KR102326510B1 - Gas extrusion container preheating device - Google Patents

Abstract

The present invention relates to a gas extrusion container preheating device which comprises: a frame detachably installed in a gas extrusion container; a coil plate installed on one side so that a coil member is inserted, and coupled to be inserted into the frame; the coil member coupled to be inserted into one side of the coil plate; and a cover coupled to the frame while fixing the coil member installed on the coil plate. During the discharge of the gas contained in the gas extrusion container, when the temperature of the gas extrusion container is lowered, the set temperature is maintained by the electromagnetic induction heating method, thereby preventing overheating of the gas extrusion container and discharging the gas easily. In addition, when the gas extrusion containers are connected in parallel for use, the weight of the gas extrusion container with gas being exhausted is checked in real time, and the gas extrusion container with gas being exhausted can be checked through a controller, thereby supplying gas without interruption by replacing the gas extrusion container with a new gas extrusion container.

Description

Gas extrusion container preheating device

The present invention relates to a device for preheating a gas extrusion container, and more particularly, to a device for preheating a gas extrusion container in which gas can be easily discharged even when the temperature of the gas extrusion container is lowered when the gas contained in the gas extrusion container is discharged.

In general, when the gas stored in the gas cylinder is used, the liquid gas stored in the gas cylinder is vaporized and the temperature of the gas cylinder is lowered by taking away the external heat. There is a difficult problem.

In order to solve this problem, as a prior document, 'the butane gas combustion device of the stand-type mobile butane combustor' of Korean Patent Application Laid-Open No. 2004-0074576 (published on August 25, 2004) is a silicon hot wire (nichrome wire) at the lower end of the body gas cylinder cover. ) to receive power from the battery (direct current power) and generate heat to preheat the disposable butane gas cylinder of the portable butane combustor to maintain the temperature in the gas cylinder at about 20 degrees Celsius, thereby consuming all the butane gas in the gas cylinder and reducing the consumption of the portable butane combustor. It is characterized in that the firepower is kept constant.

In the prior literature having the above characteristics, a silicon heating wire installed at the lower end of the gas cylinder cover, which is the main body, is connected to a connection wire that supplies battery power, so that all gas combustion and a constant thermal power maintaining device are installed at the lower end of the gas cylinder cover. By applying heat to the lower end of the gas cylinder to maintain the temperature inside the gas cylinder at about 20 degrees Celsius, it has the effect of maintaining the total amount of gas combustion and constant thermal power.

In addition, the prior literature has a disadvantage that it is easy to use for butane gas used as a mobile or portable type, but it is not suitable for a gas tank used as a stationary type.

However, the prior literature has a problem in that it always contains a risk of overheating because a temperature sensor capable of checking the temperature of the gas cylinder for preheating the gas cylinder using a silicon heating wire is not installed.

In addition, since the battery is used to maintain the gas cylinder at about 20 degrees Celsius, there is a problem in that a spare battery must always be carried due to the problem of frequently replacing the battery, as well as the cost of purchasing the battery is additionally consumed.

As a prior document for preheating a gas cylinder, the 'heating device for nitrogen gas preheating' of Korean Patent Application Laid-Open No. 2011-0036468 (published on Apr. 4, 2011) has a casing, and a case in which a heater part formed by dividing is installed. Characterized in that, the heater unit is provided with a plurality of support members fastened to the fastener of the casing, and is fastened to the support member, characterized in that the heater is provided with one side portion located in the space portion of the casing.

In the above-mentioned Prior Document Publication No. 2011-0036468, a heater is coupled to a support member to directly heat nitrogen gas and is installed to be drawn into the inside of the casing in a state in which one side is installed on the lid cover, so that nitrogen gas is generated between the lid cover and the tank There is a problem that can leak through.

In addition, the above-mentioned Prior Document Publication No. 2011-0036468 is for drying the moisture of the molycasib by heating the gas by a heater, which is not suitable for use for the purpose of facilitating the discharge of the gas.

Korean Patent Publication No. 2004-0074576 (published on August 25, 2004) Korean Patent Publication No. 2011-0036468 (published on April 4, 2011)

In order to solve the above problems, the present invention provides a preheating apparatus for a gas extrusion container that maintains a set temperature when the temperature of the gas extrusion container is lowered when the gas contained in the gas extrusion container is discharged to facilitate the discharge of the gas contained in the gas extrusion container in order to solve the above problems. aims to provide

Another object of the present invention is to provide a preheating apparatus for a gas extrusion container, which facilitates exchange when a new gas extrusion container is exchanged after using the gas contained in the gas extrusion container.

