JP2007301942A - Batcher plant - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a batcher plant improved in quality of ready-mixed concrete supplying flake ice or the like to a mixer accurately by improving a weighing accuracy for ice, such as flake ice or the like, and by keeping a temeperature of the kneaded ready-mixed concrete at a given temperature. <P>SOLUTION: A weighing apparatus for ice 14 is equipped between a mixer 1 in the batcher plant and a cyclone 3 equipped upward the mixer 1 and used for separating ice pneumatically transported from an ice plant and further equipment for weighing compensating water 17 for supplying the compensating water to the mixer 1 is installed. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a batcher plant.

  The ready-mixed concrete manufactured in the batcher plant is transported to the place where the ready-mixed concrete is to be placed, and when it is constructed, a large-scale concrete structure is constructed with the heat of hydration of the cement. A large temperature change occurs in the concrete after placing, and in some cases, cracks due to the temperature change occur, which may hinder the function and durability of the concrete structure. In summer concrete, the concrete temperature at the time of unloading raw concrete is regulated, and a blending design is required to satisfy the value.

  In order to solve such a problem, an ice plant is installed, and ice such as flake ice produced in the ice plant is appropriately supplied to the concrete mixer of the batcher plant and kneaded with various materials. Pre-cooling is performed to suppress the rise in temperature.

  However, since it takes time to produce flake ice, a large-capacity ice storage is required to make and store ice flakes, and the ice plant becomes large. Therefore, if the ice plant is installed on the upper part of the batcher plant and the flake ice is supplied to the mixer by the gravity method, the batcher plant becomes very large and causes a cost increase. Are kept separate.

  Thus, FIG. 2 shows a conventional example of a batcher plant in which an ice plant is separately provided. In the figure, reference numeral 1 denotes a mixer for mixing fresh concrete, which is installed in a batcher plant and provided with a guide hopper 2 at the upper part. A cyclone 3 is provided at the upper part of the guide hopper 2.

  4 is an ice storage of an ice plant adjacent to the batcher plant. An ice making machine (not shown) is installed on the ice storage 4, and a screw feeder for discharging flake ice in the ice storage 4 is provided. 5 is arranged. An ice meter 7 is installed below the flake ice discharge port 6 of the ice storage 4. The ice meter 7 includes a load cell 8 and a weighing hopper 9. At the bottom of the weighing hopper 9, there is provided a gate 9a that can be opened and closed by a cylinder or the like.

  A guide hopper 11 having a rotary feeder 10 provided at an intermediate portion of the lower straight pipe portion 11a is provided at a lower portion of the weighing hopper 9, and a lower end of the lower straight pipe portion 11a is fed from a blower 12. A transport pipe 13 is provided for pneumatically transporting the flake ice by air. The transport pipe 13 rises from the lower position of the ice plant and is connected to the cyclone 3 provided at the upper part of the batcher plant.

  In the case of producing ready-mixed concrete at the batcher plant, a predetermined amount of the flake ice produced by the ice plant ice machine and stored in the ice storage 4 is fed into the flake ice outlet 6 by the screw feeder 5. And is put into the weighing hopper 9 of the ice measuring device 7 and measured by the load cell 8. The weighed flake ice is introduced into the guide hopper 11 when the gates 9 a and 9 a are opened, and is supplied to the transport pipe 13 by the rotary feeder 10.

  The flake ice supplied to the transport pipe 13 is pneumatically transported through the transport pipe 13 by the air from the blower 12, separated from the air in the cyclone 3 and supplied to the mixer 1 via the guide hopper 2, from a line not shown. Ready-mixed concrete is manufactured by kneading together with a predetermined amount of sand, gravel, cement, admixture, water and the like supplied to the mixer 1.

Patent Document 1 is a prior document of an ice plant applied to a batcher plant. Patent Document 1 includes substantially the same device as that shown in FIG.
JP 9-136316 A

  As shown in FIG. 2, by separately providing the ice plant and the batcher plant, enlargement of the batcher plan is prevented. However, in the case of the equipment shown in FIG. 2, flake ice melts in the transport pipe 13 during pneumatic transportation, or flake ice adheres in the transport pipe 13, so that the total amount of the measured flake ice is mixed with the mixer 1. The flake ice supplied to the mixer 1 has a measurement error, and such a measurement error causes the temperature of the ready-mixed concrete to be kneaded. Unlike products, it may adversely affect product quality.

  In view of the above circumstances, the present invention is to accurately supply the amount of ice such as flake ice supplied to the mixer of the batcher plant so that the temperature of the ready-mixed ready-mixed concrete becomes a predetermined temperature. It was made for the purpose of improving quality.

  The batcher plant according to claim 1 is provided between the mixer and a separating means installed at the top of the mixer so as to separate the ice transported by the first ice meter in the ice plant. And a correction water meter for supplying correction water to the mixer.

  In the batcher plant of claim 2, the transportation is pneumatic transportation. In the batcher plant of claim 3, the ice weigher includes a weighing hopper and a load detector. In the batcher plant according to claim 5, the load detector is a load cell, and in the batcher plant according to claim 6, the separating means is a In the batcher plant of claim 7, the ice is flake ice.

