KR100266783B1 - Apparatus for supplying electrolytic condenser - Google Patents

Abstract

The present invention relates to an electrolytic capacitor supply device, the support unit 110 is provided with a table 111 at a predetermined height, and the first operation unit 120 is installed on one side of the support unit 110 to move the condenser 180. And, the transfer unit 130 for transferring the condenser 180 by the operation of the first operation unit 120, the condenser inlet unit 140 for supplying the condenser 180 is transferred to the transfer unit 130, and the transfer unit An inspection unit 150 for inspecting the terminal position of the condenser 180 during the first transfer to the 130, and the condenser 180 to inspect the terminal position of the condenser 180 when the condenser 180 is positioned in the inspection unit 150. The second operation unit 160 for placing the inspection unit 150 in the terminal portion of the 180, and the condenser 180 that is precisely adjusted the position of the lead wire 181 of the condenser 180 by inspecting the inspection unit 150 The discharge unit 170 is settled down so that the electrolytic capacitor can be “+” and “-” terminals accurately and consistently in the automated process. It prevents product defects and minimizes manpower, thereby improving productivity and reducing costs, thereby maximizing product competitiveness.

Description

Electrolytic Capacitor Supply Device

The present invention relates to an electrolytic capacitor supply device, and more specifically, to prevent the inflow of the condenser supplied to the printed circuit board in the opposite state in an automated process to prevent the defective rate of the product to improve the productivity of the electrolytic It relates to a capacitor inspection device.

Generally, in order to supply the "+" terminal and the "-" terminal of the condenser in the conventional automation process, the operator manually supplies the product to suppress the opposite coupling of the polarity, but it does not completely solve the problem, resulting in high defect rate of the product. There was a problem.

Therefore, the main object of the present invention is to supply the electrolytic capacitor "+" terminal and "-" terminal accurately and consistently in the automated process, to prevent product defects, minimize manpower, thereby improving productivity and reducing costs. To maximize its competitiveness.

1 is a side view showing an electrolytic capacitor supply apparatus of the present invention.

2 is a rear view showing the electrolytic capacitor supply apparatus of the present invention.

Explanation of symbols on the main parts of the drawings

100; Fixing device 110; Support

111; Table 120; First operating part

121; Rod 122; Linear Cam

123; Front and rear lever 124; Support lever

125, 126; Bracket 127; Guide Bracket

128; Long 130; Conveying part

131; Fixing plate 132; Rotating cylinder

133; Opening and closing cylinder 134; chuck

135; Spring 136; Working bar

140; Capacitor inlet 141; rail

142; Support assembly 150; Inspection department

151; Settling block 152; Support assembly

153; Spring 160; 2nd operation part

161; Rod 162; Vertical movement cam

163; Support lever 164; Upper and lower lever

165; Working rods 166, 167, 168; Bracket

170; Outlet 171; Anchi block

180; Capacitor 181; Lead wire

In order to achieve the above object, the condenser supply apparatus of the present invention includes a support having a table installed at a predetermined height, a first operating part installed on one side of the supporting part to move the condenser, and an operation of the first operating part. A conveying part for conveying, a condenser inlet part for supplying a condenser conveyed from the conveying part, an inspecting part for inspecting the terminal position of the condenser during the first conveying part in the conveying part, and a terminal position of the condenser when the condenser is located in the inspecting part And a second operating portion for placing the inspection portion in the terminal portion of the condenser, and a discharge portion for placing the condenser which is precisely controlled in the transfer portion by the inspection portion.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention configured as described above are as follows.

1 is a side view showing the electrolytic capacitor supply apparatus of the present invention, Figure 2 is a rear view showing the electrolytic capacitor supply apparatus of the present invention.

