KR20230146854A - Used solder regeneration device - Google Patents

Abstract

The present invention relates to a waste lead recycling device, which includes a housing having a space formed therein and spaced at a certain height from the floor by a support member mounted at the bottom, which is detachably mounted inside the housing, the top of which is open, and the bottom of the housing. A heating chamber is formed with an outlet and has a space inside for receiving waste lead, a hopper mounted on the top of the heating chamber, a heater mounted on the outer periphery of the heating chamber to heat the waste lead accommodated inside the heating chamber, and the heating chamber. A temperature sensor is installed on the outer periphery of the chamber to measure the temperature of the heating chamber, and is detachably provided at the lower part of the housing, and is disposed at the lower part of the heating chamber and a collection box to receive the spent lead melt melted inside the heating chamber. And a control unit for controlling the heater based on the temperature value of the heating chamber measured by the temperature sensor. The present invention has the notable effect of making the heating chamber easily removable from the inside of the housing, making it easy to clean and maintain. There is.

Description

Waste lead recycling device {USED SOLDER REGENERATION DEVICE}

The present invention relates to a waste lead recycling device, and more specifically, to a waste lead recycling device that heats and melts waste lead (lead oxide) generated from a wave soldering machine to separate lead and oxide.

In general, various electronic products are equipped with a printed circuit board (hereinafter abbreviated as 'board') on which various elements are mounted by soldering.

Soldering a board is typically done by applying a solvent to the area to be soldered in a separate preprocessing process before the soldering process, and then soldering the area in the subsequent soldering process.

A soldering device according to the prior art includes, for example, a soldering tank in which liquid lead is stored, a nozzle installed inside the soldering tank along the transfer direction of the substrate to solder the device by eluting lead toward the substrate (chip attached to the substrate) (can be divided into a nozzle for soldering and a nozzle for soldering general components attached to the board), one or more impellers for supplying lead stored inside the soldering tank to the nozzle side, and a device for melting the lead stored in the soldering tank. It consists of a heater.

According to the soldering device according to the prior art, liquid lead stored in the soldering tank is eluted through the nozzle toward the substrate and soldering is performed. Not all of the lead eluted toward the substrate is soldered, and some of the lead falls back into the soldering tank.

At this time, the lead that falls into the soldering tank comes into contact with air and natural oxidation occurs. In particular, since the molten lead elutes to a certain height through the nozzle and then falls again, a large amount of oxide falls without being substantially soldered. This occurs.

The oxide that naturally occurs during soldering floats on the liquid side of the molten lead in the soldering tank, so when the oxide is removed, a large amount of lead and impurities are mixed. Therefore, in recent years, lead has been extracted from the lead oxide generated during soldering of the board. Reuse technology has been proposed.

However, the conventional waste lead recovery device had problems in that it was difficult to withdraw the recycled lead to the outside after the lead recovery was completed, and it was difficult to remove impurities (dross) inside the heating tank, making the work inefficient.

Republic of Korea, Registered Patent Publication No. 10-0722144

The present invention was developed to solve this problem, and aims to provide a waste lead recycling device that is easy to clean by providing a heating chamber that is easily removable from the inside of the housing.

The present invention relates to a waste lead recycling device, which includes a housing having a space formed therein and spaced at a certain height from the floor by a support member mounted at the bottom, which is detachably mounted inside the housing, the top of which is open, and the bottom of the housing. A heating chamber is formed with an outlet and has a space inside for receiving waste lead, a hopper mounted on the top of the heating chamber, a heater mounted on the outer periphery of the heating chamber to heat the waste lead accommodated inside the heating chamber, and the heating chamber. A temperature sensor is installed on the outer periphery of the chamber to measure the temperature of the heating chamber, and is detachably provided in the lower part of the housing, and is disposed in the lower part of the heating chamber and a collection box to receive the spent lead melt melted inside the heating chamber. and a control unit for controlling the heater based on the temperature value of the heating chamber measured by the temperature sensor.

Additionally, the hopper is provided to be detachable from the heating chamber.

Additionally, the support member of the housing is characterized in that its height is adjustable.

In addition, a partition wall is installed inside the housing to divide the internal space of the housing, and the partition wall secures a space between the heater and the control unit.

In addition, a first through-hole is formed on the upper surface of the housing, and the heating chamber is introduced into or out of the housing through the first through-hole.

Therefore, in the present invention, the heating chamber is provided to be easily detachable from the inside of the housing, making it easy to clean and efficiently recovering recycled lead, as well as having a simple structure, which has the remarkable effect of reducing minor breakdowns, lower initial costs, and easy management.

