Patent Abstract:
The present disclosure relates to a control device to control a sewing machine which executes a sewing operation using a bobbin thread wound on a bobbin and a needle thread by the drive of the sewing machine motor. The control device includes a sewing restarting unit that restarts the sewing operation after stopping the sewing machine motor in response to a detection of bobbin thread scarcity by a bobbin thread remaining amount detection unit. A permitted sewing amount is preset for the sewing operation restarted after stopping the sewing machine motor and when an actual amount of sewing performed after the stop of the sewing machine motor reaches the permitted sewing amount, information is given by the control device.

Full Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
   This application is based upon and claims the benefit of priority from the prior Japanese Patent Application No. 2004-219920, filed on Jul. 28, 2004 the entire contents of which are incorporated herein by reference. 
   BACKGROUND 
   This disclosure relates to a control device of a sewing machine to execute a sewing operation using a needle thread and a bobbin thread. 
   Some conventional types of embroidery sewing machines or lockstitch sewing machines are provided with a detection device to detect a remaining amount of bobbin thread wound on a bobbin. In such sewing machines, when a scarcity of remaining amount of bobbin thread wound on the bobbin is detected during an embroidery process, a warning message is displayed as well as forcibly stopping the sewing process. Thus, an execution of a sewing process without the bobbin thread can be prevented. 
   For example, in Japanese Patent No. 3194432, a sewing machine provided with a bobbin thread remaining amount detection device composed of a reflection type bobbin thread remaining amount sensor is disclosed. This reflection type bobbin thread remaining amount sensor is placed beside a rotary hook positioned below the needle plate having a light emitting element and a light receiving element. The bobbin thread remaining amount detection device detects a bobbin thread remaining amount based on a detection signal outputted from the light receiving element which receives a spot light emitted by the light emitting element when in a needle raised position during a sewing process. When it is detected that a bobbin thread remaining amount has become equal to or less than a predetermined amount by the bobbin thread remaining amount detection device, the sewing machine stops the drive of a sewing machine motor or sets off a warning sound. 
   Sewing machines have been provided having a bobbin thread remaining amount detection device besides the above, configured by a permeable bobbin thread remaining amount sensor having a light emitting element and a light receiving element arranged to face the rotary hook. 
   The bobbin is wound with bobbin threads varying in thickness, material and color. Therefore, even in cases when the scarcity of the bobbin thread remaining amount is detected by the bobbin thread remaining amount detection device configured by the reflection type or the permeable type light sensor, it is possible for the bobbin to have approximately 30 cm to 80 cm of bobbin thread remaining, wherein the bobbin thread is wound possibly up to few dozen times. Thus, the bobbin thread remaining amount detection device is not capable of accurately detecting the bobbin thread remaining amount for every thread type. 
   Furthermore, the conventional sewing machines are configured to immediately stop the drive of the sewing machine motor or set off a warning sound when a remaining amount of the bobbin thread wound on the bobbin has become less than the prescribed amount. Therefore, the remaining approximately 30 cm to 80 cm of bobbin thread is not used and wasted. Also, when a large amount of bobbin thread remains unused, the bobbin needs to be supplied with bobbin thread more frequently, thereby reducing the efficiency of the work. 
   SUMMARY 
   The purpose of this disclosure is to provide a sewing machine that is capable of using up a bobbin thread to a possible extent. 
   A control device of a sewing machine of the disclosure controls a sewing machine which executes a sewing operation using a needle thread and a bobbin thread by the drive of the sewing machine motor. 
   The control device of a sewing machine includes a bobbin thread remaining amount detection unit that detects a bobbin thread remaining amount, a stopping unit that stops the sewing machine motor when a scarcity of a remaining amount of the bobbin thread is detected by the bobbin thread remaining amount detection unit and a sewing restarting unit that restarts the sewing operation after stopping the sewing machine motor by the stopping unit. The control device further includes a permitted sewing amount setting unit that sets a permitted sewing amount after stopping the sewing machine motor by the stopping unit, an actual sewing amount calculation unit that calculates an actual sewing amount after stopping the sewing machine motor, and a informing unit that informs, when the actual sewing amount calculated by the actual sewing amount calculation unit reaches the permitted sewing amount. 
   According to the above configuration, when the scarcity of the bobbin thread is detected, the sewing machine motor is stopped and driven again to restart the sewing operation. The restarted sewing operation is continued until the predetermined permitted sewing amount is reached after outputting the warning. Therefore, the bobbin thread remaining on the bobbin can be used efficiently. 