As shown in FIG. 1 and FIG. 2, the capacitor supply apparatus 100 of the present invention includes a support 110 having a table 111 at a predetermined height, and a capacitor 180 provided at one side of the support 110. Supplying the first operating unit 120 for moving the, the transfer unit 130 for transferring the condenser 180 by the operation of the first operation unit 120, and the condenser 180 is transferred to the transfer unit 130 When the condenser inlet 140, the inspection unit 150 for inspecting the terminal position of the condenser 180 during the first transfer to the transfer unit 130, and the condenser 180 is located in the inspection unit 150 A second operation unit 160 for placing the inspection unit 150 in the terminal portion of the condenser 180 to inspect the terminal position of the 180; and the lead wire 181 of the condenser 180 by inspecting the inspection unit 150. Consists of the discharge unit 170 is placed in the condenser 180 is adjusted precisely.

The first operation unit 120 is installed through the table 111 up and down to install the rod 121 and to engage the support lever 124 installed on the bracket 126 at the bottom, but the hole 128 on the support lever 124 ) Is pinned to the guide bracket 127 attached.

In addition, the lower end of the bracket 126 is attached to the linear motion cam 122 to be in close contact with the rod 121 side coupling pin of the support lever 124.

Meanwhile, the bracket 125 is placed on the upper surface of the table 111, and the lower side of the front and rear lever 123 is pinned to the inserted bracket 125, but the lower end of the front and rear lever 123 is bent to one side of the rod 121. Pin to the top.

Here, the upper side of the front and rear levers 123 is formed by slightly bending the rear side.

The transfer unit 130 is installed on the upper surface of the table 111 before and after the bracket 137, the fixing plate 131 is installed by the slide means 139 of the bracket 137, the rotating cylinder 132 to the rear side of the fixing plate 131 Install) but pin the rear end of the rotary cylinder 132 and the upper end of the front and rear lever 123.

In addition, the chuck 134 is installed downward before and after the fixing plate 131, and the spring 135 is installed inside the chuck 134 so that the chuck 134 is bitten in a free state. An operating bar 136 is vertically installed above the center and an opening / closing cylinder 133 for controlling the chuck 134 for vertically operating the operating bar 136 is installed above the operating bar 136.

Here, the upper side of the front chuck 134 is attached to the rotating means 138 to rotate 180 degrees by the operation of the rotating cylinder 132.

The condenser inlet 140 is provided with a support assembly 142 on the upper surface of the lower table 111 of the rear chuck 134 and is coupled to an end of the rail 141 at the upper end of the support assembly 142 to allow the rear chuck ( 134) vertically.

The inspection unit 150 installs the support assembly 152 on the upper surface of the lower table 111, the table 111 of the front chuck 134, and installs a settling block 151 on which the sensor is installed on the upper end of the support assembly 152. To be perpendicular to the front chuck 134.

The second operation unit 160 installs the operation rod 165 penetrating the table 111 and pin-couples the front end of the upper and lower levers 164 to the lower end of the rod 161 to the rear end of the upper and lower levers 165. The upper end of the rod 161 is pinned and the lower end of the rod 161 is pinned to the rear end of the support lever 163.

Here, the support lever 163 pins the center to the bracket 167 and is in close contact with the pin attached to the front end of the support lever 163 to the vertical movement cam 162 installed on the bracket 168.

In addition, pin the operation bar (169) vertically to the top of the operating rod 165, guide the operating bar (169) to the bracket 137 and attach the top of the operation bar to the rear side of the fixing plate (131).

The discharge unit 170 is provided with a settling block 171 corresponding to the front of the table 111 perpendicular to the front chuck 134.

On the other hand, the linear motion cam 122 is one side eccentric cam formed 180 degrees eccentrically and the vertical motion cam 162 is formed of a horizontal left and right eccentric cam formed 90 degrees to the left and right eccentric.

Referring to the operation of the present invention as follows.

First, the "+" terminal and the "-" terminal of the condenser 180 are randomly thrown up and supplied through the rail 141.

Here, the vertical movement cam 162 is rotated to lower the operation rod 169 of the second operation unit 160 to the lower side and at the same time operate the opening and closing cylinder 133 to press the operation bar 136 to the chuck 134. And open the condenser 180 located at the end of the rail 141 inside the chuck 134.

