KR200173823Y1 - Structure for soldering - Google Patents

Abstract

The present invention relates to a lead bath structure, the housing 110 made of sus material having an opening 111 opening the upper portion, and the asbestos plate 121 is attached to the outer surface of the housing 110 before, after, left, Insulating part 120 is installed on the outer surface of the right asbestos plate 121 at regular intervals, and another asbestos plate 121 is inserted between the guide plates 122 and the bottom surface of the housing 110. A heat conduction suppression unit 130 having a `` c '' shaped frame 131 on the left and right sides and a support plate 134 installed at the lower side of the frame 131 before and after, and a support plate of the heat conduction suppression unit 130 ( 134 is formed on the upper surface of the base 150 and the heater 150 for melting the lead introduced through the housing 110 to improve the thermal efficiency of the lead bath to suppress the waste of thermal energy and to operate the heater Energy saving by maximizing heating efficiency and maximizing heating temperature This has the effect of paper and which, due to facilitate the soldering operation in an automated process.

Description

Bath tub structure

The present invention relates to a lead bath structure, and more particularly, to a lead bath structure to maintain the temperature of the bath tank constant for a long time and to minimize the use of a heater.

In general, the lead bath is to melt the lead to maintain the liquid state to perform the soldering of the material.

1 is a block diagram showing a conventional bath.

As shown in FIG. 1, the conventional bath 100 is mounted with a post 135 on a base 150 and a housing 110 having an upper portion of a sus material opened at an upper end of the post 135. Asbestos plate 121 is attached to the outer circumferential surface of the substrate 100 to insulate and insulate the heater 140 through the housing 110.

In the conventional bath tub 100, the lead is inserted into the opening 111 of the housing 110 and the heater 140 is operated to heat the inside of the housing 110, whereby lead gradually melts into a liquid state.

Here, the temperature in the housing 110 is about 470 degrees, and this is insulated by the asbestos plate 121 attached to the outer circumferential surface of the housing 110, and the post 135 is installed at a predetermined height to minimize heat conduction to the base 150. It was made.

However, the conventional bath tub 100 is insulated only by the asbestos plate 121 attached to the outer circumferential surface of the housing 110, and the heat of the housing 110 is transferred to the base 150 through the post 135. By over-conducting, the heater 140 continuously operates to maintain the temperature of the solder bath 100, which significantly lowers the heating efficiency, and has a problem in that the temperature of the solder bath 100 is constantly maintained.

Therefore, the main purpose of the present invention is to improve the thermal efficiency of the lead bath to suppress the waste of thermal energy.

Another object of the present invention is to minimize the operation of the heater for heating the lead bath to save energy and maximize the heating efficiency.

Another object of the present invention is to minimize the thermal conductivity of the lead bath to suppress the waste of thermal energy to maintain a constant temperature of the bath tank and thereby to facilitate the soldering operation in the automated process.

1 is a configuration diagram showing a conventional bath.

Figure 2 is a plan view showing the lead of the present invention.

Figure 3 is a perspective view of the lower part of the tank of the present invention.

* Explanation of symbols for main parts of the drawings

100: lead tank 110: housing

111: opening 120: heat insulation

121: asbestos plate 122: guide plate

123: protrusion 130: heat conduction inhibiting unit

131: frame 132: home

133: asbestos 134: support plate

135: post 140: heater

150: base

In order to achieve the above object, the lead bath of the present invention has a housing made of a sus material having an opening with an upper opening, and an asbestos plate attached to an outer surface of the housing, and two guide plates on the outer surface of the left and right asbestos plates. A heat insulation part installed at regular intervals and inserting an asbestos plate between the guide plates; A technical feature of the technical configuration is that the base plate is provided with a support plate on the upper surface of the suppressor and a heater for melting lead introduced through the housing.

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

Figure 2 is a plan view showing a solder tank of the subject innovation, Figure 3 is a perspective view showing the lower part of the solder tank of the subject innovation.

