CN108303000B - Intelligent electronic ruler - Google Patents

Abstract

The invention discloses an electronic ruler, which comprises a shell, a processing circuit board, a ruler core scroll, a roller encoder and a driven wheel, wherein the processing circuit board, the ruler core scroll, the roller encoder and the driven wheel are arranged in the shell, the driven wheel is arranged opposite to a roller of the roller encoder, a ruler tape is arranged on the ruler core scroll, a ruler tape outlet is also arranged at one side of the shell, the tail end of the ruler tape is fixed on the ruler core scroll, the initial end of the ruler tape penetrates through the position between the roller and the driven wheel and penetrates out through the ruler: the wireless communication module is used for transmitting the object size information measured by the roller encoder to the terminal equipment and receiving a measurement instruction of the terminal equipment to the microprocessor, the shell is further provided with a key module connected with the microprocessor, and the key module is at least used for starting the wireless communication module connected with the terminal equipment to select the measurement instruction in the terminal equipment and transmitting the object size information measured by the roller encoder to the terminal equipment. This embodiment can save the cost of labor, reduces measuring error, improves measurement rate.

Description

Intelligent electronic ruler

Technical Field

The invention relates to the technical field of clothing tools, in particular to an intelligent electronic ruler used in clothing industry.

Background

The detection of whether the size of a measured object meets the standard in the clothing industry has the following problems:

(1) whether the size of an object meets the standard or not is detected by measuring the size of the object by using a measuring tape with scales used by a commercial tailor, the length of the measuring tape is pulled, and the measuring tape is recorded on a piece of detection paper after the number is read manually.

(2) The whole detection process is manually operated, so that the manual operation is easy to cause measurement errors and data recording errors.

(3) A simple short-sleeved T-shirt has more than 20 positions to be detected and measured, the scales of the tape are observed manually in the whole process, the detection table is filled manually, the whole process is operated manually, and 3000 products in the batch of the products need to be checked and detected by up to 200 pieces. The manual inspection process of 200 items takes a lot of time.

(4) After the detection personnel detects the object, a paper test report can be generated, and the detection personnel also needs to record paper data into an excel system, a word system, an ERP system and the like, so that the time and labor are wasted

(5) Paper test reports are difficult to store and use by other systems.

Disclosure of Invention

Based on the defects of the prior art, the invention aims to provide the intelligent electronic ruler, which improves the detection efficiency, shortens the detection time, avoids the detection error rate and saves the cost.

In order to achieve the purpose, the technical scheme of the invention is as follows:

intelligence electronic ruler, including the shell, set up processing circuit board, chi core spool, roller encoder in the shell inside, with the relative follow driving wheel that sets up of roller encoder's gyro wheel, be provided with the chi area on the chi core spool, shell one side still is provided with the chi area export, chi area tail end is fixed on the chi core spool, chi area top from the gyro wheel with from passing between the driving wheel, wear out its characterized in that again through the chi area export: the wireless communication module is used for transmitting the object size information measured by the roller encoder to the terminal equipment and receiving a measurement instruction of the terminal equipment to the microprocessor, the shell is further provided with a key module connected with the microprocessor, and the key module is at least used for starting the wireless communication module connected with the terminal equipment to select the measurement instruction in the terminal equipment and transmitting the object size information measured by the roller encoder to the terminal equipment.

Furthermore, the wireless communication module adopts a Bluetooth module or a GPRS communication module.

Furthermore, the microprocessor is also connected with a memory for storing the measurement information of the roller encoder.

Furthermore, the measurement instruction in the terminal device includes a measurement instruction of the object parameter information, and the measurement instruction of the corresponding object parameter information can be selected through the key module.

Further, the parameter information of the object includes one or more of measurement parameters of different parts, measurement parameters of a category of the object, and measurement parameters of a size number of the object.

Furthermore, the key module at least comprises 7 buttons of 'up', 'down', 'left', 'right', 'confirmation', 'elimination' and 'unit conversion', which are respectively connected with the microprocessor, wherein the 'up' and 'down' buttons are used for selecting different parts of the object to be measured, the 'left' and 'right' buttons are used for selecting different types of the object to be measured, the 'confirmation' button is used for starting measurement and transmitting measurement information to the terminal equipment through the wireless communication module, the 'clearing' button is used for clearing the selected measurement instruction, and the 'conversion unit' button is used for changing the size number of the object to be measured.

Further, the key module further comprises a selection button for selecting the color of the measurement object.

Furthermore, the terminal device adopts a mobile phone or a tablet computer, and the measurement instruction of the terminal device is stored in an APP program module, an eg windows module or a Mac book module of the mobile phone or the tablet computer.

The invention has the beneficial effects that: through setting up wireless communication module in intelligent electronic ruler, can transmit measured data for terminal equipment through wireless communication module, also can transmit the information of measuring article parameter in the terminal equipment for the electronic ruler area through wireless communication module, the electronic ruler area is with the article parameter that measuring terminal equipment required that corresponds, through two-way measurement, can save the cost of labor, reduces measuring error, improves measurement rate, the storage of the measured data of still being convenient for.

