JP4013341B2 - Movable contact mounting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mounting device for a movable contact such as a panel switch used in various electronic devices.
[0002]
[Prior art]
As a conventional mounting device for this kind of movable contact, one described in Japanese Patent Application Laid-Open No. 3-43919 “Diaphragm mounting device for panel switch” is known.
[0003]
The panel switch diaphragm mounting device (hereinafter referred to as a mounting device) will be described with reference to FIGS.
[0004]
FIG. 5 is a side view and a plan view of a conventional mounting device, and FIG. 6 is an explanatory view of a mounting process of a movable contact mounted by this mounting device. In FIG. A first pinwheel 3 having a protrusion is a laminating roller. Between the first pinwheel 2 and the laminating roller 3 at one end of the frame 1, a hoop-shaped movable contact 4 and an adhesive tape 5 are supplied. It has become.
[0005]
Reference numeral 6 denotes a second pinwheel having a protrusion on the outer periphery and attached to the other end of the frame 1 in the same manner as the first pinwheel 2, 7 a cutter for cutting the adhesive tape 5, and 8 a hoop-like movable contact. A cutting die 8 </ b> A is disposed above the cutting punch 8.
[0006]
In the above configuration, first, as shown in FIG. 6 (a), a circular dome-shaped diaphragm made of a thin elastic metal plate, that is, a movable contact 4A, is connected to each other with two crosspieces 4B having feed pitch holes 4C. A hoop-like movable contact 4 connected to the belt 4D at a constant pitch and an adhesive tape 5 in which an adhesive is applied to the lower surface of the insulating film are supplied between the first pinwheel 2 and the laminating roller 3, FIG. As shown in (b), the hoop-shaped movable contact 4 and the adhesive tape 5 are bonded together.
[0007]
And between the 1st pinwheel 2 and the 2nd pinwheel 6 which has the processus | protrusion of the same pitch as the pitch hole 4C of the hoop-shaped movable contact 4, the hoop-shaped movable contact 4 is sent to the left side of FIG. Then, the adhesive tape 5 is cut into individual adhesive tapes 5A as shown in FIG. 6C by the cutter 7, and then the hoop-like movable contact 4 is cut off the crosspiece 4B by the cutting punch 8 and the cutting die 8A. From the hoop shape, it becomes a single movable contact body 9 to which the individual adhesive tape 5A is attached.
[0008]
At this time, the hoop-like movable contact 4 cuts the crosspiece 4B at a position slightly outside the outer periphery of the adhesive tape 5.
[0009]
The movable contact body 9 cut into a single product and attached with the individual adhesive tape 5A is sucked by the suction unit 10 of the mounting machine shown in FIG. 5, and the suction unit 10 is placed on the table 12 on which the wiring board 11 is placed. As shown in FIG. 6 (d), the movable contact body 9 is pasted on the plurality of fixed contacts 13A and 13B of the wiring board 11 to assemble the panel switch.
[0010]
[Problems to be solved by the invention]
However, in the conventional movable contact mounting device, the adhesive tape 5 is bonded to the hoop-like movable contact 4 and the crosspiece 4B is cut slightly outside the outer periphery of the adhesive tape 5 to form the movable contact body 9. Therefore, the width of the hoop-like movable contact 4 is increased by the amount of the crosspiece 4B, and an individual adhesive tape is used to eliminate the difference in adhesive force depending on the orientation of the movable contact body 9 after being attached to the wiring board 11. When the shape of 5A is made square, the arrangement pitch of the movable contacts 4A increases, and there is a problem that the material cost of the hoop-like movable contacts 4 with respect to one movable contact body 9 becomes expensive.
[0011]
Further, since the suction unit 10 reciprocates between the frame 1 and the table 12, the movable contact body 9 is sucked and attached to the wiring board 11, and this movement takes time, and the panel switch is assembled. There was also a problem that the work time was long.
