KR102481002B1 - Air control method using heater rod air control structure of hot air welding machine for synthetic resin - Google Patents

Abstract

The present invention relates to an air control method using a heater rod air control structure of a hot air welding device for a synthetic resin to supply air to a heater rod of a hot air welding device for a synthetic resin. More specifically, an auxiliary air tank is provided and air flows into the heater rod through the auxiliary air tank. Accordingly, even if a hot air welding device stops operating, the air remaining in the auxiliary air tank can be used to continuously supply air to the heater rod and cool the heater rod. In addition, by blocking an electric signal of the heater rod and stopping operation thereof when the air supply is cut off, overload damage due to unnecessary operation of a heater is prevented.

Description

Air control method using heater rod air control structure of hot air welding machine for synthetic resin}

The present invention is for supplying air to the heater rod of the hot air welding machine for synthetic resin, and more particularly, the heater of the hot air welding machine for synthetic resin that enables not only air saving but also electricity saving and heater protection through efficient air supply. It relates to an air control method using a bong air control structure.

BACKGROUND OF THE INVENTION In recent years, as leisure activities and hobbies have been actively conducted, various functional clothes or clothes have been widely used. Such various types of coatings are generally required to basically have a waterproof function, and coatings having a waterproof function are produced through waterproof fabrics.

Accordingly, clothes that require waterproofing, such as mountaineering clothes, ski suits, raincoats, jumpers, and hats, are manufactured using the waterproof fabric, so that they can be prepared in case of rain due to the waterproof function while faithfully performing the original function of the cloth.

On the other hand, for this waterproofing function, a hot air welding machine is used. The hot air welding machine welds a waterproof tape to the sewing part of the waterproof fabric using high-temperature hot air, so that the waterproofing of the sewing part vulnerable to waterproofing is completely waterproofed. .

At this time, this hot air welding machine is composed of a roller that is surfaced on the upper and lower surfaces and a heater rod that emits high-temperature heat around the roller. And it is welded by passing between rollers in a state of overlapping the sewing part of the waterproof fabric.

On the other hand, the heater rod for discharging hot air as described above has a heater in the form of a coil built into a housing having a hot air nozzle at the lower end, and an air induction pipe configured to allow air to flow inside the housing, and applies electricity. When the heater is heated and air is supplied at the same time, the air is heated by the heater and discharged to the hot air nozzle.

However, the general hot air welding machine as described above needs to supply air for a certain period of time to cool the heat of the heater when the operation of the hot air welding machine is stopped, resulting in unnecessary consumption of air and waste of power.

In addition, there is a problem in that the lifespan of the heater rod is reduced due to an error in air supply, such as being easily damaged due to an overload of the heater when the supply of air is cut off.

Korean Patent Registration No. 10-1857905. Korean Patent Registration No. 10-1455000.

The present invention was devised to solve the above problems, and by providing an auxiliary air tank and configuring the air to flow into the heater rod through the auxiliary air tank, even if the operation of the hot air welding machine is stopped, the remaining in the auxiliary air tank It is an object of the present invention to provide an air control method using a heater rod air control structure of a hot air welding machine for synthetic resin to continuously supply air to the heater rod using air and cool the heat of the heater rod.

In addition, an air control method using a heater rod air control structure of a hot air welding machine for synthetic resin to prevent overload damage due to unnecessary heater operation by configuring to block the electric signal of the heater rod and stop the operation when the supply of air is cut off. It is an object of the present invention to provide.

As a specific means for achieving the above object, in the heater rod air control method of a hot air welding machine for synthetic resin having a heater rod for receiving, heating and discharging air,

Temperature setting unit for measuring the temperature setting and working temperature of the hot air;

An air compressor formed in the compressor room and having an air tank;

an auxiliary air tank for storing air supplied from the air tank and supplying the air to a heater rod;

A first air pipe connecting the air tank and the auxiliary air tank to supply air, and having a solenoid valve, a first pressure switch, an air filter, and a check valve formed thereon from the side of the air tank;

a second air pipe connecting the auxiliary air tank and the heater rod to supply air to the heater rod, and having an air amount control valve, a gauge, and a second pressure switch formed thereon from the side of the auxiliary air tank; and

Using the heater rod air control structure of the hot air welding machine for synthetic resin, which forms a power controller that is connected to the temperature setting unit to receive a signal, is connected to the first pressure switch and the second pressure switch to receive a switch signal, and controls power to the heater rod. but
The first pressure switch,
When the operation of the air compressor drops below the set pressure that can be operated by stopping the operation of the air compressor, a signal is transmitted to the power controller and the power of the heater rod is cut off,
In the auxiliary air tank,
This can be achieved by supplying stored air to the heater rod and cooling the heater rod.

