KR980009582U - Base and drum self-adhesive assembly and drying device for inductors for electronic devices - Google Patents

Abstract

The present invention relates to a base and drum self-adhesive assembly and drying device of the inductor for electronic devices, and seeks unmanned automation. It is rotated in one direction by the drum deceleration motor and can move left and right along the adhesive liquid container 80, which can hold the adhesive liquid 300, and the guide rod 110 assembled horizontally on both support brackets. A cylinder 50 for assembly of the cylinder 60 and a suction pipe 64 connected to the adhesive liquid rod 63 and the suction hose 65 are provided on the left and right sides of the chuck 62 at the bottom of the piston rod 61. A base catcher 30 having a cylinder 60, grooves 31 and 32 positioned below the adhesive liquid bar and the suction pipe to receive and mount one base from a base supply line; An inductor receiving plate 70 having grooves 71,72 for receiving a semi-finished product to which the base and the drum are glued / assembled, and a base on the bottom to move the base catcher 30 A cylinder 35 having a piston rod 34 capable of moving the lip 33, which is assembled to the bottom of the upper plate 100, a base supply line 10 for supplying the base in two rows, and a base supply line for supplying the drum in one row 20, a cylinder 43 having a conventional base shooter 150 and a drum shooter 160, a drum sketcher 40 having a groove 41 for receiving the drum one by one from the drum supply line, and a piston rod 42 for moving the drum catcher. And, characterized by consisting of 120 in the drying of the radiant heat method.

Description

Base and drum self-adhesive assembly and drying device for inductors for electronic devices

The present invention relates to a base and drum self-adhesive assembly and drying device of the inductor for an electronic device, and to provide a device that can be processed automatically, focusing on the inefficient implementation by manual or semi-automatic until now.

An inductor for electronic devices is used as a basic component for induction induction installed in various electronic devices, which is formed in a gripper 5a integrally formed on a base 5 having a plurality of terminal pins as shown in FIG. An assembly in which a drum 7 having a structure in which a copper wire can be wound is inserted is inserted, and the drum is adhered and fixed by an adhesive liquid in the gripper. However, in the operation of adhering and assembling the base and the drum, and then putting the drum into a drying furnace, conventionally, the base and the drum are adhered with an adhesive liquid and then put into a drying furnace having a coarse structure and directly heated to apply the adhesive liquid. Method of drying, and supplying one drum, which is previously coated with the adhesive liquid on one base to be mechanically bonded to each other and put them back into the drying furnace as described above, by applying direct heat to allow the adhesive liquid to dry There was a semi-automatic way. However, these methods had a problem of low productivity and a high rate of defects, so that it was very difficult to pursue high quality, and in particular, in a drying furnace, the adhesive liquid was dried by applying high heat directly. It was difficult to meet the difficult conditions such that the adhesive solution should not melt and the dimensions from the upper surface of the base to the upper surface of the drum were uniform, which caused the incidence of defects to increase.

Therefore, the object of the present invention is to provide a base and drum self-adhesive assembly and drying device of the inductor for electronic devices that can be produced in large quantities per unit time with almost no defect rate, and can pursue high quality of the finished product.

