JP3141114U - Raw concrete agitator - Google Patents

Abstract

The present invention provides a pan (dish) agitator having an increased capacity in an agitator (stirrer) corresponding to an on-site mixing system for raw concrete.
A bread portion of a conventional circular bread type agitator has an elliptical bread shape in a horizontal plane of the bread, and a ratio of a major axis to a minor axis (major axis / minor axis) is 1.2 to 2.0. It was. The position of the horizontal plane of the horizontal rotation paddle 2 in the elliptical-shaped pan was an elliptical-shaped pan-type agitator with an arbitrary position of the major axis in the major axis direction and a central position of the minor axis in the minor axis direction. In the housing case of the pan-type mixer and agitator integrated device, the capacity of the pan-type agitator can be greatly increased without increasing the installation area of the housing case, and the shape is further elliptical. The resulting turbulent flow was able to improve the uniformity of stirring.
[Selection] Figure 1

Description

A mixture obtained by mixing (mixing) powdered cement, water, and an aggregate or admixture added as necessary is referred to as raw concrete.
The present invention relates to an apparatus for stirring the raw concrete so that no material separation occurs when the raw concrete is left standing.

Concrete is used as a structural material for all kinds of construction and civil engineering structures.
Main structural members such as pillars, beams, floorboards, and load-bearing walls of steel reinforced concrete structures, steel reinforced concrete structures are mainly used as building structures, but as piles, foundations, etc. , Used in all types of buildings.

As a civil engineering structure, concrete is used as a main material in all kinds of civil engineering structures.
Examples include bridge substructures / superstructures, pavements, tunnels / underground structures, waterways / revetments / dams, sewer / sewage treatment facilities, harbor structures / breakwater breakwaters, retaining walls / slope protection materials, or Such as a container.

The concrete is characterized by the fact that the entire structure can be built at its final location by the on-site method of raw concrete (fresh concrete). Products are mass-produced and used in factories.
In addition, a concrete member or part manufactured only for a specific structure rather than such an open member or part is generally called a precast concrete or the like.
Examples of concrete products and precast concrete include concrete piles such as piles, concrete poles such as utility poles, concrete sleepers, track slabs, concrete pipes, and concrete products for roads. Reinforcement concrete girder or concrete block.

Among the above types, in the case of the raw concrete on-site method, if the raw concrete is left in a stationary state after the mixing step, the aggregate and water are separated with time, hardening progresses and fluidity decreases. Or, the workability is lowered and the quality is lowered.
Therefore, in order to prevent this, it is necessary to continue stirring the raw concrete with the agitator during transportation or waiting until the on-site hitting process.

The following is an example of the literature reviewed for agglomerates in raw concrete.
JP 2003-127128 A JP 2001-138318 A Utility Model Registration Gazette No. 2530889 JP-A-7-257370 Reality 7-6367 It should be noted that the quoted text from the cited document and the explanation thereof use the expression of the quoted text as it is.

“Patent Document 1” discloses an apparatus for forcibly pushing an agitator grid, which can be attached to and detached from a feed box, into a mold while agitating by shaking it horizontally and vertically when molding a concrete block. is there.
In the paragraph number “0009” of “Patent Document 1”, “... a horizontal stirring type material stirring device is developed, and the agitator grid is given a combined motion in the horizontal direction and the vertical direction. We focused on having two functions. "

  In addition, in the paragraph number “0010” of “Patent Document 1”, “... the machine body is provided with a mold box (3), and the feed box (2) can be positioned above the mold box. In the material stirrer (5) used in the concrete block molding machine (1) provided as described above, a removable agitator grid (16) is provided in the feed box so as to be swingable in the horizontal and vertical directions. Since the agitator grid swings not only in the horizontal direction but also in the vertical direction in the feed box, the mold box is stirred while the material in the feed box is stirred by this agitator grid. It will be forced into. "

“Patent Document 2” is an disclosure of an agitator car that can enter the place where the concrete is placed even in a terrain situation such as rough terrain where the truck agitator cannot enter.
In paragraph number “0008” of “Patent Document 2”, “... the rough terrain agitator according to the present invention includes a rough terrain vehicle and a concrete agitator mounted on the rough terrain vehicle. , ”Is disclosed.

In addition, paragraph number “... Of“ Patent Document 2 ”is an example of the rough terrain vehicle that travels flexibly on rough terrain with the concrete agitator filled with fresh concrete mounted thereon. Any type and structure may be adopted as long as it can be used, for example, a crawler type (including an iron crawler and a rubber crawler) and a wheel type. It can be done. "
Further, paragraph number “... Of“ Patent Document 2 ”can be used as the concrete agitator, so that fresh concrete can be agitated evenly until it is discharged. As long as it can be held, any type and configuration may be adopted. "

“Patent Document 3” is a disclosure relating to an agitator for cooling concrete for preventing the growth of ice blocks due to freezing in the vicinity of the inlet of the tank accompanying the ejection of liquefied gas. Supplying, stirring, and discharging of concrete It is disclosure of an apparatus that repeats a cycle of work seamlessly.
Paragraph No. “0007” of “Patent Document 3” includes “... a double cylindrical tank having a bowl-shaped cross section formed with a raw concrete inlet at the top, and a center of rotation about the cylindrical center of the tank. A pair of stirring blades provided with shafts, a liquefied gas supply nozzle having a jet opening in the tank, and an opening surface of the inlet along each cylindrical peripheral surface of the tank And a pair of open / close lids that are closed in shape. "
In addition, in paragraph number “0008” of “Patent Document 3”, “... When raw concrete is put into the tank and the opening / closing lid is closed, each opening / closing lid forms a part of the double cylindrical curved surface of the tank. Therefore, the inside of the rotor blade is capped with a shape along the rotation trajectory of the rotor blade, so that there is no free space for the growth of ice crystals formed on the rotor blade, and even if it adheres to the inner peripheral surface, it is scraped off by the rotation of the rotor blade Is disclosed.

