KR-102963881-B1 - FRYING OIL PUMP

Abstract

The present invention relates to a frying oil pumping device, and more specifically, to a frying oil pumping device that can safely and quickly pump and discharge frying oil, such as cooking oil, particularly high-temperature frying oil filled in an oil tank, and can filter and reuse the frying oil in the oil tank if necessary. To achieve the above objectives, the frying oil pumping device according to the present invention is characterized by comprising: a pumping part having an intake port and an outlet port formed therein; a lower body having a pumping blade formed therein; an upper body coupled to the upper end of the lower body and having a motor that rotates the pumping blade; and a frying oil discharge holder member that is detachably attached to the outlet port and capable of connecting a discharge pipe.

Inventors

• 신준호

Assignees

• (주)시스피아기연

Dates

Publication Date

20260513

Application Date

20221104

Claims (4)

1. A lower body (10) having a pumping part (13) having an intake port (11) and an exhaust port (12) formed therein, and a pumping blade (14) formed on the pumping part (13). An upper body (20) coupled to the upper end of the lower body (10) and equipped with a motor (21) that rotates the pumping blade (14), It includes a frying oil discharge holder member that is detachably attached to the above discharge port (12) and can be connected to a discharge pipe, and The lower body (10) further includes a bracket part (16) that protrudes horizontally from the upper part of the discharge port (12) and is equipped with a one-touch fixing means. The above holder member is composed of a block holder (30A) having a fitting part (31) formed at one end into which the discharge port (12) is fitted, a female screw part (32) formed at the other end that communicates with the fitting part (31) and can connect the discharge pipe, and a fixing groove (33) formed on the upper surface into which the one-touch fixing means is connected. The above one-touch fixing means is, A non-screw fixing member (17) that is vertically penetrating and capable of vertical movement of the bracket portion (16), wherein the lower end is formed in a hemispherical shape and a locking groove (171) is formed on the outer surface of the hemispherical end, and a locking end (172) is provided that is connected and protrudes in a circumferential direction above the locking groove (171). A compression spring (18) interposed between the locking end (172) and the upper surface (161) of the bracket part (16) in the hollow portion formed inside the bracket part (16), A locking bar (19) is slidably coupled to the bottom surface of the bracket portion (16) and is capable of moving back and forth in the longitudinal direction of the bracket portion (16), and is formed wider than the body portion of the non-screw fixing member (17) so that the non-screw fixing member (17) passes through it, and is formed in an elliptical shape with a left-right length wider than the outer diameter of the non-screw fixing member (17), and has a through hole (192) having a locking projection (191) protruding from one side arc portion that fits into the locking groove (171). When the above screwless fixing member (17) is pulled upward and the compression spring (18) is compressed, and the locking bar (19) is pulled outward in the longitudinal direction, the locking projection (191) is fitted into the locking groove (171), and the screwless fixing member (17) stops in an upward state without descending. A frying oil pumping device characterized in that when the locking bar (19) is pushed inward in the longitudinal direction, the locking projection (191) is disengaged from the locking groove (171), and the elastic force of the compression spring (18) acts to insert the hemispherical end of the non-screw fixing member (17) into the fixing groove (33) to secure it.
2. A lower body (10) having a pumping part (13) having an intake port (11) and an exhaust port (12) formed therein, and a pumping blade (14) formed on the pumping part (13). An upper body (20) coupled to the upper end of the lower body (10) and equipped with a motor (21) that rotates the pumping blade (14), It includes a frying oil discharge holder member that is detachably attached to the above discharge port (12) and can be connected to a discharge pipe, and The lower body (10) further includes a bracket part (16) that protrudes horizontally from the upper part of the discharge port (12) and is equipped with a one-touch fixing means. The above-mentioned discharge port (12) and bracket part (16) are respectively provided on both sides of the lower body (10), and The above holder member comprises a pair of gripping parts (34) that are fitted while wrapping around the lower body (10) and are connected to each other by hinges so as to be spread apart, and a fitting part (31) into which the discharge port (12) is fitted is formed on the inner surface of each gripping part (34), a female screw part (32) into which the discharge pipe can be connected is formed at the end of each gripping part (34), and a fixing groove (33) into which the one-touch fixing means is connected is formed on the upper surface of each gripping part (34), and is composed of a gripper holder (30B). The above one-touch fixing means is, A non-screw fixing member (17) that is vertically penetrating and capable of vertical movement of the bracket portion (16), wherein the lower end is formed in a hemispherical shape and a locking groove (171) is formed on the outer surface of the hemispherical end, and a locking end (172) is provided that is connected and protrudes in a circumferential direction above the locking groove (171). A compression spring (18) interposed between the locking end (172) and the upper surface (161) of the bracket part (16) in the hollow portion formed inside the bracket part (16), A locking bar (19) is slidably coupled to the bottom surface of the bracket portion (16) and is capable of moving back and forth in the longitudinal direction of the bracket portion (16), and is formed wider than the body portion of the non-screw fixing member (17) so that the non-screw fixing member (17) passes through it, and is formed in an elliptical shape with a left-right length wider than the outer diameter of the non-screw fixing member (17), and has a through hole (192) having a locking projection (191) protruding from one side arc portion that fits into the locking groove (171). When the above screwless fixing member (17) is pulled upward and the compression spring (18) is compressed, and the locking bar (19) is pulled outward in the longitudinal direction, the locking projection (191) is fitted into the locking groove (171), and the screwless fixing member (17) stops in an upward state without descending. A frying oil pumping device characterized in that when the locking bar (19) is pushed inward in the longitudinal direction, the locking projection (191) is disengaged from the locking groove (171), and the elastic force of the compression spring (18) acts to insert the hemispherical end of the non-screw fixing member (17) into the fixing groove (33) to secure it.
3. In Article 1 or Article 2, A pumping blade (14) is axially mounted on a rotating shaft (141) inside the pumping unit (13), and the rotating shaft (141) is connected to a motor (21) of the upper body (20) to rotate and operate. A frying oil pumping device characterized in that the pumping blade (14) is mounted to form an upward airflow inside the pumping section (13), and the rotating shaft (141) extends to the height of the bottom surface of the pumping section (13) and the upper part of the suction port (11), with the pumping blade (14) mounted at the bottom of the rotating shaft (141).
4. In Article 1 or Article 2, A frying oil pumping device characterized by further including a filter member (40) that is detachable from the discharge port (12) so as to be interchangeable with the holder member.

