KR20020076709A - Stand in line device of Terminal for Condenser use - Google Patents

Abstract

PURPOSE: A terminal alignment apparatus for condenser is provided to increase productivity by minimizing a time for supplying a terminal. CONSTITUTION: A linear feeder has a curvature portion(11) of a round shape in order to buffer an impact of a terminal(1). An aligning chuck(21) is installed on an alignment portion(20). The aligning chuck(21) has a shape of tongs. The aligning chuck(21) is widened to both directions by an elastic force of a spring(24) when a cam shaft is inserted into a center of an upper portion of the aligning chuck(21). The terminal(1) is loaded on a support portion when the aligning chuck(21) is widened to both directions. The aligning chuck(21) is restored to an aligning position by the elastic force of the spring(24) if a cam shaft(25) is separated from the aligning chuck(21). A supply portion includes a supply chuck for transferring the aligned terminal(1) to the next process.

Description

Terminal alignment device for condenser {Stand in line device of Terminal for Condenser use}

The present invention relates to a terminal aligning device for a condenser, and more particularly, to align the terminals in order to stitch the terminals, which are the electrodes of the condenser, onto aluminum foil when the condenser is manufactured, to prevent the terminal from falling during terminal supply from the terminal supply device. It relates to a terminal aligning device for a capacitor that suppresses the loss of production.

In general, an electrolytic oxide film is formed on the surface of a metal foil, and a capacitor including a metal foil as an anode, a dielectric as an oxide film, and an electrolyte as a cathode is collectively called an electrolytic capacitor.

Since the electrolytic capacitor is polarized, it is used only as a direct current in principle. The role of the electrolytic capacitor is used to remove the pulses remaining in the direct current voltage when a smoothing circuit or a bias of the power supply for the electronic circuit is applied.

Thus, the manufacturing of aluminum wet electrolytic capacitor, which is a representative example of the capacitor used, is inserted into the aluminum foil in the squelch process when the terminal is supplied, and is impregnated into the electrolyte solution to form the characteristics and deliquefied through a multiple winding process to increase the body area. It is encapsulated in an aluminum case, and the rubber field is inserted into the lower part of the enclosed aluminum case so that the terminal protrudes and a sealing process of inserting an insulating material into the outer circumference produces a capacitor.

In the terminal supply process, which is the first process in the capacitor manufacturing process, the loss of time due to the delay of production greatly affects the amount of capacitors completed in the cumulative process.

By the way, the terminal supply device for a capacitor of the prior art, as shown in FIG. 1, is supported by the support unit 30 when the terminal 1 is supplied while falling down along the curved portion 11 and sorted one by one in the linear feeder 10. The terminal 1 is picked up by the supply chuck 41 of the supply part 40, and the terminal 1 is supplied in the next process.

At this time, when the terminal 1 for supplying the curved portion 11 from the linear feeder 10 while falling down is seated on the support 30, the supply chuck 41 is provided when the pin-shaped terminal 1 is seated in position. If the terminal is transferred to 40 and is not seated in the correct position, it is dropped from the supply chuck 41 to the discharge part 50 to prevent a defect.

In this way, if the terminal is dropped, the defect is reduced, but the time loss occurs that decreases the amount supplied compared to the time, and if the time loss occurs when the working time is delayed from the terminal supply, which is the initial process, the production amount due to the huge time loss is accumulated as the process is accumulated. There was this decreasing issue.

The present invention has been made to solve the above-described problems, the object of the present invention is to provide a terminal terminal supply device for supplying a terminal, when the terminal falls along the curved portion aligned with the alignment chuck of the alignment unit, the correct position It is to provide a terminal aligning device for the condenser to increase the productivity by minimizing the time loss at the time of supply.

1 is a front view showing a terminal supply device for a capacitor according to the prior art.

Figure 2 is a front view showing a terminal alignment device for a capacitor according to the present invention.

Figure 3 is a side view showing a terminal alignment device for a capacitor according to the present invention.

