CN105316874B

CN105316874B - Operation panel and sewing machine

Info

Publication number: CN105316874B
Application number: CN201510404144.8A
Authority: CN
Inventors: 恒川祐树; 榊原博; 田中弘幸
Original assignee: Juki Corp
Current assignee: Juki Corp
Priority date: 2014-07-10
Filing date: 2015-07-10
Publication date: 2020-10-20
Anticipated expiration: 2035-07-10
Also published as: JP2016016198A; CN105316874A; JP6457210B2

Abstract

The invention provides an operation panel and a sewing machine, which can easily ensure the connection state with any sewing machine under the condition that the operation panel is shared by a plurality of sewing machines. The operation panel (10) performs wireless communication of setting data or commands with the sewing machine (110), and the operation panel (10) is characterized by comprising: a panel-side communication unit (17) that performs non-contact short-range wireless communication with a sewing machine-side communication unit (119) provided in the sewing machine; and a communication control unit (19) that periodically transmits polling data from the panel-side communication unit, the polling data requesting a response for maintaining the communication connection state.

Description

Operation panel and sewing machine

Technical Field

The invention relates to an operation panel and a sewing machine.

Background

In a sewing factory or the like, since a sewing operation is performed for a plurality of operation types, a plurality of sewing machines corresponding to the respective operation types are used. In the above-described plurality of sewing machines having different applications, the display parameters of the operation panel, which is an operation input device for performing various settings, are different in type and display content. In addition, even in the same type of sewing machine, when the operation type is different, the mounting position of the operation panel is changed, and the display parameter type is different, and therefore, it is desired to change the display content.

Therefore, conventionally, each operation panel mounted on a plurality of sewing machines used in the above-described environment is connected to a server terminal via a communication line such as a lan (local Area network), and data of a display screen corresponding to each sewing machine is acquired from the server terminal and displayed (for example, see patent document 1).

Patent document 1: japanese patent No. 4485086

In addition, in recent years, as the sewing machine has become multifunctional, the operation panel has also been made into a liquid crystal screen, so that a screen display that can be visually intuitively and easily operated can be realized, and complicated input can be performed on the operation panel.

Therefore, if the operation panel is mounted on each sewing machine as in patent document 1, the sewing machines themselves become expensive, and there is a problem that the cost reduction cannot be satisfied.

On the other hand, when the operation panel is shared by a plurality of sewing machines, if wired communication is used, the cable needs to be replaced, which complicates the work. Therefore, wireless communication between the operation panel and the sewing machine is desired, but if a wireless LAN is used, an IP address needs to be set for each sewing machine, and the setting work becomes complicated, which is problematic.

Disclosure of Invention

The invention aims to share an operation panel by a plurality of sewing machines and easily transmit data from the operation panel to each sewing machine.

The invention described in claim 1 is an operation panel of a sewing machine that performs wireless communication of setting data or commands with the sewing machine, the operation panel of the sewing machine comprising:

a panel-side communication unit that performs non-contact type short-distance wireless communication with a sewing machine-side communication unit provided in the sewing machine; and

and a communication control unit that periodically transmits polling data requesting a response for maintaining a communication connection state from the panel-side communication unit.

The invention described in claim 2 is characterized in that, in the operation panel of the sewing machine described in claim 1,

the communication control unit periodically transmits response request data requesting the response data indicating completion of a command or completion of data processing corresponding to the transmission of the setting data or the command data through the panel-side communication unit until the response data is received from the control unit of the sewing machine,

the transmission cycle of the response request data is set to be shorter than the transmission cycle of the polling data.

The invention described in claim 3 is characterized in that, in the operation panel of the sewing machine described in

claim

1 or 2,

an input unit for receiving the input of the setting data or command,

the communication control unit collectively transmits the setting data or the command data from the panel-side communication unit after waiting for completion of input of the plurality of setting data or the commands from the input unit.

The invention described in claim 4 is a sewing machine which performs wireless communication of setting data and commands with the operation panel of the sewing machine described in

claim

1 or 2,

the sewing machine is characterized by comprising a sewing machine side communication part, wherein the sewing machine side communication part and the panel side communication part are in non-contact short-distance wireless communication.

