JP4283886B2 - Inspection device - Google Patents

Description

  The present invention relates to an inspection apparatus, and more particularly to an inspection apparatus capable of improving inspection accuracy and reliably finding defective products.

2. Description of the Related Art Conventionally, a spot welding machine is known in which a plurality of parts are sandwiched between two electrodes and a large current is passed to spot weld the plurality of parts to produce a welded product (workpiece). Some spot welders include a mechanism for inspecting whether or not spot welding has been successful. For example, in Japanese Patent Laid-Open No. 2006-55893 (Patent Document 1), a resistance value detecting means for detecting a resistance value between electrodes at the time of spot welding, and a resistance value at the initial stage of energization of spot welding, a preset threshold value And a quality determination system for spot welding including an initial resistance value determination means for comparison and determination. The quality of spot welding is closely related to the resistance value between the electrodes, and the quality of welding is judged by the resistance value.
JP 2006-55893 A

  However, in mass production, a large amount of parts are delivered from a supplier. Here, the delivered parts include, for example, parts such as plate materials, bolts, and nuts. Such plate materials, bolts, and nuts may have different thicknesses and sizes. At the time of spot welding work, it is not possible to distinguish between regular parts and non-regular parts. At this time, there is a problem in that if a regular part and a non-regular part are mistaken, spot welding is performed on the non-regular part and a defective product is manufactured.

  In order to prevent this, it may be possible to inspect a plurality of parts before spot welding work, but there is a problem that it takes time and labor to perform such work.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide an inspection apparatus capable of improving inspection accuracy and reliably finding defective products.

In order to achieve this object, the inspection apparatus according to claim 1 is for inspecting a pass / fail of a workpiece in which a plurality of parts are spot-welded by a spot welder, and from the spot welder to the plurality of parts. To the plurality of parts, a welding pass / fail input means for inputting a signal for notifying whether or not the spot welding has been successful, a scheduled number-of-spots setting means for setting a planned number of spots to perform spot welding on the plurality of parts, The number-of-times measuring means for measuring the number of times that a signal indicating that the spot welding has been successfully performed is input to the welding pass / fail input means, and the number of times measured by the number of times measuring means is the scheduled hitting number set by the scheduled hitting number setting means. when it reaches the number, the weld acceptance judgment means for judgment to be successful in the number of spot welding to be performed with the the plurality of components, by the welding acceptance judgment means, the number of Welding stop that instructs the spot welder to temporarily stop the welding function when it is determined that the number of times measured by the measuring means has reached the planned number of hitting points set by the scheduled hitting number setting means An instruction signal transmission means, a weight signal for measuring the weight of the workpiece, a pass signal indicating that the weight of the workpiece is acceptable, and a reject signal indicating whether the weight of the workpiece is heavier or lighter than a specified weight; pass from weighing scale to be transmitted, is transmitted based on the weight of the weld acceptance determination means by the work placed on the weighing scale is considered successful spot welding times to be performed by the the plurality of components of and weight acceptance input means for inputting a signal between the signal and the failure signal, on the basis of the weight acceptance input signal inputted to the unit, the weight of the workpiece when the failure signal is input Tadashi It is determined that the weight is heavier or lighter than the weight, and when a pass signal is input, it is determined that the weight of the workpiece is appropriate, and a reject signal and a pass signal are received from the scale. If the weight is not input, it is determined that the weight of the work is heavier or lighter than the specified weight, so that a pass signal and a fail signal input from the scale to the weight pass / fail input means A weight acceptance / rejection judging means for judging three states of whether the weight of the workpiece is appropriate, heavy or light based on the two types of signals, and a reject reset switch as a switch, the weight acceptance / rejection The determination by the determination unit is performed after the welding stop instruction signal transmission unit instructs the spot welder to temporarily stop the welding function. When it is determined that the weight of the workpiece is appropriate, the spot welder is instructed to cancel the temporary stop of the welding function, while the weight of the workpiece is determined by the weight acceptance / rejection determination means. If it is not judged, when the reject reset switch is pressed, the spot welder is instructed to cancel the temporary stop of the welding function.

  The inspection apparatus according to claim 2 is the inspection apparatus according to claim 1, wherein the weight acceptance / rejection determination means notifies the weight acceptance / rejection determination means when the weight acceptance / rejection determination means determines that the weight of the workpiece is appropriate. When it is determined that the weight of the workpiece is inappropriate, there is provided inappropriate notification means for reporting at least one of whether the weight of the workpiece is heavier or lighter than a specified weight.

Inspection apparatus according to the third aspect, in the inspection apparatus according to claim 1 or 2, and scheduled number setting means for setting the number of planned production of the workpiece, the weight of the work is correct by the weight acceptance determination means A number-of-acceptance measuring means for measuring the number of times determined to be, a number-of-manufacturing determination means for determining whether the number of times measured by the number-of-acceptance measuring means has reached the planned number of manufactures set in the planned number setting means, And a production number achievement notifying means for notifying when it is determined that the number of times measured by the acceptance number measuring means by the achievement judging means has reached the planned production number set in the planned number setting means. .

4. The inspection apparatus according to claim 4 , wherein the inspection apparatus according to any one of claims 1 to 3 is configured to start timing when input of a signal from the scale is started to the weight acceptance / rejection input section. The weight acceptance / rejection judging means judges whether the weight of the workpiece is appropriate based on a signal inputted from the weight scale to the weight acceptance / rejection input means after the time measuring means has timed a predetermined time. is there.