As shown in FIG. 2 and FIG. 3, the lead bath 100 of the present invention has a housing 110 made of a sus material having an opening 111 opening an upper portion thereof, and an asbestos plate 121 on an outer surface of the housing 110. A) and then, before and after, the left and right asbestos plate 121 is installed on the outer surface of the two guide plates 122 at regular intervals to insert another asbestos plate 121 between the guide plate 122, the heat insulating part 120 And a heat conduction suppression unit 130 having a `` c '' shaped frame 131 on the left and right sides of the housing 110 and supporting plates 134 back and forth on the lower side of the frame 131, It consists of a base 150 having the support plate 134 of the heat conduction inhibiting unit 130 on the upper surface, and a heater 150 for melting lead introduced through the housing 110.

The heat insulation part 120 is formed by extending the guide plate 122 downward to project the protrusion 123 inward to the inner guide plate 122 inward groove 132 formed in the frame 131 of the heat conduction inhibiting unit 130. To be inserted).

The upper and lower lengths of the inner and outer guide plates 122 are the same, and the outer guide plate 122 is fastened to the inner guide plate 122 by a fastening means.

The guide plate 122 maintains a slight gap with the base 150 to improve the thermal insulation effect.

The heat conduction inhibiting unit 130 is formed by inserting the asbestos 133 in the front and rear directions between the left and right frames 131.

Referring to the operation of the present invention is as follows.

The lead bath 100 is heated by the operation of the heater 140 to melt lead and keep it in a molten state.

Here, asbestos plate 121 is attached to the outer surface of the housing 110 and another asbestos plate 121 is inserted between the two guide plates 122 on the outer surface of the front and rear, right and left asbestos plates 121 to maximize the thermal insulation effect. do.

In addition, by installing the support plate 134 back and forth under the frame 131 of the housing 110 to minimize contact with the base 150 and insert asbestos 133 between the left and right frames 131 to suppress heat conduction. .

As described above, the subject innovation is a housing 110 of a sus material having an opening 111 having an upper opening, and an asbestos plate 121 attached to an outer surface of the housing 110 before, after, left, Insulating part 120 is installed on the outer surface of the right asbestos plate 121 at regular intervals, and another asbestos plate 121 is inserted between the guide plates 122 and the bottom surface of the housing 110. A heat conduction suppression unit 130 having a `` c '' shaped frame 131 on the left and right sides and a support plate 134 installed at the lower side of the frame 131 before and after, and a support plate of the heat conduction suppression unit 130 ( 134 is formed on the upper surface of the base 150 and the heater 150 for melting the lead introduced through the housing 110 to improve the thermal efficiency of the lead bath to suppress the waste of thermal energy and to operate the heater Minimize energy saving to maximize heating efficiency and keep the temperature of the bath tank constant It is effective in maintaining and smoothing soldering work in an automated process.

Claims (3)

Insulation housing is made of sus material with an upper opening, and asbestos plates are attached to the outer surface of the housing, and two guide plates are installed on the outer surface of the front, back, left and right asbestos plates at regular intervals to insert another asbestos plate between the guide plates. A heat conduction suppression unit having a `` c '' shaped frame on the left and right sides of the housing and a support plate on the lower side of the housing, and a base having the support plate on the upper surface of the heat conduction suppression unit; A lead bath structure comprising a heater for melting lead introduced through it. According to claim 1, wherein the heat insulating portion is formed by extending the guide plate to the lower side to project the projection inward to the inner guide plate is coupled to be inserted into the groove formed in the frame of the heat conduction inhibiting portion and the upper and lower length of the inner and outer guide plate is the same fastening means By fastening the outer guide plate to the inner guide plate by coupling, the lower end structure of the lead tank structure, characterized in that configured to maintain a slight gap in the base. The lead bath structure according to claim 1, wherein the heat conduction inhibiting portion is formed by inserting asbestos in the front-rear direction between the left and right frames.