The invention described in claim 5 is a sewing machine which performs wireless communication of setting data and commands with the operation panel of the sewing machine described in claim 3,

ADVANTAGEOUS EFFECTS OF INVENTION

The invention carries out non-contact type short-distance wireless communication between the operation panel and the control device of the sewing machine, so that the communication parts of the operation panel and the control device of the sewing machine are communicated in a close state. Therefore, even when the operation panel is shared by a plurality of sewing machines, the communication state can be established only between the operation panel and the sewing machine in which the operation panel is disposed in proximity, and data transmission can be easily performed without performing operations such as setting of an IP address and cable connection.

Drawings

Fig. 1 is a block diagram showing a schematic configuration of a sewing system.

FIG. 2 is a block diagram showing a control system of the sewing system.

Fig. 3(a) is an explanatory diagram showing a data format of communication between the operation panel and the sewing machine, fig. 3(B) is an explanatory diagram showing a data structure of the block data part, and fig. 3(C) is an explanatory diagram showing a data structure of the communication header.

Fig. 4 is a timing chart of communication control performed among the CPU of the operation panel, the panel-side communication control section, the sewing machine-side communication control section, and the CPU of the sewing machine.

Fig. 5 is an explanatory diagram showing details of polling data.

Description of the reference numerals

10 operating panel

11 monitor

12 touch sensor (input part)

17 panel side communication unit

18-loop antenna

19 panel side communication control unit

100 sewing system

119 side communication part of sewing machine

120 loop antenna

121 side communication control part of sewing machine

Detailed Description

[ schematic Structure of Sewing System ]

Next, a sewing system 100 as an embodiment of the present invention will be described with reference to fig. 1 to 5. Fig. 1 is a block diagram showing a schematic configuration of a sewing system 100.

As shown in fig. 1, the sewing system 100 includes a plurality of sewing machines 110 and an operation panel 10 that can be shared among the sewing machines 110. In fig. 1, the case where the plurality of sewing machines 110 are all of the same type is illustrated, but sewing machines of different types or different uses may be mixed.

[ Sewing machine ]

Fig. 2 is a block diagram showing a schematic configuration of a sewing system 100 including a sewing machine 110 and an operation panel 10. In fig. 2, only one sewing machine 110 is shown, and the other sewing machines 110 are not shown.

The sewing machine 110 includes: a sewing machine motor 111 which is a driving source for moving a needle bar for holding a sewing needle up and down; an encoder 112 that detects the rotational speed of the sewing machine motor 111; a not-shown cloth feeding mechanism that feeds cloth at a predetermined feed pitch; a wire adjuster solenoid 113 that varies tension of the upper wire generated by the wire adjuster; a thread cutting solenoid 114 for driving a thread cutting blade for cutting the upper thread and the lower thread when the sewing is finished; a ROM 115 storing control programs and initial data of each part of the sewing machine 110; a CPU116 that executes a control program; a RAM 117 that stores various data related to processing by the CPU116 into a work area; an EEPROM 118 that stores various setting data received from the operation panel 10; a sewing machine side communication unit 119 that performs noncontact short-range wireless communication; a loop antenna 120; and a sewing machine side communication control section 121 that performs communication control on the sewing machine side communication section 119.

The sewing machine 110 monitors the output of the encoder 112 under the control of the CPU116, and drives the sewing machine motor 111 at a set rotation speed to perform sewing. When the number of needles to be moved is set, the output of the encoder 112 is monitored, and the sewing machine motor 111 is controlled to move the needles corresponding to the set number of needles.

When the number of needles for executing the thread cutting is set, the thread cutting solenoid 114 performs the thread cutting after the needle transport for the set number of needles.

In addition, the sewing machine 110 controls the thread regulator solenoid 113 to perform sewing at a set thread tension.

The sewing machine side communication unit 119, the loop antenna 120, and the sewing machine side communication control unit 121 are NFC passive devices conforming to the NFC (near Field communication) standard, and perform data communication in accordance with the communication request of the NFC active device mounted on the operation panel 10.

The loop antenna 120 generates an induced magnetic field when a current flows. Further, if a current flows through one loop antenna and an induced magnetic field is generated in a state where the loop antenna 18 of the operation panel 10 described later is close to the loop antenna 120, a current is also generated in the other loop antenna by electromagnetic induction, and the loop antennas are magnetically coupled to each other.

