JP4678102B2 - Air volume measuring instrument - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air amount measuring device for measuring an air amount of fresh concrete.
[0002]
[Prior art]
Controlling the quality of fresh concrete is an extremely important task for improving the reliability and economic efficiency of concrete work. At the site, fresh concrete is collected from a mixer or the like and various tests are conducted.
[0003]
One of the management indexes of fresh concrete is the amount of air. This amount of air has a significant effect on the workability of fresh concrete. For example, when the amount of air increases by 1%, the slump increases by about 2.5 cm.
[0004]
The amount of air also affects the compressive strength of concrete. For example, in a concrete having a constant water-cement ratio, the compressive strength is reduced by 4 to 6% per 1% of air amount.
[0005]
Therefore, it is necessary to measure the amount of air in fresh concrete before placing and measure whether the amount of air is adequate. ”Was used to measure the air volume.
[0006]
When performing such a test by water injection, first put fresh concrete into the container body of the air amount measuring device so that it is at the same height as the top of the container body, then attach a lid to the container body and let the air flow. After airtight connection so as not to leak, water is injected from the water inlet until water overflows from the drain outlet, then air is sent to the air chamber with a hand pump, and the pressure in the air chamber is first adjusted using the pressure control valve. Set to pressure (100 kPa).
[0007]
Next, by opening the operation valve, the air in the air chamber is sent to the airtight space surrounded by the container body and the lid, and after the pressure gauge pointer is stabilized, the amount of fresh concrete air is measured by reading the pointer. .
[0008]
[Problems to be solved by the invention]
However, in such a test method, when water is injected from the water inlet, there is a problem that it is necessary to expel the air by giving vibration such as shaking the air volume measuring device so that no air remains in the water injection space. However, it is difficult to completely expel fine bubbles attached to the back surface of the lid, and as a result, there is a problem that there is a concern that an error may occur in the measured value of the air amount.
[0009]
In addition, after the air is sent to the air chamber with the hand pump, the adjustment valve must be operated to set the pressure in the air chamber to the initial pressure (100 kPa). It was happening.
[0010]
The present invention has been made in consideration of the above-described circumstances, and an object of the present invention is to provide an air amount measuring device capable of measuring an air amount with a simple operation and with high accuracy.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, an air amount measuring device according to the present invention comprises, as described in claim 1, a container body in which fresh concrete is accommodated and a lid body that closes an upper opening of the container body in an airtight manner. An air chamber in the lid, a pressure gauge for measuring the pressure in the air chamber, an air supply port communicating with the air chamber, and a communication between the airtight space surrounded by the container body and the lid and the air chamber In an air amount measuring device provided with an operation valve for switching communication and a water injection port and a water discharge port communicating with the airtight space, the water injection port is provided in the vicinity of the edge of the lid body and sandwiched between the vicinity of the center of the lid body By providing the drainage port in the vicinity of the edge located on the opposite side of the water injection port, water is injected into the water injection space formed above the freshly stored fresh concrete in the airtight space via the water injection port. When Is flow from serial water inlet to the water outlet is obtained by configured to be formed on the water injection space.
[0012]
Moreover, the air amount measuring device which concerns on this invention comprises the said cover body so that the back surface may become an upward gradient from the said water injection inlet along the said drain outlet.
[0013]
Moreover, the air amount measuring device according to the present invention includes an inclined pedestal on which the container body is placed.
[0014]
Further, the air amount measuring device according to the present invention comprises a container main body in which fresh concrete is accommodated and a lid body that hermetically closes the upper opening of the container main body. A pressure gauge that measures the pressure in the air chamber, an air supply port that communicates with the air chamber, and an operation valve that switches between communication and non-communication between the air chamber and the air chamber surrounded by the container body and the lid And an air amount measuring device comprising a water injection port and a water discharge port communicating with the airtight space, the tip of an air ejection nozzle provided in an air cylinder is connected to the air supply port, and the air in the air cylinder is The air supply port is configured so as to be fed into the air chamber.