  According to the batcher plant according to claims 1 to 7 of the present invention, the amount of ice supplied to the mixer can be accurately measured. Therefore, when the ice is insufficient, correction water can be added, and accordingly Therefore, the temperature of the ready-mixed concrete can be set to a predetermined temperature by improving the measurement accuracy of the water system. As a result, the quality of the ready-mixed concrete can be improved, and the Although the second ice meter is installed, since the ice storage and the first ice meter are not installed in the batcher plant, the batcher plant is not so large.

Embodiments of the present invention will be described below with reference to the accompanying drawings.
FIG. 1 shows an example of an embodiment of the present invention. In the figure, the same reference numerals as those in FIG. 2 denote the same parts.
Thus, in the illustrated example, the cyclone 3 in the batcher plant is installed upward to some extent, and the ice meter 14 is installed between the mixer 1 and the cyclone 3. The ice meter 14 includes a load cell 15 and a weighing hopper 16. At the bottom of the weighing hopper 16, there is provided a gate 16a that can be opened and closed by a cylinder or the like.

  A correction water meter 17 is installed above the ice meter 14. The correction water meter 17 includes a load cell 18 and a metering hopper 19. A valve 21 is installed in the lower straight pipe portion 20 of the measuring hopper 19, and a water supply pipe 22 extending downward to the guide hopper 2 is connected to the lower end of the lower straight pipe portion 20. . Thus, the correction water measured by the correction water meter 17 can be supplied into the guide hopper 2 from the measurement hopper 19 via the water supply line 23.

Next, the operation of the above-described embodiment will be described.
In the case of producing ready-mixed concrete at a batcher plant, a predetermined amount of flake ice produced by an ice plant ice maker and stored in the ice storage 4 is fed from the flake ice outlet 6 by the screw feeder 5. It is dispensed, put into the weighing hopper 9 of the ice meter 7, and weighed by the load cell 8. The measured flake ice is introduced into the guide hopper 11 when the gates 9a and 9a are opened, supplied to the transport pipe 13 by the rotary feeder 10, and pneumatically transported through the transport pipe 13 by the air from the blower 12, and the cyclone. 3 is separated from the air.

  Thus, the flake ice separated in the cyclone 3 is put into the weighing hopper 16 of the ice meter 14 and weighed by the load cell 15, and the weighed flake ice is passed through the guide hopper 2 by opening the gate 16a. Through the mixer 1.

  Further, in a computer not shown, the amount of correction water to be additionally supplied is obtained based on a signal from the load cell 15, and the obtained correction water is supplied from the water supply line 23 through the guide hopper 2 to the correction water meter 17. Is fed to the weighing hopper 19 and weighed by the load cell 18. Thus, when a predetermined amount of correction water is supplied to the metering hopper 19, water supply from the water supply line 23 is stopped and the valve 21 is opened. For this reason, the correction water corresponding to the shortage of flake ice is supplied from the measuring hopper 19 to the mixer 1 through the lower straight pipe section 20, the water supply pipe 22, and the guide hopper 2, and sand, gravel, cement, admixture, Ready-mixed concrete is produced by kneading together with flake ice, water and the like.

  According to the illustrated example, since the supply amount of the flake ice supplied to the mixer 1 of the batcher plant can be accurately measured, when the flake ice is insufficient, the correction water can be added. The temperature of the ready-mixed concrete that has been improved with accuracy can be set to a predetermined temperature, which improves the quality of ready-mixed concrete.

  On the batcher plant side, an ice meter 14 is installed between the mixer 1 and the cyclone 3, but since the ice storage 4 and ice making machine are not installed, the batcher plant does not have to be so large. .

  In the batcher plant of the present invention, the case where flake ice is used as the ice has been described. However, ice such as rock ice other than flake ice can also be used, transportation is not limited to pneumatic transportation, bucket elevator, screw Other transport means such as a conveyor can be used, a load scale can be used as a load detector in addition to a load cell, a separation means other than a cyclone can be used, ice from a guide hopper As the cutting means, other quantitative cutting means other than the rotary feeder can be used, and various changes can be made without departing from the scope of the present invention.

It is a front view which shows the outline | summary of an example of embodiment of the batcher plant of this invention which installed the ice plant separately. It is a front view which shows the outline | summary of an example of the conventional batcher plant which installed the ice plant separately.

Explanation of symbols

1 Mixer 3 Cyclone (separation means)
7 Ice meter (first ice meter)
8 Load cell (load detector)
9 Weighing hopper 14 Ice meter (second ice meter)
15 Load cell (load detector)
16 Weighing hopper 17 Correction water meter 18 Load cell (load detector)
19 Weighing hopper

Claims (7)

  A second ice meter is provided between the mixer and the separating means installed at the top of the mixer to separate the ice weighed and transported by the first ice meter in the ice plant; and A batcher plant comprising a correction water meter for supplying correction water to the mixer.   The batcher plant according to claim 1, wherein the transportation is pneumatic transportation.   The batcher plant according to claim 1, wherein the ice meter includes a weighing hopper and a load detector.   The batcher plant according to claim 1, wherein the correction water meter includes a weighing hopper and a load detector.   The batcher plant according to claim 3 or 4, wherein the load detector is a load cell.   The batcher plant according to any one of claims 1 to 5, wherein the separating means is a cyclone.   The batcher plant according to any one of claims 1 to 6, wherein the ice is flake ice.

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