Description

Frying Oil Pump The present invention relates to a frying oil pumping device, and more specifically, to a frying oil pumping device that can safely and quickly pump and discharge frying oil, such as cooking oil, particularly high-temperature frying oil filled in an oil tank, and can filter and reuse the frying oil in the oil tank if necessary. Fried food is a cooking method in which various foods are dipped into high-temperature frying oil and fried. It is common to coat the ingredients with flour or batter before cooking. To cook using this frying method, establishments use large-capacity deep fryers. Commercial deep fryers heat frying oil, such as cooking oil, in a tank equipped with a built-in heater, and then add ingredients to complete the fried dish. Since fried dishes require frying ingredients quickly at an optimal temperature to enhance texture and flavor, conventional commercial fryers have focused on frying large quantities of ingredients more quickly and efficiently. Meanwhile, inside the oil tank where frying takes place, residues detached from the frying ingredients, residues that have burned after being heated for a long time, and foreign substances introduced from the outside are mixed and remain as impurities. Frying oil (cooking oil) mixed with such impurities spoils easily, and if reused, the oil itself oxidizes and becomes unusable, contaminating the ingredients to be fried, and the color of the fried food darkens and the taste deteriorates. Therefore, it is very important to keep the frying oil in the oil tank as clean as possible and replace the oil periodically. However, while it is not an issue when frying oil is replaced periodically, if it is necessary to immediately replace or drain the heated frying oil from the oil tank due to unintended reasons (e.g., mixing in a large amount of foreign matter, generating a large amount of burnt residue, or a breakdown of the fryer), there is a risk of safety accidents such as burns caused by the high-temperature frying oil, so there was the inconvenience of having to wait until the heated frying oil cools down to a safe temperature before replacing the frying oil. FIGS. 1 and FIGS. 2 are cross-sectional views illustrating a first embodiment according to the present invention. FIG. 3 is a cross-sectional view illustrating a second embodiment according to the present invention. FIG. 4 is a cross-sectional view illustrating a third embodiment according to the present invention. FIG. 5 is a cross-sectional view of a key part for explaining a one-touch fixing means according to the present invention. The present invention is capable of various modifications and may take various forms, and embodiments (aspects or examples) are to be described in detail in the text. However, this is not intended to limit the present invention to a specific disclosed form, and it should be understood that it includes all modifications, equivalents, and substitutions that fall within the spirit and scope of the present invention. In each drawing, identical reference numerals, particularly those with identical tens and ones digits, or identical tens, ones, and alphabets, represent components having the same or similar functions; unless otherwise specified, the components referred to by each reference numeral in the drawing should be understood as components conforming to these criteria. In addition, in each drawing, the components are depicted with exaggerated sizes or thicknesses, or simplified, for the sake of ease of understanding; however, the scope of protection of the present invention should not be interpreted as being limited by this. The terms used herein are used merely to describe specific embodiments (aspects or examples) and are not intended to limit the invention. The singular expression includes the plural expression unless the context clearly indicates otherwise. In this application, terms such as "comprising" or "consisting of" are intended to indicate the existence of the features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, and should be understood as not excluding in advance the existence or addition of one or more other features, numbers, steps, actions, components, parts, or combinations thereof. Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as generally understood by those skilled in the art to which the present invention pertains. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with their meaning in the context of the relevant technology, and should not be interpreted in an ideal or overly formal sense unless explicitly defined in this application. The terms "~1~," "~2~," etc., described in this specification are used merely to distinguish different components and are not bound by the order of manufacture; furthermore, the names may not match those in the detailed