The sewing machine side communication unit 119 can transmit and receive various signals by using modulation of the amplitude of the current flowing through the loop antenna 120.

The sewing machine side communication control unit 121 controls the sewing machine side communication unit 119 to transmit and receive various kinds of predetermined data to and from the panel side communication control unit 19 provided in the operation panel 10. The details of this control will be described later.

In addition, since a general NFC passive device drives the device by electromagnetic induction of the loop antenna, the device can be driven without requiring a power supply, but the sewing machine side communication unit 119, the loop antenna 120, and the sewing machine side communication control unit 121 are driven by receiving power supply from the sewing machine 110.

[ operation panel ]

As shown in fig. 2, the operation panel 10 includes: a monitor 11 for displaying a screen using liquid crystal, organic EL, or the like; a touch sensor 12 that is provided so as to overlap the display screen of the monitor 11 and performs a predetermined input by a touch operation; a ROM13 in which control programs and initial data for the respective sections of the operation panel 10 are stored; a CPU 14 that executes a control program; a RAM15 that stores various data relating to processing by the CPU 14 into a work area; an EEPROM 16 that stores various setting data set by an input from the touch sensor 12; a panel-side communication unit 17 that performs non-contact short-range wireless communication; a loop antenna 18; and a panel-side communication control unit 19 that performs communication control on the panel-side communication unit 17.

In the operation panel 10, the CPU 14 performs control of displaying, on the monitor 11, a setting screen for performing setting corresponding to the type of the sewing machine 110 and the type of work performed by the sewing machine 110, and the CPU 14 recognizes the setting contents corresponding to the input operation from the touch sensor 12 and stores the contents in the EEPROM 16 as setting data.

In addition, when an input screen for inputting execution of various operations or processes is displayed on the monitor 11, execution of various operations or execution of various data processes with respect to the sewing machine 110 can be input from the touch sensor 12. At this time, the CPU 14 transmits an operation execution command to the sewing machine 110 through the panel communication unit 17, or transmits data or requests data.

As described above, the panel-side communication unit 17, the loop antenna 18, and the panel-side communication control unit 19 are NFC active devices conforming to the NFC (near Field communication) standard, and request communication to the NFC passive device on the sewing machine 110 side to perform data communication.

The principles of communication between the loop antenna 18 and the loop antenna 120 are as described above.

The panel-side communication unit 17 can transmit and receive various signals by using modulation of the amplitude of the current flowing through the loop antenna 18.

The panel-side communication control unit 19 controls the panel-side communication unit 17 to transmit and receive various kinds of predetermined data to and from the sewing-machine-side communication control unit 121 provided in the sewing machine 110.

The operation panel 10 may be a smartphone or a tablet terminal equipped with a conventional os (operating system).

[ communication control: data format)

The communication control performed between the panel-side communication control unit 19 of the operation panel 10 and the sewing machine-side communication control unit 121 of the sewing machine 110 will be described.

First, a format of data transmitted/received between the panel-side communication control unit 19 of the operation panel 10 and the sewing machine-side communication control unit 121 of the sewing machine 110 will be described with reference to fig. 3.

Fig. 3(a) shows a unit of data transmitted by the panel-side communication unit 17 and the sewing machine-side communication unit 119 in one communication. This data is composed of "command code" B1, "ID" B2, "number of services" B3, "service code list" B4, "number of blocks" B5, "block list" B6, and "block data section" B7. The overall format of the data conforms to the NFC (Felica (registered trademark)) standard.

Note that the numerical values in parentheses in fig. 3(a) indicate the number of bits.

Further, as shown in fig. 3(B), "block data section" B7 is constituted by "communication header" B71, "size" B72, "data section" B73, and "CRC" B74.

As shown in fig. 3(C), the "communication header" B71 includes data such as "data direction" B711, "data presence/absence" B712, "retransmission request" B713, "spare" B714, and "division number of divided data" B715.

The "size" B72 stores the data size of the "data" B73, "data" B73 stores setting data and a command code for the sewing machine, and "CRC" B74 stores CRC data for communication check.