At this time, when the opening and closing cylinder 133 is returned to the original position, the chuck 134 is closed again by the elasticity of the spring 135 and thus the chuck 134 clamps the condenser 180.

When the chuck 134 clamps the condenser 180, the operating rod 139 is moved upward by the continuous rotation of the eccentrically installed vertical motion cam 162, so that the transfer part 130 is also raised upward.

Since the linear motion cam 122 is also rotated and pushed upwards on the rod 121, the front and rear lever 123 rotates forwardly toward the center with the lower pins to move the fixing plate 131 to the front side by the slide means 139.

Therefore, the chuck 134 sandwiching the condenser 180 is positioned above the settling block 151 of the inspection unit 150.

At this time, the operation rod 169 is lowered as described above by the rotation of the up and down movement cam 162, and at this time, the opening and closing cylinder 133 is operated to open the chuck 134 as described above to settle the condenser 180 ( 151).

Here, the sensor senses the length of the lead wire 181 of the condenser 180 placed in the settling block 151 to check the state of the lead wire 181, and the vertical movement cam 162 continues to rotate to chuck again with rotation. ) To move the fixing plate 131 upward.

In addition, when the fixing plate 131 is completely raised upward, the operating rod 169 is reversely operated by the continuous rotation of the linear motion cam 122, so that the fixing plate 131 is positioned at an initial position and continuously works as described above.

On the other hand, the front chuck 134 of the fixed plate 131 clamps the inspected condenser 180 placed on the settling block 151 of the inspection unit 150 during the first lowering of the fixed plate 131 and advances the fixed plate 131. When the lead line 181 of the condenser 180 sensed by the inspection unit is different while moving to the upper side of the settling block 171 of the discharge unit 170, the rotary cylinder 132 is operated to operate the front chuck 134. The lead 181 of the condenser 180 is corrected by rotating the rotating means 138 installed at an upper portion of the capacitor 180 degrees.

In addition, after the second lowering of the fixed plate 131, the operation of the opening and closing cylinder 133, both the front and rear chuck 134 is open and sandwiched the condenser 180, the settle block 151 and the discharge unit (150) of the inspection unit 150 ( When it is placed in the settle block 171 of 170, the fixed plate 131 is raised to position the rotary cylinder 132, so that the front chuck 134 in the 180-degree rotation state is also rotated back to its original position.

As described above, the fixing plate 131 is positioned at an initial position, and at the same time, the condenser 180 placed in the settle block 171 of the discharge unit 170 is supplied to the assembly line of the automated process.

Therefore, since the polarity of the condenser 180 is always supplied constantly, the polarity in the automated process is prevented from being reversed.

As described above, the condenser supply apparatus 100 of the present invention includes a support 110 having a table 111 installed at a predetermined height, and a condenser 180 installed on one side of the support 110 to move the condenser 180. 1 operating unit 120, a transfer unit 130 for transferring the condenser 180 by the operation of the first operating unit 120, and a condenser inlet for supplying the condenser 180 to be transferred to the transfer unit 130 ( 140, an inspection unit 150 for inspecting the terminal position of the condenser 180 during the first transfer to the transfer unit 130, and a terminal of the condenser 180 when the condenser 180 is positioned in the inspection unit 150. The second operation unit 160 to position the inspection unit 150 in the terminal portion of the condenser 180 to check the position, and the inspection unit 150 is inspected to accurately adjust the position of the lead wire 181 of the condenser 180 The discharge unit 170 that houses the one condenser 180 is used to make the electrolytic capacitor "+" terminal and "-" terminal accurate in an automated process. High and constant supply prevents product defects and minimizes manpower, thereby improving productivity and reducing costs, maximizing product competitiveness.