"Patent Document 4" is a disclosure relating to an agitator taka that can travel without any trouble even in a tunnel with a sharp bend, etc., in which a tank accommodating concrete is connected flexibly between a front trunk and a rear trunk, This is a disclosure of mounting on a cart that can be bent like a tank.
Paragraph No. of “Patent Document 4”: In an agitator hawk that transports concrete while stirring, a stirring blade is provided inside, and the front barrel portion and the rear barrel portion are connected by a shaft oriented in the vertical direction. The tank is configured to be bendable around the shaft, a plurality of jacks disposed on both sides of the shaft, and a carriage that is mounted with the tank and can be bent in the same manner as the tank, and the jack is connected via a pump. Accumulated pressure in the accumulator, expanded and contracted by the accumulated pressure of the accumulator, the agitator blades were attached to the shaft circumferential surface arranged in the tank traveling direction, and the shaft was supported via a universal joint It is disclosed as “Agitator hawk”.

According to “Patent Document 5”, a pug mill type is used for an agitator of a concrete placing ship when making a concrete pier in the construction of a bridge, but the supply capacity accompanying the enlargement of the bridge is increased. It is a disclosure of an apparatus that increases the capacity of supplying concrete by reducing the size of the pug mill type agitator to a pan type agitator without extending the pug mill type agitator in one direction and increasing the capacity. .
In “Patent Document 5”, the column “1 to 3” in the column of “Means for Solving the Problem”, “... Muddy concrete is put into a pan-type agitator provided with a plurality of discharge ports. The feed pump is agitated and supplied to the concrete pump from the outlet of the agitator via the shout as required, and discharged from the concrete pump. It is disclosed.

Further, in the column of “Example” column of “Patent Document 5”, the bread type agitator 29 is used as an agitator of the concrete placing device. An inner cylinder 31 and an outer cylinder 32 are attached to an inner edge portion and an outer edge portion of the nut-shaped bottom plate 30 to form a casing 34 in which a doughnut-shaped stirring chamber 33 is formed. A motor 35 having a speed reduction mechanism is disposed concentrically with the casing 34 via a support bracket 37 at the center of the thing 34, and a rotating frame is provided on the output shaft 36 of the motor 35. 38, and a plurality of support rods 40 each having a required length and extending horizontally to the upper position of the stirring chamber 33 are fixed radially to the outer peripheral surface of the outer peripheral cylindrical portion 39 of the rotary frame 38, An arm 41 having a required shape extending to the agitating chamber 33 at the tip of each support rod 40 and the arm Shake it secured with a required angle in one tip - attaching the paddles 43 of de 42.
A plurality (eight in the figure) of semicircular discharge ports 44 are provided at equal intervals on the outer periphery of the bottom plate 30 of the casing, and each discharge port 44 is opened and closed. A possible fan-shaped gate 45 is provided. ".

Raw concrete is generally divided into cement paste composed of water and cement, mortar composed of water, cement and fine aggregate, concrete composed of water, cement, fine aggregate and coarse aggregate, water. And AE concrete composed of cement, fine aggregate, coarse aggregate, AE agent (air entraining agent) and the like.
What kind of raw concrete is used for a certain on-site construction method is determined by the purpose, the condition of the structure, the condition of the site, and the like.
The raw concrete targeted by the agitator of the present invention is not a specific raw concrete, and can be applied to any raw concrete. Since the target is from the strike to the AE concrete etc., it is generically called a raw concrete.

When constructing a structure at its final location by the on-site method of raw concrete, the following three steps are generally used.
That is, as a first step, water, cement, and in some cases, aggregates are added to a mixer (mixing machine), and admixed materials are added as necessary to mix them into raw concrete. .
As a second stage, until the raw concrete is beaten on-site, a kind of transportation and standby of the raw concrete by an agitator (stirrer) is performed so that material separation of the raw concrete does not occur. Process.
The third step is the on-site process of building the structure at the final location.

Originally, the concrete work started with the on-site kneading method, but since the 1960s, as a factory specializing in the production of raw concrete, the production of raw concrete is said to be the ready-mixed concrete responsible for the first stage. Factories have become popular.
With the spread of the raw concrete manufacturing plant, a large agitator truck called a raw concrete car that transports the produced raw concrete to the driving site while stirring has come to be used.

However, the use of large agitator trucks is mainly used for traffic when it is applied to narrow road conditions, traffic congestion problems, narrow construction sites in congested urban areas, or mountainous or remote construction sites. There is a problem that trouble often occurs.
Although there is a direction to use a small agitator track, downsizing of the agitator track is inefficient and has a disadvantage of high cost.
For this reason, there is a situation where the on-site kneading method is being reviewed depending on the location conditions of the on-site construction method.

  The on-site kneading method is a method in which the first stage to the third stage are performed at the construction site, and the raw material for concrete is carried into the construction site, and a material weighing machine (batcher) and a mixer are installed in the construction site. It is possible to use an agitator for waiting until the raw concrete is put into place by installing the concrete there, mixing the aggregate, aggregate, water, etc. to produce the raw concrete. is there.