[0015]
In the air amount measuring device according to the present invention, pressure limiting means is provided at the air supply port, and the pressure limiting means is configured such that the maximum pressure in the air chamber becomes a constant value.
[0016]
In the air amount measuring device according to the present invention, a waterproof cover is attached to the lid.
[0017]
Moreover, the air amount measuring device which concerns on this invention comprises the said waterproof cover so that attachment or detachment is possible.
[0018]
In the air amount measuring device according to the first aspect of the present invention, the water inlet is provided in the vicinity of the edge of the lid, and the drain is provided in the vicinity of the edge located on the opposite side of the water inlet across the vicinity of the center of the lid. Therefore, when water is injected into the water injection space formed above the freshly stored concrete in the airtight space through the water injection port, the flow from the water injection port toward the drain port is formed in the water injection space. It is.
[0019]
Therefore, the air in the water injection space is discharged from the water discharge port along the flow from the water injection port to the water discharge port, and even if it adheres as bubbles to the back of the lid, the force of the flow from the water injection port to the water discharge port As a result, the bubbles are released from the back surface and are discharged from the drainage port along the flow described above.
[0020]
The container body and the lid may be of any type as long as fresh concrete is accommodated and the upper opening thereof can be closed airtight.
[0021]
Moreover, the air meter conventionally used can be diverted to an air chamber, a pressure gauge, an air supply port, and an operation valve.
[0022]
The water injection port and the water discharge port may be provided in any way as long as they are provided in the vicinity of edges that are opposite to each other across the center of the lid body. They may be provided one by one.
[0023]
Here, the container body may be used by being placed on a horizontal plane. However, when the container body is provided with an inclined pedestal on which the container body is placed, the back surface of the lid body is inclined upward from the water injection port along the drain port. Use the container body on an inclined pedestal so that
[0024]
If it does in this way, while it becomes difficult for bubbles to adhere to the back of a lid, even if it adheres, it will detach easily by the force of the flow which goes from the above-mentioned water pouring port to a water discharging port, and thus air remains in the water pouring space. Can be almost completely prevented.
[0025]
In addition, even when the lid is configured so that the back surface is inclined upward from the water inlet to the drain port, air bubbles are less likely to adhere to the back surface of the lid, as in the case of using an inclined pedestal. At the same time, even if it adheres, it can be easily detached by the force of the flow from the water injection port to the water discharge port, and the air can be almost completely prevented from remaining in the water injection space.
[0026]
In such a configuration, by further using the above-described inclined pedestal, it is possible to further increase the upward gradient of the back surface of the lid and completely prevent bubbles from remaining.
[0027]
In the air amount measuring device according to the invention of claim 4, the tip of the air ejection nozzle provided in the air cylinder is connected to the air supply port so that the air in the air cylinder can be sent into the air chamber. An air supply port is configured.
[0028]
For this reason, when the air chamber reaches a predetermined pressure, the air pump and the air supply port are configured so that the air supply from the air cylinder is completed, so that the air can be discharged with a hand pump as in the conventional case. After the feed, the trouble of adjusting the pressure by operating the pressure regulating valve is omitted.
[0029]
Here, when the air chamber reaches a predetermined pressure, the configuration in which the air supply from the air cylinder is terminated is arbitrary, and when the air pressure in the air cylinder and the pressure in the air chamber are balanced, Although it is conceivable that the air cylinder is configured to have a constant value, a pressure limiting means is provided at the air supply port, and the pressure limiting means is configured so that the maximum pressure in the air chamber becomes a constant value, for example, 100 kPa. If this is done, more reliable pressure setting is possible.
[0030]
A relief valve can be used as the pressure limiting means.
[0031]
In each of the above-described inventions, when the waterproof cover is attached to the lid, the upper surface of the lid is not directly wetted. On the other hand, when the waterproof cover is wet with water, the waterproof cover should be as uneven as possible. By structuring, water can be easily wiped off.
