TWM435697U - Capacitor assembling machine of pixel terminal feeding mechanism and welder mechanism - Google Patents

Description

M435697 V. New description: [New technical field] This is a technical field of capacitor assembly machines, especially one that allows the elements to be vertical when they are transferred to the welding position, so that the two wires can be vertical. The welding is provided on the opposite sides of the element, and the element feeding mechanism and the welding mechanism of the capacitor assembly machine which can accurately weld without offset. φ [Prior Art] 凊 Refer to the first figure, which shows a conventional capacitor structure including a single element A, two wires B that are parallel welded to opposite sides of the element A, and one of which is insulated from the outside of the element A. a shell c, and a resin material (not shown) filled in the insulating shell c. Since the element A is attached to the two wires B in an upright manner, the whole has a high height. In recent years, due to the fact that electronic devices are oriented toward light, thin, and wealth-saving, the capacitors with higher heights will reduce the volume of the electronic device. Referring to the second figure, a capacitor structure having a small height is shown, which has the same structure as described above, except that the element A is horizontally bonded to the two wires 3, so that the capacitor can be made. The overall height can therefore be greatly reduced. At present, the capacitor assembly machine commonly used in the market for assembling capacitors, as shown in the Taiwan Patent No. 331970, is made of a vibrating plate and is rotated by a single element to make it pure to the high material. The device is clamped to the 4 M435697 and sent to the -height, and then reused - the clip on the clamp raising device is moved to the - on the - wheel, so that the wheel can transfer it Go to a tan position for welding. However, the structure of the prime push device is very complicated, and the process of transporting the good is also very complicated and lengthy, which will make the cost more red and the work efficiency is poor, and the element is in the element. In the process of pushing in the pusher device, the system is flat (because the pusher is pushed from the side to the side, even if the erect (4) element is dumped into a flat case). Therefore, the prime pushing device can only push the flat level to the two pins of the working wheel in a horizontal state. When the opposite wheel transfers the element to the welding position, the element is parallel to the two pins. Therefore, it is only possible to assemble the capacitor in which the element A and the two wires B are horizontally welded as shown in the first figure, and cannot be applied to the assembly of the prime A and the two wires B shown in the first figure. Solder capacitors. Furthermore, there is an error in the position of the element between the pair of clips of the wheel, and the relative position is when the wheel transfers the element to the welding position. The relative position of the wires is inaccurate and cannot be the same every time, so the welding quality is very unstable. In view of this, the creator has developed and designed this creation in response to the above-mentioned problems and in-depth construction and active research and improvement. [New content] The capacitor assembly machine described in the present invention comprises a thread feeding mechanism, a welding mechanism, a lining shell feeding mechanism, a lining feeding mechanism, a conveying mechanism and an exporting on a machine table. Mechanism ^ The element feeding mechanism can transport the elements sent out from a vibrating plate to an output position in an upright position. The wire feeding mechanism can supply two wires and send them to a welding position. The welding mechanism can transfer the prime position of the discharging position to the position of the welding position to make the position between the two wires 'and (four) two guides are set at The element is on the same length as the two wires. The _-shell feeding mechanism can transfer the insulating case sent by the other vibrating platter to the display. The turner can fill the hoof in the shackles of Wei Lai. After the transfer of the structure, the conductor with the wire can be transferred to the stalk of the insulating case. The derivation mechanism can transfer the welding, the capacitance completed by the division to a drying oven for drying the resin material. The purpose of this creation is to provide a prime assembly mechanism for a capacitor assembly machine that allows the two wires to be vertically welded to the opposite sides of the element when the element is transported to the soldering position. By. Specifically, the prime compensation mechanism of the capacitor domain includes a transporting device, a pusher device, and a pinch device. Wherein, the conveying device comprises a conveyor belt-end for receiving an upright-shaped element sent from a vibrating plate, and conveying the element from the other end in an upright manner. The pushing device comprises a bearing seat, a pusher seat, a push rod and a H. The bearing is integrated on the machine table and is located at another end of the conveyor belt for receiving the element sent by the conveyor belt, the bearing seat On the contrary, one side of the conveyor belt has a struts for carrying the conveyor belt, and the Sx rotor can be moved on the pedestal _ close to or miscellaneous. The element is early to the sound; the ta aa clip is