[0012]
The present invention solves such a conventional problem. The hoop-like movable contact is made small, the material cost is reduced, and the time for attaching the movable contact to the wiring board is shortened to obtain an inexpensive panel switch. An object of the present invention is to provide a movable contact mounting device.
[0013]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the movable contact mounting device of the present invention is not attached to a crosspiece from a hoop-like movable contact in which a dome-shaped movable contact is connected to a connection band by two short crosspieces at a predetermined pitch. A single movable contact is cut by the cutting part of the mold and supplied directly below, and it is adsorbed and held by positioning with a plurality of circular holes of the cylindrical drum that rotates vertically, while it is in the vicinity of the cylindrical drum A single adhesive tape for forming individual movable contact bodies is sequentially sucked and held on a plurality of mount nozzles of the main drum arranged to be vertically rotatable at a position, and each of the mount nozzles is prepared. The single movable adhesive contact is transferred to the single adhesive tape and formed on the movable contact body, and each of the movable contact bodies is continuously attracted to the mount nozzle. The single movable contact is continuously applied to the substrate corresponding to the substrate by continuously attaching and mounting the substrate to the substrate held on the table disposed below the main drum by the mount nozzles. It is intended to be affixed to the deposition position .
[0014]
Thereby, the hoop-like movable contact can be made small, the material cost can be reduced, and the movable contact mounting device capable of manufacturing the panel switch at a low cost by reducing the time for attaching the movable contact to the wiring board can be obtained.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
According to the first aspect of the present invention, there is provided a cutting portion for cutting a hoop-shaped movable contact , in which a dome-shaped movable contact is connected to a connection band by two short crosspieces at a predetermined pitch, into a single movable contact. A mold that supplies the cut movable contact of the single item directly below the cutting portion, and is disposed at a position below the mold so as to be capable of rotating in the vertical direction. A cylindrical drum having a plurality of circular holes for adsorbing and accommodating the single movable contact supplied from the processing portion to the lower side one by one with the dome-shaped apex portion facing outward, and the cylindrical shape It is arranged in the vicinity of the drum so as to be able to rotate in the vertical direction, and on its outer periphery, the single adhesive tapes that have been cut to form individual movable contact bodies by being bonded to the single movable contacts are sequentially adsorbed. Have multiple mounting nozzles When the entrance of the circular hole of the cylindrical drum matches the position of the adhesive tape prepared in the mount nozzle, the single movable contact is transferred to the adhesive tape and the apex of the movable contact An upper surface is bonded to the adhesive tape to be formed on the movable contact body, and subsequently, the main drum for transferring the movable contact body by longitudinally rotating the adhesive tape while adsorbed and held by the mount nozzle; and the main drum A position for adjusting the position in the X-axis and Y-axis directions is arranged at a lower position of the drum, and a substrate for attaching the movable contact body is held on the upper surface of the drum. A table on which the position where the movable contact body is attached to the substrate is adjusted by the position adjustment function in the X-axis and Y-axis directions and transferred by the mount nozzle; The single movable contact supplied downward from the cutting part of the die is sucked and accommodated in the circular hole of the cylindrical drum, whereby the single movable contact is positioned and the movable contact thus positioned is positioned. Is transferred to the main drum side and formed on the movable contact body in an attracted state by the mount nozzles, and each of the movable contact bodies is continuously transported while being attracted by the mount nozzle of the main drum. Then, the movable contact body transferred by the mount nozzle is continuously pasted and attached to the deposition position of the substrate adjusted by the position adjustment function of the table. The movable contact mounting device is characterized in that the contact is continuously pasted to the corresponding deposition position , and a single movable contact and a single adhesive tape are provided. The movable contact body is cut and bonded to form a movable contact body, and the movable contact body is attached to the attachment position of the substrate to attach the single movable contact continuously to the corresponding covered body. Because it is the specification of the device configuration that is attached to the attachment position, the crosspiece for connecting the movable contact to the connecting band and the arrangement pitch are shortened, the hoop-like movable contact is made small, the material cost can be reduced, and it becomes a substrate Since the table on which the wiring board is placed has a position adjusting function in the X-axis and Y-axis directions, and the moving time for attaching the movable contact to a predetermined location on the wiring board is short, the attaching time of the movable contact to the wiring board Thus, it is possible to obtain a movable contact mounting device that can shorten the manufacturing cost and manufacture a panel switch at low cost.
