SU881084A1 - Device for ultrasound activation of building mortars - Google Patents

Description

(54) DEVICE FOR ULTRASOUND ACTIVATION OF CONSTRUCTION SOLUTIONS

Claims (2)

The invention relates to the construction, in particular for the ultrasonic activation of mortars. A device for ultrasonic treatment of a product containing a magnetostriction transducer with two concentrators, working tables and a system for supplying an abrasive slurry 11 is known. The device for ultrasonic activation of construction solutions containing an acoustic chamber in the form of a rectangular parallelepiped is not closest to the proposed one. the walls of which are fixed radiating plates of magnetostrictive transducers, installed at the bottom of the gate and the boot device in the form of Onka 2. A disadvantage of known devices is the poor performance object of the invention is process intensification activation solutions. This goal is achieved by the fact that in the device for ultrasonic activation of building solutions, containing an acoustic chamber in the form of a rectangular parallelepiped, on the walls of which there are radiating plates of magnetostrictive transducers, installed in the lower part of the gate and boot device in the form of a funnel, the boot device has a socket, mounted in the lower part of the chamber and connected with a funnel by a pipeline, and the upper end of the chamber is made with goats fixed on one of its sides A hole, the funnel is located above the level of the visor, and the bell is made of a curved tetrahedral shape, the walls of which are located along an exponential curve. The width of the wall of the funnel, facing the acoustic chamber, is determined by the formula: B-PR-. DX-CV-S — where BX is the wall width of the socket facing the chamber in a section located at a distance X from its top; De is the diameter of the sub-pipeline; t - the base of the natural logarich}) ma; L - socket height ;; B is the width of the flare, on the rod with the wide wall of the acoustic chamber. The drawing schematically shows the proposed device. A device for the ultrasonic activation of building solutions consisting of an acoustic chamber 1 having the shape of a rectangular parallelepiped. The wide walls of the acoustic chamber are made with radiating plates 2 of magnetostrictive transducers 3 and an adjustable distance between them to adjust the degree of solution activation. At the bottom of the device, a shutter 4 is installed with an actuator 5 designed to empty the chamber at the end of the operating cycle. The loading device includes a funnel b and a bell 7 mounted in the lower part of the chamber and connected by a funnel pipe 8c. One of the sides of the upper end of the chamber is made with a visor 9 located below the level of the funnel and the end of the other sides of the chamber, which ensures that the solution that passes through the chamber is allowed to flow freely. The actuator 5 of the shutter 4 is associated with liquid and cement dispensers. The device works as follows. The mortar to be activated is continuously supplied by the dispenser through the receiving funnel b by pipeline 8 and the bell 7 to the lower part of chamber 1 evenly throughout its cross section, hocTeneHHo filling all of its volume. During the movement in the acoustic chamber 1, the mortar 1 in particular, the cement paste is subjected to the effects of ultrasonic vibrations created by the plates 2 with magnetostrictive transducers 3, which receive pulses from the machine sludge: lamp generator. The operating frequency of the oscillatory system is determined by the distance between the radiating plates of the magnetostrictive transducers, the wall thickness of the acoustic chamber and the geometric dimensions of the plates. The operating frequency is 16 kHz, which allows the use of typical machine generators with frequency doublers. After passing through the acoustic chamber 1, the activated solution is transferred through the visor 9 and enters a continuous or cyclic mixer for mixing with other components of the solution or concrete. This design solution ensures that the solution is evenly delivered to the activation zone, maintaining its constant level and operating stability throughout the entire cross section of the acoustic chamber. After the end of the working cycle, the odes and cement, generator are dispensed; using the actuator 5, the shutter 4 is opened and the acoustic chamber is emptied into a concrete or mortar mixer. The proposed device speeds up the activation process of the solution. Claim 1. A device for ultrasonic activation of mortars containing an acoustic chamber in the form of a rectangular parallelepiped, on the walls of which there are emitting plates of magnetostrictive transducers, a gate mounted in the lower part and a funnel in the form of a funnel, In order to intensify the process of activating solutions and simplify the design, the loading device has a bell mounted in the lower part of the chamber and connected to a gully with a funnel, and the upper end of the chamber is made with a visor fixed on one of its sides, the funnel being located above the visor level, and the bell is made of a curvilinear tetrahedral shape, the walls of which are located along an exponential curve. 2. The device according to claim 1, which is the width of the wall of the socket facing the acoustic chamber is determined by the formula L where B) is the width of the wall of the socket facing the chamber in section, located at a distance X from its top; DO is the diameter of the inlet pipeline; the base of the natural logarithm; 1 L - the height of the bell; B - the width of the socket at the junction with the acoustic chamber. Sources of information taken into account in the examination 1. The author's certificate of the USSR 470272, cl. B 06 B 1/03, 1965. 2. USSR author's certificate number 416108, cl. B 06 B 1/08, 1970.