Drawings

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

FIG. 2 is an exploded view of an embodiment of the present invention;

FIG. 3 is a schematic diagram of a rear panel structure according to an embodiment of the present invention;

FIG. 4 is a schematic side view of an embodiment of the present invention;

FIG. 5 is a schematic diagram of the internal structure of an embodiment of the present invention;

fig. 6 is a circuit configuration block diagram of an embodiment of the present invention.

Detailed Description

The conception, the specific structure and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the schematic drawings to fully understand the objects, the features and the effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and those skilled in the art can obtain other embodiments without inventive effort based on the embodiments of the present invention, and all embodiments are within the protection scope of the present invention.

As shown in fig. 1-6, the intelligent electronic ruler comprises a housing 1, a processing circuit board 2 disposed inside the housing 1, a ruler core reel 3, a roller encoder 4, a driven wheel 5 disposed opposite to the roller of the roller encoder 4, a ruler tape 31 disposed on the ruler core reel 3, a ruler tape outlet 6 disposed on one side of the housing, a belt tail end fixed on the ruler core reel, a belt start end passing through between the roller and the driven wheel and passing out through the belt outlet, the roller encoder generates a pulse every 1/24 rotation, when the ruler tape is extended by the stretching of a user, the ruler tape between the roller encoder and the driven wheel moves to drive the roller encoder to roll, the roller encoder converts the rolling angle into proportional pulse number, the processing circuit board is provided with a microprocessor, the roller encoder transmits the pulse number to the microprocessor, the microprocessor receives the pulse, and the actual moving distance of the tape, namely the measured length of the object, is obtained through calculation, and the microprocessor is also connected with a memory for storing the measurement information of the roller encoder.

Microprocessor is connected with wireless communication module, and this embodiment wireless communication module adopts bluetooth module, and wireless communication module also can adopt the GPRS module, bluetooth module is used for giving terminal equipment with the measured article size information transmission of roller encoder, still is used for receiving terminal equipment's measuring instruction and gives microprocessor, still be provided with on the shell with the button module 7 that microprocessor is connected, button module 7 is used for starting the bluetooth module of being connected with terminal equipment at least and selects the measuring instruction in the terminal equipment and gives terminal equipment with the measured article size information transmission of roller encoder. The measuring instruction in the terminal equipment comprises a measuring instruction of the object parameter information, and the measuring instruction of the corresponding object parameter information can be selected through the key module.

The parameter information of the object comprises one or more of measurement parameters of different parts, measurement parameters of the type of the object and measurement parameters of the size number of the object. After a measurement instruction for preparing measurement is selected, the value of the dimension measured by the electronic tape is measurement data of a corresponding parameter of an object, the object of the embodiment is described by taking clothes as an example, and other objects can be measured, for example, parameter information of the clothes comprises measurement parameters of different parts, measurement parameters of the type of the clothes, measurement parameters of the size of the clothes and the like, and different parts comprise collars and sleeves of the clothes. Front and back, etc., the clothes can be shirts, trousers, skirts, etc., and the size of the clothes can include the clothes information of adults and children, etc.

As shown in the table 1 below, the following examples,

watch 1

The key module comprises an upper button 11, a lower button 12, a left button 13, a right button 14, a confirmation button 15, a cancellation button 16, a unit conversion button 17, a color button 18, a mark button 19, an increase +110, a decrease-111, a power switch button 112 and the like which are respectively connected with the microprocessor, wherein the upper button and the lower button are used for selecting different parts of clothes to measure, and the selection process comprises the following steps: the terminal equipment stores data instructions corresponding to standard sizes of different parts of the clothes, and when the up button or the down button is pressed, the microprocessor controls the Bluetooth module to transmit the data instructions to the terminal equipment after receiving the up instruction or the down instruction, so that the terminal equipment runs the previous instruction or the next instruction of the stored currently running measurement instruction, and then the jump measurement of different parts of the clothes is realized.

Similarly, the left button and the right button are used for selecting different types of clothes for measurement, data instructions of corresponding standard sizes of the different types of clothes are stored in the terminal equipment, and jump measurement among the different types can be realized by operating the left button and the right button.

Similarly, the "change unit" button is used for changing the data command of the standard size of the clothes,

the "confirm" button is used to initiate the measurement and transmit the measurement information to the terminal device via the bluetooth module.

The 'clear' button is used for clearing the selected measuring instruction, when the measured value is different from the standard value, the 'mark button' can mark the current measured clothes stored in the terminal equipment, when the mark button is pressed, the instruction can be transmitted to the terminal equipment through the Bluetooth module, and the terminal equipment can mark the current measured clothes.