[0017]
According to a second aspect of the present invention, in the first aspect of the invention, the plurality of circular holes provided on the outer periphery of the cylindrical drum are open toward the center of the cylinder, and the movable member is cut into a single piece. contacts, to the plurality of circular holes, are positioned in the movable contact of the single item by one by one adsorbed housing toward the apex of the dome shape of its outward, then each mount a nozzle of the main drum When the entrance of the circular hole accommodating the movable contact of the single product is matched with the single adhesive tape that is sucked and fed to the single movable tape, the single movable contact positioned by the circular hole is above projecting pins provided in the circular hole is pushed along the radial direction of the cylindrical drum is intended to be delivered to the adhesive tape, the movable contact cut from hoop movable contacts separately, circle By once housed in a circular hole for positioning Jo drum, it is possible to correct the position deviation during cutting, has an effect of being able to accurately bonded to cut the adhesive tape.
[0018]
The invention according to claim 3 is the invention according to claim 1 , wherein the position where the movable contact cut into a single product is adhered to the cut adhesive tape is image-recognized and then determined to be out of specification by image recognition. Is attached to the take-out tape with the adhesive of the above-mentioned adhesive tape and discharged, and the adhesive position of the adhesive tape and the movable contact is detected by image recognition, and the non-standard product is taken out with the adhesive of the adhesive tape. By sticking on the tape and winding it up, it has the effect that the non-standard product can be reliably discharged.
[0019]
Invention according to claim 4, in the invention according to the first aspect, the attracting and holding onto a table tape-shaped insulating film as the substrate, between the unwinding unit and the table supplying the insulating film, and the the portion of the insulating film between the winding portion for winding the insulating film after the sticking attached table and the movable contact member, which is provided with slack, by the substrate tape-shaped insulating film, both the Ru can sticking of the movable contact continuously without placing replacement of the substrate to the table, the slack in the insulating film between the roll unwinding portion between the table and the table and the take-up portion of the insulating film By providing this, the slack and meandering of the insulation film due to the movement of the table in the X-axis and Y-axis directions can be absorbed by this slack, and the movable contact can be reliably affixed. It has the effect of.
[0020]
The invention according to claim 5 is the invention according to claim 4 , wherein a sensor for detecting the slack of the insulating film is arranged at least between the unwinding portion and the table or between the table and the winding portion. Yes, this sensor detects the slack of the insulating film between the unwinding part and the table or between the table and the winding part, and controls the supply and winding of the insulating film to prevent twisting and meandering. It has the effect that the sag of the film can always be kept constant.
[0021]
The invention according to claim 6 is the invention according to claim 4 , wherein a pressing pin that prevents the insulating film from floating and a guide plate that prevents sagging of the insulating film in the feeding direction are provided at both ends of the table. The presser pin and the guide plate prevent the insulating film placed on the table from floating and sagging, and have a function of attaching the movable contact at a certain position.
[0022]
Hereinafter, embodiments of the present invention will be described with reference to FIGS.
(Embodiment 1)
FIG. 1 is a side view of a movable contact mounting apparatus according to a first embodiment of the present invention, in which 21 is a mold for cutting a hoop-like movable contact 22 into a single movable contact, and 23 is on the outer periphery. A cylindrical drum having a plurality of circular holes 23A having an inner diameter matched to the outer diameter of the movable contact toward the center of the cylinder, and a plurality of mount nozzles 25 for attracting and holding an adhesive tape 29A cut into a single product, which will be described later. A main drum 26 provided on the outer periphery is a table having a position adjusting function in the X-axis and Y-axis directions, and a wiring board 27 is placed on the table 26.
