RU181561U1 - DEVICE FOR CONVERSION OF SUSTAINABLE MOTION TO ROTARY WITH RETURN-COMMUNICATIVE - Google Patents

Abstract

The utility model can be used in mixing devices in the food, chemical, and petroleum industries, and relates to devices for converting translational motion into rotational motion with reciprocating motion. The device comprises a non-self-locking screw mechanism installed in the device body, comprising a drive link, which is a spindle with an axial force application unit, a nut interacting with the spindle, and a working member attached to the spindle, said nut interacting with the spindle is rigidly fixed in the device case, and the axial force application unit is connected to the lead screw by means of a thrust bearing with the possibility of free rotation on the lead screw when returning translational movement of the leading link. The technical result is to simplify the design while ensuring the reliability of the conversion of the reciprocating movement into rotational with reciprocating motion. 2 ill.

Description

This utility model relates to helical mechanisms for converting translational motion into rotational with reciprocating and can be used in mixing devices for the preparation of various products in the food, chemical, and petroleum industries.

A known mechanism for converting reciprocating motion into reciprocating motion and vice versa, comprising a rotary drum on its axis, on the surface of which a closed helical channel is made with at least one ball enclosed in it, a magnetic element mounted on a rail with the ability to move along drum, and the ball and the magnetic element are magnetically coupled. When moving the staff with a magnetic element along the drum, a constant magnetic field, acting on the balls, makes them move in the direction of movement of the magnetic element and rotate the drum, the reciprocating motion of the staff is converted into the reciprocating motion of the drum (RU patent for invention No. 2408809, IPC F16H 25/08, published on January 10, 2011). [one].

This mechanism is difficult to manufacture, can be used in the educational process, technical creativity, in the manufacture of appliances and toys.

A device is known for converting a reciprocating motion into a one-way rotational movement, comprising a housing with a non-self-locking screw mechanism installed in it, including a driving link — a screw with a handle and a driven link — a nut placed on the screw with the possibility of interaction with the housing. When the screw moves down, its translational movement is converted into a rotational movement of the nut, which is transmitted to the body (children's top type "Yula", passport BA-490-085, 1920). [2].

The operability of this device is determined by the cyclicality of the reciprocating movements of the leading link.

A device is known for converting a reciprocating motion into a one-way rotational one, comprising a driving link, which is a screw with an axial force application unit, and a driven link made in the form of a nut and mounted for rotation around its axis, in which the driven link is connected to the housing by ball bearings and is rigidly connected to the inertial element, the site of application of the axial force of the leading link is made in the form of a handle with a rod, the leading link is connected to this node with the possibility of freedom one axial movement, free rotation and locking, while the end surfaces of the drive link and the axial force application unit facing each other are made frictional (patent RU for invention No. 2110719, IPC F16H 25/22, publ. 05.10.1998) . [3], (prototype device).

When a handle with a rod of axial force directed downward is exposed, the leading link is locked, and the leading link moves down. The driven link - the nut, rigidly connected with the inertial element, which is the working body of the device, begins to rotate on ball bearings. When the leading link reaches the extreme lower position, it is acted upon by a force directed in the opposite direction - upward, and a gap is formed between the friction locking surfaces. As a result, the driving link makes a helical movement relative to the driven link with the direction of rotation coinciding with the direction of rotation of the driven link - the nut, which rotates by inertia. As the driving link accelerates, its rotation speed increases and when it reaches its top position it can be several times higher than the speed of rotation of the driven link. This creates an uncontrolled rotation of the driven link with an inertial element constantly rotating in the same direction in the same plane.

The technical result of this utility model is to simplify the design while ensuring the reliability of the conversion of the reciprocating movement of the driving link into the rotational one with the reciprocating movement of the working body under controlled control.

The technical problem underlying this utility model, with the achievement of the claimed technical result, is solved in that it includes a non-self-locking screw mechanism installed in the device body, comprising a drive link, which is a spindle with an axial force application unit, a nut interacting with the aforementioned a lead screw, and a working body attached to said lead screw, a nut interacting with said lead screw is rigidly fixed in the device body, and the application unit an axial force to the lead screw is attached by means of a thrust bearing to be freely rotatable on the spindle the reciprocating movement of the driving member.

The essence of the utility model lies in the fact that, unlike the prototype, the nut included in the non-self-locking screw mechanism and interacting with the lead screw is rigidly fixed in the device body, and when the axial force acts on the axial force application unit, the lead screw rotates around its axis, while the reciprocating movement of the screw is converted into rotational with reciprocating movement of the working body attached to it, the number of revolutions and the rotation speed of the working body correspond the number of steps of the lead screw (length of the screw shaft) and the speed of movement of axial force application assembly that provides control of the working body. The attachment of the axial force application unit to the lead screw by means of a thrust bearing provides free rotation of the lead screw when interacting with the nut, which ensures reliable operation of the device.

In FIG. 1 shows a device for converting translational motion into rotational motion with a reciprocating motion in the initial position; in FIG. 2 - conversion device in the lower position of the lead screw.

The device for converting translational motion into rotational with reciprocating includes a housing 1 and a non-braking screw mechanism 2. A non-braking screw mechanism 2 consists of a driving link 3 and a nut 4. The driving link 3 is made in the form of one (or more) starting gear 5 screw with a handle 6 mounted on the lead screw 5 on the thrust mechanical bearing 7, mounted on the lead screw 5 with a nut 8 with a washer 9 and in the handle 6 with a nut 10. The nut 4 of a non-self-locking screw mechanism 2 is installed in the housing 1 and is rigidly fixed CREPLA nut 11. The lower end 12 of the screw shaft 5 is provided with a threaded member 13, to which is attached a working member 14 made of, e.g., a paddle stirrer.

The device operates as follows. In the initial position, when an axial force is applied to the handle 6 connected to the lead screw 5, the lead screw 5 interacts with the fixed nut 4 and rotates about its axis 15 and moves along the screw groove 16 of the nut 2 in the direction of the axial force, while handle 6 , protected by the force applied to it (for example, by the hand of the operator - not shown) from rotation, performs only translational movement. Attached to the lead screw 5, the working body 14 performs a rotational motion with translational. When the axial force returns to the handle 6, the spindle 5 performs a return movement and rotates in the opposite direction. The number of revolutions and the rotational speed of the working body correspond to the number of lead screw steps (lead screw length) and the speed of movement of the axial force application unit, which provides controlled control of the working body.

The proposed utility model converts translational motion into rotational motion with reciprocating motion and can be used in mixing devices in the food, chemical, as well as in the oil industry in liquid hydrocarbon sampling devices - gas-saturated condensates, oil and their field products at oil and gas producing, oil and gas processing and oil transportation or other enterprises.

Claims (1)

A device for converting translational motion into rotational with reciprocating, including a non-self-locking screw mechanism installed in the device body, comprising a driving link, which is a spindle with an axial force application unit, a nut interacting with said spindle, and a working member attached to the said a lead screw, characterized in that the nut interacting with said lead screw is rigidly fixed in the device body, and the axial force application unit is attached One to the lead screw by means of a thrust bearing to be freely rotatable on the spindle the reciprocating movement of the driving member.

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