The inspection device according to claim 5 is the inspection device according to any one of claims 1 to 4 , wherein the spot to the plurality of parts is based on a signal input to the welding pass / fail input means by the welding pass / fail judgment means. A welding pass notification means for notifying when it is determined that the welding is successful is provided.

The inspection apparatus according to claim 6 is the inspection apparatus according to any one of claims 1 to 5 , wherein the weight scale includes a mounting table on which the workpiece is mounted in order to measure the weight of the workpiece, A workpiece moving means for moving the workpiece placed on the placing table from the placing table, and when the weight of the workpiece is determined to be appropriate by the weight acceptance / rejection judging means, the workpiece moving means is Work drive signal generating means for driving is provided.

  According to the inspection apparatus of claim 1, the workpiece is first spot-welded with a plurality of parts by a spot welder, and the signal indicating whether or not the spot welder has succeeded in spot welding to the plurality of parts. Is input to the welding pass / fail input means. Then, based on the input signal, it is determined whether or not the spot welding is successful by the welding pass / fail determining means. Next, when the spot welded workpiece is placed on the weighing scale, a signal for notifying whether or not the weight of the workpiece is appropriate is input from the weighing scale to the weight acceptance / rejection input means. Then, when it is determined by the welding acceptance / rejection determination means that spot welding has succeeded to a plurality of parts, the weight acceptance / rejection determination means determines whether or not the weight of the workpiece is appropriate based on the signal input to the weight acceptance / rejection input means. Is done.

  Therefore, it is possible to inspect whether the spot welding to the workpiece is successful, and it is possible to inspect whether a non-regular part is accidentally welded. Therefore, there is an effect that the inspection accuracy can be improved and a defective product can be surely found on the spot.

In addition, since the weight of the workpiece is measured after spot welding rather than inspecting each of the plurality of parts before spot welding, it is possible to inspect whether or not each of the plurality of parts is a regular part. Therefore, the work of inspecting each of the plurality of parts is not necessary, and the workability can be improved accordingly.
In addition, the number of times that a signal indicating that spot welding has been successful is input to the welding pass / fail input means is measured by the number measuring means. Then, the welding acceptance / rejection determining unit determines whether the number of times measured by the number of times counting unit has reached the planned number of hitting points set in the scheduled hitting point number setting unit.
Here, when spot welding is performed on a plurality of parts, not all spot welding may be performed due to an operator's mistake or defective parts. In such a case, spot welding is lost and the workpiece becomes defective.
On the other hand, according to the inspection apparatus of this claim, the welding pass / fail determination means determines whether or not the number of times measured by the number counting means has reached the planned hitting number set in the scheduled hitting number setting means. There is an effect that spot welding can be prevented from being lost when spot welding is performed.
Further, when it is determined by the welding acceptance / rejection determination means that the number of times measured by the number-of-times counting means has reached the planned number of hitting points set by the scheduled hitting point setting means, the welding is stopped for the spot welder. Since the welding stop instruction signal transmission means for instructing is provided, there is an effect that the operator can prevent the welding of the number of points more than the planned number of hit points.
In addition, a pass signal indicating that the workpiece has passed the weight or a reject signal indicating whether the workpiece is heavier or lighter than the specified weight is transmitted from the weigh scale to the weight pass / fail input means. Based on the pass signal and the fail signal, the weight acceptance / rejection determination unit determines whether the weight of the workpiece is appropriate, heavy, or light. Therefore, it is possible to determine three types of states, that is, whether the weight of the workpiece is appropriate, heavy, or light, using only two types of signals, a pass signal and a fail signal. Therefore, there is an effect that the configuration can be simplified rather than using the three types of signals to determine the three types of states.

  According to the inspection apparatus according to claim 2, in addition to the effect produced by the inspection apparatus according to claim 1, the pass notification means notifies when the weight of the workpiece is determined to be appropriate by the weight acceptance / rejection determination means, The improper notification means notifies at least one of whether the weight of the workpiece is heavier or lighter than the specified weight when the weight acceptance / rejection determination unit determines that the weight of the workpiece is inappropriate. Therefore, the operator can recognize that the weight of the workpiece is appropriate and that if the weight of the workpiece is not appropriate, the weight of the workpiece is heavier or lighter than the specified weight. There is an effect that can be done.

According to the inspection apparatus according to claim 3, in addition to the effects of the test apparatus according to claim 1 or 2, the number of times the weight of the workpiece is determined to be appropriate by weight acceptance determination means pass number measuring means It is measured by. Then, when the production number achievement determining means determines that the number of times measured by the acceptance number measuring means has reached the planned number of workpieces set in the planned number setting means, the production number achievement notifying means is notified. The Therefore, there is an effect that it is possible to recognize that the number of manufactured workpieces has reached the planned manufacturing number without counting the workpieces that the operator has passed.

According to the inspection device of the fourth aspect , in addition to the effect produced by the inspection device according to any one of the first to third aspects, the time measuring means starts to input a signal from the weight scale to the weight acceptance / rejection input means. In case, start timing. Then, after the time measuring means measures a predetermined time, the weight acceptance / rejection judging means judges whether or not the weight of the workpiece is appropriate based on a signal input from the weight scale to the weight acceptance / rejection input means.

