KR960029047A - Improved Manufacturing Method of High Strength Concrete Pipe with Internal Vibration - Google Patents

Abstract

(purpose)

Improved high-strength concrete tube with no water and concrete scattering during centrifugal rotation and no concrete sludge, resulting in environmental pollution, and internal vibration with excellent physical properties, uniform product thickness and smooth surface in the shortest time It is provided to the manufacturing method.

(Configuration)

Molding process by centrifugal rotation and external vibration, which quantitatively injects concrete while spraying water while applying external vibration simultaneously with centrifugal rotation to the body and socket of the molding mold under controlled conditions, and stepwise simultaneously with centrifugal rotation and internal vibration Improved manufacture of high-strength concrete tube with internal vibration, characterized in that it is composed of centrifugal rotation, internal vibration and voltage forming process for voltage shaping and voltage forming process at the same time as low speed centrifugal after high speed centrifugal rotation as finishing process. Way.

Description

Improved Manufacturing Method of High Strength Concrete Pipe with Internal Vibration

Since this is an open matter, no full text was included.

Claims (25)

In the manufacture of concrete pipes by centrifugal, vibration and voltage forming, (a) a predetermined amount of concrete with a ratio of 25 to 30% of water to cement is taken from a weighing conveyor belt of an automatic pit equipped with a two-cell weighing hopper; The discharged concrete is discharged to the fixed quantity feeding conveyor at each interval, and the discharged concrete is moved at a predetermined interval by the first centrifugal rotating device at the same time as the low speed centrifugal rotation by the first centrifugal rotating device, and at a predetermined interval. At the same time as the metering, the concrete injection into the body portion of the molding mold by spraying water in a controlled amount from the inverter-type water injection device, and when the metering conveyor reaches immediately before the opening of the socket portion of the molding mold Decrease the speed of the metering conveyor belt to concrete Subsequently, 1 to 50 to 60% of the total concrete input amount is discharged, and by inputting a predetermined amount of concrete into the socket portion at the controlled speed of the metered-in conveyor at the same time as water injection from the inverter-type water injection device. After the first injection of the concrete and the first injection of the concrete, the water injection is stopped and the low-speed centrifugal rotation and external vibration of the molding mold are continued. After completion of the secondary injection of concrete, the molding process by centrifugal rotation and external vibration to continuously centrifugally rotate the molding mold while continuously applying vibration from the outside, and (b) the molding process by the centrifugal rotation and external vibration. After completion, the forming mold is centrifugally rotated in the second centrifugal Centrifugal rotation, inside which a voltage roller enters into the forming mold and descends to a position of 5 to 10 mm from the inner surface of the molded concrete tube, and is formed while applying internal vibration and / or voltage at the same time as centrifugal rotation at 10 step linear pressure and linear velocity. (C) after completion of the centrifugal rotation, the internal vibration, and the molding process by the voltage, the molding mold is subjected to high-speed centrifugal rotation at the second centrifugal apparatus, and then to voltage forming at the same time as the low-speed centrifugal rotation. Improved manufacturing method of high strength concrete pipe with internal vibration, characterized in that the process is configured. The method according to claim 1, wherein the speed of the belt is 10 to 80 m / min in discharging concrete from the metering conveyor belt to the metering conveyor. The improved method for producing a high strength concrete tube with internal vibration according to claim 1, wherein the advancing speed of the metering conveyor into the molding mold is 2 to 5 m / min. The low-speed centrifugal rotation in the first centrifugal rotating device of the forming process by centrifugal rotation and external vibration is 30 to 200 rpm, and the centrifugal force at this time is 3 to 5 g. Manufacturing method of finished high strength concrete pipe. The vibration in the forming process by the centrifugal rotation and external vibration is applied to the vibration force 16 ~ 300KN using an inverter-type high frequency vibration generator, the frequency is 3600 ~ 12000Hz, the amplitude is 0.2 ~ Improved manufacturing method of high strength concrete pipe with internal vibration, characterized in that 0.7mm. The method of claim 1, wherein the concrete input to the body portion during the advance of the metering conveyor into the molding mold is 55 to 7125 kg / min of the concrete discharge amount of the metering conveyor belt, the forward speed of the metering conveyor 2 ~ 5 m / min Improved production of high-strength concrete tube with internal vibration, characterized in that the belt speed of the metered-in conveyor 30 ~ 80m / min, the concrete input amount 55-7125kg and the input time 1.5-2.0 minutes Way. The method according to claim 1, wherein the injection amount to the fuselage part at the same time as the concrete injection and the advancing into the molding mold is 0.2 to 50L. . The method of claim 1, wherein the concrete input to the socket portion when advancing into the molding mold of the metering conveyor is 50 to 80% of the amount of the socket portion at a belt speed of 30 to 80m / min of the metering conveyor when the advancing into the fuselage portion And then 10 to 15% while decelerating the belt speed of the metering conveyor by 60 to 70%, and then retracting the metering conveyor to the starting point of the socket at a speed of 0.1 to 1 m / min while remaining concrete. An improved method for producing a high strength concrete pipe with internal vibration, characterized in that (10 to 35%) is added. 10. The method of claim 1 or 8, wherein the concrete input to the socket portion is characterized in that the belt speed of the fixed-input conveyor 10-30 m / min, the concrete input amount of 10 to 1750 kg and the charging time of 0.5 to 1 minutes Improved manufacturing method of high strength concrete pipe with internal vibration. 