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Quantitative container and quantitative obtaining method

A container and container cover technology, which is applied to household containers, dressing containers, bottles/container covers, etc., can solve the problems of complex structure of quantitative container products, irremediable reuse, and high production costs, and achieves simple structure and low production cost. , the effect of improving efficiency

Pending Publication Date: 2020-09-18
郑桂洪
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Based on the deficiencies of the prior art, the present invention not only provides a quantitative container, but also provides a method for quantitatively obtaining the contents of the quantitative container, which solves the problem of quantitatively obtaining the contents of the container alone, and avoids being exposed to the outside of the container when obtaining the quantitative contents. Pollution, at the same time, to solve the problem of high production cost due to the inability to remediate and reuse when there are too many contents in the container and the complex product structure of the quantitative container

Method used

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  • Quantitative container and quantitative obtaining method
  • Quantitative container and quantitative obtaining method
  • Quantitative container and quantitative obtaining method

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Experimental program
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Effect test

no. 1 Embodiment approach

[0068] Such as Figures 1-1 to 1-9 As shown, the overall structure of the quantitative container of the present embodiment is a square shape, wherein, Picture 1-1 It is a front view of this embodiment, as can be seen from the figure, the volumetric flask of this embodiment includes a chamber 10, and an inlet and outlet 20 that allows liquid, colloid, granule or powder loads to enter and exit is provided on the top of the chamber 10, The width of the entrance and exit 20 can be determined according to the size of the load that actually needs to be loaded, and the entrance and exit 20 is located on the side of the top of the chamber 10 that is relatively far away from the side of the passage opening 70 or above the partition 40 And on the side wall of the cavity 10 away from the channel opening 70 . A container cover 30 is provided at the entrance and exit 20. External threads are provided outside the entrance and exit 20, and internal threads are provided inside the container ...

no. 2 Embodiment approach

[0078] Such as Figures 2-1 to 2-9 As shown, the second embodiment is compared with the first embodiment, the functions of the container cover 30, the inlet and outlet 20, the quantitative volume chamber 60, the resistance capacity chamber 80, the volume chamber 10, and the upright volume chamber 50 are the same, but the resistance capacity chamber According to different settings, the resistance-capacitance cavity can be composed of a resistance portion protruding toward the bottom of the vertical cavity and the surrounding wall of the cavity, which is arranged under or at the lower part of the partition. The resistance portion separates the vertical cavity into a resistance Containment cavity 80 and a loading channel 100, the resistance capacity cavity 80 is used to block the loading of the resistance capacity cavity from the load channel 100 to the quantitative volume cavity when the vertical capacity cavity is turned over, and the resistance capacity cavity 80 blocks the tr...

no. 3 Embodiment approach

[0081] Such as Figures 3-1 to 3-3 As shown, compared with the first embodiment, the third embodiment has the same functions as the container cover 30, the inlet and outlet 20, the quantitative chamber 60, the resistance-capacity chamber 80, the chamber 10, and the upright chamber 50, and only the first embodiment The profile of the cavity is a square shape, and the profile of this embodiment is a cylinder, and the profile structure of the cylinder requires that the shape of the structural parts inside the cavity is also matched with the cylinder, and there is no difference in function.

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Abstract

The invention discloses a quantitative container and a quantitative obtaining method. The quantitative container is provided with a containing cavity, wherein an inlet and outlet part is formed in thetop or side part of the containing cavity, or the connecting part of the top and the side part; at least one division part, the rest part of which is connected to the inner wall of the containing cavity except for the tail end, extends from the inner wall of the containing cavity or the inner wall of the inlet and outlet part to the interior of the containing cavity; at least one part of the division part is bent in a broken line manner or curved toward the upper side of the containing cavity to form a bent part; the bent part forms a quantitative containing cavity alone or together with thewall of the containing cavity, or at least one groove facing the top of the containing cavity is formed in the division part; the groove forms a quantitative containing cavity; the bottom or lower part of the division part is an upright containing cavity which is connected to the quantitative containing cavities; the narrow between the tail end of the division part and the side wall of the containing cavity forms a channel opening of the upright containing cavity and the quantitative containing cavities; and the central axis of the inlet and outlet part does not overlap with the central axis of the channel opening. The quantitative container causes poured and obtained quantitative loaded objects to be measured out in the container and poured out from the container, so that liquid is not contaminated by the outside world.

Description

technical field [0001] The invention relates to a quantitative container and a method for quantitatively obtaining loads. Background technique [0002] In the fields of medicine, chemical industry, daily chemical products and kitchen supplies, there is a huge demand for quantitative pouring of containers for liquid, granular and powder products, such as quantitative pouring of liquids such as medical agents, chemical agents, and edible oils. At present, the commonly used method is to use auxiliary tools such as beakers and measuring cups to carry out pouring. However, this pouring method requires additional auxiliary tools, which is expensive, and the auxiliary tools are not suitable for cleaning. There are also quantitative containers with built-in devices, but the general structure It is complicated and costly, and cannot be popularized and used. If particles are involved, the quantity must be counted, which is time-consuming and unhygienic. Contents of the invention ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B65D25/04B65D83/00B65D83/06B65D41/04B65D85/72A47J47/01A45D34/00
CPCB65D25/04B65D83/00B65D83/06B65D41/04B65D85/72A47J47/01A45D34/00
Inventor 郑桂洪
Owner 郑桂洪
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