RU2031284C1 - Mechanism for converting rotation to screw motion - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: mechanism comprises output shaft 2 and additional shaft 4 having perpendicular axes, gear hypoid transmission, whose first wheel 3 mounted on output shaft 2 and coupled with it through a spline joint and second wheel 6 is rigidly secured to additional shaft 4, and cylindrical gear wheel 5 engaging with the cylindrical gear rack of output shaft 2. When drive 7 is actuated, rotation is transmitted forum driving shaft 8 to additional shaft 4 and driving hypoid gear wheel 6 and, then, to second hypoid gear wheel 3 and output shaft 2. Simultaneously, intermediate shaft 4 transmits rotation to cylindrical gear wheel 5 which moves output shaft 2 in the axial direction. As the result, output shaft 2 is set in screw motion. When drive 7 is reversed, output shaft 2 is reversed too. EFFECT: enhanced efficiency. 3 dwg

Description

 The invention relates to mechanical engineering, and in particular to rack-and-pinion transducers of rotational motion into screw, and can find application, in particular, in technological equipment when processing helical surfaces.

 A known mechanism for converting rotational motion into a helical one, comprising a housing, a working and additional shafts installed in it parallel to each other, a gear linking these shafts and a device for converting the rotational motion of the working shaft into helical, kinematically connected with the working and additional shafts. A straight guide is made in the housing, perpendicular to the axis of the working shaft, and the conversion device is made in the form of a gear mounted on an additional shaft of the slider with a gear rack, designed to interact with the gear mounted on the slider with the ability to rotate and fix the platform with a straight groove, the longitudinal axis of which is intersected with the axis of rotation of the platform, and mounted on the working shaft with the possibility of rotation of the finger with a roller, total the axis of which is perpendicular to the axis of the working shaft, and the roller is designed to interact with a straight groove of the platform [1].

 A device for converting rotary motion is also known, which is equipped with a cylindrical gear rack and a cylindrical gear wheel mounted on the output shaft, an electromagnetic clutch, two additional shafts with a gear wheel mounted on one of the bottom for interaction with a cylindrical gear rack and a bevel wheel mounted on an anchor electromagnetic clutch, the second bevel wheel for interaction with the first, mounted on the second additional shaft, the second gear wheel, nym with the first spur gear, electromagnetic clutch armature is fixed to the second additional shaft, and the width of the first spur gear is selected greater than the axial displacement of the output shaft [2].

 The disadvantage of this mechanism is the relative complexity of the design, which is explained by the multifunctionality of its action.

 The aim of the invention is to simplify the design and ensure the conversion of rotational motion into helical in both directions.

 This is achieved by the fact that in the device for converting rotational motion into a helical one, comprising an output shaft with a first gear wheel mounted thereon, a cylindrical gear rack, a shaft with a cylindrical gear wheel attached thereto, interacting with a cylindrical gear rack, and a second gear wheel, a cylindrical the gear rack is made integral with the output shaft, the first and second gears are hypoid, and the first of them is connected to the output shaft by a spline connection.

 Figure 1 shows the kinematic diagram of a device for converting rotational motion into a helical, General view; figure 2 is a view along arrow a in figure 1; figure 3 is a view along arrow B in figure 2.

 A device for converting rotational motion into helical is as follows.

 The rotation from the drive shaft 8, located in the bearings 1, of the drive 7 is transmitted to the intermediate shaft 4 and the hypoid wheel 6 rigidly connected with it, then to the hypoid wheel 3 and the output shaft 2.

 At the same time, when the intermediate shaft 4 rotates, a cylindrical gear 5 rotates with it, coupled to a cylindrical gear rack made directly on the cylindrical surface of the output shaft 2. The gear wheel 5 gives the output shaft 2 axial movement. As a result, the output shaft 2 will simultaneously perform a rotational and translational motion, or otherwise a helical motion.

 When reversing the drive 7, the output shaft will make a helical movement in the opposite direction.

Claims (1)

 MECHANISM FOR CONVERTING ROTARY MOTION TO A SCREW, comprising an output shaft, a first gear wheel mounted thereon, a cylindrical gear rack, a second gear wheel, a shaft and a cylindrical gear wheel mounted thereon, cooperating with a rack and a second gear wheel, characterized in that the cylindrical gear wheel made in one with the output shaft, the first and second gears are made hypoid, and the first of them is connected to the output shaft using a spline connection.

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