   In this case, when the scarcity of the bobbin thread remaining amount is detected, instead of stopping the sewing machine motor with the stopping unit, it is recommended to provide a warning unit and make the permitted setting amount setting unit set the permitted sewing amount of the sewing operation after outputting the warning. 
   According to the above configuration, when the scarcity of the bobbin thread is detected, the sewing operation is performed until the permitted sewing amount is reached after outputting the warning. Therefore, even in the above configuration, the bobbin thread remaining in the bobbin can be efficiently used. 

   
     BRIEF DESCRIPTION OF THE DRAWINGS 
     Other objects, features and advantages of the disclosure will become clear upon reviewing the following description of the embodiment with reference to the accompanying drawings, in which: 
       FIG. 1  is a perspective view of an embroidery sewing machine in accordance with the first embodiment of the disclosure; 
       FIG. 2  is a front view of a rotary hook and a bobbin thread remaining amount detector; 
       FIG. 3  is a descriptive figure of an optical system to calculate a bobbin thread remaining amount by a bobbin thread remaining amount detector; 
       FIG. 4  is block diagram of a control system of an embroidery sewing machine; 
       FIG. 5  is a flowchart of a management control of the bobbin thread remaining amount; 
       FIG. 6  is a flowchart of a detection process control of the bobbin thread remaining amount; 
       FIG. 7  is a flowchart of a calculation process control of the actual sewing amount; and 
       FIG. 8  corresponds to  FIG. 6  relates to the second embodiment of the disclosure. 
   

   DETAILED DESCRIPTION OF THE INVENTION 
   A first embodiment of the disclosure applied to a domestic embroidery sewing machine is described with reference to  FIGS. 1 to 7 . As shown in  FIG. 1 , an embroidery sewing machine M according to the disclosure is a domestic electronically controlled sewing machine known in the art and is provided with a bed  1  having a needle plate  1   a , a pillar  2  standing upright on the right end of the bed  1  and an arm  3  extending to the left from the pillar  2  over the sewing machine bed  1 . 
   Inside the bed  1 , more particularly, below the needle plate  1   a , a feed dog vertically moving mechanism (not shown) to vertically move the feed dog, a feed dog longitudinally moving mechanism (not shown) to longitudinally move the feed dog, a rotary hook  7  (refer  FIG. 2 ) accommodating a bobbin  25  working co-operatively with the sewing needle  6 , a thread trimming mechanism (not shown) and a bobbin thread remaining amount detector  30  (refer  FIG. 2 ) are provided. 
   On the front side of the pillar  2 , a large type color liquid crystal display  10  is provided (hereinafter referred to as color display). In the color display  10 , various types of sewing patterns such as actual patterns and embroidery patterns, names of the functions required for the embroidery work and various types of messages are displayed. 
   On the front side of the color display  10 , an operation panel in a matrix form is provided. Touch keys  11  composed of transparent electrodes are provided on the display and the touch keys  11  are mated with the location of the items appearing on the display such as: names of pluralities of actual patterns, embroidery patterns and various functions; and numerical settings for feed amount and needle swing amount etc. in various setting screens. The user can select the embroidery patterns to be sewn, instruct the execution of functions, and perform numerical settings etc. by pressing the touch keys  11 . 
   In the arm  3 , a laterally extending sewing machine main shaft (not shown), a hand pulley  8  to rotate the sewing machine main shaft, a needle bar vertically moving mechanism (not shown) to vertically move the needle bar  5  attached with a sewing needle  6  in a lower end, a needle bar swinging mechanism (not shown) to swing the needle bar  5  to a direction perpendicular to the fabric feeding direction(longitudinal direction) and a thread take-up drive mechanism(not shown) to vertically move the thread take-up (not shown) vertically moving in synchronization with the vertical movement of the needle bar  5  are provided. 
   The sewing machine main shaft is rotatably driven by the sewing machine motor  52  (refer to  FIG. 4 ). The feed dog vertically moving mechanism and the needle bar vertically moving mechanism are driven via the sewing machine main shaft. On the other hand, the needle bar swinging mechanism is driven independently by a needle bar swinging stepping motor  53  (refer to  FIG. 4 ) and the feed dog longitudinally moving mechanism is independently driven by a feed dog longitudinally driving stepping motor  54  (refer to  FIG. 4 ). 
   On the front of the arm  3 , a start/stop switch  12  and stop setting switch  13  etc. are provided. The start/stop switch  12  instructs the start and stop of the embroidery work. The stop setting switch  13  is for setting whether or not to stop the drive of the sewing machine motor  52  when the scarcity of a bobbin thread  24  wound on a bobbin  25  is detected by a bobbin thread remaining amount detector  30 . 