[0023]
28 is a tape drum that cuts and supplies the hoop-like adhesive tape 29, 30 is a camera for image recognition, 31 is a discharge unit for discharging a non-standard movable contact, and the main drum 24 is rotated in the vertical direction. Accordingly, a tape drum 28, a cylindrical drum 23, a camera 30, and a discharge unit 31 are sequentially arranged on the outer periphery of the main drum 24.
[0024]
Hereinafter, the operation of the mounting apparatus configured as described above will be described.
First, as shown in the plan view of FIG. 2, a dome-shaped movable contact 22A is connected to a narrow connecting band 22C at a predetermined pitch by two short bars 22B having substantially the same length and width. 22 is supplied to the mold 21 and cut into a single movable contact 22A without a crosspiece 22B.
[0025]
Here, the width W of the hoop-like movable contacts 22 and the arrangement pitch P of the movable contacts 22A are the minimum that can form and form a dome-shaped movable contact 22A having the same diameter as that of the prior art into a connected hoop shape. The dimensions are set.
[0026]
The movable contact 22A cut into a single product has a plurality of circular shapes opened toward the center of the cylinder on the outer periphery of the cylindrical drum 23 with the intermittent rotation of the cylindrical drum 23 below the mold 21. The holes 23A are sucked and accommodated one by one with the dome-shaped apex portions facing outward, and this circular hole 23A has a tapered portion at the entrance so that the movable contact 22A can be smoothly accommodated. At the same time, the inner diameter is sized to match the outer diameter of the movable contact 22A.
[0027]
On the other hand, the hoop-like adhesive tape 29 supplied to the tape drum 28 is cut into individual adhesive tapes 29A by a cutting rotary cutter 28A disposed on the side of the tape drum 28 as the tape drum 28 rotates. Each one is attached to the tip of the mount nozzle 25 mounted on the outer periphery of the main drum 24 with the adhesive surface facing outward.
[0028]
When each mount nozzle 25 holding the individual adhesive tape 29A comes to a position close to the cylindrical drum 23 as the main drum 24 rotates intermittently, the movable contact on the outer periphery of the cylindrical drum 23 is reached. Each circular hole 23A containing 22A is set to be just concentric with the mount nozzle 25, and the movable contact 22A in each circular hole 23A is located at a position where the centers of both coincide with each other. Are sequentially pushed out by a protruding pin (not shown) attached to the back of the nozzle, and the upper part thereof is attached to an individual adhesive tape 29A at the tip of each mount nozzle 25 to form a single movable contact body 32.
[0029]
The size of the individual adhesive tape 29A to which the movable contact 22A is bonded is only required to be able to secure a predetermined bonding area on the outer periphery of the movable contact 22A. About 1.4 times the diameter is sufficient.
[0030]
When the main nozzle 24 further rotates and the mount nozzle 25 holding the movable contact body 32 in which the movable contact 22A is bonded to the individual adhesive tape 29A comes to the position of the camera 30, the movable contact 22A to the adhesive tape 29A is reached. When the camera 30 recognizes the image of the bonding position of the lens and the image is determined to be out of the standard, it is removed from the mount nozzle 25 in the next discharge unit 31.
[0031]
As shown in FIG. 1, the discharge unit 31 includes a take-up drum 31 </ b> B of a take-out tape 31 </ b> A, a take-up drum 31 </ b> C, and a sticking table 31 </ b> D provided close to the main drum 24. With intermittent rotation, the mount nozzle 25 moves when the mount nozzle 25 holding the movable contact body 32 determined to be out of specification comes to the position of the attachment table 31D, and the non-standard movable contact body 32 is unwound. It is fed from the drum 31B and pasted onto the take-out tape 31A passing through the pasting surface of the pasting base 31D, and taken up by the take-up drum 31C.