[0032]
Therefore, when the air amount measuring device of the present invention is used for measuring the unit volume mass of fresh concrete, it is possible to reduce a mass measurement error due to adhering water.
[0033]
Here, if the waterproof cover is configured to be detachable, it is possible to remove the water immersed in the interior from the waterproof cover during long-term use, and a structure in which maintenance is taken into consideration.
[0034]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of an air amount measuring device according to the present invention will be described with reference to the accompanying drawings. Note that components that are substantially the same as those of the prior art are assigned the same reference numerals, and descriptions thereof are omitted.
[0035]
(First embodiment)
[0036]
FIG. 1 is a cross-sectional view showing an air amount measuring device 1 according to the present embodiment. As can be seen in the figure, the air amount measuring device 1 according to the present embodiment is generally constituted by a container main body 2 in which fresh concrete is accommodated and a lid body 3 that airtightly closes the upper opening of the container main body. .
[0037]
The lid 3 includes an air chamber 4, a pressure gauge 5 that measures the pressure in the air chamber, an air supply port 6 that communicates with the air chamber 4, and an airtight space 8 surrounded by the container body 2 and the lid 3. And an operating valve 7 for switching between communication and non-communication with the air chamber 4.
[0038]
In other words, the actuating valve 7 is constructed of a lever type, and the push-down rod 9 is pushed down by using a force for lifting the operation lever 15 or a spring force (not shown), and a valve body 10 provided at the lower end of the push-down rod. Is inserted into the communication hole 12 drilled in the bottom plate 11 of the air chamber 4 so that the airtight space 8 and the air chamber 4 do not communicate with each other, and the push-down rod 9 is pulled up by depressing the operation lever 15 on the contrary. Thus, the valve body 10 is removed from the communication hole 12 so that the airtight space 8 and the air chamber 4 can communicate with each other.
[0039]
Further, the lid 3 is provided with a water inlet 13 and a water outlet 14 communicating with the airtight space 8. The water inlet 13 can inject water with its tip vertically raised, while it is tilted horizontally. As a result, the flow path is blocked by the action of a valve (not shown), and water tightness and air tightness can be secured. Further, the drain port 14 can be drained by rotating the operation valve at the tip to the drainage position, and can secure watertightness and airtightness by returning the operation valve to the non-drainage position.
[0040]
Here, the water inlet 13 is provided in the vicinity of the edge of the lid 3, and the drain 14 is provided in the vicinity of the edge located on the opposite side of the water inlet 13 across the vicinity of the center of the lid 3. In the airtight space 8, when water is injected into the water injection space formed above the previously accommodated fresh concrete through the water injection port 13, the flow from the water injection port 13 toward the drain port 14 is formed in the water injection space. It is configured.
[0041]
On the other hand, the air supply port 6 is configured to connect the tip of an air ejection nozzle provided in a cartridge type air cylinder so that the air in the air cylinder can be fed into the air chamber 4. The vent is provided with a relief valve as pressure limiting means, and the relief valve is configured so that the maximum pressure in the air chamber 4 is 100 kPa.
[0042]
In order to measure the amount of air using the air amount measuring device 1 according to the present embodiment, it may be generally performed in accordance with the “Test Method by Pressure of Air Content of Fresh Concrete” defined in JIS A1128-1999.
[0043]
That is, first, as shown in FIG. 2 (a), fresh concrete is put in the container body 2 of the air amount measuring device 1 so as to be at the same height as the top of the container body, and then the lid 3 is placed in the container body 2. Connect the airtightly so that air does not leak.
[0044]
If it does in this way, in the airtight space 8, the water injection space 21 will be formed on fresh concrete.
[0045]
Next, as shown in FIG. 5B, the operation valve 7 is operated in advance to close the communication hole 12 drilled in the bottom plate 11 of the air chamber 4 until water overflows from the drain port 14 in this state. Water is poured from the water inlet 13.
