CN219400205U - Saving type liquid measuring device for cement test - Google Patents

Abstract

The utility model belongs to the technical field of cement test equipment, and discloses an economical liquid measuring device for cement test. Including measuring liquid part (1), stock solution part (2), measuring liquid part (1) top is opening (3), and stock solution part (2) lower part links flux liquid part (1) lower part, and measuring liquid part (1) is close to upper portion position and sets up scale mark (4), and stock solution part (2) upper portion links flux liquid part (2) and is close to scale mark (4) position on upper portion, sets up valve B (5) between stock solution part (2) lower part and the stock solution part (1) lower part, sets up valve A (6) between stock solution part (1) upper portion and the stock solution part (2) are close to upper portion. The saving type liquid measuring device for cement experiments has a simple structure, can conveniently and rapidly realize water measurement, improves water measurement efficiency, effectively stores redundant water, enables the redundant water to be recycled to the water measuring device for reuse, and solves the water waste phenomenon.

Description

Saving type liquid measuring device for cement test

Technical Field

The utility model belongs to the technical field of cement test equipment, and particularly relates to an economical liquid measuring device for cement test.

Background

The water meter is a common water meter for cement laboratory, and is just a glass meter for tank. The upper part is provided with an opening for adding water and measuring water. The existing water meter has the problem that the water is often discharged excessively beyond the scale marks, so that more water needs to be repeatedly poured until the water quantity is kept at the positions of the scale marks, and the water needs to be repeatedly discharged. Even the water quantity overflows due to excessive water quantity, flows to the desktop, influences the environment and causes the waste of water resources.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: aiming at the defects of the prior art, the energy-saving type liquid measuring device for the cement test is simple in structure, can conveniently and rapidly realize water measurement, improves water measurement efficiency, effectively stores redundant water simultaneously, enables the redundant water to be recycled to the water measuring device, and solves the water waste phenomenon.

The technical scheme adopted by the utility model is as follows:

the utility model relates to an economical liquid measuring device for cement experiments, which comprises a liquid measuring component and a liquid storage component, wherein an opening is formed above the liquid measuring component, the lower part of the liquid storage component is connected with the lower part of the liquid measuring component, a scale mark is arranged at the position, close to the upper part, of the liquid measuring component, the upper part of the liquid storage component is communicated with the position, close to the scale mark, of the upper part of the liquid measuring component, a valve B is arranged between the lower part of the liquid storage component and the lower part of the liquid measuring component, and a valve A is arranged between the upper part of the liquid storage component and the position, close to the upper part, of the liquid measuring component.

The liquid measuring part body is of a semi-conical structure, and the opening is cylindrical.

The lower part of the liquid storage part is connected with the lower part of the liquid storage part through a communication pipeline B7, and a valve B5 is arranged between the lower part of the liquid storage part and the communication pipeline B7.

The upper part of the liquid storage part is connected with the position of the scale mark, close to the upper part, of the liquid storage part through a communication pipeline A, and a valve A is arranged between the upper part of the liquid storage part and the communication pipeline A.

The bottom of the pipeline end at one end of the communicating pipeline A communicating liquid component is arranged to be in the same height with the scale marks on the liquid component.

The communicating pipeline B and the liquid measuring part are of an integrated structure, and the communicating pipeline B and the liquid storing part are of an integrated structure.

The communicating pipeline A and the liquid measuring component are of an integrated structure, and the communicating pipeline A and the liquid storing component are of an integrated structure.

The liquid storage part is of a spherical structure.

The valve A is arranged in a structure capable of being switched between an open state and a closed state.

The valve B is arranged in a structure capable of being switched between an open state and a closed state.

By adopting the technical scheme of the utility model, the working principle and the beneficial effects are as follows:

the utility model relates to an economical liquid measuring device for cement experiments, which comprises a liquid measuring part and a liquid storage part, wherein the liquid measuring part consists of a left part and a right part, the left part is a half cone-shaped liquid measuring part, the right part is connected with a spherical liquid storage part, the liquid measuring part and the liquid storage part are connected, the upper part of the liquid storage part is provided with a valve A, the lower part of the liquid storage part is provided with a valve B, when water is added into the water measuring part, the valve B at the lower part is closed, the valve A at the upper part is opened, when the water volume exceeds a scale mark, redundant water enters the liquid storage part through the valve A until the redundant water completely flows into the liquid storage part, after the water addition is stopped, the valve A is closed, the water in the liquid storage part flows into the liquid measuring part, the valve B is closed, the recycling of the redundant water is achieved, and meanwhile, compared with the conventional laboratory water measuring device, the redundant water is prevented from splashing to an experiment table top, and the environment is protected.