When using the on-site kneading method, transport the on-site kneading equipment, that is, mixers with a measuring instrument, agitator, and driving machine to the construction site to which on-site kneading is applied. There is a need.
For example, when it is mounted on the platform of a normal medium-sized truck, it is a box structure in which a mixer, an agitator, a transport pump, etc. are stacked so that it can fit within the width and height restrictions regulated by legal regulations and road conditions. It is necessary to.

Since the mixing process is a batch production system, increasing the processing capacity of the agitator is an important point in order to efficiently hit the manufactured raw concrete on-site for standby or stockpiling.
Considering the transport restrictions, that is, the width and height restrictions, the agitator's processing capacity is increased to adapt to the on-site kneading method, which is based on the method of stacking mixers on the agitator. This is desired by those skilled in the art.

  An object of the present invention is to provide a large-capacity agitator that can be applied to an on-site kneading system that takes advantage of the small turn, in consideration of the problems associated with the agitator.

The inventor has made the following idea as a result of intensive studies in view of the purpose.
In other words, in a bread (dish) agitator for raw concrete, it is used as an agitator car that transports it from cement, water, etc. to a construction site such as civil engineering or construction work. Bread type agitator to be used, pan type agitator used for stocking or waiting of raw concrete at the construction site, or bread used when mixing and agitation are performed at the construction site The invention relates to a type agitator.
The bread portion of the bread type agitator is an elliptical bread portion 1 such that the horizontal surface of the bread is drawn in the upper diagram (B) of FIG. 2, and has an inner long diameter and an inner short diameter of the elliptical bread portion. The ratio is 1.2 to 2.0.
As shown in FIG. 1, a paddle 2 having radial wings 4 rotating in a horizontal plane is installed inside the elliptical pan.
The horizontal position of the paddle is the inner short side in the direction of the minor axis of the elliptical-shaped pan portion, such as the position of the rotation trajectory 10 of the paddle drawn by a broken line shown in FIGS. It is an arbitrary position of the inner major axis in the major axis direction at the center of the diameter.
The position of the paddle in the vertical direction is such that the lower side of the paddle is a horizontal bottom 11 of the elliptical-shaped pan, as in the position of the rotation trajectory 10 of the paddle drawn by a broken line shown in FIGS. It is a position that is close to.
The inventors have devised an oval-like pan agitator for raw concrete characterized by the above.

Further, in the bread type agitator for raw concrete, the invention is a device in the shape of the bottom part of the elliptical shape bread portion of the elliptical shape bread type agitator.
As depicted in FIG. 2 or FIG. 4, the bottom of the elliptical pan portion of the elliptical pan agitator is from the horizontal bottom 11 near the disengaged position where the paddle 2 is not on the top of the bottom. A rising slope bottom 42 having an angle of 40 degrees or less with respect to the surface of the horizontal bottom portion is formed toward the inside of the body portion 12 in the major axis direction of the elliptical pan portion. It is a device for a concrete agitator.

Furthermore, in a bread agitator for raw concrete, a mixer portion having a shape and a size that can be mounted on a loading platform of a medium-sized to large-sized ordinary truck, and the above-described elliptical bread agitator portion. The present invention is an integrated device.
As shown in FIG. 6 as an example, the integrated device has two upper and lower stages including an upper mixer section 32 and a lower elliptical pan agitator section 31.
Although FIG. 6 illustrates the case where a pan-type mixer is installed in the upper mixer section 32, the mixer section is not limited to the pan-type mixer, and an arbitrary mixer is installed. An opening with a switch is provided at the bottom of-.
The switch is opened from time to time, and the mixed raw concrete is dropped into the elliptical pan portion of the elliptical pan agitator installed at a lower position of the mixer portion. It is possible.
The oval-shaped pan agitator is placed at a position where the oval-shaped pan portion accepts a drop of raw concrete from the mixer.
Thus, the invention is a contritor of a concrete agitator characterized by having a function of storing a plurality of batches of raw concrete processed by the upper mixer.

(1) The oval pan shown in the upper part (B) of FIG. 2 which is the bread (dish) type agitator pan of the present invention is the conventional circular shape shown in the upper part (K) of FIG. Compared with the bread, even if the height of the bread body is the same, the capacity can be significantly increased.
For example, the ratio of the major axis to the minor axis inside the elliptical pan is about 1.7, and the capacity is about twice that of the circular pan, so that the capacity can be increased for the occupied area.
Therefore, the temporary retention function by the agitator is greatly improved. For example, it has a function to store multiple batches of raw concrete processed by a small on-site mixer, thus reducing the operating time on the mixer side. By doing so, it is possible to increase the operating rate on the mixer side and increase the efficiency of on-site work.
(2) The conventional circular pan-type agitator has a constant flow of raw concrete by the paddle, whereas the elliptical-shaped pan-type agitator of the present invention has a disturbance due to its elliptical shape. Since the flow is generated, the uniformity of stirring is improved.
Moreover, as shown in FIG. 1, FIG. 2, or FIG. 4, by providing the slope bottom portion 42, the uniformity of stirring is further improved.
(3) Since the uniformity of stirring is increased as compared with a conventional circular pan type agitator, energy consumption can be saved by reducing the stirring speed of the paddle.
(4) In the case of an upper and lower two-stage integrated device with the mixer section at the top and the elliptical pan-type agitator section of the present invention at the bottom, the agitator section is a conventional circular pan mold Compared to the integrated device, the latter integrated device can be stored in a storage housing having substantially the same volume as that for storing the latter integrated device.
Therefore, the capacity of the agitator can be greatly increased without greatly changing the shape and size of the housing case.
(5) In the case of an integrated device of the shape and size of the upper and lower two-stage system of mixer and agitator that can be mounted on the platform of medium-sized to large-sized ordinary trucks, that is, width, length, height, and weight In the case of an integrated device within the range of the above loading restrictions, the capacity of the agitator can be greatly increased by employing the elliptical pan-type agitator of the present invention.
Therefore, the storage function of the raw batches for a plurality of batches processed by the mixer section can be fulfilled, and the on-site work can be rationalized using this function.