  Here, when the workpiece is placed on the weight scale, the reaction causes the fluctuation in the weight scale. The fluctuation stops after a predetermined time has elapsed. That is, immediately after the work is placed on the weighing scale, the signal from the weighing scale fluctuates, and the weight acceptance / rejection judging means may not be able to make an accurate judgment.

  On the other hand, according to the inspection apparatus of this claim, the weight acceptance / rejection judging means judges whether or not the weight of the workpiece is appropriate based on the signal from the weight scale after the time measuring means has timed the predetermined time. Therefore, since the weight acceptance / rejection determination unit makes a determination based on the signal after the fluctuation of the weighing scale is stopped, there is an effect that it is possible to accurately determine whether or not the weight of the workpiece is appropriate.

According to the inspection apparatus of claim 5 , in addition to the effect produced by the inspection apparatus according to any of claims 1 to 4 , the welding pass notification means is a signal input to the welding pass / fail input means by the weld pass / fail determination means. If it is determined that spot welding to a plurality of parts has been successful based on Therefore, there is an effect that the operator can recognize whether the spot welding has been successful.

According to the inspection apparatus of the sixth aspect , in addition to the effect produced by the inspection apparatus according to any one of the first to fifth aspects, the work is placed on the mounting table in order to measure the weight of the work, and the weight When the weight of the work is determined to be appropriate by the pass / fail determination means, the work moving means is driven by the work drive signal generating means to be moved from the mounting table. Therefore, there is an effect that only a workpiece having an appropriate weight can be moved to a container such as a storage box.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. FIG. 1 is a diagram showing an inspection apparatus 1, a weight scale 40, and a spot welder 60 according to an embodiment of the present invention. As shown in FIG. 1, the weigh scale 40 and the spot welder 60 are connected to the inspection apparatus 1 by cables 25 and 26, respectively. As a result, a signal indicating whether or not spot welding has been successfully performed on a plurality of parts (not shown) is transmitted from the spot welder 60 to the inspection apparatus 1, and a spot welded workpiece (not shown). A signal indicating whether or not the weight of the weight is appropriate is transmitted from the weigh scale 40. When both signals of a signal indicating that spot welding has been successfully performed on a plurality of parts and a signal indicating that the weight of the spot-welded workpiece is appropriate are input to the inspection device 1, the inspection device indicates that the workpiece is acceptable. Judged by 1. Here, before describing the details of the inspection apparatus 1, first, the spot welder 60 and the weighing scale 40 will be described.

  The spot welder 60 is an apparatus for manufacturing a workpiece by performing spot welding on a plurality of parts (not shown). In order to perform such an operation, the spot welder 60 includes a substantially U-shaped main body 62, a cylinder 65 provided on the upper portion of the main body 62 (upper side in FIG. 1), and a movable member fixed to a rod 65a of the cylinder 65. The electrode part 63 and the fixed electrode part 64 provided facing the movable electrode part 63 are provided.

  The rod 65a of the cylinder 65 moves downward from the state shown in FIG. 1 when the operator depresses a pedal 66 connected to the main body 62 by a cable. Therefore, when the pedal 66 is depressed with a plurality of components set on the fixed electrode 64a of the fixed electrode portion 64, the rod 65a of the cylinder 65 moves downward from the state of FIG. Along with the movement, the movable electrode portion 63 also moves downward from the state of FIG. 1, and a plurality of components set on the fixed electrode 64 a are separated by the fixed electrode 64 a and the movable electrode 63 a of the movable electrode portion 63. It is pinched. In this state, a large current is passed between the movable electrode 63a and the fixed electrode 64a, and a plurality of parts are spot welded to manufacture a workpiece. A program for performing such an operation is stored in the control unit 61 connected to the main body 62 by cable.

  At the time of spot welding, the control unit 61 inspects whether spot welding to the workpiece has been successful. In the control part 61, the electrical resistance value of the workpiece | work clamped by the movable electrode 63a and the fixed electrode 64a is measured, and it is test | inspected whether the spot welding with respect to the workpiece | work was successful. Here, the electrical resistance value at the time of spot welding increases to some extent due to a temperature rise due to melting of a predetermined portion of a plurality of parts, and then decreases as the melted portion becomes larger. The control unit 61 can determine whether spot welding for a plurality of parts has succeeded by measuring this trend. Thereafter, a signal indicating whether or not the spot welding is successful is transmitted to the inspection apparatus 1 through the cable 25 by the control unit 61.

  When spot welding is performed on a single workpiece at a plurality of locations, the number of the locations is set in the inspection apparatus 1 as the expected number of hit points, and the number of signals indicating that spot welding has been successful is the number of expected hit points. It is determined whether or not they match. The inspection apparatus 1 determines that the welding is acceptable and then determines the weight when the expected number of hits matches the number of signals indicating success, and then determines the weight. A welding stop instruction signal for instructing to temporarily stop the welding function is transmitted so that the welding machine 60 does not perform welding with the number of points more than the expected number of hits. The spot welder 60 locks (stops) the welding function when receiving this welding stop instruction signal, and then returns the welding function when receiving a signal instructing to release the lock.

  The weigh scale 40 measures the weight of the spot-welded workpiece and transmits a signal indicating whether or not the weight of the workpiece is appropriate to the inspection apparatus 1. The weigh scale 40 is installed on an installation table 43, and an operation for performing display of the weight of the workpiece placed on the placement table 41, the weight of the workpiece placed on the placement table 41, various settings, and the like. And a panel 42.

