooth wireless connection; the key is arranged on the back of the index finger of the second glove and can be pressed by the thumb, and is connected with the second controller;

in a working state, a user wears the first glove on the left hand and the second glove on the right hand; when the volume of the package needs to be measured, a user puts two hands wearing the gloves on the long edge L of the package, presses down a key on the second glove, and after receiving key information, the second controller commands the second Bluetooth module to send the current time T1 to the first Bluetooth module and commands the ultrasonic wave emitting module to emit ultrasonic waves at the same time; after the ultrasonic receiving module receives the ultrasonic waves, the first controller immediately records the current time T2, the first controller sends T2 to the second controller in a Bluetooth mode, the difference value between T2 and T1 is the transmission time of the ultrasonic waves in the distance L, and then L = v (T2-T1) is calculated according to the transmission speed v of the ultrasonic waves in the air; the width W and the height H of the package can be measured by the same method; volume of the wrap V = L W H.

As a further improvement of the invention, the measuring glove further comprises a third bluetooth module, and the third bluetooth module is mounted on the first glove and connected with the first controller; in the working state, the third Bluetooth module can be in data connection with the external equipment and sends the measurement result to the external equipment.

As a further improvement of the invention, the measuring glove further comprises a clock unit a and a clock unit B, wherein the clock unit a is mounted on the first glove and connected with the first controller; the clock unit B is arranged on the second glove and connected with the second controller; when the whole glove is powered on, the first Bluetooth module firstly sends the time information of the clock unit A to the second Bluetooth module; the second controller records the time difference between the clock unit A and the clock unit B; the second controller adjusts the time information of the clock unit B to keep the time of the clock unit B consistent with that of the clock unit A.

As a further improvement of the invention, the specific models of the control A and the second controller are MSP430G2433IRHB 32R; controlling the A to carry out data communication with the first Bluetooth module through a UART protocol; controlling the B to carry out data communication with a second Bluetooth module through a UART protocol; the first controller communicates data with clock unit a via I2C protocol; the second controller is in data communication with clock unit B via the I2C protocol.

As a further improvement of the invention, in the working state, a user presses a key once, the measuring glove can continuously measure five times in a short time, and five groups of data are recorded; the second controller removes the maximum and minimum values from the five sets of data and averages the three sets of values in the middle as the final result.

As a further improvement of the invention, the first glove and the second glove are both anti-cutting gloves which are specially used for express delivery and carrying work, and the hands of a user are prevented from being scratched and cut by a package.

As a further improvement of the present invention, the measuring glove further comprises a mechanical shell a, a mechanical shell B; the machine shell A is sewn on a first glove, and the machine shell B is sewn on a second glove; the rechargeable first battery, the first Bluetooth module, the first controller and the third Bluetooth module are arranged in the mechanical shell A; the rechargeable first battery, the first Bluetooth module and the first controller are arranged in the mechanical shell B; the conductive yarn A penetrates through the mechanical shell A and is connected with a first controller; and the conductive yarn B penetrates through the mechanical shell B and is connected with a second controller.

As a further improvement of the invention, the button-type electric heating wire further comprises a circuit board A, a metal button B and a circuit board B; the first controller is attached to the circuit board A, and the conductive yarn A is pressed on the circuit board A through the metal button A, so that the first controller is connected with the conductive yarn A to carry out electric communication; the second controller is attached to the circuit board B in a surface mode, the conductive yarn B is pressed on the circuit board B through the metal button B, and therefore the second controller is connected with the conductive yarn B to conduct electric communication.

The working principle and the effect of the invention are as follows:

the invention relates to a pair of measuring gloves.A user puts two hands wearing the gloves on a long edge L of a package, presses down a key on a second glove, and after receiving key information, a second controller commands a second Bluetooth module to send current time T1 to a first Bluetooth module and commands an ultrasonic wave transmitting module to transmit ultrasonic waves at the same time; after the ultrasonic receiving module receives the ultrasonic waves, the first controller immediately records the current time T2, the first controller sends T2 to the second controller in a Bluetooth mode, the difference value between T2 and T1 is the transmission time of the ultrasonic waves in the distance L, and then L = v (T2-T1) is calculated according to the transmission speed v of the ultrasonic waves in the air; the width W and the height H of the package can be measured by the same method; volume of the wrap V = L W H. The invention has the advantages of low cost, no space occupation, high measurement efficiency and convenient use, and can finish measurement in the grabbing process only by one glove, thereby not only needing no other additional processes, greatly reducing the working process and improving the measurement efficiency, but also effectively reducing the equipment and labor cost.

Drawings

The drawings described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way. In addition, the shapes, the proportional sizes, and the like of the respective members in the drawings are merely schematic for assisting the understanding of the present application, and are not particularly limited to the shapes, the proportional sizes, and the like of the respective members in the present application. Those skilled in the art, having the benefit of the teachings of this application, may select various possible shapes and proportional sizes to implement the present application, depending on the particular situation. In the drawings:

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

Detailed Description

The following examples further illustrate the invention. These examples are intended to illustrate the invention, but not to limit it in any way.