Embodiments of the invention will be described with reference to the drawings.
FIG. 7 is a schematic diagram of a conventional circular pan agitator.
7 is a plan view and the lower view (L) is a side view.
In the upper diagram (K) of FIG. 7, the circular pan portion 47 of the pan-type agitator, the rotating shaft 3, the wing portion 4 of the paddle 2, and the locus 10 drawn by a broken line when the paddle 2 rotates are shown.
Further, in the lower diagram (L) of FIG. 6, similarly, the circular pan portion 47, the rotating shaft 3, the wing portion 4 of the paddle 2, and the locus 10 drawn by a broken line when the paddle 2 rotates are shown.
Note that the bread type agitator needs to be installed in a horizontal state because of its function during use. In the present invention, the expression “horizontal plane” is used to indicate the bottom surface of the bread.

In the oval-like pan agitator of the present invention, the horizontal surface of the pan portion has an oval-like shape with respect to the conventional circular pan-type agitator.
FIG. 1 is a schematic perspective view of an example of an elliptical pan agitator according to the present invention.
In the oval-like pan-type agitator depicted in FIG. 1, the pan portion 1 is installed on a horizontal plane, and although not shown, the raw concrete is injected into the pan portion 1.
In FIG. 1, a paddle 2 that rotates in the horizontal direction, which includes a wing part 4 attached to a rotating shaft 3 and a buffer damper 5 attached to the wing part, is provided inside the pan part 1. The said wing | blade part is drawn in the case of three sheets in FIG.
Although not shown, a geared motor in which an electric motor and a reduction gear device are integrated is attached to the upper portion of the rotary shaft 3.
When the rotary shaft 3 rotates, the paddle rotates so as to press the raw concrete against the bottom of the pan unit 1.

FIG. 2 is a schematic view of an example of an elliptical pan portion of the elliptical pan agitator.
2 is a schematic cross-sectional view taken along the line AA of FIG. 1, and the lower plan view (C) is a schematic side view thereof.
The locus when the paddle 2 rotates is drawn as a broken-line circle 10 inside the elliptical pan portion 1 in the upper diagram (B) of FIG.
Further, the horizontal position of the paddle is an example of being located on the right side in the major axis direction of the oval pan portion 1 in the upper part (B) of FIG. is doing.
The lower view (C) of FIG. 2 is a side view of the upper view (B). The paddle 2 is located on the right side of the pan 1 and the locus when the paddle attached to the rotary shaft 3 rotates is indicated by a broken line portion. It is drawn as 10.
As illustrated in the lower part (C) of FIG. 2, the vertical position of the paddle 2 in the elliptical pan 1 is such that the lower side of the paddle is close to the horizontal bottom 11 of the elliptical pan 1. Is installed.

FIG. 4 shows a schematic side view of the oval pan portion of the oval pan agitator.
In FIG. 4, the locus when the paddle is rotated is drawn as a broken line portion 10, and the paddle 2 is an example of being located at a slightly leftward central portion in the major axis direction in the figure of the elliptical pan portion 1. .
Similarly to the lower view (C) of FIG. 2, the vertical position of the paddle 2 in the elliptical bread portion is set so that the paddle is close to the horizontal bottom 11 of the elliptical bread portion. Yes.
Thus, the horizontal position of the paddle is the center of the short diameter portion in the direction of the inner short diameter of the elliptical pan, and is the arbitrary position of the long diameter portion in the long diameter direction.
The vertical position of the paddle is a position where the lower side of the paddle is close to the horizontal bottom of the elliptical bread portion.

Next, the shape of the bottom of the elliptical bread portion will be described.
FIG. 3 is a schematic side view of the elliptical pan agitator when the bottom of the elliptical pan is all flat and horizontal.
That is, in the elliptical-shaped pan portion 1 of the elliptical-shaped pan-type agitator in FIG. 3, the elliptical-shaped pan portion from the inside of one barrel 12 to the inside of the other barrel 12 in the major axis direction. This is a case where all the bottom portions 11 are flat and horizontal.
Thus, all the bottoms may be flat and horizontal.
On the other hand, FIG. 1, FIG. 2, and FIG. 4 are schematic diagrams in the case where the bottom portion is an upward slope bottom that partially goes inward of the body portion 12 in the major axis direction of the elliptical bread portion.
In the major axis direction of the oval-like pan part, the position of the body part 12 in the major axis direction of the oval-like pan part from the position where the paddle is not at the top, that is, the vicinity of the horizontal bottom part deviated from the rotation trajectory 10 of the paddle. This is the case where the rising slope bottom 42 is formed inward.
In this way, in the major axis direction of the oval-like bread portion, the slope bottom 42 may be formed partially rising toward the inside of the body portion.