  The operation panel 42 is provided with a display unit 42 a that displays the weight of the work placed on the placement table 41. Various operation buttons 42b such as numeric buttons “0” to “9” are provided on the operation panel 42, and various buttons such as setting a prescribed weight of the workpiece by pressing these buttons. The operation is performed.

  Here, the specified weight of the workpiece is set by inputting an upper limit value and a lower limit value of the weight. As a result, when the weight of the workpiece exceeds the upper limit value, it is determined that it is heavier than the specified weight, and when it is below the upper limit value and above the lower limit value, it is determined to be appropriate. Is determined to be lighter than the specified weight. Note that the appropriate range set by the upper limit value and the lower limit value is set to 1 g or the like. The upper limit value and the lower limit value are set in advance by the operator before the inspection process shown in FIG. 3 is executed.

  The set upper limit value and lower limit value are displayed by the specified weight display section 42c. When the work is placed on the placing table 41, the weighing scale 40 transmits a signal that the weight of the work is appropriate or a signal that the work is heavier than the specified weight to the inspection apparatus 1. Details of this signal will be described with reference to FIG.

  Above the mounting table 41, a rectangular frame part 19c described later is provided. The frame portion 19c is fixed to a rod 19b of an air cylinder 19a described later. The air cylinder 19a supports the frame portion 19c so as not to contact the mounting table 41 by being fixed on the mounting table 43 by four rod-shaped fixing portions 19d.

  An air pump 19e is connected to the air cylinder 19a via a solenoid valve 19 through a pipe 28. The electromagnetic valve 19 is switched by the inspection device 1 when it is determined that the weight of the workpiece is appropriate. When the solenoid valve 19 is switched, the rod 19b protrudes in the direction of arrow A in FIG. 1 by the air supplied from the air pump 19e to the air cylinder 19a. As the rod 19b protrudes, the frame portion 19c also moves in the direction of arrow A. Then, the work placed on the placing table 41 is pushed out by the frame portion 19 c and falls to the insertion port 53 of the counter device 50. The solenoid valve 19 is set so as to be switched to the original state when the rod 19b is fully protruded, whereby the rod 19b is returned to the state shown in FIG. 1 by the air supplied from the air pump 19e.

  The counter device 50 is a device that counts the total number of workpieces that have been successfully spot welded and determined to match the specified weight, that is, the workpieces that have passed. When the work is pushed out by the frame portion 19c, the work falls to the insertion port 53, and at this time, the inner lid 52 is pushed down. When the inner lid 52 is pressed, 1 is added to the value of a counter (not shown) installed in the counter device 50. Based on this, the total amount of the loaded workpieces is displayed on the display unit 54. In addition, the loaded workpiece is stored in a workpiece container 55 provided below the loading port 53.

  The inspection device 1 is a device that determines whether or not a workpiece is acceptable based on both the signal transmitted from the spot welder 60 and the signal transmitted from the weighing scale 40. The shape of the inspection device 1 is a rectangular parallelepiped, and a rotary switch 16, a buzzer reset switch 17, a reject reset switch 18, an LED 20, and a production number setting button 21 are disposed on the front surface (front side in FIG. 1). Yes.

  The rotary switch 16 is a cylindrical switch that sets the planned number of spot welding points. The planned number of hit points is the number of times spot welding should be performed on a plurality of parts. By setting the planned number of hit points, the inspection apparatus 1 determines whether the number of spot weldings to a plurality of parts has reached the predetermined number of hit points. Thereby, it is possible to prevent spot welding from being lost due to an operator's mistake or a component defect. The rotary switch 16 is engraved with scales “1” to “6” (not shown), and the expected number of hit points is set by rotating the rotary switch 16 clockwise or counterclockwise in FIG. The For example, when the scale of the rotary switch 16 is set to “2”, “2” is set as the estimated number of hit points.

  The buzzer reset switch 17 is a switch for stopping the buzzer 23 (see FIG. 2). The buzzer 23 is provided in the inspection apparatus 1 and is sounded when the number of workpieces reaches the planned number of production set in the planned production number setting process (S12, see FIG. 3). Thereby, it is possible to make the operator recognize that the planned production number has been reached. Thereafter, the operator can stop the buzzer 23 by pressing the buzzer reset switch 17.

  The failure reset switch 18 is a switch for turning off a weight lamp 22c described later. The weight lamp 22c is turned on by the inspection apparatus 1 when it is determined that the weight of the workpiece is heavier or lighter than the specified weight. Thereafter, the operator can turn off the weight lamp 22c by pressing the reject reset switch 18. The weight lamp 22c is continuously lit when it is determined that the weight of the work is heavier than the specified weight, and blinks when it is determined that the weight of the work is lighter than the specified weight.

  The LED 20 is a two-digit 7-segment LED, and displays the planned production number set in the production number setting button 21. The LED 20 can display a 2-digit number (from “1” to “99”) as the planned production number. The production number setting button 21 includes four buttons, a tens place plus switch 21a, a tens place minus switch 21b, a one place plus switch 21c, and a one place minus switch 21d. The operator can set the tens place displayed on the LED 20 by pressing the tens place plus switch 21a and the tens place minus switch 21b, and the one place plus switch 21c and the one place minus switch. By pressing 21d, the number of digits displayed on the LED 20 can be set. This setting is input and set during a scheduled production number setting process (S12, see FIG. 3) described later. Further, the planned production number set by the production number setting button 21 is written in a planned passing number storage memory 14a (see FIG. 2) described later.