In addition, an object of the present invention is to provide a preheating apparatus for a gas extrusion container in which gas can be supplied without interruption by making it easy to check the gas extrusion container in which the gas is exhausted when the gas extrusion containers are connected in parallel. .

The present invention is a means for achieving the above object,

a frame detachably installed in the gas extrusion container; a coil plate installed on one side so that the coil member is retracted and coupled to the frame to be retracted; a coil member coupled to be drawn into one side of the coil plate; Preheating means comprising; a cover coupled to the frame while fixing the coil member installed on the coil plate; It provides a preheating apparatus for a gas extrusion container comprising a coil member and a controller electrically connected to the temperature sensor to control the temperature of the gas extrusion container to maintain a set temperature.

The frame, coil plate, coil member and cover of the present invention are characterized in that they are formed like a curved surface of a gas extrusion vessel.

The coil plate of the present invention is characterized in that a step is formed at the upper end and the lower end, and a fixing protrusion for fixing the coil member in an 'X' shape is formed on one side of the outer side, and is installed to be drawn into one side of the frame.

The preheating means of the present invention is characterized in that it includes a controller electrically connected to the coil member and the temperature sensor to control the temperature of the gas extrusion container to be maintained at a set temperature.

According to the present invention, when the temperature of the gas extrusion container is lowered when the gas contained in the gas extrusion container is discharged, the set temperature is maintained by the electromagnetic induction heating method, thereby preventing overheating of the gas extrusion container and facilitating the discharge of the gas.

In addition, the present invention has the effect of being able to easily attach and detach the preheating means when exchanging a new gas extrusion container after using the gas contained in the gas extrusion container.

In addition, the present invention checks the weight of the gas extrusion container in which the gas is exhausted in real time when using the gas extrusion container connected in parallel, checks the gas extrusion container in which the gas is exhausted through the controller, and exchanges the gas with a new gas extrusion container It has the effect of being able to supply without interruption.

In addition, the present invention has the effect of easily supplying gas by checking the temperature of the gas extrusion vessel in real time from the controller, and heating by electromagnetic induction is made based on the checked temperature to maintain the set temperature.

1 is a perspective view showing a state in which a gas extrusion container preheating apparatus according to the present invention is installed in the gas extrusion container.
FIG. 2 is an exploded view of the gas extrusion vessel preheating apparatus shown in FIG. 1;
FIG. 3 is a view showing a cross-sectional configuration of a state in which the gas extrusion vessel preheating apparatus shown in FIG. 1 is coupled; FIG.
Figure 4 is a view showing the coil plate shown in Figure 2;
5 is a view showing another embodiment in which the gas extrusion container preheating apparatus shown in FIG. 1 is installed in parallel to the gas extrusion container.

Hereinafter, the configuration of the gas extrusion vessel preheating apparatus according to the present invention will be described.

In the gas extrusion container preheating apparatus of the present invention, the frame 110 is detachably installed in the gas extrusion container 10 and the coil member 130 is installed on one side so that the coil member 130 is retracted, and the coil is coupled to be drawn into the frame 110 . The plate 120, the coil member 130 coupled to be drawn into one side of the coil plate 120, and the cover 140 coupled to the frame 110 while fixing the coil member 130 installed on the coil plate 120. ) and a preheating means 100 consisting of; It is characterized in that it comprises a coil member 130 and a controller 200 electrically connected to the temperature sensor to control the temperature of the gas extrusion container 10 to maintain a set temperature.

A gas extrusion vessel preheating apparatus of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, the gas extrusion container preheating apparatus of the present invention includes a preheating means 100 for preheating the gas extrusion container 10 and a controller 200 for controlling the preheating means 100 do.

The preheating means 100 includes a frame 110 , a coil plate 120 , a coil member 130 , and a cover 140 .

The frame 110 has a frame body 111 formed with the same curvature as the outer periphery of the gas extrusion container so as to be in close contact with the outer peripheral surface of the gas extrusion container 10, and the frame body 111 is formed from one side to the other. A through hole 113 is formed to penetrate to the side.

In addition, the frame body 111 has a coupling jaw 112 formed on the other side of the portion in close contact with the gas extrusion vessel 10 so that the coil plate 120 can be introduced and coupled thereto.