FIG. 2 is an example in which a slope bottom 42 is formed at one place on one side of the major axis direction of the elliptical paddle 2.
In other words, as illustrated in the lower part (C) of FIG. 2, one rising slope bottom 42 is formed from the boundary 43 toward the inside of the body 12 in the major axis direction of the elliptical bread. is there.
FIG. 4 shows an example in which rising slope bottoms 42 are formed toward the inside of the body 12 at two locations on the both body sides in the major axis direction of the oval-like pan.

Thus, in the oval-like pan agitator of the present invention, in the major axis direction of the oval-like pan part, as shown in FIG. 3, the plane is flat from the inside of one body part to the inside of the other body part. It may be a horizontal plane.
Moreover, the paddle of the elliptical pan portion may not be at the top, and may rise from the surface of the horizontal bottom near the disengaged position toward the inside of the trunk to form a slope bottom.
In addition, the angle a between the horizontal bottom surface and the slope bottom surface of the elliptical bread portion shown in the lower part (C) of FIG. 2 is about 40 degrees or less though the boundary is not clear as a result of the experiment. I found out that
The reason for providing the slope bottom 42 is to assist the action of pushing back the raw concrete that has flowed away from the paddle by the rotation of the paddle toward the paddle by the slope bottom.
For example, when the ratio of the major axis to the minor axis of the oval-like pan portion is large, or when the raw concrete with low fluidity is agitated, the mixed state of the raw concrete is provided by providing the bottom surface of the slope. Maintainability is improved.

FIG. 5 shows a schematic horizontal plane of an example of an elliptical shape of the pan portion of the elliptical shape pan agitator of the present invention.
An ellipse is defined as a locus of points whose sum of distances from two fixed points is constant in analytical geometry, but the elliptical-shaped pan portion may have an elliptical shape and is limited to an analytical geometric ellipse. It is not necessary, and is therefore referred to as an elliptical pan in the present invention.
The left drawing (D) of FIG. 5 is surrounded by a broken line portion 16 that is a chord portion of the left semicircle, a broken line portion 17 that is a chord portion of the right semicircle, and an upper straight portion 18 and a lower straight portion 19 in the drawing. This is an example of an elliptical shape in which the center portion is rectangular and the semicircles at both ends sandwich the rectangle.
The middle diagram (E) of FIG. 5 is an example of a non-elliptical and flat elliptical shape in analytical geometry.
The right figure (F) of FIG. 5 is an original oval shape, and the locus point 25 has made one round, with the sum of the fixed points 21 and 22 on the broken line 20 having a long diameter and the broken lines 23 and 24 between the locus points 25 being constant. It is an elliptical shape, which is an analytical geometry formed by the locus of the case.
As described above, the shape of the horizontal plane of the elliptical pan portion of the present invention includes the ellipse in the analytical geometry as depicted in FIG. 5F, as shown in FIG. 5D and FIG. 5E. An elliptical shape may be used.

Next, the shape and dimensions of the bread of the present invention and the paddle will be described based on FIG. 1 or FIG.
The elliptical bread portion shown in the upper diagram (B) of FIG. 2 is compared with the conventional circular pan portion shown in FIG. 5 if the ratio of the major axis to the minor axis is 1 or more. In theory, this leads to an increase in capacity.
However, in order to reveal the substantial effect of increasing the capacity of the bread and contributing to the improvement of workability and cost reduction, the result of the verification shows that at least the ratio of major axis to minor axis (major axis / minor axis) is 1. Two or more were found desirable.
Further, when the ratio of the major axis to the minor axis inside the body of the elliptical pan, that is, the ratio of the major axis to the minor axis inside the elliptical pan is about 2.0 or more, the raw concrete in the agitating process is It has been found that separation of the cement component of concrete and water, etc. may occur, leading to poor uniformity maintenance.
Therefore, it has been found that the major axis / minor axis ratio is appropriately about 1.2 to 2.0.
The ratio of the major axis to the minor axis of the elliptical bread part is about 1.7, and the length of the body part is the same as that of the circular bread part having the minor axis of the elliptical bread part as a diameter. The actual capacity of raw concrete is about double.

The height of the body 12 of the oval-shaped pan is arbitrary and shall conform to the conventional circular pan shown in FIG.
In other words, the oval-like pan of the present invention has an agitating efficiency as compared with the conventional circular pan-type agitator only by increasing the capacity of the conventional circular pan shown in FIG. The idea is that the uniformity of raw concrete increases.
The height of the body of the conventional circular pan shown in FIG. 7 has been roughly determined from accumulated technology, and it has been found that no new conditions or restrictions are required in the present invention.
Strictly speaking, the guideline is to set it to about 0.4 to 0.6 times the minor axis of the elliptical bread.

Next, the horizontal position of the paddle and the shape of the paddle will be described.
1, 2, and 3, the position of the paddle 2 in the elliptical bread portion 1 is depicted as a position that is closer to the right end in the figure, but may be a position that is closer to the left side, and may be the center or center. It may be a position close to the department.
Further, as illustrated in FIG. 4, the position of the paddle 2 when the both sides in the major axis direction of the elliptical pan portion 1 have a slope bottom shape is the center portion or a position closer to the center portion.
In the paddle 2 shown in FIG. 1, the shape of the paddle is drawn as three wings 4. However, the number of wings may be four or more, and the shape of the paddle is the conventional circular pan type shown in FIG. Conforms to the case of an agitator.