  Three lamps 22 are arranged in parallel on the upper surface (upper part of FIG. 1) of the inspection apparatus 1. The lamp 22 is an electric lamp that is turned on when the weight of the workpiece is measured by the weigh scale and when it is determined whether or not the weight of the workpiece is appropriate. The lamp 22 includes three lamps: a proper lamp 22a, a confirmation lamp 22b, and the weight lamp 22c. The appropriate lamp 22a is turned on for 2 seconds when it is determined that the weight of the work is appropriate. The confirmation lamp 22b is lit until the inspection apparatus 1 determines whether or not the weight of the workpiece is appropriate after the workpiece is placed on the weighing platform 41. The weight lamp 22c is continuously lit when it is determined that the weight of the workpiece is heavier than the specified weight, and blinks when it is determined that the weight of the workpiece is lighter than the specified weight.

  Next, the electrical configuration of the inspection apparatus 1 will be described with reference to FIG. FIG. 2 is a block diagram showing an electrical configuration of the inspection apparatus 1 of the present embodiment. As shown in FIG. 2, the inspection apparatus 1 is configured by connecting a CPU 11, a ROM 12, a RAM 13, an EEPROM 14, a timer 15, and an interface 24.

  The CPU 11 controls each part connected to the ROM 12, RAM 13, EEPROM 14, timer 15, and interface 24, and executes various operations. The ROM 12 is a non-rewritable memory that stores various control programs executed by the inspection apparatus 1, and stores a control program executed by the CPU 11 including an inspection process shown in a flowchart of FIG. . The RAM 13 is a rewritable memory for storing various data. The RAM 13 is provided with a hit point number storage memory 13a and a pass number storage memory 13b.

  The striking point storage memory 13a is a memory for storing the number of successful spot weldings to a plurality of parts. When spot welding is performed on a plurality of parts, a signal indicating whether or not the spot welding is successful is input from the spot welder 60. When it is determined that the signal input by the CPU 11 is a signal that has succeeded in spot welding, 1 is added to the value n of the hit point number storage memory 13a. When the value n of the hit point number memory 13a reaches the expected hit point number set by the rotary switch 16, it is determined that there is no spot welding missing from the workpiece.

  The acceptance number storage memory 13b is a memory for storing the number of times when it is determined that the weight of the workpiece is appropriate. The weight of the spot welded workpiece is measured by the weigh scale 40. When the CPU 11 determines that the signal input from the weigh scale 40 is a signal that the weight of the workpiece is appropriate, 1 is added to the value i of the pass number storage memory 13b. When the value i in the pass number storage memory 13b reaches the value J in the planned pass number storage memory 14a, the buzzer 23 is sounded and the user recognizes that the number of manufactured workpieces has reached the predetermined number. Let

  The EEPROM 14 is a rewritable nonvolatile memory (flash memory), and the data stored in the EEPROM 14 is retained even after the inspection apparatus 1 is powered off. The EEPROM 14 is provided with the above-mentioned scheduled pass number storage memory 14a, and the planned pass number storage memory 14a is set to the planned manufacture number set by the manufacture number setting button 21 in the planned manufacture number setting process (S12, see FIG. 3). Is written.

  The timer 15 counts the time after the work is placed on the placement table 41 of the weight scale 40, and is connected to the weight scale 40 via the OR circuit element 15a. The weigh scale 40 and the interface 24 are connected by two signal lines, and signal lines 15b and 15c branched from the two signal lines are respectively connected to the OR circuit element 15a. A signal “High (hereinafter referred to as“ H ”)” is transmitted from the weigh scale 40 to the signal lines 15 b and 15 c at normal times. Since the workpiece falls at the moment when the workpiece is placed on the placement table 41 of the weighing scale 40 by the operator, gravity exceeding the weight of the workpiece acts on the placement table 41. Thereby, at least one of the signals transmitted to the signal lines 15b and 15c becomes “Low (hereinafter referred to as“ L ”)”. The timer 15 detects this and counts 0.7 seconds immediately after this. The “H” signal is 5V, and the “L” signal is 0V. Further, it is possible to prevent malfunction due to noise by transmitting an “H” signal during normal operation.

  After the timer 15 finishes counting, the CPU 11 determines whether the weight of the workpiece is appropriate, heavier than the specified weight, or lighter based on a signal input from the weigh scale 40 to the interface 24. In this embodiment, when both of the input signals are “H”, it is determined that the weight of the workpiece is lighter than the specified weight, the signal on the signal line 15 b is “L”, and the signal on the signal line 15 c is “H”. ", It is determined that the weight of the workpiece is appropriate. If the signal on the signal line 15c is" L ", it is determined that the weight of the workpiece is heavier than the specified weight.

  The interface 24 is connected to the weighing scale 40 and the spot welder 60, as well as the rotary switch 16, the buzzer reset switch 17, the reject reset switch 18, the solenoid valve 19, the LED 20, the production number setting button 21, the lamp 22, And a buzzer 23 are connected.

