KR200196323Y1 - Adhesive heating device for coating material applicator - Google Patents

Abstract

The present invention relates to an adhesive heating device of the coating material applying apparatus, and more particularly, to an apparatus for heating the adhesive container containing the adhesive to a predetermined temperature to cure the adhesive within a short time.

The present invention is to install an adhesive container provided with a valve in a predetermined place of the guide pipe connected to the nozzle and the compressor, the outer periphery of the adhesive container is installed by winding an induction coil, both ends of the induction coil temperature control The device is connected to the induction heat oscillator installed, and the thermocouple is connected to the induction heat oscillator and the heat transfer rod installed in the adhesive container.

The adhesive container is to distinguish between the inner cylinder and the outer cylinder, it is to install a diaphragm in the center for heat transfer to the inner cylinder and the outer cylinder.

Description

Adhesive heating device for coating material applicator

The present invention relates to an adhesive heating device of the coating material applying apparatus, and more particularly, to an apparatus for heating the adhesive container containing the adhesive to a predetermined temperature to cure the adhesive within a short time.

In general, when coating the wear-resistant material by a mixture of ceramic and epoxy adhesive, a guide tube 60 for guiding the adhesive to the nozzle 90 is provided at one rear side of the nozzle 90 as shown in FIG. It is connected to the compressor (30) by using, and the other side is connected to the guide tube 50, which is provided with a ceramic powder container 70 for supplying the ceramic powder as a coating material, but also at the end of the guide tube 50 It is made by installing the compressor 40 which can apply pressure.

In the conventional coating material coating apparatus configured as described above, since the adhesive and the ceramic powder are sprayed through the nozzle 90 in the air temperature, the curing time of the adhesive is required for a long time.

In addition, the coating of the coating material by the conventional coating material coating device is to mix the adhesive consisting of a ceramic powder and the main material and the curing agent of several hundred ㎛ size to attach to the material 10 to improve the wear resistance, the adhesive is the main material and the curing agent Since the curing time is required at least one day (24 hours) because it is cured at room temperature, the curing time is excessively excessive, resulting in enormous obstacles in productivity improvement.

The present invention was devised to solve the problems in view of the above problems, and the object of the present invention is to provide an adhesive heating device that allows the wear-resistant coating material to be cured in a quick time by heating the adhesive to a predetermined temperature. It is.

A feature of the present invention having such a purpose is to install an adhesive container provided with a valve at a predetermined place of a guide tube connected to a nozzle and a compressor, and to the outer periphery of the adhesive container by winding an induction coil, Both ends of the inductor were connected with an induction heat oscillator installed with a thermostat. The thermocouple was connected with an induction heat oscillator and a heat transfer rod installed in an adhesive container.

The adhesive container is to distinguish between the inner cylinder and the outer cylinder, by installing a diaphragm in the center for heat transfer to the inner cylinder and the outer cylinder.

1 is a conventional coating material coating device configuration.

2 is a block diagram of the coating material coating device of the present invention.

Figure 3 is an excerpt perspective view of the adhesive heating device of the coating material coating device of the present invention.

Figure 4 is a cross-sectional view of the adhesive heating device of the coating material coating device of the present invention.

* Explanation of symbols for main parts of the drawings

A: adhesive heating device 81: induction coil

80: adhesive container 82: outer cylinder

83: inner cylinder 84: heat transfer rod

85: thermocouple 86: induction oscillator and temperature control device

87: valve 88: plate

The rear side of the nozzle 90 was connected to the compressor 40 by using the guide tube 50, the adhesive container 80 is installed,

In the conventional coating material coating apparatus that is connected to the compressor 30 by using the guide tube 60, the ceramic powder container 70 is installed on the other rear side of the nozzle 90,

It is formed into the outer cylinder 82 and the inner cylinder 83, the heat transfer rod 84 is installed in the center of the inner cylinder 83, the outer cylinder 82 and the inner cylinder 83 and the heat transfer rod ( 84, the central portion of the adhesive container 80 by installing a diaphragm 88 for heat transfer,

The outer cylinder 82 of the adhesive container 80 is induction coil 81 wound up from the top to the bottom for heat transfer;

An induction heat oscillator 86 having a temperature control device installed at both ends of the induction coil 81 wound on the outer cylinder 82 to connect a predetermined temperature;

The upper end of the heat transfer rod (84) consists of a thermocouple (85) installed to transfer heat generated from the induction oscillator (86) to form an adhesive heating device (A).

