KR20150041039A - Terminal junction apparatus - Google Patents

Abstract

The terminal joining apparatus 10 is provided with a work index 11 which is provided so as to be rotatable in a vertical plane around a horizontal rotation axis and can support a work 19 around the work index 11, A terminal transporting mechanism 70 for transporting a pair of terminals 20 and 20 to both sides of the work 19 to which the bonding material is applied, And a joining mechanism 103 for pressing and joining the joining members 20 and 20 to both sides to which the joining material of the work 19 is applied.

Description

{TERMINAL JUNCTION APPARATUS}

The present invention relates to a terminal joining apparatus for joining terminals to a work.

Background Art [0002] In a multilayer ceramic capacitor for surface mounting as an electronic component, a surface mounting method has been employed in which external electrodes are soldered onto a wiring board.

However, the stress caused by the difference in thermal expansion coefficient between the wiring board and the electronic component or the stress caused by the warpage of the wiring board is caused. Particularly, in the multilayer capacitor composed of ceramics, There is a possibility that the external electrode may peel off from the main body.

In order to solve this problem, conventionally, a terminal member (hereinafter referred to as a metal terminal) made of a metal plate having an elastic action on both external electrodes of the multilayer ceramic capacitor is provided in a state of being opposed to external electrodes on both sides, A method of relieving the impact on the electronic component is adopted by mounting on a substrate.

As a method of joining the metal terminal to the external electrode of the electronic component, a method of usually soldering is used.

As a method for providing the lead terminal to the external electrode without using solder, for example, a method of bonding the lead terminal to the external electrode by using a conductive adhesive, a lead welding method, a pressure welding method, A method of joining external electrodes and metal terminals by direct diffusion bonding using heating and energization in a state in which an external electrode and a metallic terminal are in contact with each other have been proposed.

The above-described electronic component, for example, a multilayer ceramic capacitor for surface mounting, has a rectangular parallelepiped shape, a prismatic shape, or a chip shape having a cylindrical shape.

From this, it is difficult to manufacture in large quantities while maintaining the stable quality of the electronic parts with the metal terminals by using the above-described method, which has been proposed in the past, and it is difficult to manufacture the electronic parts with electronic terminals such as personal computers and mobile devices It is not possible to sufficiently meet the demand of the electronic component to which the metal terminal is attached.

Therefore, as a manufacturing apparatus capable of stably providing electronic components for surface mounting in terms of quality and productivity, as a means for transferring a work having a chip shape such as a chip coil or a chip capacitor as an electronic component for surface mounting, It has also been studied to adopt an indexing scheme that rotates in a horizontal plane (see, for example, JP 1997-306772A).

An index type apparatus disclosed in JP1997-306772A transports a chip core and is provided at its periphery with a chuck for supporting a chip core formed with electrodes at opposite ends thereof in a direction parallel to the direction in which the electrodes face each other, And the index is rotated while holding the work by the chuck, thereby conveying the work made of the chip core.

In addition, various kinds of processing apparatuses installed around the index are used to perform various processing operations on the work.

However, in the index disclosed in JP1997-306772A, since the various working tools are provided around the rotary table in the horizontal plane, the oil filled area of the entire apparatus including the working tool tends to expand. Particularly, since a chuck is provided on the periphery of the index and the work is held by the chuck, the apparatus itself holding the work on the chuck is also installed around the index.

Further, in the manufacturing apparatus for an electronic part having a metal terminal, transporting of the multilayer ceramic capacitor and the metal terminal is respectively required and a process of joining them is required, and the device or means of the processing operation is installed in a horizontal plane , The total area of the whole surface including the apparatus for holding the multilayer ceramic capacitor and the work such as the terminals is further enlarged on the chuck.

In order to prevent the shape of the bonding material itself from changing due to the self weight of the bonding material itself and to improve the uniformity of the bonding material applied to both ends of the bonding material, And it is also necessary to equally join the pair of terminals to both sides thereof.

An object of the present invention is to provide a terminal bonding apparatus capable of stably manufacturing electronic components for surface mounting in terms of quality and productivity.

According to one aspect of the present invention, there is provided a workpiece processing apparatus comprising: a workpiece index which is rotatably provided in a vertical plane around a horizontal rotation axis so as to be capable of supporting a workpiece around the workpiece; And a pair of terminals supported by the workpiece carrier and carrying a pair of terminals on both sides of the workpiece to which the bonding material is applied on both sides of the workpiece, There is provided a terminal joining apparatus comprising joining means for joining both sides of a work to which a joining material has been applied by pressurizing and heating.

1 is a front view of a terminal joining apparatus according to an embodiment of the present invention.
2 is a sectional view taken along the line AA in Fig.
3 is a sectional view taken along line BB of Fig. 1 showing a bonding material applying mechanism.
4 is a cross-sectional view taken along the line CC of Fig. 1 showing a bonding mechanism.
5 is a sectional view taken along line DD of Fig. 2 showing the lifting mechanism.
6 is a front view of the polymerized sheet for work.
Fig. 7 is a front view of the polymer sheet for a terminal. Fig.
8 is a front view showing the terminal supply mechanism.
9 is a right side view showing the terminal supply mechanism.
10 is a perspective view showing a work and a terminal.
Fig. 11 is a sectional view taken along line EE of Fig. 1 showing a workpiece supply mechanism.
12 is a top view showing a state in which the workpiece is conveyed to the bonding material applying mechanism.
Fig. 13 is a top view corresponding to Fig. 12 showing a state in which a bonding material is applied to both sides of the work.
14 is a sectional view taken along a line GG in Fig. 1 showing a state in which a pair of terminals are supported on a terminal index.
Fig. 15 is a cross-sectional view taken along the line FF of Fig. 14 showing the suction hole of the terminal index. Fig.
Fig. 16 is a cross-sectional view corresponding to Fig. 15 showing a state in which a terminal index is rotated and a pair of terminals are transported to a position opposed to a work.
Fig. 17 is a cross-sectional view corresponding to Fig. 16 showing a state in which a pair of terminals are bonded to both ends of a work.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

A terminal joining apparatus 10 according to an embodiment of the present invention will be described with reference to Figs. 1 to 17. Fig. In the drawings, three axes of X, Y, and Z orthogonal to each other are set, and the X axis extends in the substantially horizontal front and back direction, the Y axis extends in the substantially horizontal horizontal direction, and the Z axis extends in the vertical direction.