In the "data direction" B711 of the "communication header" B71, "01" is stored when data is transferred from the operation panel 10 to the sewing machine 110, and "00" is stored when data is transmitted from the sewing machine 110 to the operation panel 10.

Each of the communication control units 19 and 121 confirms the data setting at the time of data reception, and determines whether or not the communication direction is correct.

In the "data presence/absence" B712, the presence/absence of data in the "data portion" B73 is recorded by "0" (no data) and "1" (data).

In the communication control between the panel-side communication unit 17 and the sewing machine-side communication unit 119, when a request is made at the time of communication such as a polling or retransmission request, "data" B73 stores no data, and "data presence/absence" B712 stores "0".

The "retransmission request" B713 is a flag for requesting the same data again when the received data is judged to be abnormal by CRC check or the like. When the retransmission request is "1", the retransmission request is made for data, and thus the presence or absence of data is set to "0" without data.

When transmitting/receiving data of a data amount exceeding the maximum data amount that can be transmitted in one data communication (for example, 192 bytes is the maximum data amount of the "block data part" B7 in the case of Felica (registered trademark)) determined by a communication protocol, it is necessary to transmit data in divided manner a plurality of times.

In the "division number" B715, when the above-described division transmission is performed, the total number of times of transmission and data that can identify that the present transmission data is the transmission data of the second time are stored as the division number.

As an example of setting of the divided data, "000" is set when there is no 1 transmission of the divided data, and when the divided data is transmitted 3 times, the 1 st transmission is "011: the remaining 3 times including this data ", the 2 nd transmission is set to" 010: the remaining 2 times including this data ", the 3 rd transmission is set to" 001: 1 remaining including this data.

The "size" B72 indicates the data size from the "communication header" B71 to the "CRC" B74 (the entirety of the "block data section" B7). For example, when the "data section" B73 is 0 bytes, a total of 4 bytes of "communication header" B71(1 byte) + "size" B72(1 byte) + "CRC" B74(2 bytes) are set in "size" B72.

The "data portion" B73 is actual data exchanged between the operation panel 10 and the sewing machine 110. For example, command data for the sewing machine 110, setting data transmitted to the sewing machine 110, and the like are stored.

"CRC" B74 is an abbreviation of Cyclic Redundancy Check (CRC), and is numerical data for checking whether or not data omission or change has not occurred after data transmission.

By using X¹⁶+X¹²+X⁵+1 or X¹⁶+X¹⁵+X²The solution obtained by calculating the data from the "communication header" B71 to the "data section" B73 using the generator polynomial of +1 or the like is stored in the "CRC" B74.

The panel-side communication control section 19 or the sewing-machine-side communication control section 121 that has received the data can determine whether or not the data has been correctly transmitted, based on whether or not the data from the "communication header" B71 to the "data section" B73 matches the value stored in the "CRC" B74.

[ communication control: processing by each communication control section

Next, communication control using data in the above-described communication format among the CPU 14 of the operation panel 10, the panel-side communication control unit 19, the sewing-machine-side communication control unit 121, and the CPU116 of the sewing machine 110 will be described with reference to the timing chart of fig. 4.

First, the panel-side communication control unit 19 starts up a communication control application (program) with the sewing machine, and searches for the NFC passive device (sewing-machine-side communication control unit 121) on the sewing machine 110 side via the loop antenna 18 and the panel-side communication unit 17.

If the operation panel 10 is provided in the vicinity of the NFC passive type device of the sewing machine 110, the establishment (handshake) of the mutual data communication state with the sewing machine side communication control part 121 is completed with the retrieval, the polling processing for maintaining the communication state is executed. In the polling processing, polling data of "0 x40044D 48" is transmitted from the operation panel to the sewing machine.

Details of the polling data are shown in fig. 5. That is, the first 2 bits "40" indicate the setting content of the "communication header" B71, the next 2 bits "04" indicate the "size" B72, and the last 4 bits "4D 48" indicate the "CRC" B74. In the polling data, there is no entity data to be transmitted to the sewing machine 110 side, and thus the "data section" B73 does not exist.

On the other hand, the sewing machine side communication control section 121 replies to the polling response data if it receives the polling data.