   On the left end of the bed  1 , an embroidery frame drive mechanism  15  is detachably attached. The embroidery frame drive mechanism  15  drives the embroidery frame (not shown) in the x direction (lateral direction) and y direction (longitudinal direction) independently. 
   The embroidery frame drive mechanism  15  is configured by a y direction driver  17  incorporating a y direction drive mechanism, an x direction drive mechanism to drive the y-direction driver  17  to the x direction (lateral direction), an X feed motor  18  to drive the x direction drive mechanism (refer to  FIG. 4 ) and Y feed motor  19  (refer to  FIG. 4 ) to drive the y direction drive mechanism. 
   When the embroidery frame drive mechanism  15  is attached to the left end of the bed  1 , the embroidery sewing mode is set. At this point, the X feed motor  1 B and the Y feed motor  19  are electronically connected to the output interface  46  of the control device  40  of the embroidery sewing machine M via a connector  40   a  (refer to  FIG. 4 ). Hence, the X feed motor  18  and Y feed motor  19  are driven independently of each other. When the embroidery frame drive mechanism  15  is detached, a utility sewing mode is set to replace the embroidery sewing mode. 
   Next, the bobbin thread remaining amount detector  30  is described with reference to  FIG. 2 . First, the rotary hook  7  having a bobbin  25  is briefly described. 
   As described earlier the rotary hook  7  is arranged below the needle plate  1   a  and is provided with an outer rotary hook  21  rotatable in synchronization with the vertical movement of the sewing needle  6  and a inner rotary hook  22  retained in the outer rotary hook  21 . A tip  21   a  and notch  21   b  are formed on the outer rotary hook  21 . The inner rotary hook  22  has an accommodation  22   a  and in the accommodation  22   a  a bobbin case  23  is installed in a located state. The bobbin case  23  is attached and detached in the forward direction from the accommodation  22   a.    
   Inside the bobbin case  23 , the bobbin  25  is detachably and rotatably attached. The bobbin  25  is composed of hollow shaft  25   a  wound with the bobbin thread  24  and a pair of hooks  25   b  provided on both ends of the hollow shaft  25   a.    
   The bobbin thread remaining amount detector  30  is provided with one light emitting element  31  and two light receiving elements  32  and  33  in the vicinity of the rotary hook  7 . The light emitting element  31  and light receiving elements  32  and  33  are mounted on a support body  34  fixed on the sewing machine frame not shown. On the end of the light emitting element  31  and light receiving elements  32  and  33 , light collective lens are integrally formed. Also, the light emitting element  31  and light receiving elements  32  and  33  are covered by cases  35  and  36  having light permeable portions on their ends. 
   On the surrounding walls of the inner rotary hook  22  and bobbin case  23 , openings  22   b  and  23   a  are provided which faces the notch  21   b  of the outer rotary hook  21  when the sewing needle  6  is in the needle raised position. Hence, in the above configuration, a path to connect the exterior and the interior of the rotary hook  7  passing through the notch  21   b  and opening  22   b  and  23   a  is formed, when in the needle raised position. 
   The control device  40  illuminates the light emitting elements  31  when the sewing needle  6  is in the needle raised position. At this point, the bobbin thread remaining amount is calculated from the ratio of the 2 detection signals provided by the two light receiving elements  32  and  33 . 
   That is, the spot light generated by the light emitting element  31  when in the needle raised position passes through the notch  21   b  and the openings  22   b  and  23   a  to irradiate and reflect off the bobbin thread  24  wound on the bobbin  25 . The reflected light passes through the notch  21   b  and the openings  22   b  and  23   a  towards the light receiving elements  32  and  33  and is received by the light receiving elements  32  and  33 . The light receiving elements  32  and  33 , which have received the reflected light, provide detection signals corresponding to the received light amount to the input interface  41  of the control device  40 . 
     FIG. 3  describes the difference of the amount of light received depending on the distance between the light emitting element  31  and the detecting target K, wherein the detecting target K is the bobbin thread  24 . As shown in  FIG. 3 , the reflection angle (shown in actual line in  FIG. 3 ) when the detecting target K and light emitting element  31  is in close distance is smaller than the reflection angle (shown in double-dotted chain line shown in  FIG. 3 ) when in remote distance. Thus, when the reflection angle of the detection target changes, the amount of receiving light of the light receiving elements  32  and  33  change, in turn changing the ratio of the detection signals outputted from the light receiving elements  32  and  33 . In the control device  40 , the relation between a ratio of the detection signals outputted from the light receiving elements  32  and  33  and a remaining bobbin thread amount are stored as a bobbin thread remaining amount table. Therefore, the control device  40  can detect the bobbin thread remaining amount relatively reliably from the ratio of the detection signals outputted from the light receiving elements  32  and  33  and the bobbin thread remaining amount table. The bobbin thread remaining amount table will not be described in detail in this description. 