A terminal joining apparatus (10) relates to an apparatus for manufacturing an electronic component with a metal terminal provided with a terminal on an electrode of an electronic component. More specifically, the terminal joining apparatus (10) comprises a pair of terminals And more particularly to a terminal joining apparatus for joining a terminal.

Hereinafter, the description will be given separately of "(A) configuration of a terminal joining apparatus" and "(B) operation of a terminal joining apparatus".

(A) Configuration of the terminal joining apparatus of the present invention

(1) Description of the entire configuration of the terminal joining apparatus 10

Fig. 1 is a front view showing the overall outline of the terminal joining apparatus 10, and Fig. 2 is a sectional view taken along the line A-A in Fig.

As shown in Fig. 1, the terminal joining apparatus 10 includes a work index 11 provided so as to be rotatable in a vertical plane around a horizontal rotation axis extending in the X-axis direction.

2, the terminal joining apparatus 10 includes a base 12 provided at an installation site, a base plate 12 extending in the Y-axis direction and vertically installed on the upper surface of the base 12 And a workpiece transfer motor 14 is installed on the base plate 13 in the X axis direction and a first extension rotation axis 16 is provided on the rotation axis of the workpiece carrier motor 14 in a coaxial manner.

The work index 11 is in the shape of a disk and its center is provided at the end of the first elongated rotary shaft 16 by an installation screw 16a so that the work transporting motor 14 is driven to move the first elongated rotary shaft 16 And is configured to be rotatable in a YZ plane constituting a vertical plane around a rotation axis extending in a horizontal X-axis direction.

The work index 11 is provided with a handle 11f for facilitating its handling.

As shown in Fig. 2, the base plate 13 is provided with a cylindrical first support member 17 surrounding the first elongated rotation shaft 16. At the front end of the first supporting member 17, a polymerizing plate 18 for a work to be polymerized on the work index 11 is provided.

The workpiece index 11 has a body portion 11a formed to have an outer diameter substantially equal to the outer diameter of the workpiece polymer sheet 18 and a body portion 11b formed to extend from the outer periphery of the body portion 11a And a flange portion 11b made of a protrusion protruding so as to enlarge the outer diameter and continuing in the peripheral direction.

1, a cutout portion 11c into which a work 19 (to be described later) is inserted is formed in the flange portion 11b constituting the periphery of the work index 11 in the axial direction .

As shown in Fig. 1, a workpiece feed mechanism 21 as a workpiece feed means is provided on the upper right side when viewed from the front side of the workpiece index 11, and a workpiece feed mechanism 21 as a welding material application mechanism (31). An inspection mechanism 61 as an inspection means is provided on the lower left side, and a bonding mechanism 103 as a bonding means is provided below the inspection mechanism 61.

As shown in the front view of the work index 11, there are provided a good article carry-out mechanism 101 as a good article carry-out means for carrying out the work 19 to which the terminals are bonded to the both ends by the bonding mechanism 103, And a defective article carrying-out mechanism 102 as a defective article carrying out means for carrying out the work 19 judged as defective by the inspection mechanism 61 are provided. The work index 11 makes a left turn as indicated by a solid arrow in Fig.

The workpiece index 11 is provided with a work 19 around the workpiece feed mechanism 21 on the upper right side and a good or defective article take-out mechanism 101, 102 on the lower right side in order to prevent the workpiece 19 from falling off It is necessary to support it by adsorption.

1, the workpiece supply mechanism 21 installed on the upper right side includes a hopper 22 for storing the work 19, a workpiece 19 supplied from the hopper 22, And a workpiece feeder 23 for aligning and transporting the workpiece.

The inspection mechanism 61 is a camera 61 provided on the lower surface of the horizontal plate 34 provided on the upper surface of the bonding material applying mechanism 31 and the camera 61 is fixed to the upper surface by the bonding material applying mechanism 31 And to check the state of the bonding material applied to both ends of the work 19. In this case, a clear image can be obtained by irradiating the both ends of the work 19 with the illumination 63.

On the lower surface of the horizontal plate 34, an adjustment ball screw 64 and a knurling knob 65 are provided. The position of the camera 61 in the Y-axis direction can be adjusted by rotating the knurling knob 65 to rotate the adjustment ball screw 64. [

The terminal joining apparatus 10 is provided with a pair of terminals 20 and 20 (Fig. 10) which are supported by the work index 11 and are provided on both sides of a work 19 on both sides of which a bonding material is applied, And a terminal transport mechanism 70 as a means.

The terminal transport mechanism 70 has a terminal index 71 provided in a vertical plane identical to the work index 11 and rotatably provided below the work index 11. [

The terminal transport mechanism 70 can raise and lower the terminal index 71 by the lifting mechanism 90 (Fig. 5), which will be described later. Thus, the interval between the work index 11 and the terminal index 71 can be changed. It is also possible to carry the work held by the work index 11 and the terminal held by the terminal index 71 to a position for contacting and joining.

The work 19 and the terminal 20 in this embodiment are shown in Fig. The work 19 of the present embodiment refers to a chip having a rectangular parallelepiped shape, a prismatic shape, or a columnar shape, and a rectangular shape having one side of n or a prismatic chip shape having a rectangular shape having a long side n And a height L thereof is longer than one side n. It is assumed that terminals 19a and 19b for terminal connection are formed at both ends of the longest side L.