Normally, there is no data in reply to the polling data, and thus as polling reply data, "0 x 00044084" without data is replied.

On the other hand, if an asynchronous message such as an error exists, the polling response data is returned as "0 x20 ababbbcc". In this case, the foremost "20" means "communication header" B71; "aa" means "size" B72; "bbbb" indicates "data section" B73, and this "data section" B73 indicates the content of the response message; "cc" represents "CRC" B74 calculated from 0x20 aabbbcc. In addition, the same definitions are applied below with respect to "aa", "bbbb" and "cc".

Further, when the polling response data is divided data, the panel-side communication control unit 19 executes data reading processing in accordance with the number of divisions.

The panel-side communication control unit 19 repeatedly executes polling processing for transmitting polling data at a fixed interval in the range of several hundred msec to several seconds, which is a relatively long cycle. The operation panel 10 is driven by a battery, not shown, as a power source for improving portability, and if the transmission cycle of the polling data is set to be short, the power consumption amount increases, so that the transmission cycle is set to be long to reduce the power consumption.

If the polling response data from the sewing machine-side communication control unit 121 is not obtained within the predetermined interval, the communication connection state is reset, and the panel-side communication control unit 19 is again in the search state of the NFC passive device on the sewing machine 110 side.

Further, the CPU 14 of the operation panel 10 executes control for displaying information indicating that the communication connection state with the sewing machine 110 is secured on the monitor 11 and notifies the operator of the information while the polling process recognizes that the communication connection state with the sewing machine is secured.

On the other hand, in the communication connection state with the sewing machine 110, if the operator operates the touch sensor 12 of the operation panel 10 to input setting data or a command instructing the operation of the sewing machine, the CPU 14 notifies the panel-side communication control section 19.

Next, the panel-side communication control unit 19 receives the notification from the CPU 14, and transmits "0 x60 ababbbc" as setting data or command data from the panel-side communication unit 17 to the sewing machine. The first "60" is the "communication header" B71.

The sewing machine side communication control part 121, if receiving the setting data or the command data from the operation panel 10, replies the reception response data (ACK) indicating that the reception is received to the operation panel 10. Then, the CPU116 of the sewing machine 110 starts processing or control corresponding to the received setting data or command data.

Then, if the panel-side communication control unit 19 receives the ACK from the sewing machine 110, it transmits "0 x40044D 48" as response request data to the sewing machine 110.

On the other hand, if the processing or control corresponding to the setting data or the command data is completed at the time when the response request data is received, the sewing machine side communication control section 121 returns the response data "0 x20 ababbbcc" to the operation panel 10. In addition, in the case where the processing or control corresponding to the setting data or the command data is not completed, the reply indicates that the received reception response data "0 x 00044084" is received.

The panel-side communication control unit 19 periodically repeats the transmission of the response request data "0 x40044D 48" until the response data "0 x20 ababbbcc" is responded from the sewing machine 110. If the transmission cycle of the response request data is set to be long, the next processing or control delays and affects operability and responsiveness, and therefore, transmission is repeatedly performed at a cycle of several msec to several tens of msec, which is shorter than the transmission cycle of the polling data.

In addition, when the response from the sewing machine side communication control section 121 corresponding to the transmission of the setting data or the command data is not the reception response data ACK and a reception error occurs but retransmission request data, "0 x010473B 5", the panel side communication control section 19 retransmits the setting data or the command data, "0 x60 ababbbcc".

[ technical effects ]

As described above, the operation panel 10 and the sewing machine 110 are each equipped with an NFC active device of a non-contact type short-range wireless communication (for example, in a range of about several centimeters to 1 m), and are capable of performing wireless communication of setting data and control commands.

Therefore, even when the operation panel 10 is shared by a plurality of sewing machines 110, the communication state can be established only between the operation panel 10 and the sewing machine 110 in which the operation panel 10 is disposed in proximity, and data transmission can be easily performed without performing operations such as setting of an IP address and cable connection.

The panel-side communication control unit 19 of the operation panel 10 sets a transmission cycle of polling data for maintaining a communication connection state to be long, and sets a transmission cycle of response request data, which requests response data indicating completion of a command or completion of processing of setting data, to be shorter than the polling data.