As described above, the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention is configured so that a certain amount of air is always stored in the auxiliary air tank in the process of supplying air, even if the operation of the hot air welding machine is stopped. A certain amount of air can be continuously supplied and the heat of the heater can be cooled, so that the effect of saving air and preventing power loss during the operation of the air compressor can be obtained.

In addition, since the pressure sensor is configured to block the air supply pressure and electrical signal, the operation of the heater rod is quickly blocked when the air supply is blocked due to an operation error of the air compressor, thereby protecting the heater rod. It is possible to obtain an effect that can extend the life of the heater rod, such as by doing so.

1 is a perspective view showing a hot air welding machine for synthetic resin having a heater rod air control structure of the hot air welding machine for synthetic resin of the present invention.
Figure 2 is a simplified view of the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention.
Figure 3 is an air supply state diagram of the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention.
Figure 4 is an embodiment of the air supply cutoff state of the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention.
Figure 5 is an embodiment of the air supply cutoff state of the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention.

The terms or words used in this specification and claims should not be construed as being limited to ordinary or dictionary meanings, and the inventors may appropriately define the concept of terms in order to explain their invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that there is.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, so that they can be substituted at the time of this application. It should be understood that there may be many equivalents and variations.

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

1 is a perspective view showing a hot air welding machine for synthetic resin having a heater rod air control structure of the hot air welding machine for synthetic resin of the present invention, and FIG. 2 is a simplified view of an air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention .

As shown in FIGS. 1 and 2, the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin according to the present invention is applied to the hot air welding machine 1 for synthetic resin having a heater rod 10 for receiving, heating, and discharging air. It is constructed to enable protection of the heater rod 10 and power saving through improved air supply.

To this end, the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention includes a temperature setting unit 100, an air compressor 200, an auxiliary air tank 300, and a first air pipe 400 ), the second air pipe line 500, and the power controller (TPR) 600, using the heater rod air control structure of the hot air welding machine for synthetic resin.

First, in the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention, the temperature setting unit 100 sets the appropriate hot air temperature required for the operation of the heater rod 10 and the temperature sensor (not shown in the drawing). shown) is formed to measure the actual temperature of the hot air, and is configured to operate "ON/OFF".

In addition, the temperature setting unit 100 is configured to transmit an operation start signal according to the temperature setting and the measured temperature to the power controller 600 to be described later.

The air compressor 200 is configured to generate compressed air in the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention.

To this end, in the present invention, the air compressor 200 is not newly implemented, but is built in an integrated compressor room for supplying air to a plurality of conventional hot air welding machines to generate compressed air, preferably generated air It is configured to have an air tank 210 capable of storing.

In the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention, the auxiliary air tank 300 supplies air generated in the air compressor 200 to the heater rod 10. is configured to be passed through and stored, for example, air that can be supplied for about 20 to 30 seconds will be stored.

To this end, in the present invention, the auxiliary air tank 300 is configured separately from the air tank 210 and is configured to be mounted on the hot air welding machine 1, and even if the operation of the air compressor 200 is stopped, the stored air It is configured to continuously supply and cool the heater rod 10 to the heater rod 10 .

The first air pipe 400 supplies air from the air tank 210 to the auxiliary air tank 300 in the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin according to the present invention.

To this end, the first air pipe 400 is composed of a normal air hose and is configured to connect the air tank 210 and the auxiliary air tank 300.

Meanwhile, in the present invention, the first air pipe 400 is configured to control the air supplied to the auxiliary air tank 300, and first, the air flow of the first air pipe 400 from the air tank 210 side. A solenoid valve 410 for opening and closing is configured.

At this time, the solenoid valve 410 is opened when the power of the hot air welding machine 1 or the power of the temperature setting unit 100 is "ON" to enable air flow, and is closed when "OFF" to cut off the supply of air. It consists of

In addition, the first pressure switch 420 is configured in the rear side of the solenoid valve 410 in the first air duct 400, and the first pressure switch 420 is the pressure of the air flowing through the first air duct 400. is configured to measure

At this time, the first pressure switch 420 is configured to be signal-connected to the power controller 600 to be described later, and detects when the supply of air is cut off due to the stop of the air compressor 200, and the detected signal is transmitted to the power controller 600 to be described later to cut off the power of the heater rod 10.

In addition, an air filter 430 capable of filtering air supplied to the rear side of the first pressure switch 420 is configured in the first air pipe 400 .

In addition, a check valve 440 is configured in the first air pipe 400 to prevent the air supplied to the auxiliary air tank 300 from flowing backward toward the air compressor 200 through the rear side of the air filter 430. do.

The second air conduit 500 is configured to supply air stored in the auxiliary air tank 300 to the heater rod 10 in the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention. do.