In order to achieve the above object, the present invention, a drum having a structure that can be wound around the copper wire is inserted into the gripper is formed integrally on the base having a plurality of terminal pins to complete the electromagnetic inductor bonded In the self-adhesive assembly and drying device of the base and drum of the inductor for use, the drum is rotated in one direction by the drum deceleration motor, and the adhesive liquid container 80 can contain the adhesive liquid 100, and guide rods horizontally assembled to both support brackets. It is movable to the left and right along the 110 and the front end 51 is assembled to the cylinder 50 to reduce the cylinder 60, and is assembled to the projected end 51 of the cylinder 50, and the bottom left and right of the chuck 62 at the bottom of the piston rod 61 When the cylinder 60 is provided with a suction pipe 64 connected to the adhesive liquid bar 63 and the suction hose 65, and located below the adhesive liquid bar and the suction pipe A base catcher 30 having grooves 31 and 32 for receiving and seating one base from a base supply line; and a groove positioned at the rear of the base catcher to receive semi-finished products to which the base and the drum are bonded / assembled. And a cylinder 35 having an inductor receiving plate 70 having a 72, a piston rod 34 capable of moving the brace 33 assembled at the bottom thereof to move the base catcher 30, and a cylinder 35 assembled at the bottom of the upper plate 100; A base supply line 10 for supplying in two rows, a base supply line 20 for supplying the drum in one row, and a normal base for automatically aligning the base and drum to be supplied to the base supply line and the drum supply line Drum shooter 40 formed with a shooter 150 and a drum shooter 160 and a groove 4101 for receiving the drums one by one from the drum supply line. And a cylinder 43 having a piston rod 42 capable of moving the drum catcher, and a heat insulating material 124 embedded therein so that the upper side is opened in the rectangular casing 121, and grooves 126 and 127 are formed at the bottom of which the base can be seated. Radiating heat drying method in which the receiving plate 125 is assembled, the reflecting plate 130 is horizontally assembled at the inner center, and the heating lamp 129 is assembled at the bottom of the kaaba plate 128, and the front entrance 122 and the rear entrance 123 are formed at the front and rear surfaces of the casing. It characterized in that consisting of 120.

1 is an exploded perspective view showing an inductor for an electronic device.

2 is a front view showing a preferred embodiment of the present invention

3 is a plan view showing a preferred embodiment of the present invention

4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 degrees is a reference diagram showing the operating method of the present invention,

15 and 16 are front and sectional views taken along line 1-1 of FIG. 3 showing the drying furnace of the present invention.

* Explanation of symbols for the main parts of the drawings

5,6 Base 7,8 Drum 5a, 6a Gripper

10: base supply line 20: drum supply line 30: base catcher

31, 32: Home 33: Brace 34: Piston rod

40: Drum sketcher 35, 50: Cylinder 41: Home

51: protrusion 60: cylinder 61: piston rod

62: clasp 63: adhesive liquid stick 64: suction pipe

65: suction hose 70: inductor receiving plate 71, 72: groove

80: adhesive container 81: shaft 82: deceleration motor

90: Pusher 91: Piston rod 92: Cylinder

100: top 101: hole 102: body

103: support 110: guide rod 120: dry

121: casing 122: front entrance 123: rear exit

124: insulation 125: inductor receiving plate 126, 127: groove

128: Kaaba version 129: a heat lamp 130: a reflecting board

140: belt conveyor 150: base shooter 160: drum shooter

200: Electronic device inductor a: Base b: Drum

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used for the same components, even if displayed on different drawings. And, in describing the present invention, if a detailed description of the related known function or configuration may obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The operation method will be described in detail based on the above-described configuration of the present invention. And it turns out that it is preferable that all the cylinders of the present invention use an air cylinder.