Hereinafter, a description will be given of the bonding material applying mechanism 31, the bonding mechanism 103, the elevation mechanism 90 of the terminal index 71, the terminal transport mechanism 70, the workpiece supply mechanism 21, 79 will be described.

(2) Description of the bonding material applying mechanism (31)

The bonding material applying mechanism 31 will be described with reference to Figs. 1 to 3. Fig.

Fig. 3 is a sectional view taken along the line B-B in Fig. 1, and shows the bonding material applying mechanism 31. Fig.

1, a bonding material applying mechanism 31 provided above the left side of the work index 11 is provided with a paste-type bonding material 31 on both sides in the direction of the rotational axis of the work 19 supported around the work index 11, .

3, the bonding material applying mechanism 31 includes a pair of dispensers 32 and 32 provided so as to sandwich the work 19, a pair of dispensers 32 and 32, And a dispenser moving mechanism 33 for moving the dispenser moving mechanism 33 in the direction of the axis of rotation (X-axis direction). In the present embodiment, the form shown in Fig. 3 is referred to as a dispenser 32 (32). In this embodiment, the dispenser 32 is a dispenser .

A horizontal flat plate 34 extending in the X-axis direction is provided on the base plate 13 (Fig. 2), and a first rail 36 extending in the Y-axis direction is provided on the upper surface of the horizontal plate 34 And the movable rail 37 is mounted on the first rail 36 so as to be movable in the Y-axis direction.

A concave portion 37a for engaging the work index 11 is formed on the movable table 37 as viewed from the upper surface and a second rail 37a extending in the X axis direction on both sides of the concave portion 37a in the X- 38 are respectively installed. A moving plate 39 is mounted movably in the X-axis direction on the second rails 38 and a temperature adjusting block 41 is mounted on the moving plate 39, respectively.

Each of the dispensers 32 is accommodated in the temperature control block 41 in a state in which the discharge ports 32a of the respective dispensers 32 are opposed to each other.

A pair of motors 42 and 42 are provided in the movable base 37 so as to be spaced apart from each other in the Y axis direction of a pair of dispensers 32 and 32 provided so as to sandwich the work 19, Groove cams 43 and 43 are respectively provided on the rotary shafts 42a and 42a of the cam grooves 43 and 43 and the cam followers 44 and 44 are engaged with the groove cams 43 and 43, do.

The pair of motors 42 and 42 synchronously rotate the groove cams 43 and 43, respectively. As a result, the pair of dispensers 32 and 32 are separated from each other in the direction of the axis of rotation (X-axis direction) of the work index 11 via the moving plate 39 and the temperature adjusting block 41 (FIG. 12), or to approach each other.

A ball screw 46 parallel to the first rail 36 and a motor 47 capable of rotating the ball screw 46 are provided on the upper surface of the horizontal plate 34. A screw member (48) screwed to the ball screw (46) is provided on the movable base (37). As a result, when the motor 47 is driven to rotate the ball screw 46, the movable table 37 moves in the Y-axis direction, and the position of the pair of dispensers 32, 32 in the Y- Adjust. Thus, the movable table 37 is configured to be able to adjust the position of the pair of dispensers 32, 32 in the Y-axis direction.

As shown in Figs. 1 and 3, on the conveying path of the work 19 between the workpiece feeding mechanism 21 and the bonding material applying mechanism 31 of the workpiece index 11, A position adjusting mechanism 51 as position adjusting means for adjusting the position of the workpiece 19 in the rotational axis direction (X-axis direction) of the workpiece index 11 is provided.

The position adjusting mechanism 51 is shown as the pressing members 52 and 53 provided on the moving plate 39 moving in the X axis direction by the pair of motors 42 and 42 constituting the dispenser moving mechanism 33 .

The position adjusting mechanism 51 is a mechanism for adjusting the position of the work 19 around the work index 11 so as to sandwich the work 19 before the bonding material is applied when the pair of dispensers 32, And a pair of pressing members (52, 53) for positioning the pressing members (52, 53). The specific operation of the position adjusting mechanism 51 will be described later.

(3) Explanation of the bonding mechanism 103

The joining mechanism 103 will be described with reference to Figs. 1 and 4. Fig.

Fig. 4 is a cross-sectional view taken along the line C-C in Fig. 1, and shows the bonding mechanism 103. Fig.

The joining mechanism 103 provided at the lower portion of the work index 11 shown in Fig. 1 is provided with a pair of terminals 20 and 20 (Fig. 10) conveyed by the terminal conveying mechanism 70, The bonding material of the work 19 is pressed on both sides to which it is applied and is heated and bonded.

1 and 4, the bonding mechanism 103 includes a pair of heating elements 104 and 104 provided so as to sandwich the work 19, and a heating element moving mechanism 105 for moving the heating element . The heating-element moving mechanism 105 has a mechanism for moving the pair of heating elements 104 and 104 apart from each other or approaching each other in the direction of the rotation axis (X-axis direction) of the work index 11.

1, a horizontal plate 106 is provided on the base 12 through a support 106a, and a rail 106b extending in the X-axis direction is provided on the upper surface of the plate 106. As shown in Fig.

In the rail 106b, a mount 107 is mounted movably in the X-axis direction. Further, fixing means (not shown) for preventing the movement of the table 107 in the X-axis direction and fixing the table 107 to a predetermined position is provided. A rail 108 extending in the Y axis direction is further provided on the upper surface of the mount 107 and a movable plate 109 is mounted on the rail 108 so as to be movable in the Y axis direction.

4, a concave portion 109a sandwiching the workpiece index 11 is formed on the movable plate 109, and the concave portion 109a is formed on both sides in the X-axis direction of the concave portion 109a A rail 111 extending in the X-axis direction is provided. A base plate 112 is mounted movably in the X-axis direction on the rails 111 and a heating element 104 is mounted on the base plate 112, respectively.

As shown in Fig. 4, the heating element 104 is configured to be heatable by resistance heating, induction heating, or the like.