combined with the pusher seat to swing to the side of the δΛ pusher and swing away from the element. The cooling device is disposed between the pushing device and the welding mechanism, and includes a clamping seat and two clamping blocks. The b-clip holder can be moved on the machine to be close to or away from the welding mechanism. The two clamps can be set up from the ground, and the two-necker is the __ the prime on the push device. Money position (four) position. In this way, by the clamping and pushing of the transfer rod of the rotating device, the pinch device can send the upright element to the welding mechanism, so that the element is erect when being conveyed to the setting position. In order to allow the two wires to be vertically welded on opposite sides of the element. Another main object of the present invention is to provide a welding mechanism for a capacitor assembly machine that can accurately align two wires and elements with F to greatly improve the quality of welding. Specifically, the welding mechanism of the capacitor assembly machine includes a clamping device, a tandem device, and a cutting device. The clamping device comprises a rotating base, four pairs of clips, a pressing block and a pressing block cylinder. The swivel mount is rotatably coupled to the machine table. The four pairs of clips are equally arranged on the rotating base, and the four pairs of missing persons can clamp the element at the discharging position, and can transfer the element to the welding position as the rotating seat rotates. . Each of the clips has a slot on the end face that extends to the side to communicate with the slot of the corresponding clip for receiving the element. The pressure is located above the rotating base. The pressing block cylinder can drive the pressing block M435697 to lift and lower for the button. The element that is transferred to the upper side of the clip is pressed downward so that the outer end of the element is flush with the contact surface. The welding device can be located at the The two guides at the welding position are placed on the two tens of the element. The mine device cuts the two wires after welding. Thus, by the vacancy on the four pairs of clips and the structural design of the pressure block and the pressure cylinder, the two wires and the element can be accurately welded without being offset, thereby making it possible to Stable welding quality. [Embodiment] Referring to the second to the human figure, the capacitor assembly machine described in the description of the invention includes a prime feeding mechanism 2, a wire feeding mechanism 3, a welding mechanism 4, which is disposed on the machine table 1. An insulating shell feeding mechanism 5, a rotating mechanism 6, a conveying mechanism 7, and a deriving mechanism 8. The element feeding mechanism 2 is capable of transmitting a predetermined _ discharge position in which a singular element A is erected in a vibrating plate. The wire feeding surface 3 is a squeezing position of the two wires B. The welding mechanism 4 is configured to clamp and transfer the element A located at the discharge position to the welding position, so that the element A is located between the two wires B, and the two wires b are vertically welded. The age A (four) is gamma, and the two wires b are cut to an appropriate length. The insulating case feeding mechanism 5 is configured to transmit an insulating case (not shown) sent from another vibrating plate to the filling mechanism 6. The glue filling mechanism 6 can be sent to the shell lover resin material (not shown) in the ship Lai Bu Lin 5 . The transport mechanism 7 can transport the element A having the wire B after being welded by the welding mechanism 4 to the potting mechanism 6, and press the element a portion thereof into the resin material of the insulating case. The derivation mechanism 8 is capable of transferring the soldered, glued capacitor to a drying oven (not shown) for supplying the resin material. The above-mentioned vibrating plate for sending the element A and the insulating case is a device which is conventionally used and commonly used in the related industries of the present invention, and has a related description in the prior art, and therefore no further Praise. Referring to Figures 6 to 10, it is pointed out that the element feeding mechanism 2 includes a conveying device 10, a pushing device 2G, and a pinning farm 3q. Wherein: the conveying device 1G comprises a conveyor belt u, two side plates 12 and a pressure plate 13. The conveyor belt 11 is adapted to receive a straight element A' sent from a vibrating plate (not shown) and to transport the element a upright from the other end. The two side plates 12 are positioned above the conveyor belt u, and a groove is formed between the plates 12 for the passage of the element A in a straight field. The 13th position is between the two side plates 12 and the lower side is at the upper edge of the element A, whereby the element is provided; the wheeled belt 11 is transported without skewing, jumping and falling. The push device 2G includes a socket 21, a pusher seat 22, a pusher 23, and a clamp bar red 25 . The bearing seat 21 is coupled to the machine table i and located at the other end of the wheel conveyor belt u, and is configured to receive the conveyor belt and feed the bearing seat 21 opposite to the side of the conveyor belt η. 26 can be used to send miscellaneous (four) such as the prime A. The socket 21 extends a tab 27 in the direction of the pinch device, and the width of the tab 27 is slightly smaller than the M435697