Therefore, when a demand for quick response such as command data or setting data is high, a response can be obtained quickly, and processing and control can be performed quickly, thereby improving operability and response.

In addition, in the transmission period of the polling data in which the demand for quick response is not so high, power saving can be achieved by setting the transmission cycle to be long. Therefore, the battery of the portable operation panel 10 can be used for a long time, and the frequency of charging, battery replacement, or the like can be reduced.

In addition, the data transmitted and received between the panel-side communication control unit 19 of the operation panel 10 and the sewing machine-side communication control unit 121 of the sewing machine 110 has communication contents such as a data direction B711 and the presence/absence of data B712 defined in the communication header B71 of the block data unit B7.

Therefore, communication in the same format can be always performed in compliance with the NFC standard regardless of data content.

[ others ]

In addition, when the touch sensor 12 is an input unit that receives input of setting data or commands, and when a plurality of setting data or commands are input from the touch sensor 12, the panel-side communication control unit 19 may perform communication control so that the setting data or command data is collectively transmitted from the panel-side communication unit 17 after waiting for completion of the input of the plurality of setting data or commands.

In this case, an instruction input means such as a completion button for instructing the operator to complete the input of a plurality of setting data or commands may be provided on the operation panel 10, and the setting data or command data may be collectively transmitted by inputting the instruction input means as a trigger signal.

Alternatively, when a plurality of setting data such as the rotational speed and the thread tension of the sewing machine motor 111 are changed by the touch sensor 12, the screen may be switched as a trigger signal for transmitting the setting data collectively when the screen of the monitor 11 is switched before the sewing process is executed after the completion of the setting of both the settings, instead of performing the communication process when the rotational speed and the thread tension of the sewing machine motor 111 are changed.

In addition, when setting data or commands that do not require real-time processing or control on the sewing machine 110 side are input and the communication connection state between the operation panel 10 and the sewing machine 110 is not secured, the sewing machine 110 may be searched without searching until the input of a plurality of setting data or commands is completed, and the communication connection state may be secured by searching the sewing machine 110 after the input is completed, and the panel-side communication control unit 19 may perform communication control to transmit a plurality of setting data or commands collectively.

By transmitting a plurality of setting data or commands collectively as described above, it is possible to reduce the chance of repeatedly transmitting response request data in a short transmission cycle, and to achieve further power saving of the operation panel 10.

Note that NFC and Felica (registered trademark) are exemplified as the non-contact type near field communication, but the present invention is not limited thereto. For example, any short-range wireless communication may be used that is capable of performing communication at a distance (for example, about several centimeters to 1 meter) that does not erroneously ensure a communication connection state with another sewing machine when the operation panel 10 is brought close to a specific one of the plurality of sewing machines.

Claims

1. An operation panel of a sewing machine, which performs wireless communication of setting data or commands with the sewing machine,

the operation panel of the sewing machine is characterized by comprising:

a communication control unit that periodically transmits polling data requesting a response for maintaining a communication connection state from the panel-side communication unit,

the communication control part transmits setting data or command data from the panel side communication part to the control part of the sewing machine,

the control part of the sewing machine replies received response data to the communication control part if receiving the setting data or the command data from the panel side communication part,

the communication control part sends response request data to the control part of the sewing machine if receiving the response data from the control part of the sewing machine,

the communication control unit periodically transmits, via the panel-side communication unit, response request data requesting the response data indicating completion of a command or completion of data processing corresponding to transmission of the setting data or the command data until the response data is received from the control unit of the sewing machine,

the control part of the sewing machine replies the response data to the communication control part if the processing or control corresponding to the setting data or the command data is completed at the time of receiving the response request data, and replies the reception response data if the processing or control corresponding to the setting data or the command data is not completed,

2. The operation panel of a sewing machine according to claim 1, comprising an input unit that receives an input of the setting data or the command,

3. A sewing machine which performs wireless communication of the setting data or the command with an operation panel of the sewing machine according to claim 1 or 2,

the sewing machine is characterized in that the sewing machine is provided with a sewing machine,

the sewing machine side communication unit is provided, and the sewing machine side communication unit and the panel side communication unit perform non-contact type short-distance wireless communication.