A pair of motors 113 and 113 are provided on the movable plate 109 so as to be spaced apart from each other in the Y axis direction of a pair of heat generating elements 104 and 104 provided so as to sandwich the work 19, And the cam followers 116 engaging with the groove cams 114 are provided on the base plate 112 respectively.

The pair of motors 113 and 113 synchronously rotate the grooved cams 114 and 114 so that the pair of heating elements 104 and 104 are rotated in the rotational axis direction of the work index 11 (Fig. 16) or closer to each other (Fig. 17).

A ball screw 117 parallel to the rail 108 and a motor 118 capable of rotating the ball screw 117 are provided on the upper surface of the horizontal mount 107 as shown in Fig. And a screw member 119 screwed to the ball screw 117 is provided on the movable plate 109.

When the motor 118 is driven to rotate the ball screw 117, the movable plate 109 moves in the Y-axis direction, and the position of the heat generating elements 104 and 104 in the Y-axis direction is adjusted. Thus, the movable plate 109 is configured to be able to adjust the position of the heating elements 104, 104 in the Y-axis direction. The specific operation of the bonding mechanism 103 will be described later.

(4) Description of the terminal index 71 and the lifting mechanism 90

The lifting mechanism 90 of the terminal index 71 will be described with reference to Figs. 1, 2, and 5. Fig.

5 is a sectional view taken along the line D-D in Fig. 2, and shows the elevating mechanism 90. Fig.

2 and 5, a pair of vertical rails 72 extending in the vertical direction are provided so as to be spaced apart from each other in the Y-axis direction, and a pair of vertical rails 72 72, a pivot plate 73 parallel to the platen 13 is vertically movable. A terminal carrier motor 74 is provided on the continuous board 73 so as to extend in the X axis direction parallel to the first extended rotation axis 16 below the first extended rotation axis 16.

2, the second extension rotation axis 75 is coaxially provided on the rotation axis of the terminal conveying motor 74, and the terminal index 71 is formed on the tip of the extended second extension rotation axis 75, Is installed in the same vertical plane as the index (11).

The terminal index 71 rotates in the same vertical plane as the work index 11 and below the work index 11 when the terminal transport motor 74 is driven to rotate together with the second extension rotation axis 75. [ Thus, the terminal index 71 is configured to be rotatable in the same vertical plane as the work index 11 and below the work index 11.

1, the terminal index 71 is formed in a disk shape, and the center thereof is provided on the second extended rotation axis 75. In addition,

2, a cylindrical second support member 76 surrounding the second elongated rotation shaft 75 is provided on the continuous board 73. On the tip of the second support member 76, And a disc-shaped polymer plate 77 for a terminal polymerizing on the index 71 is provided.

1 and 2, a terminal index 71 is provided below the work index 11, and further below the terminal index 71, a terminal supply 71 for supplying a terminal to the terminal index 71 A mechanism 79 is provided.

The terminal index 71 is configured to make a right turn as indicated by the solid arrow in Fig. 1 when viewed from the front side by the terminal carrying motor 74, It is necessary to carry the terminal 20 to the work 19 supported by the work index 11 above.

2 and 5, the lifting mechanism 90 includes an auxiliary plate 91 provided on the base 12 so as to be parallel to the base plate 13, a rail 92 mounted on the auxiliary plate 91, A ball screw 94 threadedly engaged with the cam plate 93 and a motor 95 for rotating the ball screw 94. The cam plate 93 is rotatable in the Y-axis direction through the cam plate 93,

A cam follower 96 is provided to contact the cam plate 93 from above and the upper surface of the cam plate 93 to which the cam follower 96 contacts comes into contact with the upper surface of the cam plate 93, It is formed as a right side up.

The cam follower 96 always comes into contact with the upper surface of the cam plate 93 by the own weight of the terminal index 71 and the cam plate 93 moves in the Y axis direction, And the terminal index 71 is moved back and forth between the first position shown in Fig. 17 and the second position shown in Fig. Thus, the terminal index 71 is configured to be reciprocally movable between the first position shown in Fig. 17 and the second position shown in Fig.

(5) Description of the terminal transport mechanism 70 and the terminal supply mechanism 79

The terminal transport mechanism 70 and the terminal supply mechanism 79 will be described with reference to Figs. 1 and 7 to 9. Fig.

7 is a front view of the polymerizing plate 77 for a terminal.

1, the terminal index 71 of the terminal transport mechanism 70 is provided below the work index 11, and terminals are further provided below the terminal indices 71 at terminal indices 71 A terminal supply mechanism 79 is provided.

The terminal index 71 is constituted so as to make a right turn by the terminal conveying motor 74 (Fig. 2) as indicated by a solid line arrow when viewed from the front in Fig.

The terminal index 71 needs to carry the terminal 20 supplied from the terminal supply mechanism 79 immediately below it to the work 19 supported by the work index 11 just above it .

In order to make this possible, the terminal index 71 is provided with grooves or through-holes for sucking the terminals 20, and the terminal air grooves 77a of the terminal polymer sheet 77 shown in Fig. 7 Is formed from a position corresponding to the terminal supply mechanism 79 immediately below which the terminal 20 needs to be adsorbed to a position corresponding to the work 19 immediately above it.

Although the terminal air groove 77a of Fig. 7 is shown as one groove in the present embodiment, even if there are a plurality of grooves from the position opposed to the terminal supply mechanism 79 to the position facing the work 19 do. The configuration of a groove or a through hole for attracting the terminal 20 will be described later in a "state in which the terminal is supported by the terminal index" (FIG. 14).

The terminal supply mechanism 79 includes a terminal component feeder 80 for storing the terminal 20 and aligning and transporting the terminal 20 and a component feeder 80 for transporting the terminal 20 by lifting the transported terminal 20, And a terminal lifting device (81) for sucking and supporting the terminal lifting device.

The terminal component feeder 80 is configured such that the pair of terminals 20 and 20 are arranged in the X axis direction in a state in which the short side portions 20b Axis direction while being aligned in parallel with each other, and is then taken out to the terminal holding portion 89 of the terminal lifting device 81.