To this end, the second air conduit 500 is composed of a normal air hose and is configured to connect the auxiliary air tank 300 and the heater rod 10.

On the other hand, in the present invention, the second air pipe 500 is configured to control the air supplied to the heater rod 10, and first, the air amount control valve 510 is configured and supplied from the side of the auxiliary air tank 300 It is configured to be able to adjust the amount of air to be used.

In addition, a gauge 520 is configured at the rear side of the air amount control valve 510 in the second air pipe 500, and a display output of the air supply amount is configured to be possible through the gauge 520.

In addition, a second pressure switch 530 is configured in the rear side of the gauge 520 in the second air pipe 500, and the second pressure switch 530 controls the pressure of air flowing through the second air pipe 500. configured to measure.

At this time, the second pressure switch 530 is configured to control the operation of the heater rod 10 by signal connection with the power controller 600 to be described later.

To this end, the second pressure switch 530 transmits a signal to the power controller 600 when the pressure of the air supplied from the auxiliary air tank 300 reaches a workable pressure. Accordingly, the power controller 600 The heater rod 10 is operated.

The power controller 600 is configured to control the safe operation of the heater rod 10 in the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention.

To this end, the power controller 600 is connected to the temperature setting unit 100 and is configured to receive the hot air temperature of the heater rod 10 .

In addition, the power controller 600 is connected to the first pressure switch 420 and the second pressure switch 530 to control the operation of the heater rod 10 .

Accordingly, the power controller 600 operates the heater rod 10 by detecting when the supply pressure of the air capable of operation is measured by the second pressure switch 530 .

In addition, the power controller 600 detects when the air pressure supplied by the first pressure switch 420 drops to an unworkable pressure, and stops the operation of the heater rod 10 .

In addition, the power controller 600 receives the temperature setting and work preparation signal of the temperature setting unit 100, and in the process of operating the heater rod 10, the temperature setting unit 100 raises or exceeds the set temperature. When the drop is detected, the signal is received and the power of the heater rod 10 is turned “ON” or “OFF”.

Hereinafter, the operation of the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention having the above configuration will be described in detail with reference to the accompanying drawings.

First, in the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention, looking at the air supply and heater rod operating state,

In order to drive the hot air welding machine 1 with reference to FIG. 3, first, the power of the hot air welding machine 1 is “ON” and the air compressor 200 is operated.

Thereafter, it operates for generating hot air, but first, the temperature setting unit 100 is operated to set the temperature of the hot air required for work, and the power is “ON” to transmit a work preparation signal to the power controller 600, Accordingly, the power controller 600 receives and stores the signal from the temperature setting unit 100 as described above.

In addition, the power controller 600 receives the signal of the second pressure switch 530, and substantially operates the heater rod 10 based on the signal of the second pressure switch 530.

In addition, in the temperature setting unit 100, the solenoid valve 410 formed in the first air pipe 400 is opened by the "ON" operation of the power as described above, and the air generated in the air compressor 200 is the first air It is supplied to the auxiliary air tank 300 through the conduit 400.

Accordingly, the air generated when the air compressor 200 is driven is stored in the air tank 210 and supplied to the auxiliary air tank 300 through the first air pipe 400, and at the same time the second air pipe ( 500) to be supplied to the heater rod 10.

At this time, in the present invention, when air is supplied to the second air pipe 500, the second pressure switch 530 measures the air pressure, and when the supplied air pressure reaches the workable pressure, the signal is transmitted to the power controller 600 ) will be sent to

Accordingly, in the power controller 600, based on the signal of the second pressure switch 530, the power of the heater rod 10 is “ON” to operate.

On the other hand, in the present invention, the operation of the heater rod 10 through the power controller 600 according to the signal of the second pressure switch 530 as described above, the heater rod 10 operates in a state in which air is not sufficiently supplied. When this is done, the high-temperature heat is not sufficiently discharged together with the air, and damage such as overloading and disconnection occurs in the heater (not shown in the drawing) of the heater rod 10.

Accordingly, in the present invention, by measuring the pressure of the air supplied through the second pressure switch 530, the operation of the heater rod 10 is possible only when sufficient air is supplied, and thus the operation of the hot air welding machine 1 is possible. let it

That is, in the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention, the heater rod 10 can be operated only in a state in which sufficient air necessary for generating hot air is supplied to the heater rod 10 at all times. By doing so, The heater rod 10 can be protected.

In addition, in the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention, in the process of performing the operation through the operation of the heater rod 10 and the supply of air, the power or When the power of the air compressor 200 is cut off, by supplying air to the heater rod 10 for a certain period of time, safe cooling of the heater rod 10 and unnecessary operation of the air compressor 200 are stopped.