The size of the oval pan-shaped agitator of the present invention is basically arbitrary.
However, the oval-like pan agitator is effective when it is an integrated device in which the mixer portion is installed in the upper part of the housing and the oval-like pan agitator is installed in the lower part.
In addition, it can be said that it is easier to use the integrated device that can be mounted on the platform of a medium-sized to large-sized ordinary truck.
In addition, when the truck is used only as a means for transporting the integrated device, and after the integrated device is transported to the construction site, mixing and agitation are performed while being mounted on the truck, and the raw concrete is placed on the site. There are cases where it is supplied to the hit.

For example, in the case of an allowable loading type on a normal medium truck, the elliptical pan part of the elliptical pan agitator is an elliptical pan in the left figure (D) of FIG. In this case, the major axis is about 3.2 m, the minor axis is about 1.9 m, and the body height is about 0.9 m.
However, when it is mounted on a large normal truck, it may be larger than the above-mentioned standard when it is used as a stand-alone type or an oval-like pan agitator. If it is an apparatus to be mounted on, it may be smaller than the above standard.
The above is the description of the position of the paddle, the shape of the bread, and the dimensions in the bread type agitator of the present invention.

It should be noted that when using a mixture of powder cement, water, etc. to make raw concrete and the elliptical pan agitator of the present invention in combination, or the mixer and the elliptical As the type of the mixer in the case where the shape pan type agitator is used as an integral device, any type known as a concrete mixer can be applied.
However, when the mixer unit is installed in the upper part and the oval-like pan agitator of the present invention is installed in the lower part in the integrated device, the height is low from the viewpoint of the restriction of the height of the integrated device. In some cases, it is desirable to use a pan mixer.

Moreover, in the said integrated apparatus, a mixer must be made small, and when using a small mixer, the reserve function of raw concrete is needed.
Since the oval-like pan agitator of the present invention can greatly increase the capacity as compared with the conventional circular pan agitator, it has a storage function for a plurality of batches of the mixer processing. Utilizing this stockpiling function, it is possible to rationalize the concrete on-site work.

Integrated with a concrete mixer and the oval-like pan agitator of the present invention that can be mounted within the width, length and height limits of a normal truck bed with a loading capacity of approximately 4 tons It is the example implemented with the apparatus.
From the viewpoint of the restriction of the height of the housing that houses the integrated device, the integrated device is a type that is installed in two stages on the upper and lower sides, a mixer part is installed at the upper part, and an elliptical pan agitator is installed at the lower part. The mixer employs a pan-type mixer that is characterized by a low height.

FIG. 6 is a schematic view of an integrated apparatus having a pan mixer portion and an elliptical pan agitator portion in the housing.
6 is a schematic plan view, and the lower diagram (H) is a schematic side view. In the side diagram of the lower diagram (H) in FIG. 6, a broken line enclosing portion 30 is an outer edge of a housing that houses the integrated device. The lower agitator part 31 and the upper mixer part 32 are accommodated in the housing.
In the lower agitator 31, the locus 10 of the paddle when the elliptical shaped pan 1, the gear motor 40 for rotating the paddle 2, the rotating shaft 3, and the paddle 2 indicated by the broken rectangle are rotated. Is shown.

The upper mixer section 32 in the lower part (H) of FIG. 6 is provided with a circular pan 33 having a circular horizontal surface, and a material input port 34 such as cement or water provided with a measuring section on the roof surface 39 of the housing 30. Yes.
The mixer 32 includes a paddle 35 for mixing, an opening 38 with a switch for dropping the mixed raw concrete into the oval pan 1 of the lower agitator 31, and a paddle 35. A drive transmission unit 36 from the geared motor 41 that rotates the motor and a locus 37 when the paddle rotates are drawn.

In the plan view of the upper view (G) of FIG. 6, the broken line enclosing portion 30 indicates the outer edge of the housing that houses the integrated device.
In addition, the elliptical pan portion 1 of the lower agitator and the circular pan portion 33 of the upper mixer are shown by broken lines, respectively.
In addition, a trajectory 10 when the paddle 2 of the lower agitator rotates and a trajectory 37 when the paddle 35 of the upper circular pan-type mixer rotate are indicated by broken lines.

Next, the dimensions of the integrated device will be described.
In the upper part (G) of FIG. 6, the length of the casing 30 shown on the left and right in the figure is 3.55 m, and the width of the casing 30 shown on the top and bottom in the figure is 2.0 m.
In the side view illustrated in the lower part (H) of FIG. 6, the height of the roof floor surface 38 of the housing 30 shown at the top and bottom in the figure is 2.45 m.
Although not shown, a support hole for temporarily fixing a removable safety fence around the roof surface of the housing is provided.
The inner major axis of the pan-shaped agitator oval pan 1 of the agitator 31 in the housing 30 was 3.2 m, and the inner minor axis was 1.9 m.
Further, for the paddle 2 installed on the right side in the figure inside the pan-shaped agitator oval-like pan 1, the diameter of the locus 10 when the paddle is rotated is 1.8 m.