[0032]
At this time, since the non-standard movable contact body 32 is affixed to the take-out tape 31A by the adhesive of the adhesive tape 29A, the take-out tape 31A may have no adhesive on the surface. It is.
[0033]
Then, what is determined to be within the standard by the image recognition by the camera 30 is further moved downward by the intermittent rotation of the main drum 24, and the adhesive tape 29 </ b> A is placed on the wiring substrate 27 placed on the table 26. Bonded with an adhesive.
[0034]
Further, the table 26 has a position adjusting function in the X-axis direction in the left-right direction and the Y-axis direction in the front-rear direction in FIG. 1, and the table 26 is placed by moving in the X-axis and Y-axis directions. The movable contact body 32 can be attached to a predetermined portion of the wiring board 27.
[0035]
As described above, according to the present embodiment, the single movable contact 22A and the single adhesive tape 29A are separately cut and bonded to the wiring board 27 after bonding them to the movable contact body 32. The crosspiece 22B for connecting the movable contact 22A to the connection band 22C and the arrangement pitch can be shortened, the hoop-like movable contact 22 can be made small, the material cost can be reduced, and the table 26 on which the wiring board 27 is placed has an X axis. And the Y-axis direction position adjustment function, while the main drum 24 rotating and holding the adhesive tape 29A of the movable contact body 32 formed of the adhesive tape 29A and the movable contact 22A on the mount nozzle 25 is rotated. performing the movement of the X-axis and Y-axis direction, since the sticking the movable contact 32 to a predetermined position of the wiring board 27, short of the sticking time to the wiring board of the movable contact And in which it is possible to obtain a mounting device of the movable contact that can be inexpensively manufactured panel switch.
[0036]
In addition, the movable contact 22A cut into a single product from the hoop-shaped movable contact 22 by the mold 21 is once accommodated in the circular hole 23A for positioning of the cylindrical drum 23, and is then sucked and held by the mount nozzle 25 of the main drum 24. By transferring to the adhesive tape 29A, the positional deviation at the time of cutting can be corrected, and the adhesive tape 29A that has been cut can be bonded with high accuracy.
[0037]
Further, the adhesive position of the adhesive tape 29A and the movable contact 22A is detected by the image recognition of the camera 30, and the non-standard product is attached to the take-out tape 31A with the adhesive of the adhesive tape 29A for attaching to the wiring board 27. By winding, non-standard products can be reliably discharged.
[0038]
It should be noted that the wiring board 27 may have a certain degree of rigidity such as a paper phenol laminate or glass epoxy, or may be a flexible insulating sheet such as a polyester film, so that the embodiment of the present invention is possible. Of course.
[0039]
(Embodiment 2)
FIG. 3 is a side view of a movable contact mounting device according to a second embodiment of the present invention, in which a cylindrical drum 23 is provided below a mold 21 and a mount nozzle 25 is provided on the outer periphery thereof. In the case of the first embodiment, the main drum 24, the table 26 is disposed at the bottom, and the tape drum 28, the camera 30, and the discharge unit 31 are sequentially disposed on the outer periphery of the main drum 24. However, a tape-like insulating film 33 is sucked and held on the table 26.
[0040]
And between the unwinding part 34 which supplies the insulating film 33 on the left side of the table 26 and the table 26, the insulating film between the winding part 35 and the table 26 which winds up the insulating film 33 to which the right movable contact is attached. 33 is provided with slacks 33A and 33B, respectively, and sensors 36 and 37 are arranged on the sides thereof.
[0041]
In the above configuration, with the intermittent rotation of the main drum 24 , with respect to the individual adhesive tapes 29A that have been cut and held one by one at the tip of the mount nozzle 25 disposed on the outer periphery of the main drum 24 , After the single movable contact 22A without the crosspiece 22B is delivered and formed on the movable contact body 32 , the camera 30 recognizes an image of the adhesion position of the movable contact 22A to the adhesive tape 29A, and determines that it is out of specification. The removed one is removed from the mount nozzle 25 at the next discharge unit 31, and the one determined to be within the standard is adhered to the insulating film 33 placed on the table 26 by the adhesive of the adhesive tape 29A. This is the same as in the case of the first embodiment, but in order to attach the movable contact body 32 to a predetermined portion of the insulating film 33, the table 26 is arranged in the left-right direction. When moved in the axial direction and the longitudinal direction of the Y-axis direction, twisting and meandering of the entire film, the table 26 ends of the slack 33A, is configured to be absorbed by 33B.