It is preferable that the terminal in front of one of the terminals to be cut out is sucked and fixed so as to prevent the terminal cut out at the tip of the component feeder 80 for terminals from protruding.

Next, the terminal lifter 81 will be described. Fig. 8 is a front view showing the terminal supply mechanism 79, and Fig. 9 is a right side view of the terminal supply mechanism 79. Fig.

8 and 9, the terminal lifting device 81 includes a mounting base 83 provided on the upper surface of the base 12 via an XY table 82, And a platform 85 provided on the rail 84 so as to be movable up and down.

The XY table 82 includes a Y axis position adjustment port 82a for determining the Y axis position of the mounting table 83 with respect to the base 12 and a Y axis position adjustment port 82a for positioning the mounting table 83 with respect to the base 12 in the X axis direction And an X-axis position adjustment port 82b for determining a position. These position adjusting ports 82a and 82b respectively include an upper plate and a lower plate, and a micrometer 82c for adjusting the positions of the upper and lower plates so that they are shifted from each other.

Thereby, the connection tolerance between the components sequentially sent from the component feeder 80 for a terminal as a terminal component is set to the micrometer 82c, so that the terminal component can be smoothly transmitted.

The mounting base 83 is provided with a motor 86 spaced apart from the rail 84 in the Y axis direction and a groove cam 87 is provided on the rotary shaft 86a of the motor 86. [ A cam follower 78 coupled to the groove cam 87 is provided on the platform 85 and the motor 86 is driven to rotate the groove cam 87 to raise and lower the platform 85. [

A rail 88 extending in the vertical direction is provided on the platform 85 and a terminal support 89 is provided on the rail 88 to be movable up and down. A coil spring 79a is interposed between the terminal support 89 and the platform 85 and the coil spring 79a is configured to press the terminal support 89 upward.

The terminal support 89 is constructed so as to be capable of supporting and supporting a pair of terminals 20 and 20 conveyed by the terminal component feeder 80 (Fig. 14) 85 are lifted together with the terminal supporting portion 89 so that the pair of terminals 20, 20 are lifted up to be attracted to and supported by the lower periphery of the terminal index 71.

It may happen that the elevator base 85 is to be further raised even when the terminal holder 89 is in contact with the terminal index 71 and the elevation of the elevator base 85 is difficult.

In this case, the terminal lifting device 81 is configured such that the entire length of the coil spring 79a is shortened, and the rise of the farthest part of the platform 85 is avoided by avoiding any further rise of the terminal support 89 .

This ensures that the pair of terminals 20 and 20 are lifted up and supported around the terminal index 71 until they come into contact with the periphery of the terminal index 71 and that the terminal support 89 is brought into contact with the terminal index 71 Thereby preventing breakage of the terminal lifter 81 caused by contact.

The terminal detection sensor 97 shown in Fig. 9 detects whether or not the pair of terminals 20 and 20 has arrived at the position of the terminal support 89, Or not.

The terminal index 71 rotates by driving the terminal carrying motor 74 (Fig. 2) while supporting the pair of terminals 20 and 20 around it, and the terminal index 71 is supported by the work index 11 And the pair of terminals 20 and 20 are carried on both sides of the work 19.

(6) Description of the workpiece supply mechanism 21

The workpiece supply mechanism 21 will be described with reference to Figs. 1, 6, 11, and 12. Fig.

11 is a sectional view taken along the line E-E in Fig. 12 is a top view showing a state in which the workpiece is conveyed to the bonding material applying mechanism 31 and FIG. 6 is a front view of the workpiece polymerizing plate 18. FIG.

As shown in Fig. 11, the workpiece feeder 23, which is a part of the workpiece supply mechanism 21, horizontally moves the aligned workpiece 19 in the X-axis direction and enters the notched portion 11c.

The workpiece 11 enters the cutout 11c by the rotation of the workpiece index 11 and the workpiece 19 sucked thereto is taken out of the aligned heat by the rotation of the workpiece index 11 and transported, 11c are opposed to the workpiece feeder 23, the next work 19 is newly supplied to the notch 11c.

The aspirator 24 constituting a part of the workpiece supply mechanism 21 sucks the work 19 entered from the workpiece feeder 23 into the notch 11c from the opposite side, (11c).

The work index 11 is provided with a disk-like workpiece polymerizing plate 18 to be polymerized.

The work index 11 is provided with a body portion 11a formed to have an outer diameter substantially equal to the outer diameter of the workpiece polymer plate 18 and a body portion 11b projecting from the outer periphery of the body portion 11a to enlarge its outer diameter, And a notch 11c into which the work 19 is inserted is formed extending in the axial direction (X-axis direction) in the flange portion 11b.

The thickness t of the flange portion 11b constituting the periphery of the work index 11 (the thickness in the direction of the axis of rotation (X axis direction)) of the work 19 is the length of the longest side L of the work 19 And the electrodes 19a and 19 at both ends of the work 19 inserted and cut on the notched portion 11c are set to be pushed out from both ends of the flange portion 11b.

Particularly, in order to prevent the solder or the like from adhering to the flange portion 11b and reattached to the work 19, the thickness t of the flange portion 11b is set to be not less than -0.4 mm .

12, the width H in the peripheral direction of the notch 11c formed around the work index 11 is formed to be shorter than the length of the longest side L of the work 19.

This is because the work 19 is inserted into the notch 11c even when an abnormality such as the longest side L between the electrodes 19a and 19b at both ends of the work 19 is loaded toward the peripheral direction So that there is no.

Next, the work index 11 and the work polymer plate 18 will be described with reference to Figs. 6 and 11. Fig.

11, the work index 11 is provided with a digging hole 11d having a bottom corresponding to the cutout 11c from the side of the work polymerizing plate 18, a cutout 11c, And a first horizontal hole 11e communicating with the digging hole 11d is formed.