The inner diameter of the circular pan portion 33 of the circular pan mixer installed in the housing 30 shown in the upper diagram (G) of FIG. 6 is 1.6 m, and the mixing paddle 35 has a diameter of a locus when the paddle rotates. This was 1.5 m.
In the upper mixer section 32 in the lower diagram (H), the length of the body of the circular pan section 33 of the mixer was 0.9 m.
Further, in the lower agitator 31 shown in the lower drawing (H), the length of the body 12 of the elliptical bread portion is 0.9 m on the right side in the drawing.
Also, in the oval-like pan portion 1 of the agitator portion 31 in the lower part (H) of FIG. 5, the paddle 2 is not located at the top. In the figure, the left bottom portion extends from the horizontal bottom portion to the inside of the left trunk portion. An inclined bottom surface 42 is provided and the angle between the bottom surface of the horizontal bottom 11 and the bottom surface of the inclined bottom surface 42 is 5 degrees, which is an angle a shown in the lower diagram (C) of FIG.

Using the integrated device having the above-mentioned specifications, in which the mixer and the elliptical pan-type agitator of the present invention were integrated, a live-concrete work was performed on-site.
In the ground improvement work, the integrated device was used for the jet agitation method called the grout injection method, which is the on-site method.
The above-mentioned jet stirring method is a method in which a cement paste (cement slurry) as a solidifying agent is jetted at a high pressure, ground is cut, and the cement paste and earth and sand are mixed and stirred to form a mixture. It is the construction method which replaces with the said mixture, and forms a ground improvement pillar body, drawing up.
In the case of the jet stirring method, cement paste and earth and sand are mixed and agitated, and the earth and sand become fine aggregate and coarse aggregate. Therefore, it is normal not to add aggregate to the raw concrete to be used. .

The cement: water ratio is 1: 1, and this is put into the circular pan portion 33 of the mixer portion 32 depicted in the lower part (H) of FIG. Mixing was set to rotate at 5 m / sec.
After mixing, the opening 38 with a switch is opened and dropped into the oval pan 1 of the lower oval pan agitator, and dropping was repeated until the oval pan 1 was full. .
The lower elliptical pan agitator was agitated by setting the peripheral speed of the paddle 2 to rotate at 1.5 m / sec. .

The mixing capacity of the upper mixer section 32 is about 1.2 m ³ in actual value, and is about one stroke of material charging, mixing, and dropping of the lower agitator section 31 into the elliptical pan section 1. Since 3 minutes are required, the mixing ability is about 0.4 m ³ / min. If the margin time per stroke is 1.5 minutes, the mixing capacity is about 0.27 m ³ / min.

The raw concrete is driven by the grout injection method, and the raw concrete discharge rate is 0.06 m ³ / min, while the mixing capacity of the mixer is about 0. If it is 27 m ³ / min and 4 units are operated in the construction method, the total discharge amount is 0.24 m ³ / min, which roughly corresponds to the processing capacity of the mixer with an allowance time.
The substantially full capacity of the oval pan portion of the oval pan agitator is about 3.6 m ³ , and the total discharge amount is about 15 minutes.

On the other hand, in the case of the conventional agitator using a circular pan shown in FIG. 7, the inner diameter of the circular pan portion 47 is the same as the inner short diameter of the elliptical pan portion, and the height of the body portion is also the same. The substantial full capacity is about 1.7 m ³ , and the total discharge amount is about 7 minutes.

In the case of the oval-shaped pan part, the ratio of the inner major axis to the inner minor axis is about 1.7, and the capacity is about twice as large as that of the circular pan having the same diameter as the minor axis. The capacity could be increased for the area.
By adopting the elliptical pan-type agitator, it became possible to store several batches of raw concrete processed by the mixer, and the storage function was greatly improved. The spare time could be reduced.
That is, the operating rate on the mixer side was improved, and an improvement of about 10 to 15% was achieved in the construction progress of the on-site work compared with the case of the conventional circular pan type agitator.

In this embodiment, the integrated device of the circular pan mixer and the elliptical shaped agitator of the present invention is the latter compared with the integrated device of the circular pan mixer and the conventional circular pan agitator. The capacity of the agitator can be greatly increased without greatly changing the size of the casing, which can be stored in a casing having substantially the same floor area and height as the casing that houses the apparatus. did it.
A large increase in the capacity of the agitator part in the integrated device has a stocking function of raw concrete.
Since the batch-type operation of the batch pan-type mixer and the live concrete driving into the field are intermittent, the increase in the storage function of the intermediate agitator is In the embodiment, there was also a construction record in which the margin time of the mixer could be reduced to 1 minute or less in the embodiment, and the operation rate of the mixer could be increased to improve the efficiency of the on-site work.
The above is description of the improvement of workability, such as the improvement of each process balance and the stockpiling effect by adoption of this invention.

In addition to the improvement in workability, the conventional circular pan agitator has a constant flow of raw concrete caused by the paddle, whereas the elliptical pan agitator of the present invention It was demonstrated that the uniformity of stirring is improved because turbulent flow occurs because the elliptical pan portion has an elliptical shape.
It has also been found that the uniformity of mixing and stirring can be further improved by providing the slope bottom 42 as shown in FIG. 1, FIG. 2, or FIG.