  Next, an inspection process executed by the inspection apparatus 1 will be described with reference to the flowchart of FIG. FIG. 3 is a flowchart of the inspection process executed by the inspection apparatus 1. In the inspection process of FIG. 3, first, an initial setting process (S11) is performed. In the initial setting process (S11), the timer 15 is reset, and the value n of the striking point storage memory 13a and the value i of the pass number storage memory 13b are set to 0. Thereafter, a scheduled production number setting process (S12) is performed. In the planned production number setting process (S12), the planned production number set by the production number setting button 21 is written into the planned acceptable number storage memory 14a.

  When the planned production number setting process (S12) is completed, the planned number of hit points M set by the rotary switch 16 is read and stored in a predetermined area of the RAM 13 (S13). Next, it is confirmed whether a spot welding success signal has been received (S14). If the spot welding success signal has not been received (S14: No), the process proceeds to S14 and waits until a spot welding success signal is received. On the other hand, if a spot welding success signal has been received (S14: Yes), 1 is added to the value n of the striking point storage memory 13a (S15), and the value n of the striking point storage memory 13a is scheduled to be stored in the RAM 13. It is confirmed whether the number of hit points M has been reached (S16). If the value n of the striking point storage memory 13a has not reached the expected striking point number M stored in the RAM 13 (S16: No), the process proceeds to S14, and the processes from S14 are repeated. On the other hand, if the value n of the hit point number memory 13a has reached the expected hit point number M stored in the RAM 13 (S17: Yes), the buzzer 23 is sounded for 0.5 second (S17), and the spot welding is successful. Notification is made, and the value n of the hit number memory 13a is set to 0 (S18). At this point, since it is determined that the predetermined number of hits have been welded, the spot welder 60 is instructed to lock (stop) the welding function so as not to weld more than the expected number of hits. Is transmitted (S19).

  Next, it is confirmed whether the timer 15 has finished counting (S20). Here, when the workpiece that has succeeded in spot welding is placed on the placing table 41 of the weighing scale 40, the timer 15 counts 0.7 seconds immediately after that. If the timer 15 has not finished counting (S20: No), the confirmation lamp 22b is turned on (S21), and the process of S20 is repeated. When the end of the count of the timer 15 is confirmed (S20: Yes), it is confirmed whether or not the signal input from the weigh scale 40 is a heavy signal (S22). If the signal input from the weigh scale 40 is heavy (S22: Yes), the weight lamp 22c is turned on (S23), and the confirmation lamp 22b is turned off (S24).

  On the other hand, if the signal input from the weight scale 40 is not a signal that is heavy (S22: No), it is confirmed whether or not the signal is appropriate (S28). If the signal input from the weigh scale 40 is not a proper signal (S28: No), the weight of the workpiece is lighter than the specified weight, so the weight lamp 22c is controlled to blink (S29). The confirmation lamp 22b is turned off (S24). Thereby, the operator can recognize whether the weight of the workpiece is heavier or lighter than the specified weight.

  After the process of S24, it is confirmed whether or not the failure reset switch 18 is pressed (S25). If the failure reset switch 18 has not been pressed (S25: No), the processing of S24 is repeated, and if it is confirmed that the failure reset switch 18 has been pressed (S25: Yes), the weight lamp 22c is turned off (S26). Then, a signal is transmitted to the spot welder 60 so as to release the lock (S27), and the process returns to S14.

  On the other hand, if the signal input from the weighing scale 40 is appropriate (S28: Yes), the confirmation lamp 22b is turned off (S30), and a signal is transmitted to the spot welder 60 so as to release the lock ( S31).

  Next, the appropriate lamp 22a is lit for 2 seconds (S32) to notify that the weight of the work is appropriate. Then, the solenoid valve 19 is switched (S33), and air is supplied to the air cylinder 19a. Thereby, the workpiece | work mounted in the mounting base 41 of the weight scale 40 is extruded by the frame part 19c, and is accommodated in the workpiece container 55 (refer FIG. 1).

  Next, 1 is added to the value i of the pass number storage memory 13b (S34), and it is confirmed whether the value i of the pass number storage memory 13b has reached the value J of the planned pass number storage memory 14a (S35). . If the value i in the pass number storage memory 13b has not reached the value J in the planned pass number storage memory 14a (S35: No), the process proceeds to S14.

  On the other hand, if the value i of the pass number storage memory 13b has reached the value J of the planned pass number storage memory 14a (S35: Yes), the value i of the pass number storage memory 13b is set to 0 (S36), and the buzzer 23 is turned on. Sound (S37). Thereby, it is notified that the number of manufactured workpieces has reached the planned number of manufactured workpieces. Then, it is confirmed whether or not the buzzer reset switch 17 is pressed (S38). If the buzzer reset switch 17 is not pressed (S38: No), the process of S38 is repeated, and if the buzzer reset switch 17 is pressed. (S38: Yes), the buzzer 23 is stopped (S39), the process proceeds to S14, and the processes from S14 are repeated.

  Therefore, according to the inspection apparatus 1 of the present embodiment, the workpiece is first manufactured by spot welding a plurality of parts by the spot welder 60, and the spot welding machine 60 has succeeded in spot welding to the plurality of parts. Whether or not is input to the inspection apparatus 1. Then, based on the input signal, it is determined whether the spot welding has been successful. Next, when the spot-welded workpiece is placed on the weighing scale 40, a signal for notifying whether or not the weight of the workpiece is appropriate is input from the weighing scale 40 to the inspection apparatus 1. When it is determined that spot welding to a plurality of parts has been successful, it is determined from the signal input from the weighing scale 40 whether the weight of the workpiece is appropriate.