Referring to FIG. 4, first, when the power of the temperature setting unit 100 is "OFF",

The “OFF” signal is transmitted to the solenoid valve 410 formed in the first air pipe 400 and the solenoid valve 410 is closed to cut off the supply of air.

That is, in the present invention, the supply of air is cut off when the power of the hot air welding machine 1 is cut off as described above, so it is possible to prevent unnecessary consumption of air by blocking the supply of air.

At this time, in the present invention, even if the supply of air from the air compressor 200 is blocked as described above, air is stored in the auxiliary air tank 300, and the stored air is prevented from flowing back by the check valve 440. By continuously supplying the heat to the heater rod 10 without interruption through the second air pipe 500, the heat remaining in the heater rod 10 can be cooled in a safe state to protect the heater rod 10.

On the other hand, in the present invention, in addition to turning off the power of the hot air welding machine as described above, even when the power of the temperature setting unit 100 is "OFF", it is possible to save air by naturally blocking the solenoid valve 410 and blocking the supply of air. It would be natural.

In addition, referring to FIG. 5, the hot air welding machine 1 is operated, but when the power of the air compressor 200 is cut off, the supply of air is stopped, so the first pressure switch formed in the first air pipe 400 ( In 420), the pressure drop is sensed.

Accordingly, when the first pressure switch 420 detects that the workable pressure is lower than the set pressure, the signal is transmitted to the power controller 600, and the power controller 600 turns off the power of the heater rod 10 to turn it off. By stopping the operation, overload in a state in which air is not supplied is prevented.

At this time, in the present invention, even if the supply of air from the air compressor 200 is blocked as described above, air is stored in the auxiliary air tank 300, and the stored air is prevented from flowing back by the check valve 440. By continuously supplying the heat to the heater rod 10 without interruption through the second air pipe 500, the heat remaining in the heater rod 10 can be cooled in a safe state to protect the heater rod 10.

As described above, the air control method using the heater rod air control structure of the hot air welding machine for synthetic resin of the present invention can effectively cool the residual heat of the heater rod by using the air stored in the auxiliary air tank even if the power of the hot air welding machine or the air compressor is cut off. Thus, it is possible to protect the heater rod under any circumstances, and in particular, it is possible to prevent waste of power and waste of air due to unnecessary operation.

1: hot air welding machine 10: heater rod
100: temperature setting unit 200: air compressor
210: air tank 300: auxiliary air tank
400: first air duct 410: solenoid valve
420: first pressure switch 430: air filter
440: check valve
500: second air duct 510: air volume control valve
520: gauge 520: second pressure switch
600: power controller

Claims (4)

In the heater rod air control method of a hot air welding machine for synthetic resin having a heater rod 10 for receiving, heating and discharging air,
Temperature setting unit 100 for measuring the temperature setting and working temperature of the hot air;
An air compressor 200 formed in a compressor chamber and having an air tank 210;
an auxiliary air tank 300 receiving air supplied from the air tank 210, storing it, and supplying the air to the heater rod 10;
The air tank 210 and the auxiliary air tank 300 are connected to supply air, and from the side of the air tank 210, the solenoid valve 410, the first pressure switch 420, the air filter 430 and , the first air pipe 400 in which the check valve 440 is formed;
The auxiliary air tank 300 and the heater rod 10 are connected to supply air to the heater rod 10, and from the side of the auxiliary air tank 300, the air amount control valve 510, the gauge 520, a second air pipe line 500 in which a second pressure switch 530 is formed; and
A power controller 600 connected to the temperature setting unit 100 to receive a signal and connected to the first pressure switch 420 and the second pressure switch 530 to receive a switch signal and control power to the heater rod 10 ) using the heater rod air control structure of the hot air welding machine for synthetic resin,
The first pressure switch 420,
When the operation of the air compressor 200 is stopped and the pressure drops below the workable set pressure, a signal is transmitted to the power controller 600 and power to the heater rod 10 is cut off,
In the auxiliary air tank 300,
An air control method using a heater rod air control structure of a hot air welding machine for synthetic resin, characterized in that the stored air is supplied to the heater rod (10) and the heater rod (10) is cooled.
According to claim 1,
The solenoid valve 410,
Heater rod air control structure of hot air welding machine for synthetic resin, characterized in that the power of the temperature setting unit 100 is opened when "ON" and closed when "OFF" to block the air supply of the first air pipe 400 Air control method using.
delete According to claim 1,
The second pressure switch 530,
Measure the air pressure supplied from the auxiliary air tank 300, transmit it to the power controller 600, and control the operation of the heater rod 10,
When the air pressure reaches the workable pressure, the heater rod air control structure of the hot air welding machine for synthetic resin is configured to transmit a signal to the power controller 600 and operate the heater rod 10 in the power controller 600 Air control method used.

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