10. The method according to claim 9, wherein the amount of water sprayed during the concrete injection into the socket part is 0.1 to 20 l. The water of the concrete according to claim 1, 6, 7, or 8, wherein the total water injection amount to the fuselage part and the socket part is 0.3-70 L when advancing into the forming mold of the metering conveyor. An improved method for producing a high strength concrete pipe with internal vibration, characterized in that the ratio of cement is 25 to 30%. The method of claim 1, wherein the reverse speed of the fixed-input conveyor for secondary input to the fuselage after the primary input of concrete is 2 to 5 m / min, the belt speed of the conveyor is 30 to 80 m / min, An improved method for producing a high-strength concrete tube with internal vibration, characterized in that the total input amount of concrete to the fuselage part at the time of retraction of the metered-in conveyor is 55 to 7125 kg. The method of claim 1, 3, 6, 7, or 12, wherein the concrete input at regular intervals of the metering conveyor is a two-stage metering while the metering conveyor moves 100mm in the molding mold An improved method for manufacturing a high strength concrete pipe with internal vibration, characterized in that a certain amount is inputted while sensing with a low cell installed in a hopper. 14. The improved production method of a high strength concrete tube with internal vibration according to claim 13, wherein the amount of concrete input per 100 mm of the metering conveyor is 2 to 272 kg. The method of claim 1 or 8, wherein the concrete input to the socket portion of the metering conveyor is a high-density concrete pipe with internal vibration, characterized in that a predetermined amount is input while sensing by the low-cell installed in the two-stage metering hopper. Metered manufacturing method. According to claim 1, After the second injection of concrete to the molding mold is completed in the first centrifugal rotating device to apply the vibration of the vibration force of 16 ~ 300KN (frequency 3600 ~ 12000Hz, amplitude 0.2 ~ 0.7mm) from the outside An improved method for producing a high strength concrete tube with internal vibration, characterized by centrifugal rotation at 50 to 400 r.pm (centrifugal force: 5 to 20 g). The internal vibration as set forth in claim 1, wherein the oscillating voltage and / or internal vibration shaping are performed in parallel under a centrifugal rotation condition of 50 to 275 r.pm (centrifugal force: 5 to 10 g) in the second centrifugal rotating device. Improved manufacturing method of this added high strength concrete pipe. 18. The method according to claim 1 or 17, wherein the vibration voltage roller has an inverter-type high frequency vibration system configured inside the roller. 18. The internal vibration is applied according to claim 1 or 17, wherein the internal vibration by the oscillation voltage roller at the same time as the centrifugal rotation is a vibration force of 16 to 300 KN with a frequency of 3,600 to 12,000 Hz and an amplitude of 0.2 to 0.7 mm. Improved manufacturing method of high strength concrete pipes. 18. The method according to claim 1 or 17, wherein the shaping by the vibration voltage roller simultaneously with the centrifugal rotation in the second centrifugal rotating device sets the linear pressure and the linear velocity of the vibration voltage roller in the first to sixth stages: 10 to 20, respectively. Kg / cm and 65-960 m / min, seventh step: 21-30 kg / cm and 70-1050 m / min, eighth step: 31-40 kg / cm and 75-1080 m / min, ninth step 41- 50 kg / cm and 80-1130 m / min, 10th step: It is shape | molded by 41-50 kg / cm and 80-1130 m / min, and the centrifugal rotation and shaping | molding by voltage which make voltage steps of each step into 2 to 60 second are performed. Improved manufacturing method of high strength concrete pipe with internal vibration added. 21. The internal vibration according to claim 20, wherein in the seventh and eighth stages, an internal vibration is applied at a vibration voltage roller at a frequency of 3,600 to 12,000 Hz and a vibration force of 16 to 300 KM having an amplitude of 0.2 to 0.7 mm. Improved manufacturing method of added high strength concrete pipe. 18. The method according to claim 1 or 17, wherein the forming mold after centrifugal rotation, internal vibration and voltage in the second centrifugal rotating device is subjected to a high speed for 30 to 240 seconds at 100 to 600 r.pm (centrifugal force: 20 to 50 g). After centrifugal rotation, at low speed centrifugal rotation at 50-275r.pm (centrifugal force: 5-10g), the linear speed of the vibration voltage roller is set to 80-1130m / min (linear pressure: 41-50kg / cm) for 10-60 seconds. An improved method for producing a high strength concrete pipe with internal vibrations, characterized in that centrifugal rotation and voltage shaping are carried out. The improved high strength concrete tube according to claim 1, wherein internal vibration is added using an integrated production line consisting of an automatic feeder, a metered feed conveyor, a first centrifugal rotating device and a vibration generating device, a second centrifugal rotating device and a vibration voltage device. Manufacturing method. 18. The method according to claim 1, 5 or 17, wherein after completion of the forming process by centrifugal rotation and external vibration, centrifugal rotation (50-275 r.pm; centrifugal force 5-10 g) and a 10-step voltage by vibrating voltage roller And internal vibration (vibration 16-300 KN, frequency 3600-12,000 Hz, amplitude 0.2-0.7 mm) and external vibration (vibration 16-300 KN, frequency 3600-12,000 Hz, amplitude 0.2-0.7 mm) Improved manufacturing method of high strength concrete pipe with internal vibration added. 25. The method according to claim 24, wherein the 10-step voltage by the vibration voltage roller sets the linear pressure and the linear velocity of the vibration voltage roller in the first to sixth steps, respectively, from 10 to 20 kg / cm and 65 to 960 m / min, and the seventh step: 21 to 30 kg / cm and 70 to 1050 m / min, 8th step: 31 to 40 kg / cm and 75 to 1080 m / min, 9th step: 41 to 50 kg / cm and 80 to 1130 m / min, 10th step : High strength with internal vibration, characterized in that 41 to 50 kg / cm and 80 to 1130 m / min, the voltage time of each step is 2 to 60 seconds, and internal vibration is simultaneously applied in the seventh and eighth steps. Improved manufacturing method of concrete pipes. ※ Note: The disclosure is based on the initial application.