SU846788A1 - Peristaltic-type pump - Google Patents

Description

The invention relates to us. It concerns peristaltic pumps and may find application in medicine, instrumentation, in the chemical, food and other industries.

Known-type peristaltic pump comprising a pump installed in the housing tube cooperating with the rollers - displacers, which together with the ring placed with vhemozhnostyo Vera taenia relative to the central cylindrical waveguide vibration drive _h loop covered flexible endless belt

The disadvantage of this pump is its relatively low specific indicators due to the presence of significant friction losses between the waveguide of the vibroriod and the ring, and its slippage on the wave-water, which leads to a decrease in the efficiency and specific power of the pump.

The purpose of the invention is to increase the specific performance of the pump.

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This goal is achieved by the fact that the vibrodrive is made in the form of a central piezoceramic ring and two wedge-shaped piezoceramic plates mounted at an angle to each other, fixedly fixed by bases in the case and connected by vertices to each other by means of a shoe interacting with the ring placed on the waveguide.

The drawing shows a diagram of the pump.

A pump tube 2 is installed in the pump housing 1, which interacts with the roll ”displacers 3, which together with the support rollers 4 and the ring 5 * are looped around a flexible closed tape 6. Ring 5 is placed on a cylindrical central waveguide 7 of the vibrodrive. The vibro drive is made in the form of a central piezoceramic - motionlessly mounted in the housing 1 on the axis 8.

З 846786 th ring 9 and two wedge-shaped plates 10 mounted at an angle to each other, fixedly fixed by bases in the housing 1 and connected by vertices between them by means of a shoe 11 interacting with the ring 5 placed on the waveguide 7. The piezoceramic ring 9 is placed inside the waveguide 7 which is seated on ring 9.

When the piezoelectric ceramic ring 9 is fed with high-frequency alternating current, it starts to vibrate, the amplitude of its vibration is amplified by the waveguide 7 and a compressed gas film is created between the last and ring 5, on which ring 15 is hung 5. In this case, the friction between ring 5 and waveguide 7 is practically is absent. By applying a phase shift high-frequency voltage to the piezoceramic plates 10, which, in doing so, perform longitudinal vibrations, will create elliptical movements of the shoe 11. Moreover, in each oscillation cycle, the shoe 11 interacts on a part of its motion path with the ring 5, informing him alone; more motion. On the other part of the elliptical trajectory, the shoe 11 is diverted from the ring 5 and, moving in the opposite direction, does not prevent, however, the unidirectional movement of the ring 5. The latter, due to the adhesion to the tape 6, carries it, and with it the rollers - displacers 3 in a circular motion, in which the rollers 3 are rolled in 35 along the pump tube 2, moving the pumped medium along it to the consumer. By changing the phase shift of the high-frequency voltage supplied to the plates 10, it is possible to change the speed of the direction <of the shoe 11 moving along a closed path, thereby regulating the speed and direction of rotation of the ring 5, and, consequently, the volumetric flow of the pump. ⁴⁵

By reducing friction between the ring · 5 and the waveguide 7, power losses are reduced, and, consequently, the efficiency, specific power and other parameters of the pump are increased. In this case, turning off the power of the piezoceramic ring 9 and the plates 10 leads to a sharp increase in friction between the ring 5 and the waveguide 7 and a quick stop of the pump, which ensures its high speed.

Claims (1)

38th ring 9 and two wedge-shaped IP plates installed at an angle to each other, fixed by bases in case 1 and connected by vertices between themselves by means of shoe And, which is arranged with ring 5 placed on waveguide 7. Piezoceramic ring 9 is placed inside waveguide 7, which is planted on kolyu 9. When the piezoceramic ring 9 is powered by high-frequency alternating current, it begins to vibrate, the amplitude of its vibration is amplified with the waveguide 7, and a vibration is created between the latter and the ring 5 The film on which the ring 5 is hung is. When this friction is caused by a ring 5 and a waveguide 7, it is practically absent. With a phase shift, the voltage across the piezoceramic plates 1O, which make longitudinal oscillations, creates an elliptical movement of the shoe 11. At the same time, in each oscillation chain, the shoe 11 interacts with the ring 5 on the part of the trajectory of its movement NIN, together unidirectional movement . On the other part of the elliptical trajectory of movement, the shoe 11 is retracted from the ring 5 and, moving in the opposite direction, does not, however, oaHOJianpaBneHHOMy move the ring 5. The latter, due to the adhesion with the tape 6, entrains it, and with it the rollers displacers 3 in a circular motion, in which the rollers 3 roll around the pump tube 2, moving the pumped medium along it to the consumer. When the phase shift of the high-frequency voltage applied to the plates U is changed, the speed of the direction of movement of the shoe 11 along the aam1 curved path can be changed, thereby adjusting the speed and direction of rotation of the ring 5, and, consequently, the pump’s volumetric flow. 6 By reducing the friction between the RING 5 and the waveguide 7, the power loss is reduced, and, consequently, the efficiency, specific power and other parameters of the pump are increased. At the same time, disconnecting the power supply of the piezoceramic ring 9 and the plates 10 leads to a sharp increase in friction between the ring 5 and the waveguide 7 and to the rapid stop of the pump, which ensures its high speed. The formula of the invention} is a peristaltic-type pump containing a pump tube installed in the housing and interacting with propelling rollers, which are combined with a ring placed with the possibility of relative rotation on the cylindrical central waveguide of the vibratory structure, are looped in a flexible closed tape, characterized by in order to increase the pump specific indices, the vibration drive is designed as a fixed installation;% foam in the housing and placed inside the cylindrical waveguide of the central piezo eramicheskogo ring and two wedge-shaped piezoceramic plates mounted at an angle to each other fixedly zakreple1shyh bases in the housing and associated vertices interconnected by baschmaka interacting with a ring placed on the waveguide. Sources of information taken into account in the examination 1. USSR author's certificate for application N 27 12746/25-О6, cl. F04 B 43/12, 15.OI.79.