The coil plate 120 is formed in the same curved shape as the frame 110 and is installed to be retracted while being supported by the coupling jaw 112 of the frame body 111 . In addition, the coil plate 120 is formed with stepped 121 at the top and bottom, and a seating groove 122 in which the coil member 130 is installed on one side is formed inside, and the seating groove 122 has a ' A plurality of fixing protrusions 123 are formed at equal intervals in an X' shape.

The coils 131 are inserted one by one between the fixing protrusions 123 and the fixing protrusions 123 in the 'X' shape to be fixed. Preferably, the fixing protrusion 123 is formed to have the same height as the depth of the seating groove 122 formed in the coil plate 120 so as not to protrude from the surface of the coil plate 120 .

And although not shown in the drawings, it is preferable that a temperature sensor (not shown) is installed on the coil plate 120 , and the temperature sensor is electrically connected to the controller 200 to generate electromagnetic waves generated by the coil member 130 . The temperature generated in the gas extrusion vessel 10 by induction is measured and applied to the controller 200, and the electromagnetic induction phenomenon generated by the coil member 130 is controlled by the controller 200 to an appropriate temperature up to 40. to be kept below °C. More preferably, the temperature of the gas extrusion vessel 10 is maintained at a temperature of about 20 °C.

The coil member 130 has the same curvature as the coil plate 120 , and a plurality of coils 131 are wound in a rectangular shape to be spaced apart from each other. In the coil member 130 , one coil 131 is installed between the plurality of fixing protrusions 123 and the fixing protrusions 123 . The coil member 130 is electrically connected to receive current from the controller 200 .

The cover 140 has the same curvature as the coil plate 120 , is formed in a rectangular shape, and is installed on one side of the frame 110 . The inner inlet groove (surface positioned on the frame side) 141 of the cover 140 is in close contact with the fixing protrusion 123 of the coil plate 120 to maintain the state in which the coil 131 is coupled to the fixing protrusion 123 . let it be That is, the fixing is made while the coil 131 is isolated in a closed form by the cover 140 and the fixing protrusion 123 .

In addition, an inlet groove 141 in which the coil member 130 fixed to the fixing protrusion 123 of the coil plate 120 is located is formed on one side of the cover 140 . Since the coil member 130 is positioned in the internal groove 141 , the coil member 130 together with the coil plate 120 maintains a closed state as well as maintains a fixed state.

The controller 200 is electrically connected to the coil 131 of the coil member 130 and applies a current to the gas extrusion container 10 made of iron by electromagnetic induction by a magnetic field generated around the coil 131 . ), so that the temperature can be maintained at an appropriate temperature while preventing the temperature drop due to the discharge of gas.

In addition, the controller 200 detects the weight by the load cell 160 installed in the lower portion of the gas extrusion container 10 to check the remaining amount of gas contained in the gas extrusion container 10 or to check the replacement time. do.

The load cell 160 is preferably installed in a state in which the container support 11 is installed in the lower part of the gas extrusion container 10 rather than directly installed in the gas extrusion container 10 . That is, the load cell 160 is installed on the container pedestal 11, measures the weight of the gas contained in the gas extrusion container 10, checks the exhaustion state of the gas, and controls an electrical signal from the load cell 160 that has checked the weight. (200) is applied to display the weight or only the completely exhausted state so that the user can replace the gas extrusion container (10).

It is preferable that the controller 200 is configured to be displayed by the display unit through the control of the coil member 130 and the signal applied by the load cell 160, displayed in the form of a lamp, or displayed in a state in which these modes are combined. . In addition, it is preferable that a main power switch is installed in the controller 200 to control the current supplied to the coil member 130 .

In addition, when the preheating means 100 is installed in each of the plurality of gas extrusion containers 10 , a sub power switch is installed in the controller 200 so that the preheating means 100 can individually control the supply of current. The controller 200 is made in the form of a PCB (not shown), and the PCB includes a circuit for controlling a current, a circuit for displaying (display unit, lamp, etc.) according to a signal applied from the load cell 160, a circuit for controlling the circuit and a microcomputer and a memory in which a program and data for driving the microcomputer are stored.

In addition, the PCB is installed in the housing, and the main power switch, the sub power switch and the display unit are installed in the housing. The display unit may be replaced with a lamp, wherein the lamp displays the electromagnetic induction heating state by the supply of power, the exchange of the gas extrusion container, and the like.

A process in which the gas extrusion container preheating apparatus of the present invention configured as described above is installed in a plurality of gas extrusion containers to maintain the temperature will be described.