  Therefore, it is possible to inspect whether spot welding has been successfully performed on the workpiece, and it is possible to inspect whether parts that are not regular are erroneously spot welded. Therefore, the inspection accuracy can be improved and a defective product can be reliably found on the spot. In addition, since the weight of the workpiece is measured after spot welding rather than inspecting each of the plurality of parts before spot welding, it is possible to inspect whether or not each of the plurality of parts is a regular part. Therefore, the work of inspecting each of the plurality of parts is not required, and workability can be improved accordingly.

  Further, the appropriate lamp 22a is turned on when it is determined that the weight of the work is appropriate, and the weight lamp 22c is turned on when the weight of the work is heavier than the specified weight, and the weight of the work is higher than the specified weight. Also flashes when light. Therefore, the operator can recognize whether the weight of the work is appropriate, or whether the weight of the work is heavier or lighter than the specified weight.

  Further, the weighing scale 40 transmits a signal indicating that the weight of the workpiece is appropriate and a signal indicating that the weight of the workpiece is heavier than the specified weight to the inspection apparatus 1. Based on both signals, it is determined whether the weight of the workpiece is appropriate, heavier than the specified weight, or light. Therefore, it is possible to determine three types of states, that is, whether the weight of the workpiece is appropriate, heavier than the specified weight, or light by only two types of signals. Therefore, the configuration can be simplified rather than using three types of signals to determine three types of states.

  In addition, when spot welding is performed on a plurality of parts, not all spot welding may be performed due to an operator's mistake or parts failure. In such a case, spot welding is lost and the workpiece becomes defective. On the other hand, according to the inspection apparatus 1 of the present embodiment, the number of times that a signal indicating that spot welding has been successful is input from the spot welder 60 is counted by the hit point storage memory 13a. Then, the inspection apparatus 1 determines whether or not the value n of the hit point number storage memory 13a has reached the expected hit point number M set by the rotary switch 16. Therefore, it is possible to prevent spot welding from being lost when performing a plurality of spot weldings.

  The number of times that the weight of the workpiece is determined to be appropriate is counted by the pass number storage memory 13b. When it is determined that the value i in the pass number storage memory 13b has reached the value J in the planned pass number storage memory 14a, the buzzer 23 is sounded. Therefore, even if the worker does not count the workpieces that have passed, the worker can be made aware that the number of workpieces that have been produced has reached the planned production number.

  Further, when the work is placed on the weighing scale, the weighing scale 40 fluctuates due to the reaction. The fluctuation stops after a predetermined time has elapsed. That is, immediately after the work is placed on the weighing scale 40, the signal from the weighing scale 40 fluctuates, so the inspection apparatus 1 may not be able to make an accurate determination. On the other hand, according to the inspection apparatus 1 of the present embodiment, the timer 15 starts counting immediately after the workpiece is placed on the weighing scale 40. Then, after 0.7 seconds are counted by the timer 15, the inspection apparatus 1 determines whether the weight of the workpiece is appropriate based on a signal input from the weighing scale 40. Therefore, since the signal is determined after the fluctuation of the weighing scale 40 is stopped, it is possible to accurately determine whether the weight of the workpiece is appropriate.

  Further, the buzzer 23 is sounded when it is determined that spot welding to a plurality of parts has been successful. Therefore, it can be made to recognize whether the spot welding was successful for an operator.

  Furthermore, when the work is placed on the placing table 41 in order to measure the weight of the work and the weight of the work is determined to be appropriate by the inspection apparatus 1, the electromagnetic valve 19 is switched. It is moved from the mounting table 41. Therefore, only a workpiece having an appropriate weight can be stored in the workpiece container 55.

  The welding acceptance / rejection determination means of the inspection apparatus described in the claims corresponds to the determination processing of S14 and S17 by the CPU 21 shown in FIG. 3, and the weight acceptance / rejection determination means includes the determination processing of S22 and S28 shown in FIG. 3 corresponds to the production achievement determination means, and the determination process of S35 shown in FIG. 3 corresponds to the production drive achievement generation means, and the processing of S33 shown in FIG. 3 corresponds to the work drive signal generation means.

  As described above, the present invention has been described based on the embodiments, but the present invention is not limited to the above-described embodiments, and various improvements and modifications can be easily made without departing from the spirit of the present invention. It can be guessed.

  For example, in the above embodiment, when it is determined that the weight of the workpiece is appropriate, the appropriate lamp 22a is turned on, but the present invention is not limited to this, and the buzzer 23 may be sounded. Even in such a case, it is possible to notify the operator that the weight of the workpiece is appropriate.

  In the above embodiment, two types of signals, a signal indicating that the weight of the workpiece is appropriate and a signal indicating that the weight of the workpiece is heavier than the specified weight, are input. However, the present invention is not necessarily limited to this. Two types of signals may be input: a signal that the weight of the workpiece is appropriate and a signal that the weight of the workpiece is lighter than the specified weight. Even in such a case, only two types of signals can be used to determine three types of states: whether the workpiece weight is appropriate, heavier than the specified weight, or light.