1 is a perspective view of a waste lead recycling device according to the present invention.
Figure 2 is a bottom perspective view of the waste lead recycling device according to the present invention.
Figure 3 is a perspective view of the waste lead recycling device according to the present invention with the cover removed.
Figure 4 is a front view of Figure 3.
Figure 5 is a bottom perspective view of Figure 3.

Hereinafter, the technical idea of the present invention will be described in more detail using the attached drawings.

The attached drawings are only an example to explain the technical idea of the present invention in more detail, so the technical idea of the present invention is not limited to the form of the attached drawings.

Figure 1 is a perspective view of a spent lead recycling device according to the present invention, Figure 2 is a bottom perspective view of the spent lead recycling device according to the present invention, and Figure 3 is a perspective view of the spent lead recycling device according to the present invention with the cover removed.

As shown in Figures 1 to 3, the waste lead recycling apparatus 100 according to the present invention includes a housing 120, a collection box 130, a heating chamber 140, a hopper 150, a heater 160, and a control unit. Includes (180).

First, the housing 120 is an element that constitutes the exterior of the device according to the present invention.

The housing 120 is a hexahedron with a space formed inside, and some sections are opened and closed by a removable cover to facilitate management of components mounted inside the housing.

A heating chamber 140, a heater 160, and a control unit 180, which will be described later, are mounted inside the housing, and a plurality of heat dissipation holes H are formed in the housing to dissipate heat generated inside the housing.

Additionally, as shown in FIG. 3, a partition wall 122 is formed inside the housing 120 to divide the internal space of the housing.

The partition wall 122 is an element to secure a space between the heater 160 and the control unit 180 mounted inside the housing to minimize the transfer of heat generated from the heater to the control unit.

In more detail, the partition wall 122 is installed vertically inside the housing, and a pair of the partition walls 122 are spaced apart from each other at a certain distance on the left and right, so that the internal space of the housing is divided into three.

In addition, a bottom frame 124 is coupled to the lower part of the partition wall 122 in a direction crossing the partition wall, and serves as the bottom surface of the housing, thereby allowing the heater and the control unit to be installed in the space above.

In the present invention, among the three spaces formed inside the housing with reference to FIG. 3, a heater and a control unit are mounted on the left and right spaces, respectively, and the space formed in the middle is left empty to block the heat generated from the heater more efficiently. .

In the present invention, as an embodiment of the housing, the lower part of the housing is opened and a separate bottom frame 124 is provided so that the heater and the control unit are installed inside the housing. However, this means that the heat generated from the heater 160 is This is only intended to minimize transmission to parts, and is not limited to the present invention.

In addition, support members 126 are installed at each of the four corners of the bottom of the housing 120 to maintain the housing spaced at a certain height from the floor, and the support members 126 are provided to allow height adjustment. It can be.

Meanwhile, a removable collection box 130 is mounted on the lower part of the housing.

The collection box 130 is a hexahedron with an open top and a space formed inside, and is an element that provides a space to accommodate molten waste lead (lead oxide) inside the heating chamber 140, which will be described later.

A handle is formed on the collection box 130 to allow the user to easily withdraw and retract the collection box.

Next, the heating chamber 140 is detachably placed inside the housing.

The heating chamber 140 is a space for accommodating waste lead. A hopper 150 is mounted on the upper part of the heating chamber, and a heater 160 is installed on the outer periphery of the heating chamber to heat the waste lead stored inside the heating chamber. ) is installed, and a collection box 130 is placed at the bottom of the heating chamber.

Figure 4 is a front view of the waste lead recycling apparatus according to the present invention with the cover removed, and Figure 5 is a bottom perspective view of the waste lead recycling apparatus according to the present invention with the cover removed.

As shown in FIG. 4, the heating chamber is provided in a cylindrical shape, the upper surface is open, and a space portion for accommodating waste lead is formed therein.

In addition, as shown in FIG. 5, a plurality of outlets 142 are formed on the bottom of the heating chamber for discharging the spent lead melt, and the spent lead melt discharged through the outlets 142 is stored inside the collection box 130. It is saved.

The waste lead melt is melted inside the heating chamber, and foreign substances remaining inside the heating chamber are removed through a separate cleaning process, so the heating chamber has a simple structure and is detachable from the housing.

