CN217408599U

CN217408599U - Metering oil can

Info

Publication number: CN217408599U
Application number: CN202220213104.0U
Authority: CN
Inventors: 侯希平; 侯伟汉
Original assignee: Shanghai Shitaifu Technology Co ltd
Current assignee: Shanghai Shitaifu Technology Co ltd
Priority date: 2022-01-22
Filing date: 2022-01-22
Publication date: 2022-09-13
Anticipated expiration: 2032-01-22

Abstract

The utility model relates to a measurement oilcan, including oilcan body, ration container, upper container lid, the automatic lid of delivery nozzle, rubber plug. The automatic lid of oil outlet nozzle passes through horizontal rotating shaft with the upper container and is connected, the oilcan body passes through threaded connection with the upper container, the junction is sealed with the silica gel circle, quantitative container passes through threaded connection with quantitative container interface, the upper container lid passes through threaded connection with the upper container, the junction is sealed with the silica gel circle, after adopting above-mentioned technical scheme, the oilcan is cut apart into upper space and lower floor space two parts, be equipped with the oily passageway of crossing of turning between upper space and the lower floor space, to measure the oilcan by vertical position and horizontal position interconversion, can regulate and control the interior oil of oilcan and make it flow to quantitative container, thereby reach the quantitative effect of control when pouring oil, do not need carefully to watch the scale, high durability and convenient operation, the ration is accurate, it is laborsaving to save worry, can also realize the switching of two kinds of modes of measurement oilcan and non-measurement oilcan.

Description

Metering oil pot

Technical Field

The utility model relates to an oilcan, especially a kitchen is with measuring oilcan.

Background

The oilcan is an indispensable tool for a kitchen. With the improvement of living standard of people, according to statistics, the average daily oil intake of urban residents in China currently reaches 45-50 g, which is far beyond the standard of 25-30 g per day for adults recommended by the Chinese academy of nutrition. In order to scientifically control the daily intake of edible oil, the metering oilcan is produced at the same time, the metering oilcan in the current market has a plurality of styles, the oil quantity is mainly controlled by pressing, the use is inconvenient, the oil quantity scales are checked while pressing, and the measuring oilcan is troublesome, time-consuming and labor-consuming.

Disclosure of Invention

The utility model provides a measurement oilcan according to total control's way to adult intakes edible oil total 25 grams every day as the standard, set up a quantitative container that can splendid attire 25 grams edible oil just in the oilcan, thereby need not inspect the scale, just can more convenient control oil mass.

The utility model adopts the technical proposal that: the metering oil can comprises an oil can body 1, a quantitative container 2, an upper container 3, an upper container cover 4, an automatic oil nozzle cover 5 and a rubber plug 6. The upper container 3 is provided with a handle 3-1, a partition plate 3-2, an oil passing hole 3-3, a quantitative container interface 3-4, an oil outlet nozzle 3-5, an oil dropping pipe 3-6, an oil storage pipe 3-7 and a spare hole 3-8. An air inlet pipe 4-1, an oil storage cavity 4-2 and an air inlet hole 4-3 are arranged on the upper container cover 4. The automatic oil nozzle cover 5 is provided with a horizontal cover plate, 2 symmetrical vertical upright rods and a rotating shaft, and is connected with the upper container 3 through the horizontal rotating shaft, and the weight of the vertical upright rods is far greater than that of the horizontal cover plate. The upper end of the oil can body 1 is connected with the lower end of the upper container 3 through threads, and the joint is sealed by a silica gel ring. The upper end of the quantitative container 2 is connected with the quantitative container interface 3-4 through screw threads. The upper container cover 4 is connected with the upper end of the upper container 3 through threads, and the joint is sealed by a silica gel ring. The partition plate 3-2 on the upper container 3 divides the oil can body 1 and the upper container 3 into an upper space and a lower space, and the oil passing hole 3-3 on the partition plate 3-2 is of a rectangular structure and is arranged at the upper end of the handle 3-1 and is a part of an oil passing channel which turns between the upper space and the lower space. The lower end of the oil dropping pipe 3-6 at the lower side of the oil outlet nozzle 3-5 is communicated with the oil storage pipe 3-7, and the lower end of the oil storage pipe 3-7 is provided with a small round hole with the diameter of about 1cm and communicated with the interior of the upper container 3. An air inlet pipe 4-1 on the upper container cover 4 is a thin pipe with the diameter of about 2cm and is positioned at the center of the oil storage chamber 4-2, the oil storage chamber 4-2 is a cylindrical cavity, and an air inlet hole 4-3 at the bottom of the oil storage chamber 4-2 close to one side is a small round hole with the diameter of about 1 cm.