Claims (7)

The support part 110 which installed the table 111 in predetermined height, A first operating part 120 installed at one side of the support part 110 to move the condenser 180, Transfer unit 130 for transferring the condenser 180 by the operation of the first operation unit 120, A condenser inlet unit 140 for supplying the condenser 180 to be conveyed to the conveying unit 130; An inspection unit 150 for inspecting a terminal position of the condenser 180 during the first transfer to the transfer unit 130; A second operation unit 160 for placing the inspection unit 150 in the terminal portion of the condenser 180 to inspect the terminal position of the condenser 180 when the condenser 180 is located in the inspection unit 150; Electrolytic capacitor supply device characterized in that configured by the discharge unit 170 is placed in the condenser 180 is adjusted by the inspection unit 150, the lead wire 181 of the condenser 180 accurately. The method of claim 1, The first operation unit 120 penetrates the table 111 up and down, installs the rod 121, engages the support lever 124 installed on the bracket 126 at the lower end, and has a long hole 128 on the support lever 124. ) Is attached to the guide bracket 127 is attached, and the linear motion cam 122 is attached to the bottom of the bracket 126 to be in close contact with the rod 121 side coupling pin of the support lever 124 and the table 111 Insert the bracket 125 into the upper surface of the pin 125 to engage the lower side of the front and rear lever 123 to the installed bracket 125 and bend the bottom of the front and rear lever 123 to one side to pin the top of the rod 121 The electrolytic capacitor supply apparatus, characterized in that the upper side of the front and rear lever 123 is slightly bent to the rear side. The method of claim 1, The transfer unit 130 is installed on the upper surface of the table 111 before and after the bracket 137, the fixing plate 131 is installed by the slide means 139 of the bracket 137, the rotating cylinder 132 to the rear side of the fixing plate 131 ) And pin the rear end of the rotary cylinder 132 with the upper end of the front and rear lever 123, but the chuck 134 is installed downwards before and after the fixed plate 131, respectively, and the spring 135 inside the chuck 134. ) So that the chuck 134 is bitten in the free state, and the operating bar 136 is vertically installed above the center of the chuck 134 and the operating bar 136 is vertically above the operating bar 136. Electrolytic capacitor, characterized in that the chuck 134 control opening and closing cylinder 133 is installed and the rotating means 138 is rotated 180 degrees by the operation of the rotating cylinder 132 on the upper side of the front chuck 134. Feeder. The method of claim 1, The condenser inlet 140 is provided with a support assembly 142 on the upper surface of the lower table 111 of the rear chuck 134 and is coupled to an end of the rail 141 at the upper end of the support assembly 142 to allow the rear chuck ( 134) electrolytic capacitor supply apparatus characterized in that formed and formed to correspond vertically. The method of claim 1, The inspection unit 150 installs the support assembly 152 on the upper surface of the lower table 111, the table 111 of the front chuck 134, and installs a settling block 151 on which the sensor is installed on the upper end of the support assembly 152. Electrolytic capacitor supply apparatus characterized in that formed by forming a vertically corresponding to the front chuck (134). The method of claim 1, The second operation unit 160 installs the operation rod 165 penetrating the table 111 and pin-couples the front end of the upper and lower levers 164 to the lower end of the rod 161 to the rear end of the upper and lower levers 165. Pin the upper end of the rod 161 and pin the lower end of the rod 161 with the rear end of the support lever 163, but pin the center of the support lever 163 to the bracket 167 and installed in the bracket 168 The vertical movement cam 162 to be in close contact with the pin attached to the front end of the support lever 163, pin the operating bar (169) perpendicular to the top of the operating rod 165 and the operating bar (169) bracket (137) Electrolytic capacitor supply device characterized in that configured to guide) and the upper end of the operation bar is attached to the rear side of the fixing plate (131). The method according to claim 2 or 6, The linear motion cam 122 is a one-sided eccentric cam formed 180 degrees eccentrically and the vertical motion cam 162 is an electrolytic capacitor supply device, characterized in that composed of horizontal left and right eccentric cam formed 90 degrees left and right eccentric.