3 shows an operational standby state of the present invention. In this state, when the operation switch of the control box (not shown) is turned on, the cylinder 35 is operated as shown in FIG. 4 to move the base catcher 30 to the right. In this case, the centers of the grooves 31 and 32 of the base catcher 30 coincide with the centers of the bases 5 and 6 supplied to the base supply line 10. As soon as the base catcher 30 is moved to the right, one base 5 located on the left side of the base supply line enters the groove 31 of the base catcher 30 by the operation of the base shooter 150. On the other hand, since the base shooter and drum shooter is a conventional device, detailed description thereof will be omitted. As soon as the base 5 is seated in the groove 31 of the base catcher 30, the cylinder 35 returns the base catcher 30 to its original position. At the same time, the cylinder 43 is operated and the drum catcher 40 is moved to the left side as shown in FIG. 5 to wait. A drum 7 is inserted into the groove 41 of the drum catcher 40. At the same time, as shown in Fig. 6, the cylinder 60 is operated and the piston rod 61 is raised, as well as the cylinder 50 is operated and moved to the left. As soon as the cylinder 50 moves to the left, the cylinder 60 operates again to lower the piston rod 61. Therefore, the adhesive liquid 300 in the adhesive liquid container 80 is buried at the lower end of the adhesive liquid rod 63 on the left side of the clamp 62. This operation raises the piston rod 61. At this time, the cylinder 50 is operated and moved to the right so that the center of the adhesive liquid rod 63 and the center of the gripper 5a of the base 5 which are waiting in advance coincide with the cylinder 60. Lower the piston rod 61 as shown in FIG. Therefore, the adhesive liquid applied to the lower end of the adhesive liquid bar 63 is applied to the inner surface of the gripper 5a and the upper surface of the base. As soon as this process is finished, the cylinder 60 is activated again, raising the piston rod 61 and at the same time the cylinder 50 is operated to move to the right. The center of the suction tube 64 of the chuck 62 is moved forward and the drum 7 in the drumket 40 is waiting. Coincides with the center Next, as shown in FIG. 8, the cylinder 60 operates, the piston rod 61 is lowered, and the suction pipe 64 sucks the drum 7 by using the suction force through the suction hose 65. Next, the cylinder 60 is activated, the piston rod 61 is raised and the same cylinder 50 is operated to move to the left. As shown in FIG. 9, when the cylinder 50 moves to the left and the center of the drum 7 coincides with the center of the gripper 5a on which the adhesive liquid is applied, the cylinder 60 lowers the piston rod 61 so that the drum 7 absorbed in the suction pipe 64 has Insert and grip the gripper 5a and apply the adhesive solution 300 to the adhesive liquid stick 63 again. Next, as shown in FIG. 10, the cylinder 43 is operated to move the drum catcher 40 in front of the drum supply line 20 so that another drum 8 is supplied into the groove 41, and the cylinder 35 operates simultaneously with the cylinder 43 to tactic the base catcher 30. Move to the base supply line 10 as described above and allow the base 6 to be inserted into the remaining groove 32 of the base catcher 30 by the operation of the base shooter 150. Then, as shown in FIG. 11, the cylinder 35 is operated again to return the base catcher 30 to its original position (to the left), and then the operation of the cylinder 43 causes the drum catcher 40 to move to the position as described above and to hold the drum 8 while waiting. At this time, as described in the state of FIG. 9, the drum 7 adsorbed on the suction pipe 64 is inserted and adhered to the gripper 5a of the base 5, and the adhesive liquid is applied to the adhesive liquid rod 63 again, as shown in FIG. As soon as the base 6 is moved to the left while holding the base 6, the cylinder 60 is operated as shown in FIG. 12, the piston rod 61 is raised, and the cylinder 50 is operated to move to the right. The center of the adhesive liquid rod 63 is the gripper of the base 6. The center of 6a should be coincident with the center of suction tube 64 to the center of drum 8. Immediately after this movement, the cylinder 60 lowers the piston rod 61 so that the inner surface of the gripper 6a of the base 6 and the upper surface of the base adhere the adhesive liquid applied at the end of the adhesive liquid rod 63, and the suction tube 64 adsorbs the drum 8. . Then, as shown in FIG. 13, the cylinder 60 raises the piston rod 61 again, and the cylinder 50 is operated to move to the left side. At this time, the center of the suction pipe 64 coincides with the center of the base 6, and then the cylinder 60 lowers the piston rod 61 to insert and bond the drum 8 into the gripper 6a of the base 6, and the piston rod 61 rises and stands by. Next, as shown in FIG. 14, the cylinder 92 is operated to advance the piston rod 91 so that the pusher 90 pushes the bases 5 and 6 backwards to move the bases into the grooves 71 and 72 of the inductor receiving plate 70. Pusher 90 then waits for home position.