   Next, a control system of the embroidery sewing machine M is described with reference to  FIG. 4 . A control device  40  is provided with an input interface  41 , a CPU  42 , a ROM  43 , a RAM  44 , a computer including an electronically rewritable nonvolatile flash memory  45 , an output interface  46 , a bus  47  such as a data bus interconnecting the foregoing and a drive circuit  48  to  51  etc. 
   The input interface  41  is connected with a start/stop switch  12 , an operation panel  11  having touch keys, light emitting element  31  and light receiving element  32  and  33  of the bobbin thread remaining amount detector  30  and a stop setting switch  13  etc. The output interface  46  is connected with drive circuits  48  to  50  for motors  52  to  54 , a display controller (LDC)  55  for the color display (LCD)  10  and a drive circuit  51  for the X feed motor  18  and Y feed motor  19  of the embroidery frame drive mechanism  15 . 
   In the ROM  43 , a sewing control program is pre-stored to drive control the various drive mechanism as well as controlling the selection of actual patterns and embroidery patterns and various displays. The ROM  43  is further pre-stored with: a control program to control the management of bobbin thread remaining amount, which is included in the sew control program; and a bobbin thread remaining amount calculation control program and the like, to illuminate the light emitting element  31 , when in the needle raised position and to calculate the bobbin thread remaining amount based on the ratio of the detection signals outputted from the light receiving element  32  and  33 . The RAM  44  is provided with various types of memories, pointers and counters and the like to store the calculation results of the calculation processed by the CPU  42 . 
   Next, a routine for a bobbin thread remaining amount management control is described based on the flow chart in  FIG. 5 . The bobbin thread remaining amount management control is executed as an interruption process to the main control whenever the sewing needle  6  reaches the needle raised position during the execution of the sewing process. In  FIG. 5 , codes Si (i=11, 12, 13 . . .) indicate each step. 
   This control is started when power is supplied by the power switch. At this point, a sewing extension flag to instruct the extension of sewing when the bobbin thread remaining amount becomes scarce has not been set (S 11 : No), and the bobbin thread remaining amount detection process is executed (S 12 ). 
   The bobbin thread remaining amount detection process is executed in accordance with the flowchart shown in  FIG. 6 . That is, after the detection signals provided from the two light receiving elements  32  and  33  are read (S 31 ), the bobbin thread remaining amount is calculated (S 32 ) based on the bobbin thread remaining amount table. 
   As a result of the calculation of bobbin thread remaining amount, if the scarcity of the bobbin thread remaining amount is denied (S 33 : No), a bobbin thread remaining state is set (S 36 ) to complete this process and the control is returned to S 13 . On the other hand, if the scarcity of the bobbin thread remaining amount is confirmed (S 33 : Yes), and in case the stop mode is not set by the stop setting switch  13  and the stop flag is not set (S 34 : No), the sewing extension flag is set (S 35 ) and the control is returned to S 13  after setting the bobbin thread remaining state (S 36 ). As opposed to this, in case the stop flag is set (S 34 : Yes), after setting a bobbin thread scarcity state (S 37 ), the control is returned to S 13 . 
   In S 13 , the scarcity of the bobbin thread remaining amount is determined. If it is determined to be in bobbin thread present state (S 13 : Yes), and in case the sewing extension flag is not set, (S 17 : No), that is, if there is enough bobbin thread remaining amount, this control is terminated. On the other hand, in case the sewing extension flag is set (S 17 : Yes), a warning message, “bobbin thread scarce” is displayed (S 18 ) to the display  10 . A bobbin thread consumption amount for extensive sewing (for example, 50 cm) is preset (S 15 ) as a remaining sewing amount X via the remaining sewing amount setting screen displayed to the operation panel  11 . Then, after setting the sewing extension flag (S 16 ), this process is terminated. The aforementioned remaining sewing amount corresponds to the permitted sewing amount of the disclosure. 
   As opposed to this, if the scarcity of the bobbin thread is confirmed in S 13  (S 13 : No), an instruction to stop the drive of the sewing machine motor  52  is outputted (S 14 ) and then through S 15  and S 16  the process is terminated. Subsequently, by the user&#39;s operation of the start/stop switch  12 , the sewing machine motor  52  is re-driven to re-start the sewing process. 