It is a figure which shows the test | inspection apparatus, weight scale, and spot welder in one Embodiment of this invention. It is the block diagram which showed the electrical structure of the test | inspection apparatus of this embodiment. It is a flowchart of the test | inspection process performed with a test | inspection apparatus.

1 Inspection device 13a Number of hit points storage memory (number of times measurement means)
13b Pass number storage memory (pass number measuring means)
14a Planned passing number storage memory (part of planned number setting means)
15 Timer (time measuring means)
16 Rotary switch (scheduled point setting means)
19 Solenoid valve (work moving means)
21 Production number setting button (part of planned number setting means)
22a Appropriate lamp (pass notification means)
22b confirmation lamp 22c weight lamp (inappropriate notification means)
23 Buzzer (Production number achievement notification means, welding pass notification means)
24 interface (welding pass / fail input means, weight pass / fail input means)
40 Weigh scale 41 Mounting table 60 Spot welder

Claims (6)

In an inspection device for inspecting the pass / fail of a workpiece in which a plurality of parts are spot welded by a spot welder,
From the spot welder, welding pass / fail input means for inputting a signal notifying whether or not the spot welding to the plurality of parts has been successful,
Scheduled number-of-spots setting means for setting the number of scheduled spots for spot welding with respect to the plurality of parts;
Number-of-times measuring means for measuring the number of times that a signal indicating that spot welding to the plurality of parts has been successful is input to the welding pass / fail input means;
Number measured by the frequency measurement unit, when it reaches the predetermined number RBI set in the planned impact point number setting means, judged to be successful on the number of spot welding to be performed with the the plurality of components welded Pass / fail judgment means;
When it is determined by the welding acceptance / rejection determination means that the number of times measured by the number-of-times counting means has reached the planned number of hitting points set by the scheduled hitting number setting means, a welding function is provided to the spot welder. Welding stop instruction signal transmission means for instructing to temporarily stop;
From a weighing scale that measures the weight of the workpiece and transmits a pass signal indicating that the workpiece has passed the weight and a reject signal indicating whether the weight of the workpiece is heavier or lighter than the specified weight. A pass signal and a fail signal transmitted based on the weight of the workpiece placed on the weighing scale, determined by the welding pass / fail judgment means that the number of times the spot welding to be performed on the plurality of parts has been successful. and weight acceptance input means for inputting a signal,
Based on the signal input to the weight acceptance / rejection input means, it is determined that the weight of the workpiece is either heavier or lighter than the specified weight when a failure signal is input, It is determined that the weight of the workpiece is appropriate when the weight is input, and whether the weight of the workpiece is heavier or lighter than the specified weight when the reject signal and the pass signal are not input from the weighing scale. Whether the weight of the workpiece is appropriate, heavy, or light based on two types of signals, that is, a pass signal and a fail signal input from the scale to the weight acceptance / rejection input means by determining that the weight is the other. Weight acceptance / rejection judging means for judging three kinds of states ;
A failure reset switch that is a switch, and
The determination by the weight acceptance / rejection determination unit is performed after the welding stop instruction signal transmission unit instructs the spot welder to temporarily stop a welding function,
When it is determined by the weight acceptance / rejection determination means that the weight of the workpiece is appropriate, the spot welder is instructed to cancel the temporary stop of the welding function, while the weight acceptance / rejection determination means determines the weight of the workpiece. An inspection apparatus characterized in that if the weight is not determined to be appropriate, the spot welding machine is instructed to cancel the temporary stop of the welding function when the reject reset switch is pressed. An acceptance notification means for notifying when the weight of the workpiece is determined to be appropriate by the weight acceptance / rejection determination means;
When the weight acceptance / rejection judging means judges that the weight of the work is improper, it comprises improper notifying means for notifying at least one of whether the weight of the work is heavier or lighter than a specified weight. The inspection apparatus according to claim 1, wherein: A planned number setting means for setting the planned number of manufactured workpieces;
A pass number measuring means for measuring the number of times the weight of the workpiece is determined to be appropriate by the weight acceptance / rejection determining means;
Manufacturing number achievement judging means for judging whether or not the number of times measured by the passing number measuring means has reached the planned number of production set in the planned number setting means,
It is provided with a production number achievement notifying means for notifying when it is determined that the number of times measured by the acceptance number measuring means by the achievement judging means has reached the planned production number set in the planned number setting means. The inspection apparatus according to claim 1 or 2 . When the input of a signal from the weighing scale is started to the weight acceptance / rejection input means, the time measuring means for starting time measurement is provided,
The weight acceptance / rejection judging means judges whether or not the weight of the workpiece is appropriate based on a signal inputted from the weight scale to the weight acceptance / rejection input means after the time measuring means times a predetermined time. inspection apparatus according to claim 1, wherein 3. It comprises welding success notification means for notifying when it is determined that spot welding to the plurality of parts has been successful based on a signal input to the welding pass / fail input means by the welding pass / fail determination means. The inspection apparatus according to any one of claims 1 to 4 . The weigh scale includes a mounting table on which the workpiece is mounted for measuring the weight of the workpiece, and a workpiece moving means for moving the workpiece mounted on the mounting table from the mounting table.
6. The apparatus according to claim 1, further comprising a work drive signal generating means for driving the work moving means when the weight of the work is judged to be appropriate by the weight acceptance / rejection judging means. The inspection device described in 1.

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