The width of the prime A. The pusher base 22 is movable on the machine to approach or away from the welding mechanism 4. The push rod 23 is coupled to the pusher base 22 for pushing the element A on the socket 21 toward the welding mechanism 4 onto the tab 27, and the push rod 23 #width is slightly secretive to the element A width. The clamping rod 24 is swingably coupled to the rotating base 22, and is L-shaped, and the width of the head of the clamping rod 24 is slightly smaller than the width of the element A. The clamping rod 22 has a top rod 28 for pressing the tail portion of the clamping jaw, so that the head of the clamping rod 24 is swung to clamp or leave the element a instead of the pushing rod The side of the pinch device 3G is between the transfer device 2 and the transfer mechanism 4 and includes a 4-seat 31 and two clamps 32. The shouting tray 31 can be moved on the machine 1 to be close to or away from the material mechanism 4. The two clips 32 can be arranged oppositely in the feeding seat 31 ±, and the shouting block 32 is said to be sent.

The element A on the shifting device (4) of the seat 3i is erected to the discharge position. Referring to the sixth to tenth drawings, the welding mechanism 4 includes a holding device 40, a welding device 5G, and a cutting device 6 (). Wherein: the clamping device 40 is located on the side of the pinching device 30, and includes a rotating seat 4, four pairs of clips 42 - a pressing block 43 and a pressing block 44. The rotating base 4! can be rotatably coupled to the machine table, and the central axis of the rotating base 41 is flat with the table of the machine 1. On the seat 41, the fine material 42 is shot from the element A located at the discharge position, and the element a can be transferred to the welding position for welding as the rotating base 41 rotates, and the element of the wire B is welded. A is transferred to the transport mechanism 7 below. Each of the clips 42 has a cutout 45 extending toward the side thereof to communicate with the slot 45 of the corresponding clip 42 for receiving the element A. The pressure block 43 is located above the rotating base 41. The pressing block 44 is configured to drive the pressing block 43 up and down to press the element A to be transferred to the upper side of the pair of clips 42 downward so that the outer end of the element a is flush with the end surface of the clip 42. level. The welding device 50 is located on the side of the clamping device 40 opposite to the pinching device 3〇, and includes two welders 5丨 symmetrically disposed on both sides of the welding position, and the two welding devices 51 are available on the machine 1 The element A' that moves up to be relatively close to and away from the welding position is used for the vertical welding of the two wires B on the element A. The cutting device 60 is located on a side of the welding device 50 opposite to the clamping device 4, and includes a seat 61 located between the two wires B and two cutting blades 62 symmetrically disposed on opposite sides of the holder 61. . The two cutting knives 62 are available on the machine! Move up to the nearest phase and _ wire B, and the rib ship combines the blade holder to cut the two wires B. Referring to Figures 10 and 12, it is indicated that when the upright element A 1 is placed on the socket 21 of the pushing device 2G and is sandwiched between the turn 23 and the cup 24 The pusher seat 22 is moved toward the holding device 4G, so that the turn 23 and the clamping rod 24 clamp the M435697 in an upright manner and push it onto the tab 27. The pinch holder 31 of the pinching device 30 is moved toward the pushing device 20 to position the two clamping blocks 32 on both sides of the tab 27, and then the clamping block 32 is clamped to clamp the position on the tab 27 On the prime and. At the same time, the gripping device 40 is opened toward the clip 42 toward one of the pinching devices 3'. Referring to the thirteenth figure, it is pointed out that when the two clamps 32 clamp the element A, the ejector rod 28 of the clamping rod cylinder 25 presses the tail of the clamping rod 24 to make the central cup 24 The head swings upward to leave the element a opposite the side of the pusher 23. Then, the pusher seat 22 drives the push rod 23 and the clamp rod 24 thereon to retreat to the original position, and then the clamp rod press cylinder 25 swings the clamp rod 24 back to the original position. At the same time, the pinch holder 31 will move toward the clamping device 4 to cause the element A sandwiched between the two blocks 32 to be sent to the discharge position, at which time the two blocks 32 are located in the pinch device. 30 pairs of the two sides of the clip 42, then the pair of clips 42 are clamped so that the element A is lost in the slot 45, after which the two blocks 32 are opened to release the prime, and then the pinch 31 The two clips 42 are returned to the original position toward the push device 2 . By repeating the above operation, the elements A can be sent upright to the holding device 4 of the welding mechanism 4 one by one. Referring to Fig. 14, when the pair of clips 42 of the holding device 4 are clamped to the element A, the rotating base 41 drives the pair of clips 42 to rotate upward. Then, the clamp cylinder 44 drives the clamp 43 to move downward to press the element A downward, so that the outer end of the element a is flush with the end surface of the clip 42 by 12 M435697, after which the rotary seat 4 is Then, the pair of clips 42 are further rotated by 9 degrees, so that the element A thereon is in an upright position at the welding position. Since the element feeding mechanism 2 of the present invention and the welding mechanism 4 transport the element a to the welding position, the element A is in an upright shape, so the two wires B can be vertically welded to the two elements of the element A. On the side of the um. Moreover, the holding device 4G transfers the element A to the "positioning" by pressing the element A to the outer end surface of the clip 42 so that the outer end surface is flush with the outer end surface of the clip 42.

Prime A is tested every time and every time

The difference is so that the welding position and length of each of the two wires B can be similar to each other, so that the defect rate can be greatly reduced to improve the quality of the welding. To sum up, since this creation has the above-mentioned advantages and practical value, and there is no product published in the same kind of product towel, the application requirements of the new patent have been met.