Drawings

The following is a brief description of what is expressed in the drawings of this specification and the references in the drawings:

FIG. 1 is a schematic structural view of an economical liquid meter for cement experiments according to the present utility model;

FIG. 2 is a schematic view of the liquid measuring part of the saving type liquid measuring device for cement test;

FIG. 3 is a schematic structural view of a liquid storage part of the economical liquid meter for cement test;

the reference numerals in the figures are respectively: 1. a liquid metering component; 2. a liquid storage part; 3. an opening; 4. scale marks; 5. a valve B; 6. a valve A; 7. a communication pipeline B; 8. a communication pipeline A; 9. the bottom of the pipeline end head.

Detailed Description

The following describes the shape, structure, mutual position and connection relation between parts, action of parts and working principle of the specific embodiment of the present utility model by describing examples in further detail:

as shown in figure 1, the utility model relates to an economical liquid measuring device for cement experiments, which comprises a liquid measuring component 1 and a liquid storing component 2, wherein an opening 3 is arranged above the liquid measuring component 1, the lower part of the liquid storing component 2 is connected with the lower part of the liquid measuring component 1, a scale mark 4 is arranged at a position, close to the upper part, of the liquid measuring component 1, the upper part of the liquid storing component 2 is communicated with the position, close to the scale mark 4, of the upper part of the liquid measuring component 1, a valve B5 is arranged between the lower part of the liquid storing component 2 and the lower part of the liquid measuring component 1, and a valve A6 is arranged between the upper part of the liquid storing component 2 and the position, close to the upper part, of the liquid measuring component 1. The structure provides an improved technical scheme aiming at the defects in the prior art. The saving type liquid measuring device for cement test comprises a liquid measuring part 1 and a liquid storing part 2, wherein the water measuring part consists of a left part and a right part, the left part is provided with the semi-cone type liquid measuring part 1, the right part is connected with the spherical liquid storing part 2, the upper part of the liquid storing part 2 is provided with a valve A6, the lower part of the liquid storing part 2 is provided with a valve B5, when water is added into the water measuring part from an opening 3, the valve B5 at the lower part of the liquid measuring part 1 is closed, the valve A6 at the upper part is opened, when the water volume exceeds a scale mark 4, redundant water enters the liquid storing part 2 through the valve A6 until the redundant water completely flows into the liquid storing part 2, after water adding is stopped, the valve A6 is closed, the water in the liquid storing part 2 flows into the liquid measuring part 1, the valve B5 is closed again, the redundant water is recycled, the effect of saving water is achieved, and meanwhile, compared with the common laboratory water measuring device, the water is prevented from splashing to the table top, and the environment is protected. The saving type liquid measuring device for cement experiments has a simple structure, can conveniently and rapidly realize water measurement, improves water measurement efficiency, effectively stores redundant water, enables the redundant water to be recycled to the water measuring device for reuse, and solves the water waste phenomenon.

The body of the liquid measuring part 1 is of a semi-conical structure, and the opening 3 is cylindrical. With the structure, the liquid measuring part body is used for storing water and measuring water, and the opening is used for adding water. The water meter is used for laboratories, and not only can be used for measuring water, but also can be used for measuring other liquids.

The lower part of the liquid storage part 2 is connected with the lower part of the liquid passing part 1 through a communication pipeline B7, and a valve B5 is arranged between the lower part of the liquid storage part 2 and the communication pipeline B7. The upper part of the liquid storage part 2 is connected with the position of the scale mark 4, which is close to the upper part, of the liquid storage part 1 through a communication pipeline A8, and a valve A6 is arranged between the upper part of the liquid storage part 2 and the communication pipeline A8. With the structure, the scale marks are used for confirming whether the water adding amount is in place. And the communication pipeline A8 is used for returning more water to the water storage part for temporary storage when water is added. The communication pipeline B7 is used for temporarily storing water and then flowing into the liquid measuring component.

The bottom 9 of the pipeline end of the communicating pipeline A8, which is communicated with one end of the liquid measuring part 1, is arranged to be in the same height with the scale marks 4 on the liquid measuring part 1. With the above structure, the water added into the liquid-measuring part flows into the water-storing part immediately as long as the water exceeds the scale mark. Thus, the water level of the water in the liquid measuring component is always kept at the position of the scale mark, and more backflow is temporarily stored.