The utility model adopts the above structure, the basic working principle is: the first step is to inject oil. Firstly, screwing a quantitative container 2 and a quantitative container interface 3-4 on an upper container 3, then screwing an oil can body 1 and the upper container 3, pouring oil into an upper space from a large round opening at the upper end of the upper container 3, enabling the oil to firstly enter the quantitative container 2, enabling the oil filled in the quantitative container 2 to flow into a lower space through an oil hole 3-3 and enter the oil can body 1, and screwing an upper container cover 4 and the upper container 3 after the oil can body 1 is filled with the oil; and step two, pouring oil. The handle 3-1 is held to pour oil, part or all of the oil in the quantitative container 2 can be poured out, and the poured oil flows out through the oil outlet nozzle 3-5, so that the quantitative control function during oil pouring can be achieved.

The utility model discloses technical scheme's concrete details further still include:

firstly, the oil passing holes 3-3 are positioned at higher positions when oil is poured, so that the oil in the oil can body 1 in the lower layer space can not flow into the upper layer space.

Secondly, because the oil dripping pipe 3-6 is arranged at the lower side of the oil outlet nozzle 3-5, the oil storage pipe 3-7 is arranged at the lower side of the oil dripping pipe 3-6, the lower end of the oil dripping pipe 3-6 is communicated with the oil storage pipe 3-7, and the lower end of the oil storage pipe 3-7 is provided with a small round hole which is communicated with the interior of the upper container 3, only a little oil drops enter the oil storage pipe 3-7 through the small round hole with the diameter of about 1cm at the lower end of the oil storage pipe 3-7 in the oil pouring process, because the oil pouring time can not last for a long time, the oil drops which enter the oil storage pipe 3-7 can not cause the oil drops to flow out of the kettle from the oil dripping pipe 3-6, and the oil drops which enter the oil storage pipe 3-7 after the kettle is placed can naturally return to the interior of the upper container 3 under the action of gravity.

Thirdly, after the oil pouring is finished, if oil drops are hung externally at the tail end of the oil outlet nozzle 3-5, the oil drops can drop into or permeate into the oil dropping pipe 3-6, slowly move downwards along the oil dropping pipe 3-6 under the action of gravity, and naturally return to the interior of the upper-layer container 3 through a small circular hole with the diameter of about 1cm at the lower end of the oil storage pipe 3-7.

And fourthly, the oil outlet nozzle 3-5 is inclined downwards when oil is poured, because the automatic oil outlet nozzle cover 5 is connected with the upper container 3 through the horizontal rotating shaft, the weight of the vertical upright rod is far larger than that of the horizontal cover plate, the vertical upright rod is basically always in the vertical direction and the horizontal cover plate is always in the horizontal direction in the downward inclination process of the oil outlet nozzle 3-5, the oil pouring is not influenced, and the automatic oil outlet nozzle cover 5 and the oil outlet nozzle 3-5 are in an automatic opening and closing relationship. Wherein, 2 vertical poles are symmetrically arranged at the outer sides of the oil nozzles 3-5, and the vertical poles are not in the same plane and do not influence each other in relative rotation.

And fifthly, in the oil pouring process, air enters the oil storage cavity 4-2 through the air inlet pipe 4-1 on the upper container cover 4 and then enters the upper container 3 through the air inlet hole 4-3 to form atmospheric pressure.