On the other hand, as shown in Fig. 6 and Fig. 11, workpiece air grooves 18a opposed to the perforation holes 11d are formed in the workpiece polymer sheet 18, And a coupler 18b communicating with the output shaft 18a. The disk-shaped work index 11 is polymerized while maintaining a small gap (for example, 0.05 mm) in the work polymer plate 18 so that the work air groove 18a is sealed by the work index 11 . Air is sucked from the cutout 11c through the first horizontal hole 11e and the digging hole 11d from the periphery of the work index 11 when air is sucked from the work air groove 18a through the coupler 18b And the work 19 inserted into the notch 11c around the workpiece 11 is sucked and supported around the workpiece index 11.

The work index 11 is configured to make a left turn as indicated by a solid arrow in Fig. The work index 11 is transferred from the work supply mechanism 21 on the upper right side to the good or defective article delivery mechanism 101 on the lower right side so as to prevent the work 19 from falling off, It needs to absorb and support it around it.

6, the work air groove 18a of the work-use polymer plate 18 opposed to the perforation hole 11d (Fig. 11) (FIG. 1) in which the work 19 is to be adsorbed, from the position opposed to the work supply mechanism 21 (FIG. 1) on the upper right side to the position opposed to the good article or defective article delivery mechanism 101 .

On the contrary, air is blown from the coupler 18b to the perforation hole 11d (Fig. 11), and the cutout portion 11c (Fig. 11) The discharge air grooves 18c and 18d for releasing the adsorbed work 19 from the cutout 11c are formed separately from the work air grooves 18a.

Although the work air groove 18a is shown as one groove in the present embodiment, the work air groove 18a is formed in a position opposite to the workpiece supply mechanism 21 from the position opposed to the good or defective article take-out mechanism 101 or 102 May be formed by a plurality of grooves up to the position.

(B) Operation of the terminal joining apparatus 10

Next, the operation of the terminal joining apparatus 10 will be described.

Hereinafter, the operation of the terminal joining device 10 will be described with respect to the operation of (1) a state in which the joining material is applied to both sides of the work 19, (2) a state in which the pair of terminals 20 are supported on the terminal index 71 (3) a state in which the terminal index 71 is rotated so that the pair of terminals 20 is transported to a position facing the work 19; (4) In the state of being joined to the case.

(1) A state in which the bonding material is applied to both sides of the work 19

Fig. 12 is a top view showing a state in which the work 19 is conveyed to the bonding material applying mechanism 31, Fig. 13 is a top view corresponding to Fig. 12 showing a state in which the bonding material is applied to both sides of the work 19 to be.

11, the work 19 is aligned from the workpiece feeder 23 and enters the notch 11c of the work index 11 as described above.

The work 19 conveyed by the rotation of the work index 11 reaches the position adjusting mechanism 51 as shown in Fig.

The pair of dispensers 32 and 32 is rotated by the rotation of the pair of motors 42 and 42 (Fig. 3) constituting the dispenser moving mechanism 33 so as to rotate in the direction of the rotation axis of the work index 11 (Fig. 12) or close to each other (Fig. 13).

The centers of the discharge ports 32a and 32a opposed to each other of the pair of dispensers 32 and 32 in the case of being close to each other are set at predetermined positions of the work 19 and by the action of the pair of pressure members 52 and 53 , The work 19 is adjusted to a predetermined position on the work index 11.

After the position of the work 19 is adjusted at a predetermined position, the pressing members 52 and 53 are separated from the work 19 as shown in Fig. 12, and the work index 11 is rotated again in this state.

Next, the work 19 conveyed by the rotation of the work index 11 reaches between the pair of dispensers 32, 32 in the bonding material application mechanism 31 and stops once.

13, the moving plate 39 is moved in the X-axis direction by the pair of motors 42, 42 (Fig. 3) in the bonding material applying mechanism 31, The dispensers 32 and 32 are close to each other and a predetermined amount of pasty bonding material is discharged from the discharge ports 32a and 32a at the front end by the air pressure of compressed air supplied from the hose 32b (Fig. 3). As a result, a bonding material in a paste state is applied to both ends of the work 19.

Thereafter, the moving plate 39 is moved in the direction opposite to the X-axis direction by the pair of motors 42 and 42, so that the pair of dispensers 32 and 32 are separated from each other And falls off the work 19. In this state, the work index 11 is rotated again.

Since the work 19 is located at the centers of the discharge ports 32a and 32a facing each other by the position adjusting mechanism 51, the bonding material discharged from the discharge ports 32a and 32a, And uniformly applied to both ends.

Further, after the pair of dispensers 32 and 32 are separated from each other, the work index 11 is rotated and the discharge ports 32a and 32a are moved away from the work 19, It is possible to prevent the work 19 from being conveyed again in the state in which the work 19 remains in the workpiece 32a, 32a.

Further, since the work 19 is conveyed so that both end portions thereof are directed to the horizontal X-axis direction, even if the bonding material applied to both ends of the work 19 is deformed by its own weight, the degree of deformation thereof becomes uniform on both sides.

Thereafter, the work 19 conveyed by the rotation of the work index 11 passes between the cameras 61 (Fig. 1) for inspecting the state of the brazing material applied to both ends of the work 19, (103) is installed. The camera 61 inspects the area and position of the applied brazing material by an image, and confirms the coating amount by the area.

Since the application of the bonding material of the dispenser 32 to the work 19 is performed by continuously discharging the bonding material to the work 19 which is successively transferred, the discharge of the bonding material from the dispenser 32 can be performed stably have.

(2) A state in which a pair of terminals 20 are supported on the terminal index 71

14 is a sectional view taken along a line GG in Fig. 1 and shows a state in which a pair of terminals 20 are supported by a terminal index 71, Fig. 15 is a sectional view taken along the line FF of Fig. 14, And shows a suction hole 71k.

The work 19 coated with the bonding material at both ends is conveyed to the lowermost end by rotating the work index 11.