[0046]
At this time, the air existing in the water injection space 21 is discharged from the water discharge port 14 along the flow shown by the arrow in FIG. , The bubbles are separated from the back surface by the force of the flow from the water injection port 13 toward the drain port 14 and are discharged from the drain port 14 along the flow described above.
[0047]
If it is confirmed that sufficient water is discharged from the drain port 14 and the water injection space 21 is filled with water, the water inlet 13 and the drain port 14 are closed to ensure water tightness and air tightness.
[0048]
Next, as shown in FIG. 3, the tip of the air ejection nozzle provided in the cartridge type air cylinder 31 is connected to the air supply port 6, and the air in the air cylinder is sent into the air chamber 4. At this time, if the pressure gauge 5 reaches 100 kPa (initial pressure) while looking at the pressure gauge 5, the air supply by the air cylinder 31 is finished. In addition, since the relief valve comprised so that the maximum pressure may be set to 100 kPa is incorporated in the supply port 6, after the pressure of the air chamber 4 reaches 100 kPa, the supply of air is continued for a while. It is desirable to finish the air supply after confirming that the pressure is maintained with the pressure gauge 5.
[0049]
Next, by operating the operating valve 7, the valve body 10 of the operating valve 7 is removed from the communication hole 12, and the air chamber 4 and the airtight space 8 are communicated.
[0050]
In this way, the high pressure air accumulated in the air chamber 4 acts on the fresh concrete and water accommodated in the airtight space via the communication hole 12, and the air chamber according to the amount of air contained in the fresh concrete. Therefore, when the pointer of the pressure gauge 5 becomes stable while monitoring the pressure with the pressure gauge 5, the pressure of the pressure gauge is read and the amount of air in the fresh concrete is measured.
[0051]
As described above, according to the air amount measuring device 1 according to the present embodiment, the water injection port 13 is provided in the vicinity of the edge of the lid body 3 and on the opposite side of the water injection port 13 with the center vicinity of the lid body 3 interposed therebetween. By providing the drainage port 14 in the vicinity of the positioned edge, when water is poured through the water injection port 13 into the water injection space 21 formed above the freshly-accommodated fresh concrete in the airtight space 8, A flow toward the drain port 14 is formed in the water injection space 21.
[0052]
Therefore, the air in the water injection space 21 rides on the flow from the water injection port 13 toward the drain port 14 and is discharged from the drain port 14, and even if it adheres as bubbles to the back surface of the lid 3, Bubbles are released from the back surface by the force of the flow toward the mouth 14, and are discharged from the drainage port along the flow described above.
[0053]
Therefore, there is less possibility that air will remain in the water injection space 21 in the form of bubbles adhering to the back surface of the lid 3, and the measurement accuracy of the air amount is improved.
[0054]
Further, according to the air amount measuring device 1 according to the present embodiment, the tip of the air ejection nozzle provided in the cartridge type air cylinder 31 is connected to the air supply port 6, and the air in the air cylinder is transferred to the air chamber 4. In addition, a relief valve is provided at the air supply port 6 to limit the maximum pressure in the air chamber 4 to 100 kPa, so that after the air is fed by the hand pump as before, the pressure adjustment valve is operated. Thus, the trouble of adjusting the pressure can be omitted.
[0055]
In the present embodiment, the container body 2 is used while being placed on a horizontal plane. However, as shown in FIG. 4, the container body 2 is additionally provided with an inclined pedestal 41 having a wedge-shaped cross section, and the back surface of the lid 3 is connected to the drain port 14 from the water inlet 13. The container main body 2 may be placed on the inclined pedestal 41 so as to have an upward slope along the line.
[0056]
In this way, the buoyancy acting on the bubbles generates not only a component acting perpendicularly to the back surface of the lid 3 but also a component parallel to the back surface of the lid 3 (an obliquely upward component). Even if it once adheres to the back surface, it naturally moves to the drain port 14 due to the buoyancy of the diagonally upward direction component, and as a result, it becomes difficult for bubbles to adhere to the back surface of the lid 3, and 13 is easily separated by the force of the flow from 13 to the drain port 14, and thus it is possible to almost completely prevent air from remaining in the water injection space 21.
