JP6302562B2 - Gas stove economizer - Google Patents

Description

  The present invention relates to the technical field of energy-saving accessories for pots using a gas stove, and more specifically to an economizer for a gas stove.

  Currently, gas stoves are already widely used household and business cooking utensils. Conventional gas stove pots mainly have two means for utilizing thermal energy. One is to act directly on the bottom of the pan through the flame (ie energy) of the gas stove burning, and to absorb the heat radiation, and the other is a mesh heat-resistant plate, which is red by gas combustion. It becomes like it is radiating to the bottom of the pan. However, these two methods all have the disadvantages that the utilization rate of heat energy is not high and heat loss is large.

  The technical problem to be solved by the present invention is to provide an economizer for a gas stove that can promote that the heat energy is sufficiently absorbed by the pan for the above-mentioned defects of the prior art.

  The present invention is as follows as a technical solution for solving the technical problem.

  The bottom part is provided with a heat insulation ring provided with a hot air inlet for collecting heat energy that is not absorbed by the bottom part of the pot produced from the gas stove, and a sawtooth-shaped flame concentration layer on the inner surface of the heat insulation ring And a fire prevention region is provided between the flame concentration layer and the inner surface of the heat insulation ring, and the flame concentration layer is a path of hot air flow for increasing the contact area between the hot air flow and the pan. The path of the hot air flow and the outer surface of the pan form a certain angle, and a certain angle is formed between the horizontal plane, and the fire protection area is closed at the bottom and the top is opened. The gas stove economizer is characterized in that both the bottom and top of the hot air flow path are opened.

  In the economizer of the present invention, the flame concentration layer is configured to be connected from a plurality of sawtooth-shaped ribs, and the plurality of sawtooth-shaped ribs are rotated up from the bottom of the heat insulation ring to the top of the heat insulation ring along the same direction. The

  In the economizer of the present invention, each of the plurality of sawtooth-shaped ribs includes a first flange and a second flange to be connected.

  In the economizer of the present invention, the width of the first flange is equal to the width of the second flange.

  In the economizer of the present invention, the width of the first flange is not equal to the width of the second flange.

  In the economizer of the present invention, the first flange and the second flange are welded to the inner surface of the heat insulating ring.

  In the economizer of the present invention, an area constituted by a plurality of the first flange, the second flange, and the inner surface of the heat insulating ring is the fire prevention region.

  In the economizer of the present invention, the area formed between the first flange and the second flange of the two adjacent sawtooth ribs and the outer surface of the pan is the flame concentration layer, that is, the path of the hot air flow. It is.

  In the economizer of the present invention, the shape of the heat insulating ring and the shape of the pot are adapted.

  The beneficial effect of the present invention is that the use of a heat insulating ring in which a fire prevention region and a flame concentration layer, i.e., a hot air flow path, are provided at the same time, prevents direct contact between the hot air flow and the heat insulating ring. That is, the heat exchange between the hot air flow and the heat insulation ring is interrupted, and the thermal energy that is taken out of the hot air flow can only be emitted through the hot air flow path, and the special design of the hot air flow path The heat energy that is taken out is almost returned to the pot. While saving energy effectively, it is possible to reduce emissions of harmful gases such as carbon dioxide and sulfur dioxide, further reduce cooking time, and improve cooking efficiency.

The invention will now be further described with reference to the accompanying drawings and examples. In the accompanying drawings,
FIG. 1 is a schematic perspective view of an economizer of a preferred embodiment according to the present invention. FIG. 2 is a plan view of an economizer of a preferred embodiment according to the present invention. FIG. 3 is an enlarged schematic view of a portion A in FIG.

  The structure of a gas stove economizer according to a preferred embodiment of the present invention is as shown in FIGS. 1 and 2, and FIG. 3 may be referred to at the same time, and a heat insulating ring 10 having an opening at the bottom (this heat insulating ring). Is responsible for collecting the thermal energy that is generated by the hot air stream that is not absorbed by the bottom of the pan, and the shape of the heat insulating ring 10 and the shape of the pan are compatible (for example, bowl-shaped) A serrated flame concentration layer 20 is provided on the inner surface of the ring 10, and the flame concentration layer 20 is a hot air flow path 40 for increasing the contact area between the hot air flow and the pot, The outer surface of the pot is at a certain angle, and at a certain angle with the horizontal plane, the bottom of the fire prevention area is closed, the top is opened, and the hot air flow path 40 Both bottom and top are open There. In this way, the flame is prevented from passing through the fire prevention area 30, and all of the flame gradually rises through the hot air flow path 40. As a result, the pot can sufficiently absorb the heat energy, save energy, and further improve the cooking efficiency. At the same time, the heat-exchanging area 30 is installed to block the heat exchange directly generated between the heat insulating ring 10 and the hot air flow, preventing the external temperature of the heat insulating ring from being too high and causing unnecessary burns to the cook. If you do, you will be safer. More important is to prevent thermal energy from radiating through the insulating ring.