Sixthly, when oil needs to be poured again after the oil in the quantitative container 2 is poured out, the handle 3-1 can be held by hand to rotate the oil can body 1 to the horizontal direction by 90 degrees from the vertical direction, the oil outlet nozzle 3-5 is located above, the handle 3-1 is located below, at the moment, the oil in the oil can body 1 enters the upper space through the oil passing hole 3-3, the quantitative container 2 is located at the lower side at the moment, the oil entering the upper space can enter and fill the quantitative container 2, the oil can body 1 is rotated back to the vertical direction again, except the oil in the quantitative container 2, other redundant oil can return to the lower space from the oil passing hole 3-3 according to the original way, and the oil is taken out again in a quantitative mode. In the process, if the height of the oil level in the upper space exceeds the air inlet hole 4-3, because the air inlet hole 4-3 is a small round hole with the diameter of about 1cm, only a little oil slowly drops into the oil storage cavity 4-2 through the air inlet hole 4-3, the oil storage cavity 4-2 is a cylindrical cavity, and the air inlet pipe 4-1 is positioned at the center of the oil storage cavity 4-2, so that a little oil dropping into the oil storage cavity 4-2 cannot flow out of the oil can through the air inlet pipe 4-1. A little oil dropped into the oil storage cavity 4-2 after the oil can is placed is moved downwards through the air inlet hole 4-3 under the action of gravity and is dropped into the upper layer container 3. If the oil in the oil pot is reduced to be insufficient to fill the quantitative container 2 according to the actions, the oil can be filled in time, the oil pot can also be rotated for 180 degrees to be inverted, a small amount of oil in the oil pot is collected to the upper space, and the oil can be poured out from the oil outlet nozzle 3-5 by an inverted method, so that the oil in the oil pot is completely circulated.

Seventhly, according to actual conditions, the specific quantitative amount of oil needed in use can be adjusted to a certain extent, the quantitative amount is the minimum when the quantitative container 2 is screwed to the highest position and is 25 g, and the quantitative amount can be increased by screwing the quantitative container 2 downwards.

The rubber plug 6 is a cylinder and is clamped in a small circular hole in the partition plate 3-2 to prevent oil from passing through the small circular hole, the shape matching size of the spare hole 3-8 and the rubber plug 6 is the same, if the rubber plug 6 is taken out of the small circular hole in the partition plate 3-2 and clamped in the spare hole 3-8, the small circular hole in the partition plate 3-2 is unblocked, and the oil in the oil can body 1 can flow out through the small circular hole through the oil outlet nozzle 3-5 during oil pouring, under the condition, the metering oil can is converted into a non-metering oil can mode, namely the position of the rubber plug 6 can be adjusted according to actual needs, and the switching between the metering oil can mode and the non-metering oil can mode is realized.

The utility model has the advantages that: after the control ration of the oil is adjusted, the scales do not need to be carefully checked, the operation is convenient, the ration is accurate, the operation is quick and efficient, the worry and the labor are saved, and the switching between a metering oil pot mode and a non-metering oil pot mode can be realized.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the cross section a-a of the present invention.

Fig. 3 is a schematic structural view of a section B-B of the present invention.

Fig. 4 is a top view of the upper container lid of the present invention.

In the figure, 1-an oil can body, 2-a quantitative container, 3-an upper container, 4-an upper container cover, 5-an oil outlet automatic cover, 6-a rubber plug, 3-1-a handle, 3-2-a clapboard, 3-3-an oil passing hole, 3-4-a quantitative container interface, 3-5-an oil outlet, 3-6-an oil dripping pipe, 3-7-an oil storage pipe, 3-8-a standby hole, 4-1-an air inlet pipe, 4-2-an oil storage cavity and 4-3-an air inlet hole.

Detailed Description

Referring to fig. 1-4, according to the technical scheme of the utility model, the measuring oilcan comprises an oilcan body 1, a quantitative container 2, an upper container 3, an upper container cover 4, an automatic oil nozzle cover 5 and a rubber plug 6. The oil can body 1 and the quantitative container 2 are preferably made of transparent glass materials, the upper container 3 and the upper container cover 4 are preferably made of transparent plastic materials so as to observe the oil storage condition in the upper container, from the viewpoint of process manufacturing convenience, the air inlet pipe 4-1 on the upper container cover 4 is separately manufactured in a split mode and then is tightly combined with the upper container cover 4, the automatic oil nozzle cover 5 is preferably made of metal materials, and the rubber plug 6 is preferably made of rubber materials so as to improve sealing performance. The upper end of the oil can body 1 is connected with the lower end of the upper container 3 through threads, and the joint is sealed by a silica gel ring. The upper end of the quantitative container 2 is connected with the quantitative container interface 3-4 through screw threads. The upper container cover 4 is connected with the upper end of the upper container 3 through threads, and the joint is sealed by a silica gel ring.

The utility model discloses measurement oilcan is not restricted to above-mentioned embodiment, all according to the utility model discloses the structural principle takes the deformation of no technical innovation to handle and the same or close technical scheme who forms, all belongs to the utility model discloses a protection scope.