According to the present invention, when the induction heat oscillator 86 in which the temperature control device is installed as shown in FIGS. 2 and 3 and 4 is operated, the adhesive container (by the induction coil 81 connected to the induction heat oscillator 86) 80, the adhesive was heated inside, the temperature control is made by a temperature control device (not shown) installed in the induction heat oscillator 86.

When the adhesive reaches the proper temperature in this manner, when the valve 87 is opened and the compressor 40 is operated, pressurized air is generated, and the heated adhesive is transferred to the nozzle 90 by the pressurized air.

At the same time, when the compressor 30 on the other side is operated so that the ceramic powder contained in the ceramic powder container 70 is transferred to the nozzle 90, the adhesive agent and the ceramic powder are mixed at the nozzle 90 to the surface of the material 10. It is applied while being sprayed to form a coating layer (20).

On the other hand, the manner in which the adhesive is heated in the adhesive container 80 is as follows.

Since the adhesive itself does not flow, direct heating by the induction coil 81 is difficult.

Therefore, in the present invention, after filling the adhesive in the adhesive container 80 having a multilayer structure consisting of the outer cylinder 82, the inner cylinder 83, the heat transfer rod 84 and the diaphragm 88, the induced heat oscillator 86 is In operation, the adhesive is heated by the heat generated by the heat. On the other hand, the adhesive consisting of the main agent and the curing agent is a hardening reaction occurs quickly once heated, so that the curing action of the adhesive applied to the material 10 is accelerated to be cured in minutes with the ceramic powder.

In addition, induction heating by using the induction coil 81, the heating time is short, the working time is shortened by that much.

Curing time by heated spray depends on temperature, but curing temperature is about 60-100 ℃.

If the temperature is 60 ℃ or less it takes 20 minutes or more to cure, if the curing temperature is 100 ℃ or more, the curing time is reduced to 5 minutes or less can be cured too quickly in the nozzle, it is better to be below 100 ℃.

Hereinafter, the present invention will be described in detail through examples.

Example 1

The adhesive used in this example was epoxy based and the powder was alumina.

Table 1 shows the experimental results, as can be seen from the table, as the curing temperature increases from 60 ° C. to 100 ° C., the curing time is shortened from 20 minutes to 5 minutes.

As described above, the device according to the present invention has an effect of shortening the working time because the curing time is reduced compared to the room temperature curing spray device.

Claims (1)

The rear side of the nozzle 90 is connected to the compressor 40 by using the guide tube 50, the adhesive container 80 is installed, and the ceramic powder container 70 is installed on the other rear side of the nozzle 90 In the conventional coating material applying apparatus, which is connected to the compressor (30) by using the pipe (60), formed of an outer cylinder (82) and an inner cylinder (83), the center of the inner cylinder (83) The moon rod 84 is installed, the outer cylinder 82, the inner cylinder 83, and the center portion of the continuous transfer rod 84, the adhesive container 80 by installing a diaphragm 88 for heat transfer, and the adhesive container ( 80 is transferred to the outer cylinder 82 of the induction coil 81 wound up from the top to the bottom for heat transfer, and a predetermined temperature is transmitted to both ends of the induction coil 81 wound on the outer cylinder 82. Induction heat oscillator 86 and the heat transfer rod 84 of which the thermostat is installed End portion, and an adhesive heating apparatus of the coating application device, characterized in that the hayeoseo induction consists of a thermocouple (85) provided to transfer the heat generated from the heat oscillator 86 is formed of an adhesive heating apparatus (A).