In the present invention, in order to easily attach and detach the heating chamber from the housing, a first through hole (not indicated) is formed on the upper surface of the housing corresponding to the upper part of the heating chamber, and a first through hole (not indicated) is formed in the floor frame corresponding to the lower part of the heating chamber. A second through-hole (not indicated) was formed, and the heating chamber was introduced into or out of the housing through the first through-hole.

Since the first through hole is an inlet/outlet through which the heating chamber enters and exits the housing, it is preferably formed to be slightly larger than the diameter of the heating chamber.

The second through-hole is intended to allow the waste lead melt discharged through the outlet 142 to be introduced into the collection box 130, and is therefore provided to have a smaller diameter than the lower diameter of the heating chamber so that the heating chamber flows through the second through-hole. Make sure not to deviate from the direction.

In addition, a seating groove is formed in the bottom frame on the side of the second through hole slightly larger than the diameter of the lower side of the heating chamber to ensure that the heating chamber is stably seated on the bottom frame.

And when the waste lead accommodated inside the heating chamber is heated by the heater 160, the user can stir the waste lead by inserting the mix rod 144 into the heating chamber as needed.

The hopper 150 mounted on the upper part of the heating chamber is an element that allows waste lead (lead oxide) to be easily injected into the heating chamber.

The hopper is provided to be detachable from the heating chamber, and the hopper is coupled to the heating chamber by screwing or is detachably provided in various forms such as simple fitting.

A handle 152 is mounted on the outer periphery of the hopper to facilitate removal of the hopper.

In the drawing of the present invention, the handle is shown as extending to the outer periphery of the hopper and bent downward, but this is not limited to the present invention.

Next, the heater is an element for heating the heating chamber to melt the waste lead contained within the heating chamber.

In the present invention, the heater 140 is provided as a ceramic heating element (heating band), but this is not limited to the present invention.

In addition, a temperature sensor (S) is installed on the outer periphery of the heating chamber to detect the temperature of the heating chamber.

When the temperature value of the heating chamber measured by the temperature sensor (S) is less than the value preset by the control unit, the heater operates to heat the heating chamber, and the temperature value of the heating chamber detected by the temperature sensor is transmitted to the control unit. If the value is higher than the preset value, the heater is deactivated.

Lastly, the control unit 180 is for controlling the spent lead recycling device, and the operator turns on/off the spent lead recycling device 100 according to the present invention through the control unit 180 and sets the temperature value of the heating chamber. It can be adjusted.

Therefore, in the present invention, the heating chamber is provided to be easily detachable from the inside of the housing, making it easy to clean and efficiently recovering recycled lead, as well as having a simple structure, which has the remarkable effect of reducing minor malfunctions, lowering initial costs, and being easy to manage.

The foregoing has described, rather broadly, the features and technical advantages of the present invention to enable a better understanding of the claims described below.

Those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing its technical idea or essential features.

Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive.

The scope of the present invention is indicated by the claims described below rather than the detailed description above, and all changes or modified forms derived from the claims and their equivalent concepts should be construed as being included in the scope of the present invention.

100: Waste lead recycling device
120: housing
122: Bulkhead
124: Floor frame
126: Support member
130: Collection box
140: Heating chamber
142: outlet
144: Mix Bong
150: Hopper
152: handle
160: heater
180: control unit
H: Heat dissipation hole
S: temperature sensor

Claims (5)

A housing having a space formed therein and spaced apart from the floor at a certain height by a support member mounted at the lower portion;
A heating chamber that is detachably mounted inside the housing, has an open top, an outlet is formed at the bottom, and a space for accommodating waste lead is formed therein;
A hopper mounted on the top of the heating chamber;
A heater mounted on the outer periphery of the heating chamber to heat the waste lead accommodated inside the heating chamber;
A temperature sensor installed on the outer periphery of the heating chamber to measure the temperature of the heating chamber;
A collection box provided detachably at the lower part of the housing and disposed at the lower part of the heating chamber to receive the spent lead melt melted inside the heating chamber; and
A control unit for controlling the heater based on the temperature value of the heating chamber measured by the temperature sensor.
According to clause 1,
The hopper is,
A waste lead recycling device, characterized in that it is detachably provided in the heating chamber.
According to clause 1,
The support member of the housing is,
A waste lead recycling device characterized by height adjustment.
According to clause 1,
Inside the housing,
A waste lead recycling device characterized in that a partition wall is installed to divide the internal space of the housing, and a space space is secured between the heater and the control unit by the partition wall.
According to clause 1,
A first through hole is formed on the upper surface of the housing,
The waste lead recycling device, wherein the heating chamber is introduced into the housing or pulled out to the outside through the first through hole.