[0042]
The amount of slack is detected by the sensors 36 and 37 disposed on the sides of the slacks 33A and 33B, and the supply of the insulating film 33 from the unwinding portion 34 and the winding of the winding portion 35 are controlled. The slack 33A, 33B of the insulating film is always kept constant.
[0043]
Thus, the joint use of such a tape-like insulating film 33 as a substrate, since it is stuck in the movable contact 32 continuously without placing replacement to the table 26, the wear sticking time shortened By providing slacks 33A and 33B between the roll-shaped unwinding part 34 of the insulating film 33 and the table 26, and the insulating film 33 between the table 26 and the winding part 35, the X axis and Y axis of the table 26 are provided. The sag 33A and 33B absorb the twist and meandering of the insulating film 33 due to the movement of the direction, and the movable contact body 32 can be reliably attached.
[0044]
Further, sensors 36 and 37 are arranged on the sides of the slacks 33A and 33B, and the slack of the insulating film 33 between the unwinding portion 34 and the table 26 or between the table 26 and the winding portion 35 is detected by the sensors 36 and 37. Since the detection and the supply and winding of the insulating film 33 are controlled, the slacks 33A and 33B of the insulating film 33 for preventing twisting and meandering can always be kept constant.
[0045]
In the above description, the configuration in which one table 26 arranged below the main drum 24 moves in the X-axis and Y-axis directions has been described. However, as shown in FIG. It goes without saying that the embodiment of the present invention can also be configured as a structure that is divided into a table 26A having a position adjusting function and a table 26B having a position adjusting function in the front and rear Y-axis direction.
[0046]
As shown in FIG. 4, holding pins 38 that prevent the insulating film 33 from floating are provided at both ends of the table 26 </ b> B, and the insulating film 33 in the X-axis direction that is the feeding direction of the insulating film 33 is provided at both ends of the table 26 </ b> A. By providing the guide plate 39 that prevents the sagging, the floating or sagging of the insulating film 33 placed on the table can be prevented, and the movable contact can be stuck at a certain position.
[0047]
【The invention's effect】
As described above, according to the present invention, a movable contact cut into a single product is transferred to a single adhesive tape to form a movable contact body, and the movable contact body is attached and attached to a corresponding deposition position on the substrate. Because it is the specification of the device configuration that continuously sticks the single movable contact to the corresponding attachment position, the hoop-like movable contact can be made small, the material cost can be reduced, and the movable contact can be attached to the wiring board. An advantageous effect is obtained that it is possible to realize a movable contact mounting device that can reduce the time and manufacture the panel switch at low cost.
[Brief description of the drawings]
FIG. 1 is a side view of a movable contact mounting device according to a first embodiment of the present invention. FIG. 2 is a plan view of the hoop-shaped movable contact. FIG. 3 is a movable contact according to a second embodiment of the present invention. FIG. 4 is a perspective view of the same mounting device. FIG. 5 is a side view and a plan view of a conventional mounting device. FIG. 6 is an explanatory diagram of the mounting process of the movable contact.