Explanation of symbols on the main parts of the drawings

1: terminal 100: terminal alignment device

10 linear feeder 11 curved portion

20: alignment unit 21: alignment chuck

22: adjusting piece 23: adjusting shaft

24: spring 25: camshaft

30: support part 40: supply part

41: supply chuck 50: discharge part

Accordingly, the condenser terminal aligning device of the present invention is a condenser terminal supply device for supplying terminals to the next step, by separating the terminals one by one with a linear feeder and freely falling through a curved portion having a round and placed in the support portion. When the eccentric camshaft is inserted, the alignment chuck which is opened when it is detached and returns to the alignment position by the elastic force of the spring installed on the upper side is aligned with the adjustment shaft installed to correspond to the adjustment piece protruded in the center. Aligned terminals are picked up by a supply chuck and supplied to the supply as a basic feature of the technical configuration.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a front view showing a terminal alignment device for a capacitor according to the invention, Figure 3 is a side view showing a terminal alignment device for a capacitor according to the present invention.

As shown in FIGS. 2 and 3, in the terminal alignment device for capacitors 100 according to the present invention, in the terminal supply device for supplying the terminal 1, the terminals 1 supplied by the linear feeder 10 one by one are curved portions. When the free fall along (11) is placed in the support portion 30 is arranged to align in the alignment unit 20 is configured to supply from the supply unit 40.

The linear feeder 10 selects the terminals 1 one by one and installs a curved portion 11 to freely fall while minimizing the impact of the terminals 1 in a round shape to supply the terminals 1.

The alignment unit 20 is installed in the alignment chuck 21 is divided into two parts of the forceps shape, but the eccentric in the upper portion of the alignment chuck 21 is one side is inserted into the alignment chuck 21, the other side is When the camshaft 25 is installed to be detached and aligned by eccentric rotation to the upper center of the alignment chuck 21 at a length separated from the alignment chuck 21, the cam shaft 25 is installed at both ends of the upper side of the alignment chuck 21. The alignment chuck 21 holding the terminal 1 alignment position is opened by the elastic force of the spring 24.

In this way, when the alignment chuck 21 is opened, when the terminal 1 passing through the linear feeder 10 and the curved portion 11 is placed in the support portion 30, the eccentric camshaft 25 rotates to the separation position while the alignment chuck 21 When deviating from the) the alignment chuck 21 is returned to the alignment position by the elastic force of the spring 24 to align the terminal 1, but the adjustment shaft 23 is fixed in a cylindrical shape installed in the center of both sides of the alignment chuck 21 Protruding inwardly in the center of the alignment chuck 21 to support the adjusting piece 22 installed to correspond to the control shaft 23 while maintaining the interval of the terminal (1) to prevent damage due to excessive alignment.

The supply unit 40 picks up the terminals 1 arranged in the alignment unit 20 to the supply chuck 41 and supplies the next process.

Referring to the operation of the present invention formed in the above and configuration as follows.

First, when the terminals 1 are sorted one by one in the linear feeder 10 and free fall along the curved portion 11 and are seated on the support portion 30, the cam shaft 25 of the alignment portion 20 is aligned on the other side of the alignment chuck 21. To release the alignment chuck 21 by rotating it in an eccentric part so that it does not touch), and when the aligning chuck 21 is opened back to the terminal 1 alignment position due to the elasticity of the spring 24, it is suitable for the size of the terminal 1. The adjustment pieces 22 protruding to both sides of the alignment chuck 21 abut so as to correspond to the control shaft 23 at intervals to align the terminal 1.

In this way, when the alignment is finished, the camshaft 25 is rotated to one side eccentrically so as to be inserted into the alignment chuck 21 so that the supply chuck 41 picks up the terminal 1 released by the alignment chuck 21. To supply.

The condenser terminal aligning device of the present invention is a condenser terminal supply device for supplying a terminal. When the terminal falls along the curved portion, the terminal is aligned with the alignment chuck of the alignment portion and supplied at the correct position, thereby minimizing the time loss during the supply and improving productivity. Provide an increasing effect.

Claims (1)

In the terminal supply device for a capacitor for supplying the terminal 1 to the next step, The terminal 1 is separated by one by the linear feeder 10 and freely falls through the curved portion 11 having a round, and is placed in the support portion 30. When the eccentric cam shaft 25 of the alignment portion 20 is inserted, the gap is opened. When it is separated, the alignment chuck 21 which returns to the alignment position by the elastic force of the spring 24 installed on the upper part of the terminal 1 is provided with the adjustment shaft 23 installed so as to correspond to the adjustment piece 22 protruded in the center. Arranging the terminal (1) while maintaining the spacing terminal arrangement for a capacitor, characterized in that the terminal (1) is picked up by the supply chuck 41 and supplied to the supply unit (40).