The operation of each button of this embodiment is all transmitted for terminal equipment through bluetooth module, and after terminal equipment received corresponding operating command, the instruction department of jumping to self storage that corresponds, then pressed the acknowledgement button, and the measured data of gyro wheel encoder will be transmitted for terminal equipment through bluetooth module, and terminal equipment compares the measured value with the standard value of storage. The actual measured value can be displayed through a display module on the terminal equipment, when the measured value is different from the standard value, the microprocessor can increase the corresponding difference value by increasing the +110 button and the-111 button, and the terminal equipment stores the difference value.

The microprocessor controls the roller encoder to measure or perform other operation programs, the color comprises standby red, standby yellow, standby blue and standby green buttons, the buttons can be operated to transmit corresponding color instructions to the terminal device through the Bluetooth, the terminal device calls corresponding color instruction modules to the microprocessor after receiving the instructions, and the microprocessor starts the roller encoder to measure.

Of course, the function and position of the keys can be changed at the position of the housing without being limited by the above embodiments.

For example, the terminal device may be a terminal device such as a mobile phone or a tablet computer, and the measurement instruction is stored in an APP program module, an eg windows module or a Mac book module of the terminal device such as the mobile phone or the tablet computer.

In the embodiment, a mobile phone is used as a terminal device, when the mobile phone is used for measurement, instructions such as measurement units are determined, cleared and converted to be transmitted to a mobile phone APP in the measurement process, the measurement process is accelerated by matching with the mobile phone APP, and the mobile phone APP has data to be measured and the size of the corresponding size; for example, the Bluetooth command is up and down, and the command is transmitted to move the position of the cursor of the mobile phone APP to a measurement item; the Bluetooth instruction controls the mobile phone APP cursor to move to the size of the clothes in a left-right mode; the Bluetooth instruction determines to transmit data to the current position of the mobile phone APP; the Bluetooth instruction is cleared away and then is sent the clearance instruction to APP, clear away the instruction and send the back, and cell-phone APP current cursor position data clears away.

The measurement display process and the recording process of the embodiment are all completed by the electronic tape, so that the measurement and recording time of measuring personnel is saved.

The measured data can be stored through the mobile phone, and people can conveniently check and print the measured data.

The shell is also provided with a ' measuring tape recovery ' button for controlling the recovery of the measuring tape and a ' power supply button for controlling the switch of the power supply equipment.

The embodiment saves labor cost, reduces measurement errors, improves measurement rate and is convenient for storing measurement data.

It should be noted that the above-mentioned embodiments are only preferred embodiments of the present invention, and the present invention is not limited to the above-mentioned embodiments, and the present invention shall fall within the protection scope of the present invention as long as the technical effects of the present invention are achieved by the same means.

Claims (6)

1. Intelligence electronic ruler, including the shell, set up processing circuit board, chi core spool, roller encoder in the shell inside, with the relative follow driving wheel that sets up of roller encoder's gyro wheel, be provided with the chi area on the chi core spool, shell one side still is provided with the chi area export, chi area tail end is fixed on the chi core spool, chi area top from the gyro wheel with from passing between the driving wheel, wear out its characterized in that again through the chi area export: the processing circuit board is provided with a microprocessor and a wireless communication module connected with the microprocessor, the wireless communication module is used for transmitting the object size information measured by the roller encoder to the terminal equipment and receiving the measurement instruction of the terminal equipment to the microprocessor, the shell is also provided with a key module connected with the microprocessor, and the key module is at least used for starting the wireless communication module connected with the terminal equipment to select the measurement instruction in the terminal equipment and transmitting the object size information measured by the roller encoder to the terminal equipment; the wireless communication module adopts a Bluetooth module or a GPRS communication module; the measuring instruction in the terminal equipment comprises a measuring instruction of the object parameter information, and the measuring instruction of the corresponding object parameter information can be selected through the key module.

2. The intelligent electronic ruler of claim 1, wherein: the microprocessor is also connected with a memory for storing the measurement information of the roller encoder.

3. The intelligent electronic ruler of claim 1, wherein: the parameter information of the object comprises one or more of measurement parameters of different parts, measurement parameters of the type of the object and measurement parameters of the size number of the object.

4. The intelligent electronic ruler of claim 3, wherein: the key module at least comprises 7 buttons of 'up', 'down', 'left', 'right', 'confirmation', 'elimination' and 'unit conversion', which are respectively connected with the microprocessor, wherein the 'up' and 'down' buttons are used for selecting different parts of an object to measure, the 'left' and 'right' buttons are used for selecting different types of the object to measure, the 'confirmation' button is used for starting measurement and transmitting measurement information to the terminal equipment through the wireless communication module, the 'clearing' button is used for clearing a selected measurement instruction, and the 'conversion unit' button is used for changing the size number of the object to measure.

5. The intelligent electronic ruler of claim 4, wherein: the key module further comprises a selection button for selecting a color of the measurement object.

6. The intelligent electronic ruler of claim 1, wherein: the terminal equipment adopts a mobile phone or a tablet computer, and the measurement instruction of the terminal equipment is stored in an APP module, an eg windows module or a Mac book module of the mobile phone or the tablet computer.

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