First, the sub-power switch is set to allow the user to properly maintain the temperature of the gas extrusion vessel 10 currently being used in a state where current can be applied by pressing the main power switch of the controller 200 connected to the coil member 130. is pressed so that current can be applied to the coil member 130 .

When the sub power switch is operated, the controller receives a data signal according to the temperature in real time from a temperature sensor installed in the frame 110 and determines whether the current temperature is within a set range or below a set temperature.

When the temperature is below the set temperature, the controller 200 applies a current to the coil member 130, and a magnetic field is generated by electromagnetic induction by the applied current, thereby generating heat in the gas extrusion vessel 10 itself. make it possible

By maintaining the set temperature by the heat generated by the gas extrusion container 10 itself, the gas can be easily discharged, and all of the gas contained in the gas extrusion container 10 can be used.

In addition, the controller determines whether the temperature of the gas extrusion container 10 checked by the temperature sensor is within the set temperature range, and when the temperature is located within the set temperature, blocks the current applied to the coil member 130 to the gas extrusion container ( 10) Avoid overheating due to the heat generated by itself.

The controller 200 supplies or cuts the current applied to the coil member 130 by a signal applied from the temperature sensor so that the temperature is maintained within an appropriate range so that the gas is vaporized and the surrounding heat is taken away to lower the temperature. Since the phenomenon can be prevented, the gas stored in the gas extrusion container 10 is easily discharged.

In addition, when the gas is exhausted while using the gas, the load cell 160 detects this and applies a signal to the controller 200 . The signal applied from the load cell 160 is determined to determine whether the gas contained in the gas extrusion container 10 is completely exhausted, and the display unit or lamp is used to notify the user so that the user can replace the gas extrusion container 10 . do.

As described above, in the present invention, when the temperature of the gas extrusion container 10 is lowered when the gas contained in the gas extrusion container is discharged, the set temperature is maintained by the electromagnetic induction heating method, thereby preventing overheating of the gas extrusion container and discharging the gas. This is easy, and after using the gas contained in the gas extrusion container 10, when replacing the new gas extrusion container, it is convenient to exchange the preheating means, so that it can be easily attached and detached.

In addition, in the present invention, when the gas extrusion container 10 is connected in parallel and used, the weight of the gas extrusion container 10 in which the gas is exhausted is checked in real time, and the gas is exhausted through the controller 200. By confirming (10) and replacing it, there is an advantage in that the gas is supplied without interruption.

In the present invention, the controller 200 checks the temperature of each gas extrusion vessel 10 in real time, and repeats the process of supplying or blocking current so that heating by electromagnetic induction is made based on the checked temperature. By maintaining the set temperature by preventing the temperature of the gas extrusion container 10 from being lowered due to the vaporization of the gas, there is an advantage in that the gas is easily discharged.

The above description of the present invention is for illustration, and those of ordinary skill in the art to which the present invention pertains can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and likewise components described as distributed may be implemented in a combined form.

The scope of the present invention is indicated by the following claims, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention.

10: gas extrusion vessel 11: pedestal
100: preheating means 110: frame
111: frame body 112: coupling jaw
113: through hole 120: coil plate
121: step 122: seating groove
123: fixing projection 130: coil member
131: coil 140: cover
141: inner mouth 150: container base
160: load cell 200: controller

Claims (4)

A frame 110 detachably installed in the gas extrusion container 10, a coil plate 120 installed on one side so that the coil member 130 is retracted, and coupled to the frame 110 to be retracted, and a coil plate 120 ), a coil member 130 coupled to be drawn in to one side, and a cover 140 coupled to the frame 110 while fixing the coil member 130 installed on the coil plate 120; as a preheating means 100 consisting of; done,
The coil plate 120,
Step 121 is formed at the top and bottom,
A seating groove 122 in which the coil member 130 is seated is formed,
The seating groove 122 has a fixing protrusion 123 in an 'X' shape to fix the coil member 130;
Gas extrusion vessel preheating device comprising a.
According to claim 1,
The frame 110, the coil plate 120, the coil member 130 and the cover 140,
Gas extrusion vessel preheating device, characterized in that the same curvature as the gas extrusion vessel (10) is formed.
delete According to claim 1,
The preheating means 100,
A gas extrusion container preheating apparatus comprising a coil member (130) and a controller (200) electrically connected to a temperature sensor to control the temperature of the gas extrusion container (10) to be maintained at a set temperature.

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