Claims

1. A metering oilcan, its characterized in that: the metering oilcan comprises an oilcan body (1), a quantitative container (2), an upper layer container (3), an upper layer container cover (4), an automatic oil nozzle cover (5) and a rubber plug (6), the upper end of the oil can body (1) is in threaded connection with the lower end of the upper container (3), the joint is sealed by a silica gel ring, the upper end of the quantitative container (2) is in threaded connection with the quantitative container interface (3-4), the upper container cover (4) is in threaded connection with the upper container (3), the joint is sealed by the silica gel ring, the oil outlet automatic cover (5) is connected with the upper container (3) through a horizontal rotating shaft, the rubber plug (6) is clamped in a small round hole of the partition plate (3-2) on the upper container (3), and the partition plate (3-2) on the upper container (3) divides the oil can body (1) and the upper container (3) into an upper space and a lower space.

2. The metering oiler of claim 1, wherein: the upper container (3) is provided with a handle (3-1), a partition plate (3-2), an oil passing hole (3-3), a quantitative container connector (3-4), an oil outlet nozzle (3-5), an oil dripping pipe (3-6), an oil storage pipe (3-7) and a spare hole (3-8), the oil passing hole (3-3) on the partition plate (3-2) is arranged at the upper end of the handle (3-1), the oil passing hole (3-3) is an oil passing channel between an upper layer space and a lower layer space, the oil passing hole (3-3) is positioned at a higher position when the handle (3-1) is held for pouring oil, the oil in the oil pot body (1) in the lower layer space cannot flow into the upper layer space, the oil dripping pipe (3-6) is arranged at the lower side of the oil outlet nozzle (3-5), and the oil storage pipe (3-7) is arranged at the lower side of the oil dripping pipe (3-6), the lower end of the oil dropping pipe (3-6) is communicated with the oil storage pipe (3-7), and the lower end of the oil storage pipe (3-7) is provided with a small round hole with the diameter of about 1cm and is communicated with the interior of the upper container (3).

3. The metering oiler of claim 1, wherein: the upper end of the quantitative container (2) is connected with the quantitative container connectors (3-4) through threads, the quantitative size of oil can be adjusted within a certain range by rotating the quantitative container (2), the quantitative is the minimum when the quantitative container (2) is screwed to the highest position, and the quantitative can be increased by screwing the quantitative container (2) downwards.

4. The metering oiler of claim 1, wherein: the automatic oil nozzle cover (5) is provided with a horizontal cover plate, 2 symmetrical vertical upright rods and a rotating shaft, the weight of the vertical upright rods is far larger than that of the horizontal cover plate, the automatic oil nozzle cover (5) is connected with an upper container (3) through the horizontal rotating shaft, an oil nozzle (3-5) tilts downwards during oil pouring, the weight of the vertical upright rods is far larger than that of the horizontal cover plate, the vertical upright rods are basically always in the vertical direction during the downward tilting process of the oil nozzle (3-5), the horizontal cover plate is always in the horizontal direction, oil pouring is not influenced, the automatic oil nozzle cover (5) and the oil nozzle (3-5) belong to an automatic opening and closing relation, the 2 vertical upright rods are symmetrically arranged on the outer sides of the oil nozzle (3-5), the two vertical upright rods are not in the same plane, and relative rotation does not influence each other.

5. The metering oiler of claim 1, wherein: an air inlet pipe (4-1), an oil storage cavity (4-2) and an air inlet hole (4-3) are arranged on the upper container cover (4), the air inlet pipe (4-1) is a thin pipe and is positioned at the center of the oil storage cavity (4-2), the oil storage cavity (4-2) is a cylindrical cavity, and the air inlet hole (4-3) on one side of the bottom of the oil storage cavity (4-2) is a small round hole with the diameter of about 1 cm.

6. The metering oiler of claim 1, wherein: the rubber plug (6) is a cylinder and is clamped in the small round hole in the partition plate (3-2) to prevent oil from passing through the small round hole, if the rubber plug (6) is taken out of the small round hole in the partition plate (3-2), the small round hole in the partition plate (3-2) is unblocked, the oil in the oil can body (1) can flow out through the oil outlet nozzle (3-5) through the small round hole during oil pouring, under the condition, the metering oil can is converted into a non-metering oil can mode, and the two modes of the metering oil can and the non-metering oil can be switched by adjusting the position of the rubber plug (6).