RU2049931C1 - Peristaltic pump - Google Patents

Abstract

FIELD: pump engineering. SUBSTANCE: hose is mounted on the concave side of the housing provided with covers. The hose is mounted for permitting interaction with the working rollers secured to axles. The rotor is coupled with the drive. The mechanism for converting force of the hose pinching is made up as guides secured in the covers and additional spring-loaded rollers. The working sides of the covers is provided with alternative projections and hollows. The spring- loaded rollers are mounted for permitting interaction with the guides and working rollers by way of the working rollers. The working rollers have convex surface of less diameter than the surface of the housing. EFFECT: improved design. 2 dwg

Description

 The invention relates to a pump engineering and can be used for pumping aggressive fluids and liquids of high viscosity.

 A device is known that contains the supporting surface of the housing, an elastic hose and displacers made convex with certain radii of curvature [1] The pump design does not provide good self-priming characteristics.

 It is also known a device comprising a housing with an elastic hose located on its inner surface, a shaft, a disk mounted on it and provided with rollers displacers pressing the elastic hose to the housing [2] The main disadvantage of this design is the short pump life due to the destruction of the elastic walls hose.

 The technical task is to increase the pressure and durability of the pump by increasing the number of suction duty cycles per revolution of the rotor and reducing the concentration of stresses arising on the sides of the elastic hose when it is rolled around by rollers.

 This task is achieved in that the pump, comprising a housing with caps with an elastic hose located on its concave inner surface, mounted with the possibility of interaction with the working rollers fixed on the axes, and the rotor associated with the drive, is additionally equipped with a mechanism for converting the force of the clamping of the hose, made in the form of guides fixed in the housing covers having a working surface with alternating protrusions and depressions, and additional spring-loaded rollers installed with possibly interaction with guides and, through the axis, with working rollers having a convex surface of a smaller radius than the supporting concave surface of the housing.

 The alternation of the protrusions and depressions of the guides in the working area ensures the repetition of the suction duty cycles per revolution of the pump. The implementation of a concave supporting surface of a larger radius of the housing to accommodate an elastic hose and a convex surface of a smaller radius of the working rollers reduces the concentration of stresses arising on the sides of the elastic hose when it is deformed in the places most exposed to destruction.

 In FIG. 1 shows a pump with the cover removed, general view; figure 2 section aa in figure 1.

 The pump comprises a housing 1 with an elastic hose 2 mounted on it on an arcuate concave supporting surface, interacting with the convex working rollers 3 mounted on the axles 4, placed in the grooves of the rotor 5, which is mounted on the drive shaft 6 on the key 7. Squares are made on the axles 4 that enter the grooves of the rotor 5, interacting with the springs 8 in such a way that one end of the spring 8 rests on the square of the axis 4, and the other on the cover 9. The pump has a mechanism for converting the force of the clamping of the hose, made in the form of guides 10, I have them in the working area of the pump alternating protrusions and depressions, which run-in additional rollers 11 arranged at the ends of the axis 4. The guides 10 are fixed on the lids 12 of the housing 1 of the pump.

 When the rotor 5 is rotated from the shaft 6 due to the key 7, the working rollers 3 are rolled in through the hose 2 and displace the pumped medium from it to the consumer. To increase the pressure of the pump, the pulsating effect of the working rollers 3 on the hose 2 in the working area is used due to the additional rollers 11 installed at the ends of the axis 4, which roll along alternating protrusions and troughs of the guides 10. Moreover, when the roller 11 runs onto the protrusion of the guide 10, the working roller 3 pinches hose 2, compressing the spring 8. So that the axis 4 does not turn, the squares of the axis are placed in the grooves of the rotor 5. When the roller 11 enters the cavity of the guide 10 due to the elasticity of the hose 2 and the springs 8, the 4 axis together with the working rollers 3 shifts radially to the center of rotation of the rotor 5 and the hose 2 extends. For one revolution of the pump shaft, the duty cycle is repeated as many times as the protrusions and troughs have guides 10.

Claims (1)

 A PERISTALTIC PUMP, comprising a housing with caps, with an elastic hose located on its concave inner surface, mounted to interact with working rollers fixed on the axes, as well as a rotor associated with the drive, and a mechanism for converting the force of the clamping of the hose, characterized in that the mechanism the conversion of the clamping force of the hose is made in the form of guides fixed in the housing covers having a working surface with alternating protrusions and depressions, and additional spring-loaded rollers iks installed with the possibility of interaction with the guides and through the axis with the working rollers having a convex surface of a smaller radius than the supporting concave surface of the housing.

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