  Further, as shown in FIGS. 1 and 2, the flame concentration layer 20 in the above embodiment is configured by connecting with a plurality of sawtooth-shaped ribs, and the plurality of sawtooth-shaped ribs are in the same direction from the bottom of the heat insulating ring 10. Along the top of the heat insulation ring 10 is rotated up. In this way, a plurality of rotational airflow paths 40 are formed between the plurality of sawtooth-shaped ribs and the outer surface of the pan, and the rising speed of the thermal airflow reduces the rising speed of the flame, Increases the time and area of heat exchange between the hot air flow and the pot, improves the efficiency of the heat exchange, improves the utilization rate of heat energy, and the pot can sufficiently absorb the heat energy It becomes like this.

  Preferably, as shown in FIG. 1, each sawtooth-shaped rib in the above embodiment includes a first flange 21 and a second flange 22 to be connected, and the first flange 21 and the second flange 22 are connected to each other. Intersect to make an acute angle. A plurality of sawtooth-shaped ribs are formed by the connection of the first flange 21 and the second flange 22 and each by the connection to the inner surface of the heat insulating ring 10, and the area between the ribs facing the pot is formed of the flame concentration layer 20. Configure. The area between the ribs toward the heat insulation ring constitutes a fire prevention region 30, and the high temperature of the flame can be prevented from being directly transmitted to the outer surface of the heat insulation ring 10 through the fire prevention region 30, and the external temperature of the heat insulation ring 10 is high. It will be safer if you use an economizer to prevent the burner from causing unnecessary burns.

  Specifically, in the above embodiment, as shown in FIGS. 1 and 3, the first flange 21 and the one side of the second flange 22 of the sawtooth-shaped rib are connected and not connected. The side is welded to the inner surface of the heat insulation ring 10. The area formed between the first flange 21 and the second flange 22 of the two adjacent sawtooth-shaped ribs and the outer surface of the pan is a flame concentration layer, that is, a path 40 of hot air current, The area where the first flange 21 and the second flange 22 and the inner surface of the heat insulating ring 10 are configured is a fire prevention region 30.

  As described above, the present invention uses the heat insulating ring 10 in which the fire prevention region 30 and the thermal air flow path 40 of the flame concentrated layer are provided at the same time, so that the hot air flow rises in the hot air flow path 40, Increase the contact time and contact area with the tool, make use of the thermal energy of the flame by the burner, and effectively exchange the heat directly between the heat flow and the heat insulation ring where the heat energy is brought out by installing a fire prevention area By blocking, the thermal energy can only be returned to the pot through a path of hot air flow that rises spirally. As a result, the pot can sufficiently absorb heat energy, save energy, reduce harmful gas emissions, and improve cooking efficiency.

  It should be noted that those skilled in the art can make modifications or conversions according to the above description, and all these modifications and conversions should belong to the appended claims of the present invention.

Claims (9)

With a heat insulating ring (10) to hot air inlet is provided at the bottom that is responsible for collecting thermal energy taken out is not absorbed by the bottom of the pan member resulting from moth Sukonro, the inner surface of said insulation ring (10) A sawtooth-shaped flame concentration layer (20) is provided, and a fire prevention region (30) is provided between the flame concentration layer (20) and the inner surface of the heat insulating ring (10), and the flame concentration layer (20) and a hot air path (40) for increasing the contact area between the hot air current and the pan tool is provided between the hot air path and the outer surface of the pan tool, and the hot air path (40) and the outer surface of the pan tool Is formed at a certain angle, and the hot air flow path (40) is at a certain angle with a horizontal plane, and the fire protection area (30) is closed at the bottom and opened at the top. The bottom and top of the hot air flow path (40) are both Characterized in that it is opened, gas stove economizer.   The flame concentration layer (20) is connected to a plurality of sawtooth-shaped ribs, and the plurality of sawtooth-shaped ribs are formed on the top of the heat insulating ring (10) along the same direction from the bottom of the heat insulating ring (10). The economizer according to claim 1, wherein the economizer is rotated and raised.   The economizer according to claim 2, wherein each of the plurality of sawtooth-shaped ribs includes a first flange (21) and a second flange (22) to be connected.   The economizer according to claim 3, characterized in that the width of the first flange (21) is equal to the width of the second flange (22).   The economizer according to claim 3, characterized in that the width of the first flange (21) and the width of the second flange (22) are not equal.   The economizer according to claim 3, characterized in that the first flange (21) and the second flange (22) are welded to the inner surface of the heat insulating ring (10).   The area composed of the plurality of first flanges (21), the second flange (22) and the inner surface of the heat insulation ring (10) is the fire protection area (30). 5. The economizer according to 5.   The area formed between the first flange (21) and the second flange (22) of the two adjacent sawtooth-shaped ribs and the outer surface of the pan is the flame concentrated layer, that is, the path of the hot air flow. The economizer according to claim 5, wherein the economizer is (40).   The economizer according to claim 1, wherein a shape of the heat insulating ring and a shape of the pot are matched.