[0057]
(Second Embodiment)
[0058]
Next, a second embodiment will be described. In addition, about the components etc. substantially the same as 1st Embodiment, the same code | symbol is attached | subjected and the description is abbreviate | omitted.
[0059]
FIG. 5 is a cross-sectional view showing an air amount measuring device 51 according to the second embodiment. As can be seen in the figure, the air amount measuring device 51 according to the present embodiment also has a container main body 2 in which fresh concrete is accommodated, and a lid 52 that airtightly closes the upper opening of the container main body, as in the first embodiment. It is generally composed of
[0060]
Similar to the lid 3, the lid 52 is surrounded by the air chamber 4, a pressure gauge 5 that measures the pressure in the air chamber, an air supply port 6 that communicates with the air chamber 4, the container body 2, and the lid 52. In addition, the operation valve 7 for switching between communication and non-communication between the airtight space 8 and the air chamber 4 is provided, and the water injection port 13 and the drainage port 14 communicating with the airtight space 8 are sandwiched between the vicinity of the center of the lid 52. When water is poured into the water-filling space formed above the freshly-accommodated fresh concrete in the airtight space 8 through the water-filling port 13, the water-filling port 13 is connected to the drainage port. However, in this embodiment, the lid body 52 is configured so that the back surface of the lid body 52 has an upward gradient from the water injection port 13 along the drain port 14. It is.
[0061]
Since other configurations are the same as those in the first embodiment, the description thereof is omitted here.
[0062]
The procedure for measuring the air amount using the air amount measuring device 51 according to the present embodiment is substantially the same as that of the first embodiment. First, the container body 2 of the air amount measuring device 51 is the same as the top end of the container body. Fresh concrete is put so as to have a height, and then a lid 52 is attached to the container body 2 so as to be airtightly connected so that air does not leak.
[0063]
If it does in this way, in the airtight space 8, the water injection space similar to the water injection space 21 will be formed on fresh concrete.
[0064]
Next, as shown in FIG. 6, the operation valve 7 is operated in advance to close the communication hole 12 drilled in the bottom plate 11 of the air chamber 4, and in this state, the water injection port is filled until water overflows. Pour water from 13.
[0065]
At this time, the air existing in the water injection space is discharged from the water discharge port 14 along the flow indicated by the arrow in the figure from the water injection port 13 to the water discharge port 14, and temporarily as bubbles on the back surface of the lid 52. Even if it adheres, bubbles are detached from the back surface due to the force of the flow from the water injection port 13 toward the drain port 14 and are discharged from the drain port 14 along the flow described above.
[0066]
In particular, in the present embodiment, the buoyancy acting on the bubbles generates not only a component acting perpendicularly to the back surface of the lid body 52 but also a component parallel to the back surface of the lid body 52 (an oblique upward component). Even if it once adheres to the back surface of 52, it moves to the drain port 14 naturally due to the buoyancy of the obliquely upward direction component. It is easily detached by the force of the flow from the water injection port 13 toward the drain port 14.
[0067]
Hereinafter, the air amount is obtained in the same procedure as in the first embodiment, but the description thereof is omitted here.
[0068]
As described above, according to the air amount measuring device 51 according to the present embodiment, the water injection port 13 is provided in the vicinity of the edge portion of the lid body 52 and on the opposite side of the water injection port 13 with the vicinity of the center of the lid body 52 interposed therebetween. The drain port 14 is provided in the vicinity of the positioned edge, and the lid body 52 is configured such that the back surface of the lid body 52 is inclined upward from the water inlet 13 along the drain port 14. When water is injected into the water injection space formed above the fresh concrete through the water injection port 13, a flow from the water injection port 13 toward the drain port 14 is formed in the water injection space.