On the other hand, the terminals 20 stored in the terminal component feeder 80 (Fig. 1) in the terminal supply mechanism 79 are connected to the short side portion 20b (Fig. 10) by the terminal component feeder 80, And they are transported one by one in a state in which they are opposed to each other.

The conveyed pair of terminals 20 and 20 are arranged in such a manner that the terminal side of the terminal lifting device 81 (Fig. 1) of the terminal lifting device 81 (Fig. 1) 89 so as to be attracted and supported by the concave portion 71d at the lower portion of the terminal index 71. [

Whether or not the terminal 20 has arrived at the position of the terminal support 89 or whether or not the pair of terminals 20 and 20 are adsorbed and supported at the lower periphery of the terminal index 71 is determined by the terminal detection sensor 97 9).

Here, the configuration of the terminal index 71 for attracting and supporting the terminal 20 will be described.

As shown in Figs. 1 and 2, the terminal index 71 has a disk shape, and a disc-shaped terminal-use polymer plate 77 for polymerizing the terminal index 71 is provided on the terminal index 71 .

14, on both sides in the thickness direction of the concave portion 71d around the main body half 71a of the terminal index 71 and in contact with the terminal 20, a central groove 71e and 71e, respectively. A first through hole 71g communicating with the central grooves 71e and 71e is formed around the main body half 71a.

A second through hole 71h is further formed in the main body half 71a on the center side of the first through hole 71g and a second through hole 71g is formed in the second through hole 71g A horizontal hole 71j is further formed. The second horizontal hole 71j is formed on the side not opposed to the terminal polymerizing plate 77. [

The first through hole 71g is sealed by the first link member 71b which polymerizes around the main body half 71a from the terminal polymerizing plate 77 side. The first through hole 71g, the second through hole 71h and the second horizontal hole 71j are sealed by the second link member 71c which overlaps the periphery of the main body half 71a from the opposite side. Thus, the second through hole 71h of the terminal index 71 is opened opposite to the terminal polymer sheet 77.

On the other hand, a terminal air groove 77a opposed to the second through hole 71h is formed in the terminal polymer sheet 77, and a coupler 77b communicating with the terminal air groove 77a is provided .

The terminal air groove 77a is sealed by the terminal index 71 because the disk-shaped terminal indices 71 are polymerized while maintaining a small gap (for example, 0.05 mm) in the terminal polymer plate 77. As a result, when the air is sucked from the terminal air groove 77a through the coupler 77b, the second through hole 71h and the second horizontal hole 71j Air is sucked from around the terminal index 71 through the first through hole 71g and the center grooves 71e and 71e.

Thereby, the terminal indices 71 are configured to attract and support a pair of terminals 20, 20 around which the short sides 20b are in surface contact with the recesses 71d formed in the periphery thereof.

The central grooves 71e and 71e formed on both sides in the thickness direction of the main body half 71a are sealed by the first and second link members 71b and 71c on the terminal indices 71, The suction hole is formed.

(3) The state in which the terminal index 71 is rotated and the pair of terminals 20 is conveyed to a position facing the work 19

Fig. 16 is a cross-sectional view corresponding to Fig. 14 showing a state in which the terminal index 71 is rotated so that the pair of terminals 20 are transported to a position opposed to the work 19.

The terminal index 71 shown in Fig. 14 rotates while maintaining a state in which the pair of terminals 20, 20 are supported.

As shown in Fig. 16, the terminal index 71 carries a pair of terminals 20, 20 to the lower side of the work 19 supported by the work index 11 and located under the work index 19.

The terminal index 71 carrying the pair of terminals 20 and 20 to the lower side of the work 19 is moved to the position where the ball screw 94 of the lifting mechanism 90 shown in Fig. So that the cam plate 93 moves upward in the Y-axis direction. 17, the pair of terminals 20, 20 supported on the upper portion of the terminal index 71 are positioned on both sides of the work 19 supported by the lower portion of the work index 11 do.

The pair of terminals 20 and 20 are formed so that the short side portion 20b is in contact with the bottom of the concave portion 71d (FIG. 15) Are held in parallel with the opposed faces of the first and second link members 71b and 71c, which face each other.

The clearance d of the first and second link members 71b and 71c shown in Fig. 16 (the clearance in the direction of the axis of rotation (X-axis direction)) is the distance between the opposite long side portions 20a of the work 19 Is formed so as to be insertable while maintaining a small clearance.

(4) A state in which a pair of terminals 20 are joined to both ends of the work 19

17 is a cross-sectional view corresponding to Fig. 16 showing a state in which a pair of terminals 20 are bonded to both ends of the work 19.

As shown in Fig. 17, the work 19 is inserted between the opposite long side portions 20a of the pair of terminals 20, 20 and is stopped.

17, the pair of heating elements 104 and 104 which are brought close to each other by the heating-element moving mechanism 105 (Fig. 4) are connected to a pair of terminals 20 and 20 are pressed against both sides coated with the bonding material of the work 19 and heated together to bond the pair of terminals 20 and 20 to both sides of the work 19.

Thereafter, the pair of heat generating elements 104 and 104 are separated from the pair of terminals 20 and 20 and the terminal index 71 is lowered again by the lifting mechanism 90 (Fig. 5) The pair of terminals 20, 20 joined to both ends of the work 19 are detached from the terminal index 71.

Thereafter, the work 19 having the pair of terminals 20 and 20 bonded to both sides is conveyed again by being rotated while the work index 11 is being attracted and supported by the work index 11.

When the work 19 reaches the unloading mechanisms 101 and 102 provided on the lower right side of the work index 11 shown in Fig. 1, the suction is released and the work 19 is released. The defective article is dropped onto the belt conveyer constituting the defective article carrying-out mechanism 102 and discharged. In addition, the air blowing (blowing) hole can be provided in the center portion where the work 19 is located, so that the discharge timing and attitude of the work 19 can be stabilized.