The communicating pipeline B7 and the liquid measuring part 1 are of an integrated structure, and the communicating pipeline B7 and the liquid storage part 2 are of an integrated structure. The communicating pipeline A8 and the liquid measuring part 1 are of an integrated structure, and the communicating pipeline A8 and the liquid storing part 2 are of an integrated structure. The whole water meter with the structure can be integrally manufactured and formed as a glass product, and has the advantages of simple process, low cost and convenient use.

The liquid storage part 2 is of a spherical structure. The valve A6 is configured to be switchable between an open and a closed state. The valve B5 is provided in a structure capable of switching between an open state and a closed state. With the above structure, the two valves are opened or closed at the corresponding timings, respectively.

The utility model relates to an economical liquid measuring device for cement experiments, which comprises a liquid measuring part and a liquid storage part, wherein the liquid measuring part consists of a left part and a right part, the left part is a half cone-shaped liquid measuring part, the right part is connected with a spherical liquid storage part, the liquid measuring part and the liquid storage part are connected, the upper part of the liquid storage part is provided with a valve A, the lower part of the liquid storage part is provided with a valve B, when water is added into the water measuring part, the valve B at the lower part of the liquid measuring part is closed, the valve A at the upper part is opened, when the water exceeds a scale mark, redundant water enters the liquid storage part through the valve A until the redundant water completely flows into the liquid storage part, after the water is stopped being added, the valve A and the valve B are opened, the water in the liquid storage part flows into the liquid measuring part, and then the valve B is closed, so that the redundant water can be recycled, and meanwhile, compared with the conventional laboratory water measuring device, the redundant water is prevented from splashing to an experiment table top, and the environment is protected.

While the utility model has been described above with reference to the accompanying drawings, it will be apparent that the specific implementation of the utility model is not limited by the foregoing, but rather is within the scope of the utility model as long as various modifications are made by the method concept and technical scheme of the utility model, or the concept and technical scheme of the utility model are directly applied to other occasions without modification.

Claims (10)

1. The utility model provides a cement test is with saving type liquid ware which characterized in that: including measuring liquid part (1), stock solution part (2), measuring liquid part (1) top is opening (3), and stock solution part (2) lower part links flux liquid part (1) lower part, and measuring liquid part (1) is close to upper portion position and sets up scale mark (4), and stock solution part (2) upper portion links flux liquid part (1) and is close to scale mark (4) position on upper portion, sets up valve B (5) between stock solution part (2) lower part and the stock solution part (1) lower part, sets up valve A (6) between stock solution part (2) upper portion and the stock solution part (1) are close to upper portion.

2. The economical liquid meter for cement test according to claim 1, wherein: the liquid measuring part (1) body is of a semi-conical structure, and the opening (3) is cylindrical.

3. The economical liquid meter for cement test according to claim 1 or 2, wherein: the lower part of the liquid storage part (2) is connected with the lower part of the liquid passing part (1) through a communication pipeline B (7), and a valve B (5) is arranged between the lower part of the liquid storage part (2) and the communication pipeline B (7).

4. The economical liquid meter for cement test according to claim 1 or 2, wherein: the upper part of the liquid storage part (2) is connected with the position of the scale mark (4) close to the upper part of the liquid passing part (1) through a communication pipeline A (8), and a valve A (6) is arranged between the upper part of the liquid storage part (2) and the communication pipeline A (8).

5. The economical liquid meter for cement test according to claim 4, wherein: the bottom (9) of the pipeline end at one end of the communicating pipeline A (8) connected with the liquid measuring component (1) is of a structure which is positioned at the same height as the scale marks (4) on the liquid measuring component (1).

6. A saving type liquid gauge for cement test according to claim 3, wherein: the communicating pipeline B (7) and the liquid measuring component (1) are of an integrated structure, and the communicating pipeline B (7) and the liquid storing component (2) are of an integrated structure.

7. The economical liquid meter for cement test according to claim 4, wherein: the communicating pipeline A (8) and the liquid measuring component (1) are of an integrated structure, and the communicating pipeline A (8) and the liquid storing component (2) are of an integrated structure.

8. The economical liquid meter for cement test according to claim 1 or 2, wherein: the liquid storage part (2) is of a spherical structure.

9. The economical liquid meter for cement test according to claim 1 or 2, wherein: the valve A (6) is arranged in a structure capable of being switched between an open state and a closed state.

10. The economical liquid meter for cement test according to claim 9, wherein: the valve B (5) is arranged in a structure capable of being switched between an open state and a closed state.