[0069]
Therefore, the air in the water injection space is discharged from the water discharge port 14 along the flow from the water injection port 13 to the water discharge port 14, and even if it adheres as bubbles to the back surface of the lid 3, The bubbles are separated from the back surface by the force of the flow toward 14, and are discharged from the drainage port on the flow described above.
[0070]
In particular, according to the present embodiment, the bubble adhering to the back surface of the lid body 52 has a component parallel to the back surface of the lid body 52 (an obliquely upward direction component). In addition, the buoyancy of the component in the diagonally upward direction naturally moves to the drain port 14, and as a result, it is difficult for bubbles to adhere to the back surface of the lid 52. Easily disengaged by the force of the flowing flow.
[0071]
Therefore, there is almost no possibility that air will remain in the water injection space 21 in the form of bubbles adhering to the back surface of the lid 52, and the accuracy of measuring the air amount is greatly improved.
[0072]
In addition, since the effect regarding the air cylinder 31 and the air inlet 6 is the same as that of 1st Embodiment, the description is abbreviate | omitted here.
[0073]
In the present embodiment, the container body 2 is used while being placed on a horizontal plane. However, when the upward gradient provided on the back surface of the lid 52 is not sufficient, an inclined pedestal 41 having a wedge-shaped cross section is separately provided as in FIG. In addition, the container body 2 may be placed on the inclined pedestal 41 so that the back surface of the lid 52 has a further upward gradient along the drain port 14 from the water inlet 13.
[0074]
If it does in this way, the effect | action mentioned above regarding a bubble will further increase, and it can prevent substantially completely that air remains in water injection space.
[0075]
(Third embodiment)
[0076]
Next, a third embodiment will be described. Note that components that are substantially the same as those of the above-described embodiments are denoted by the same reference numerals, and description thereof is omitted.
[0077]
FIG. 7 is a cross-sectional view showing an air amount measuring device 61 according to the third embodiment. As can be seen from the figure, the air amount measuring device 61 according to the present embodiment is generally constituted by a container main body 2 in which fresh concrete is accommodated and a lid 63 that airtightly closes the upper opening of the container main body. .
[0078]
The lid 63 includes an air chamber 4, a pressure gauge 5 that measures the pressure in the air chamber, an air supply port 6 that communicates with the air chamber 4, and an airtight space 8 surrounded by the container body 2 and the lid 63. And an operating valve 7 for switching between communication and non-communication with the air chamber 4.
[0079]
Further, the lid 63 is provided with a water inlet 13 and a drain 62 communicating with the airtight space 8, and the water inlet 13 is provided in the vicinity of the edge of the lid 63.
[0080]
On the other hand, the bottom plate 11 a of the lid 63 has a conical shape, and the drain port 62 is provided near the apex thereof, that is, at the approximate center of the lid 63.
[0081]
The air supply port 6 is configured to connect the tip of an air ejection nozzle provided in a cartridge type air cylinder so that the air in the air cylinder can be fed into the air chamber 4. Is provided with a relief valve as pressure limiting means, and the relief valve is configured so that the maximum pressure in the air chamber 4 is 100 kPa.
[0082]
In order to measure the amount of air using the air amount measuring device 61 according to the present embodiment, it may be generally performed in accordance with “Test method by pressure of air amount of fresh concrete” defined in JIS A1128-1999.
[0083]
That is, first, fresh concrete is put into the container body 2 of the air amount measuring device 61 so as to be the same height as the top of the container body, and then a lid 63 is attached to the container body 2 so that air does not leak. Connect tightly.
[0084]
In this way, a water injection space is formed on the fresh concrete in the airtight space 8.
[0085]
Next, the operation valve 7 is operated in advance to close the communication hole 12 drilled in the bottom plate 11a of the air chamber 4, and water is poured from the water inlet 13 until water overflows from the drain port 62 in this state.
[0086]
If it is confirmed that sufficient water is discharged from the drain port 62 and the water injection space is filled with water, the water inlet 13 and the drain port 62 are closed to ensure watertightness and airtightness.