As described above, the pair of terminals 20 and 20 are pressed and bonded to the electrodes 19a and 19b on both sides of the work 19 to which the bonding material is applied by the pair of heat generating elements 104 and 104. [ In this case, the pressing force of one of the pair of heating elements 104, 104 is set to a large value (about 40N), and the pressing force of the other heating element 104 is set on the basis of that pressing force.

In this process, the pair of terminals 20.20 adsorbed to the terminal indices 71 slightly move due to the pressure from both sides by the pair of heating elements 104, 104 in the adsorbed state, The posture can be stabilized.

As described above, since the work 19 having the pair of terminals 20 and 20 bonded to both sides is conveyed again while being attracted to and supported by the work index 11, The terminals 20 and 20 of the battery pack 20 are then released.

The terminal index 71 has a suction hole 71k (Fig. 15) formed around the terminal index 71 to attract the pair of terminals 20,20. Thereby, movement of the pair of terminals 20, 20 and deviation from the terminal index 71 can be reliably performed.

The elevating mechanism 90 is configured such that the terminal index 71 can reciprocate between the first position shown in Fig. 17 and the second position shown in Fig. 16 by using the cam mechanism.

In the terminal joining apparatus 10, since the work index 11 that rotates while supporting the work 19 around is configured to rotate within the vertical plane, the horizontal area occupied by the work index 11 is remarkably large in the thickness direction .

Since the workpiece index 11 that rotates while supporting the workpiece 19 around is configured to rotate within the vertical plane, the workpiece for performing the processing on the workpiece 19 can be moved in the vertical direction Can be installed around. This makes it possible to remarkably reduce the whole oil-filled area in the horizontal plane of the entire apparatus including the working equipment, as compared with the conventional product in which the work index is present in the horizontal plane.

Further, since the work index 11 sucks the work 19 around the work 19 by sucking air from the periphery thereof, a chuck which is conventionally required for supporting the work can be made unnecessary.

Further, by suction-supporting the work 19 in this manner, a device required for holding the work on the chuck is unnecessary, so that the entire surface area on the horizontal plane can be gradually reduced.

Further, since the bonding material in the paste state is applied to both ends of the horizontally supported work 19, even if the shape of the bonding material in paste state is changed by its own weight, the degree of deformation becomes uniform on both sides.

Therefore, as compared with the case where the bonding material is applied on the upper and lower sides of the vertically supported work, the uniformity of the pasty bonding materials applied to both ends of the work 19 is ensured, It is possible to uniformly bond the terminals 20 of the terminal block 20 to each other.

As described above, according to the present embodiment, the electronic parts for surface mounting can be stably manufactured in terms of quality and productivity.

Although the embodiments of the present invention have been described above, the above embodiments are only illustrative of some of the application examples of the present invention, and the technical scope of the present invention is not limited to the specific configurations of the above embodiments.

The present application claims priority based on Japanese Patent Application No. 2013-170015 filed on Aug. 20, 2013, the entire contents of which are incorporated herein by reference.

Claims (9)

A work index 11 which is rotatably provided in a vertical plane around a horizontal rotary shaft and is capable of supporting a work 19 around the work index,
A bonding material applying means (31) for applying a bonding material to both sides of the work (19) supported by the work index (11) in the direction of the axis of rotation,
Terminal carrying means (70) supported on the work index (11) and carrying a pair of terminals (20) on both sides of the work (19) coated with a bonding material on both sides,
And a joining means (103) for joining the pair of terminals (20) conveyed by the terminal conveying means (70) to the both sides coated with the bonding material of the work (19) Device. The terminal joining apparatus according to claim 1, wherein the work index (11) is configured to attract and hold the work (19) by suctioning air from the periphery. The workpiece according to claim 2, wherein a notch portion (11c) for inserting a workpiece (19) around the workpiece index (11) is formed extending in the axial direction, and a width of the notched portion (11c) Is shorter than the length of the longest side of the terminal (19). 4. The workpiece lifting device according to any one of claims 1 to 3, characterized in that a guide path is formed in the work path between the workpiece feeding portion (21) of the workpiece index (11) and the bonding material applying means (31) Is provided with position adjusting means (51) for adjusting the position of the workpiece (11) in the direction of the rotation axis of the workpiece (19) supported by the workpiece (11). 5. The apparatus according to claim 4, wherein the bonding material application means (31) comprises a pair of dispensers (32) provided so as to sandwich the workpiece (19), and a pair of the dispensers (32) And a dispenser moving mechanism (33) for moving the dispenser moving mechanism
The position adjusting means 51 is provided with one or more pressing members (not shown) which move in the direction of the rotation axis of the work index 11 together with the pair of dispensers 32 which are moved by the dispenser moving mechanism 33 52, 53). The terminal according to claim 1, wherein the terminal carrying means (70) is provided with a terminal index (71) rotatably provided in the same vertical plane as the work index (11) and below the work index (11)
The terminal index 71 rotates while supporting the pair of terminals 20 around it so as to carry the pair of terminals 20 to both sides of the work 19 supported by the work index 11 . The terminal according to claim 6, wherein the terminal carrier means (70) comprises a pair of terminals (20) supported on the terminal index (71) And the pair of terminals 20 supported on the upper portion of the terminal index 71 are positioned below the work 19 supported by the lower portion of the work index 11 Further comprising elevating means (90) for elevating and lowering the terminal index (71) between the first position and the second position. The terminal joining apparatus according to claim 6 or 7, wherein the terminal index (71) is configured to suck and support the pair of terminals by sucking air from a suction hole formed in the periphery thereof. The heating apparatus according to claim 1, wherein the joining means (103) comprises a pair of heating elements (104) provided so as to sandwich the work (19) and a heating element moving mechanism (105)
Wherein the heating element moving mechanism (105) has a mechanism for separating the pair of heating elements (104) from each other in the direction of the rotation axis of the work index (11) or bringing them closer to each other.

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