21 Mold 22 Hoop-like movable contact 22A Movable contact 22B Crosspiece 22C Connecting band 23 Cylindrical drum 23A Circular hole 24 Main drum 25 Mount nozzle 26, 26A, 26B Table 27 Wiring board 28 Tape drum 28A Rotary cutters 29, 29A Adhesive Tape 30 Camera 31 Discharge unit 31A Unloading tape 31B Unwinding drum 31C Winding drum 31D Attaching table 32 Movable contact body 33 Insulating films 33A and 33B Slack 34 Unwinding unit 35 Winding unit 36 and 37 Sensor 38 Holding pin 39 Guide plate

Claims (6)

The dome-shaped movable contact has a cutting portion that cuts the hoop-shaped movable contact that is connected to the connecting band at a predetermined pitch by two short crosspieces into a single movable contact. A mold to be supplied directly below the cutting part, and a single piece that is rotatably arranged in a vertical direction at a lower position of the mold and is supplied to the lower side from the cutting part of the mold on the outer periphery. A cylindrical contact having a plurality of circular holes for adsorbing and accommodating the movable contacts one by one with the apex of the dome facing outward, and a longitudinally rotatable position near the cylindrical drum. And a plurality of mounting nozzles that are prepared by sequentially adhering cut single-piece adhesive tapes that are bonded to the single movable contact pieces to form individual movable contact bodies on the outer periphery thereof. Prepared for the above mounting nozzle When the entrance of the circular hole of the cylindrical drum matches the position of the adhesive tape, the single movable contact is transferred to the adhesive tape, and the upper surface side of the apex of the movable contact is bonded to the adhesive tape. A main drum that is formed on the movable contact body and subsequently rotates while the adhesive tape is sucked and held by the mount nozzle to transfer the movable contact body, and an X axis and a lower position of the main drum. A position for adjusting the position in the Y-axis direction is arranged, and a substrate for attaching the movable contact body is held on the upper surface thereof, and the positions in the X-axis and Y-axis directions during the transfer of the movable contact body. And a table on which the position where the movable contact body is attached to the substrate adjusted by the adjustment function and transferred by the mount nozzle is adjusted, and is provided downward from the cutting portion of the mold. The single movable contact is positioned in the circular hole of the cylindrical drum so as to be positioned, and the single movable contact is positioned, and the positioned movable contact is transferred to the main drum side. The movable contact bodies are formed on the movable contact bodies in an attracted state by the mount nozzles, and each of the movable contact bodies is continuously transported in the attracted state by the mount nozzles of the main drum, and transferred by the mount nozzles. In addition, the movable contact body is continuously attached to and attached to the deposition position of the substrate adjusted by the position adjustment function of the table, so that the single movable contact is continuously corresponding to the deposition position. A device for mounting a movable contact, which is characterized by being affixed to . A plurality of circular holes provided on the outer periphery of the cylindrical drum, and spaced toward the center of the cylinder, a movable contact which is cut into single item, its plurality of circular holes, the apex of the dome shape of its The single movable contact is positioned by being sucked and accommodated one by one outward , and then, with respect to the single adhesive tape that is sucked and fed to each mount nozzle of the main drum. When the entrance of the circular hole accommodating the single movable contact is matched, the single movable contact positioned by the circular hole is the diameter of the cylindrical drum by the protruding pin provided in the circular hole. The movable contact mounting device according to claim 1 , wherein the movable contact mounting device is extruded along a direction and delivered to the adhesive tape . After image recognition adhesion position to an adhesive tape cutting the movable contact which is cut into single item, by image recognition that is determined to be out of specification, and paste the recovery tape with an adhesive of the adhesive tape discharge The movable contact mounting device according to claim 1 . The tape-shaped insulating film as well as adsorbed and held on a table as a substrate, wound between the unwinding part and the table supplying the insulating film, and the insulating film after the sticking attached to the table and the movable contact member the portion of the insulating film between the winding portion, the mounting device of the movable contact according to claim 1, wherein providing the slack. 5. The movable contact mounting device according to claim 4, wherein a sensor for detecting a slack of the insulating film is disposed between at least one of the unwinding portion and the table or between the table and the winding portion. 5. The movable contact mounting device according to claim 4 , wherein a pressing pin for preventing the insulating film from floating and a guide plate for preventing sagging of the insulating film in the feeding direction are provided at both ends of the table.

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