[0087]
Next, the tip of the air ejection nozzle provided in the cartridge type air cylinder 31 is connected to the air supply port 6, and the air in the air cylinder is sent into the air chamber 4. At this time, if the pressure gauge 5 reaches 100 kPa (initial pressure) while looking at the pressure gauge 5, the air supply by the air cylinder 31 is finished. In addition, since the relief valve comprised so that the maximum pressure may be set to 100 kPa is incorporated in the supply port 6, after the pressure of the air chamber 4 reaches 100 kPa, the supply of air is continued for a while. It is desirable to finish the air supply after confirming that the pressure is maintained with the pressure gauge 5.
[0088]
Next, by operating the operating valve 7, the valve body 10 of the operating valve 7 is removed from the communication hole 12, and the air chamber 4 and the airtight space 8 are communicated.
[0089]
In this way, the high pressure air accumulated in the air chamber 4 acts on the fresh concrete and water accommodated in the airtight space via the communication hole 12, and the air chamber according to the amount of air contained in the fresh concrete. Therefore, when the pointer of the pressure gauge 5 becomes stable while monitoring the pressure with the pressure gauge 5, the pressure of the pressure gauge is read and the amount of air in the fresh concrete is measured.
[0090]
As described above, according to the air amount measuring device 61 according to the present embodiment, the tip of the air ejection nozzle provided in the cartridge type air cylinder 31 is connected to the air supply port 6, and the air in the air cylinder Is supplied to the air chamber 4 and a relief valve is provided at the air supply port 6 to limit the maximum pressure in the air chamber 4 to 100 kPa. It is possible to omit the trouble of adjusting the pressure by operating the adjusting valve.
[0091]
Each of the above-described embodiments is premised on the measurement of the amount of air by the water injection method, but it can also be applied when water is not used, and the air cylinder and the air inlet are each described above. Needless to say, the same effect as the embodiment can be obtained.
[0092]
Moreover, in 1st Embodiment and 2nd Embodiment, although it was made to send air into the air chamber 4 using the cartridge type cylinder 31, instead of this, as usual, it supplies with air using a hand pump, The pressure may be adjusted using a pressure adjusting valve (not shown).
[0093]
Even in such a configuration, there is no change in the operational effect that bubbles can be expelled from the water injection space.
[0094]
Further, although not particularly mentioned in each of the above-described embodiments, a waterproof cover may be attached to the lid of the present invention.
[0095]
FIG. 8 is a cross-sectional view of an air amount measuring device showing the case where this configuration is applied to the first embodiment. As can be seen in the figure, an air amount measuring device 71 according to this modification has a waterproof cover 72 attached to the lid 3.
[0096]
The waterproof cover 72 has a structure through which the water injection port 13, the operation valve 7, the air supply port 6, the pressure gauge 5 and the drain port 14 penetrate, and an appropriate sealing material or caulking material is used at each penetration location. What is necessary is just to prevent inundation to the inside. In addition, about the operating valve 7, since the pushing rod 9 raises / lowers, the well-known sealing mechanism which can ensure watertightness also between sliding members is employ | adopted. For example, since the raising / lowering stroke of the push rod 9 is limited, the water tightness of the penetrating portion of the push rod 9 is ensured by using a waterproof member made of a cylindrical body such as rubber that can be expanded and contracted within the range of the stroke. You can do it.
[0097]
In this manner, the upper surface of the lid 3 is not directly wetted. On the other hand, when the waterproof cover 72 is wetted with water, the waterproof cover is configured to be as uneven as possible, thereby wiping water. Easy to take.
[0098]
Therefore, in the case where the air amount measuring device 71 is used for measuring the unit volume mass of fresh concrete, it is possible to reduce the mass measurement error due to the attached water. Since the air amount measuring device 71 has the same configuration as the air amount measuring device 1 except that the waterproof cover 72 is attached, the description thereof is omitted here.