[Simple Description of the Drawing] The first figure is a schematic exploded view of a conventional capacitor. The second figure is a three-dimensional exploded view of the capacitor assembled by the author. The third figure is a three-dimensional schematic diagram of the capacitor assembly machine of the present invention. The fourth figure is a partial perspective view of the other side of the capacitor assembly machine. The fifth picture is a schematic top view of the capacitor assembly machine of the present invention. The sixth figure is a three-dimensional schematic diagram of the prime feeding mechanism of the creation. 13 M435697 The seventh picture is a side view of the prime feeding mechanism of the creation. The eighth figure is a top view of the seventh figure. The ninth figure is a schematic view of the action when the element of the creation is delivered to the pushing device. The tenth figure is a top plan view of the ninth figure. The tenth-figure is a schematic diagram of the grip of the ship device of the creation. The twelfth picture is a top view of the Η-图.

[Main component symbol description] Prime A Insulating shell C Prime feeding mechanism 2 Welding mechanism 4 Glue mechanism 6 Derivation mechanism 8 Conveyor belt 11 Platen 13 Seat 21 Push rod 23 Clamping cylinder 25 Tab 27 Wire B Machine i wire Feeding mechanism 3 Insulation 彀% material mechanism 5 Transfer mechanism 7 Rotating t set 1 〇 〇 推 推 推 推 20 推 推 22 22 M 28 28 26 28 28 28 28 28 28 28 28 28 28 28 14 28 14 14 14 14 28 14 14 28 14 28 14 14 14 14 14 14 Clamping device 40 Rotating seat 41 Clamp 42 Clamping block 43 Clamping cylinder 44 Notch 45 Welding device 50 Welding device 51 Cutting device 60 Knife holder 61 Cutting knife 62 15

Claims (1)

The sheet can be used to hold the conveyor belt to send the ifc, the pedestal can be moved on the _ table to close or mix the welding mechanism, and the miscellaneous rod is stored on the miscellaneous seat for the element on the socket When the welding mechanism is pushed, the clamping rod is coupled to the pushing base to swing to clamp the element opposite to the side of the push rod and swing away from the element; and the pinching device is disposed on the pushing device Between the welding faces, the clamping portion and the two clamping blocks are mounted on the machine to be close to or away from the welding thief. The two clamping blocks are arranged in the clamping manner. And the two clamps can lose the element on the push device to the discharge position as the button moves. 2. For example, the element feeding mechanism of the capacitor assembly machine of the special fiber@1, wherein the socket extends in the direction of the pinch device - a tab, the width of the tab being smaller than the width of the element A rod and the clamping rod are adapted to push the element onto the tab. The tab of the pinch device can carry the two jaws to opposite sides of the tab. 3. The utility model as claimed in claim 2, wherein the pushing device further comprises a clamping rod cylinder, wherein the clamping rod pressing cylinder is arranged on the pushing base and has a top rod It is possible to press the end of the clip (4) so that the other end of the clamp bar is swung to the point of being lost or leaving the element. 4. The element feeding mechanism of the capacitor assembly machine according to claim 3, wherein the conveying device further comprises two side plates and a pressing plate, wherein the two side plates are above the conveyor belt, and between the two side plates Forming a channel allows the element 17 M435697 to pass upright, the platen being located between the two side plates, and the lower side being at the upper edge of the element. 5. The element feeding mechanism of the capacitor assembly machine according to any one of claims 1 to 4, wherein the welding mechanism comprises a clamping device, a welding device and a cutting device, the clamping device position On one side of the pinch device, the prime position at the material position can be clamped and transferred to the position of the material. The welding device is located on the side of the clamping device opposite to the pinching device. Two wire rods in the welding position are disposed on opposite sides of the element, and the cutting device is located on the side of the welding device opposite to the Yao device, and the two wires after welding can be cut. 6. If the application is as disclosed in item 5, the capacitor assembly _ element feeding mechanism 'the secret device includes a rotating seat and four pairs of clips, the rotating seat can be intermittently combined with the machine, the four pairs The clips are equally arranged in an annular shape on the rotating base, and the four pairs of clips can clamp the element at the discharge position and can transfer the element to the welding position as the rotating seat rotates. The end surface of each clip has a slot extending to the side to communicate with the slot of the corresponding clip for receiving the element. 7. The element feeding mechanism of the capacitor assembly machine according to claim 6, wherein the clamping device further comprises a pressing block and a dust block, the Wei position is above the rotating base, and the hybrid block can be The drive ship is lifted and lowered, and the element that is to be transferred to the upper part of the clip is lowered to the bottom of the ship so that the outer end of the element is flush with the end face of the clip. 18