By repeating the above operation, the two bases are pushed one by one on the inductor receiving plate 70 and the base and the drum are pushed into the drying furnace one by one space at a predetermined time interval to be dried. This will be described in detail. Since the drying furnace 120 has an inductor receiving plate 125 with grooves 126 and 127 on which the bases can be seated, the semi-finished products pushed in one space through the front entrance 122 are seated in the grooves 126 and 127 backwards one by one. It is pushed toward the rear exit 123. At this time, the adhesive liquid for adhering the base and the drum is dried, and the present invention dries the adhesive liquid through an indirect radiant heat method as shown. That is, the heat from the heating lamp 129 does not directly affect the semi-finished product due to the interference of the reflector 130, but indirectly. Therefore, since the adhesive liquid is not subjected to excessive high heat and is indirectly radiated under the best conditions, it is desirably dried, so that the boiling liquid of the adhesive liquid or the flow of the adhesive liquid due to direct high heat disappears when the adhesive liquid is dried. The adhesive is firmly adhered to the base while maintaining the good condition. In this case, three heat lamps 129 can be used to generate high heat at the front entrance 122 side and the rear exit 123 side, and to generate the middle heat at the center part, and the reflector 130 at the front entrance 122 side and the rear exit 123 side. In other words, the length of the reflector 130 may be shortened so as to be located only at the center portion of the drying furnace so that the temperature at the front entrance and the rear exit side may be increased. The reason for this is that the front entrance and the rear exit side can enter and exit the outside air, and the temperature of the portion may decrease. In addition, even if the movement order of the base catcher and the drum catcher or the movement order of each cylinder operating in connection with it is changed in some cases, a similar implementation to the implementation of the present invention can be obtained. Such changes belong to the technical scope of the present invention. It is obvious.

As described above, the present invention allows the entire process of drying the drying process through the drying furnace after the base and the drum of the electronic device inductor are adhered with an adhesive solution, so that the productivity is significantly improved as compared with the conventional art, and the occurrence of defects is also improved. Almost no high quality of the product can be aimed at, as well as a useful effect of lowering the production cost, thereby increasing the competitiveness internally and externally.

Claims (1)

Self-adhesive assembly and drying device for base and drum of electronic device inductor that can complete the inductor for electronic device by inserting drum with structure that copper wire can be wound in gripper formed integrally on base with multiple terminal pins In the rotational speed in one direction by the drum deceleration motor and the adhesive liquid container 80, which can hold the adhesive liquid 300, and the left and right to move along the guide rod 110 assembled horizontally on both support brackets and protrudes forward Stage 51 is a cylinder 50 for assembly of the cylinder 60, and the suction pipe 64 is assembled to the protruding end 51 of the cylinder 50, the adhesive liquid rod 63 and the suction hose 65 is connected to the left and right of the bottom 62 of the chuck 62 at the bottom of the piston rod 61 The cylinder 60 is provided with one base from the base supply line while being positioned below the adhesive liquid bar and the suction pipe. Base inductor 30 having grooves 31 and 32 which can be seated; and inductor receiving plate 70 having grooves 71 and 72 located at the rear of the base catcher to receive semi-finished products for the base and the drum; A cylinder rod 34 having a piston rod 34 capable of moving the brace 33 assembled at the bottom thereof to move the base catcher 30, and a cylinder 35 assembled at the bottom of the upper plate 100; And a base supply line 20 for supplying the drum in one row, a conventional base shooter 150 and a drum shooter 160 which can automatically align the base and the drum to be supplied to the base supply line and the drum supply line. A drum catcher 40 having a groove 41 for receiving drums one by one from the drum supply line; and a piston rod for moving the drum catcher. A cylinder 43 having 42 and an insulator 124 are built so that the upper side is opened in the rectangular casing 121, and the inductor receiving plate 125 having grooves 126 and 127 is formed at the bottom, and the reflecting plate 130 is horizontally disposed at the inner center. The assembly of the inductor for an electronic device, characterized in that it comprises a heat radiation lamp 129 is assembled on the bottom of the Kabapan 128 and the front and rear surfaces of the casing, the radiation furnace type drying furnace 120 formed with the front inlet 122 and the rear inlet 123. Automated assembly and drying device for base and drum. ※ Note: This is to be disclosed based on the first application.