[0099]
In addition, if the above-described waterproof cover 72 is configured to be detachable, it is possible to remove the water immersed in the interior from the waterproof cover 72 during a long-term use, and a structure in which maintenance is taken into consideration. .
[0100]
【The invention's effect】
As described above, according to the air amount measuring device of the invention according to claim 1, the air in the water injection space is discharged from the water discharge port along the flow from the water injection port to the water discharge port, and temporarily, Even if the bubbles adhere to the back surface, the bubbles are detached from the back surface due to the force of the flow from the water injection port to the drain port, and are discharged from the drain port along the flow described above.
[0101]
Therefore, the possibility that air remains in the water injection space in the form of bubbles adhering to the back surface of the lid body is reduced, and the measurement accuracy of the air amount is improved.
[0102]
In addition, according to the air amount measuring device according to the invention of claim 4, it is possible to omit the trouble of adjusting the pressure by operating the adjusting valve after the air is fed by the hand pump as in the prior art. Become.
[0103]
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of an air amount measuring device according to a first embodiment.
FIG. 2 is a diagram showing a state in which the air amount is measured using the air amount measuring device according to the first embodiment.
FIG. 3 is a view showing a state in which the air amount is continuously measured using the air amount measuring device according to the first embodiment.
FIG. 4 is a cross-sectional view showing an air amount measuring device according to a modification.
FIG. 5 is a cross-sectional view of an air amount measuring device according to a second embodiment.
FIG. 6 is a diagram illustrating a state in which an air amount is measured using an air amount measuring device according to a second embodiment.
FIG. 7 is a cross-sectional view of an air amount measuring device according to a third embodiment.
FIG. 8 is a sectional view showing an air amount measuring device according to a modification.
[Explanation of symbols]
1, 51, 61, 71 Air amount measuring device 2 Container body 3, 52 Lid 4 Air chamber 5 Pressure gauge 6 Air supply port 7 Actuation valve 8 Airtight space 13 Water inlet 14 Water outlet 21 Water inlet space 31 Air cylinder 41 Inclined base 62 Waterproof cover

Claims (7)

A container body that contains fresh concrete and a lid body that hermetically closes the upper opening of the container body. The lid body has an air chamber, a pressure gauge that measures the pressure in the air chamber, and a supply that communicates with the air chamber. An air volume measuring device provided with an operation valve for switching between communication and non-communication between an airtight space surrounded by an air opening and the container main body and the lid and the air chamber, and a water injection port and a water discharge port communicating with the airtight space In
By providing the drain port near the edge located on the opposite side of the water inlet with the water inlet near the edge of the lid and sandwiching the vicinity of the center of the lid, among the airtight space, When pouring water into the water injection space formed above the freshly accommodated fresh concrete via the water injection port, a flow from the water injection port toward the drain port is formed in the water injection space. Air quantity measuring device. The air amount measuring device according to claim 1, wherein the lid body is configured such that a back surface of the lid body has an upward gradient from the water injection port along the drain port. The air amount measuring device according to claim 1, further comprising an inclined pedestal on which the container main body is placed. A container body that contains fresh concrete and a lid body that hermetically closes the upper opening of the container body. The lid body has an air chamber, a pressure gauge that measures the pressure in the air chamber, and a supply that communicates with the air chamber. An air volume measuring device provided with an operation valve for switching between communication and non-communication between an airtight space surrounded by an air opening and the container main body and the lid and the air chamber, and a water injection port and a water discharge port communicating with the airtight space In
An air characterized in that the air supply port is configured such that a tip of an air ejection nozzle provided in an air cylinder is connected to the air supply port so that the air in the air cylinder can be fed into the air chamber. Quantity measuring instrument. The air amount measuring device according to claim 4, wherein pressure limiting means is provided at the air supply port, and the pressure limiting means is configured such that the maximum pressure in the air chamber becomes a constant value. The air amount measuring device according to any one of claims 1 to 5, wherein a waterproof cover is attached to the lid. The air amount measuring device according to claim 6, wherein the waterproof cover is configured to be detachable.

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