   Also, in case the sewing extension flag is set (S 11 : Yes) when this control is started, the calculation process to calculate the actual sewing thread amount Xn is executed (S 19 ). The calculation process to calculate the actual sewing amount Xn is performed according to the flow chart in  FIG. 7 . First, the sewing mode is determined (S 41 ). Then, in case the embroidery frame drive mechanism  15  is not attached to the bed  1  and the utility sewing mode is set (S 41 : Yes), the needle swing amount and feed amount are arrived from the drive pulse count of the needle bar swinging stepping motor  53  and feed dog drive stepping motor  54  in the sewing operation performed immediately before reaching the needle raised position. Based on such needle swing amount and the feed amount, the current actual consumed thread amount Xa is calculated (S 42 ). 
   On the other hand, in case the embroidery frame drive mechanism  15  is attached to the bed  1  and the embroidery sewing mode is set (S 41 : No), the x feed amount and the y feed amount are arrived from the drive pulse count of an X feed motor  18  and a Y feed motor  19  in the sewing operation performed immediately before reaching the needle raised position. Based on such x feed amount and y feed amount, the current actual consumed thread amount Xa is calculated (S 43 ). 
   In S 44 , the current consumed thread amount Xa is added to the accumulated actual sewing thread amount Xn to calculate the current actual sewing thread amount Xn. Then, the process is completed and the control returns to S 20  of the bobbin thread remaining amount management control. 
   In S 20 , in case the current actual sewing thread amount Xn is determined to be less than the remaining sewing amount X (S 20 : No), this control is terminated. On the other hand, in case the current actual sewing thread amount Xn is determined to be equal or more than the remaining sewing amount X (S 20 : No), a message “remaining sewing amount consumed” is displayed to the color display  10  (S 21 ). Then, after the drive stop of the sewing machine motor  52  is instructed (S 22 ), the sewing extension flag and the actual sewing thread amount Xn is reset (S 23 ) and the control is terminated. 
   Thus, in the present embodiment, in case the scarcity of the remaining amount of the bobbin thread  24  is detected by the bobbin thread remaining amount detector  30 , the remaining sewing amount, with which the sew is performed using the bobbin thread remaining in the bobbin  25 , is preset to the bobbin thread consumption amount. Additionally, as well as enabling the stop of the sewing machine motor  52  when the remaining bobbin thread has become scarce, or enabling the continuation of sew after the warning message has been displayed; in the event that the actual sewing amount has reached the pre-set sewing amount, such status is displayed to the color display  10 . Therefore, the bobbin thread  24  remaining in the bobbin  25  can be efficiently used for sewing. 
     FIG. 8  shows the second embodiment of the disclosure and the portions that differ from the first embodiment are herein after described. In the second embodiment, the remaining sewing amount in the bobbin thread remaining amount management control is set by the number of stitches. That is, in S 15 A of  FIG. 8 , a predetermined number of stitches for extensive sewing (for example 60 stitches). Also, in case the sewing extension flag is set (S 11 : Yes), actual number of sewing stitches Xn is incremented by 1 (S 19 A). In case the actual number of sewing stitches Xn equals or exceeds the remaining sewing amount X (S 20 A: Yes), a message “remaining sewing amount consumed” is displayed to the color display  10  (S 21 ). The configuration besides the above is the same as the first embodiment. 
   Thus, even in the case, in which the bobbin thread amount remaining in the bobbin  25  is preset as the remaining sewing amount, the effect of the first embodiment can be obtained. 
   This disclosure is not limited to the above described embodiments but can be transformed as follows. 
   The bobbin thread remaining amount detector  30  can be configured by a permeable type light sensor instead of a reflecting type light sensor. Also, instead of an optical bobbin thread remaining amount detector, a bobbin thread remaining amount detector having a detection stick contacting the detection target can be used to detect the bobbin thread remaining amount. 
   In the embroidery sewing mode, the bobbin thread consumption amount Xa can be arrived from the x feed amount and y feed amount arrived from the relative coordinates of the embroidery data used in the current embroidery sewing process. Also, in the utility sewing mode, the current bobbin thread consumption amount Xa can be arrived by the selected type of actual patterns. 
   The foregoing description and drawings are merely illustrative of the principles of the disclosure and are not to be construed in a limited sense. Various changes and modifications will become apparent to those of ordinary skill in the art. All such changes and modifications are seen to fall within the scope of the disclosure as defined by the appended claims.

Technology Classification (CPC): 3