By adopting the elliptical shaped pan of the present invention as a bread type agitator in the on-site construction method of raw concrete, compared with the conventional circular pan, the increase in the occupied area of the housing that accommodates the device is almost reduced. Without it, the capacity of the agitator can be greatly increased.
According to the oval-shaped pan agitator of the present invention, the temporary retention function of the agitator is improved. Therefore, in the case of an integrated apparatus of the mixer part and the pan type agitator part, the operation on the mixer part side is performed. The margin time can be considerably reduced, so that the operation rate of the mixer can be increased and the efficiency of the on-site work can be improved.
In particular, in the integrated device comprising the circular pan-type mixer portion and the elliptical-shaped pan-type agitator portion of the present invention, the integrated device comprising the circular pan-type mixer portion and the conventional circular pan-type agitator portion. In comparison, the latter can be housed in a housing housing the integrated device and in a housing housing having substantially the same floor area and height, and the capacity of the agitator is almost unchanged without changing the size of the housing. Significant increase is possible.
Therefore, it can be mounted on the loading platform of medium-sized to large-sized ordinary trucks, and in the case of an integrated apparatus of a mixer and an agitator, it is accommodated in a housing case within the range of the loading platform regulation of ordinary trucks to be loaded. be able to.

Further, in the conventional circular pan type agitator, the flow of the raw concrete by the paddle is constant, whereas in the elliptical shape pan type agitator of the present invention, the elliptical shape pan portion is used. Since turbulent flow occurs, the uniformity of stirring is improved.
Moreover, the uniformity of stirring can be further improved by providing a rising slope bottom portion toward the inside of the body portion in the major axis direction of the elliptical-shaped pan portion.
Further, since the uniformity of stirring is improved as compared with the conventional circular pan type agitator, energy saving can be achieved by reducing the stirring speed of the paddle depending on the type of raw concrete. .
The present invention can be used for a concrete mixer as it is, and the surface that breaks the fixed idea of being circular, such as bread-type stirring and mixing equipment, can be used for other industrial equipment and contribute to the industry. large.

  Schematic perspective view of a bread-type agitator with an elliptical shaped pan   Schematic illustration of an example of an elliptical shaped pan   Schematic side view of an oval pan with a flat bottom and a horizontal surface in the major axis direction   Schematic side view of an elliptical pan with two beveled bottoms at the bottom in the major axis direction   Schematic example of the shape of the horizontal plane of an elliptical pan   Schematic diagram of a device with mixer and agitator   Schematic diagram of a circular pan, which is a conventional bread agitator

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Oval-like bread | pan part 2 Paddle 3 Rotating shaft 4 Wing | wing part 5 Damping part 10 for wing | blade cushioning: Dotted part; Left half-circle chord line 17 Broken line portion: Right semicircle chord line portion 18 Upper straight line portion 19 Lower straight line portion 20 Broken line portion: Long-diameter line segments 21, 22 Fixed points 23, 24 Broken line portion: Line from fixed point to locus point Minute 25 Trajectory point 30 Dotted line enclosing part; outer edge part 31 of housing of integrated apparatus of mixer and agitator agitator part 32 mixer part 33 circular pan part 34 of bread mixer 34 material provided with measuring instrument Filling hole 35 Mixer paddle 36 Drive transmission device 37 Trajectory 38 of mixer paddle rotation 38 Opening 39 with switchgear Housing top 40 Agitator paddle drive geared motor 41 For mixer paddle drive gear Motor 42 Slope bottom 43 Horizontal bottom-slope bottom boundary 44 Raw concrete feed hole 45 Broken-line enclosure; installation space for concrete pumps, control equipment, etc. 47 In a conventional circular pan agitator Circular pan section a Angle between the horizontal bottom surface and the bottom surface of the slanted pan section

Claims (3)

In a bread (dish) agitator for raw concrete,
A pan-type agitator used in an agitator car transported from a mixing plant that is made into concrete by adding water to cement to a construction site such as civil engineering or building construction, or raw concrete at the construction site Pan-type agitator used when holding or waiting for the above, or pan-type agitator used when mixing and agitation are performed at the construction site,
The bread part of the bread agitator has an elliptical bread part on the horizontal surface of the bread, and the ratio of the inner major axis to the inner minor axis of the elliptical bread part is 1.2 to 2.0. ,
A paddle having radial wings that rotate in a horizontal plane is installed inside the oval-like pan.
The horizontal position of the paddle is the central part of the inner short axis in the minor axis direction of the elliptical-shaped pan part, and the arbitrary position of the inner major axis in the major axis direction,
The vertical position of the paddle is a position where the lower side of the paddle is close to the horizontal bottom of the elliptical bread portion,
An oval-shaped pan-type agitator for raw concrete. In bread type agitator for raw concrete,
Regarding the shape of the bottom of the elliptical-shaped pan part of the elliptical-shaped pan-type agitator,
The paddle is not at the top of the bottom, and from the horizontal bottom near the disengaged position, toward the inner side of the long-diameter barrel of the oval-like pan, the angle of the horizontal bottom is 40 degrees or less. , Characterized by forming a rising slope bottom,
The oval-like bread agitator for raw concrete according to claim 1. In bread type agitator for raw concrete,
A mixer and agitator integrated device comprising a mixer portion and the elliptical-shaped pan-type agitator portion of a shape and size that can be mounted on a normal to large-sized truck bed, The integrated device has two stages of an upper part and a lower part, a mixer is installed in the upper part, and the elliptical pan agitator is installed in the lower part.
An opening with a switch is provided at the bottom of the mixer, the switch is opened as needed, and the mixed raw concrete is installed at the bottom of the mixer. It is possible to drop into the oval-like pan of the shape pan-type agitator, and the oval-like pan is placed at a position that can accept the dropping of raw concrete from the mixer. The oval-like pan agitator,
It has a stocking function of a plurality of batches of raw concrete processed by the mixer,
3. An oval-like bread agitator for raw concrete according to claim 1 and 2.

Images