RU2652364C1 - Screw telescopic jack - Google Patents

Abstract

FIELD: instrument making; transportation.

SUBSTANCE: invention relates to the field of ground handling of vehicles, for repair and technical inspection. Jack contains a body with a support platform, a lifting device with a nut and a bushing, a drive mechanism. At the end face of the nut a coupling is installed containing a washer, a separator, a half-coupling, precision screws and a coupling with splined joints. Coupling is connected to the drive screw through the splined connection and to the nut through the gear transmission. Control panel is installed that is connected to the drive mechanism, which is made in the form of a gearbox and an electric motor. Drive mechanism is connected to the drive screw by means of a gear train.

EFFECT: enabling elimination of the screw pair wedging, and the degree of the device wear is reduced.

1 cl, 4 dwg

Description

The invention relates to the field of ground handling of vehicles for repair and technical inspection.

Closest to the claimed device is a telescopic screw jack (Utility Model Aut. St. RU No. 12566 IPC B66F 3/10 Application No. 99111981/20, 06/03/1999), containing a housing placed in it in the outside, in the form of a cylindrical sleeve , and in the inner telescopic rails with a telescopic screw consisting of coaxially located central and hollow screws with the same external thread, the central rotor rotational drive, telescopic rails have the possibility of longitudinal movement along the axis of the jack and encoded from rotation of the outer guide relative to the housing, and the inner guide relative to the outer, the inner telescopic guide is made in the form of a threaded sleeve screwed onto a hollow screw that is screwed onto the central screw, and the internal thread of the inner telescopic guide and hollow screw is made in the lower part of their length , both screws are equipped with a stopper rigidly fixed along the profile of the external thread at its last turn in the cavity of the profile, not protruding beyond the outer diameter of the thread, but hollow in nt has the same stopper on the initial turn of its external thread, while the initial and last turns of the internal thread of the internal guide, as well as the last turn of the internal thread of the hollow screw, have a step whose height is equal to the height of the thread profile, the support is fixed to the upper end of the internal guide coaxially with the central screw, and on the lower end of the central screw mounted on thrust bearings on the base of the housing, a bevel gear rigidly engaged with another drive bevel gear is rigidly fixed irno associated with a drive through the draft.

The device discussed above has drawbacks, namely, the need to exert great manual force for the operation of a telescopic screw jack, the possibility of jamming of a screw pair, which leads to wear of the jack.

The technical result of the invention is the elimination of jamming of the screw pair at the time of operation of the device, which reduces the degree of wear and tear, as well as the elimination of the need for manual force for the operation of the screw telescopic jack.

The specified technical result is achieved by the fact that in a telescopic screw jack containing a housing made with a support platform, a lifting device comprising a nut and a sleeve installed between the housing and the nut, and the nut is installed in the axial bore of the sleeve, a screw mounted on the outer diameter in the axial the hole of the nut, which forms the first screw pair with the nut, and a drive screw is located in the axial hole of the screw, which forms the second screw pair, the drive mechanism connected to the lifting device, exl characterized in that at the end of the nut there is a coupling containing washers, a separator, a coupling half, precision screws, springs and a coupling coupling with spline connections, the coupling being connected to the drive screw via a spline connection and to the nut through a gear transmission, a control panel connected with a drive mechanism, which is made in the form of a gearbox and an electric motor, while the drive mechanism is connected to the drive screw by means of a gear transmission.

The essence of this invention lies in the fact that at the end of the inner nut is installed a clutch containing a washer, separator, coupling half, precision screws, springs and coupling half with spline connections. The coupling connects the screw and nut, preventing the nut from turning around the axis of the screw, and transfers torque to the drive screw. Upon reaching the specified displacements of the nut, the coupling breaks the connection of the nut and screw, creating a new connection, which is deprived of the possibility of rotation. A nut and a sleeve provide coupling of the coupling with the housing, and with such a connection, the possibility of linear movement along the axis of the housing appears. Thus, the clutch provides switching screw pairs and eliminates jamming of the screw pair at the time of operation of the device, which reduces the degree of wear.

The implementation of the drive mechanism in the form of a gearbox and an electric motor provides a linear movement of the screw pairs of the lifting device without the application of manual force. The control panel provides turning on, off, stopping and reversing the screw telescopic jack. Thereby, the technical result indicated in the invention is achieved.

In FIG. 1 shows a right view, a top view and a sectional view of a telescopic screw jack. In FIG. 2 shows a left view and the necessary types of sections of a screw telescopic jack. In FIG. 3 shows a 3D model of a coupling half with spline connections. In FIG. 4 shows a 3D model of a separator.

In FIG. 1-4 are marked: 1 - housing, 2 - sleeve, 3 - keyed connection, 4 - coupling, 5 - screw, 6 - drive screw, 7 - nut, 8 - limiter, 9 - bearings, 10 - gear wheel, 11 - pins, 12 - a coupling half with splined connections, 13 - a gearbox, 14 - an electric motor, 15 - springs, 16 - precision screws, 17 - a washer, 18 - a separator, 19 - a coupling half, 20 - a control panel, 21 - a drive mechanism.

The purpose of the introduced elements is as follows: a coupling containing a coupling half with spline connections, a washer, a separator, a coupling half, precision screws and springs, connects the screw and nut, prevents the nut from turning around the axis of the screw, and transfers torque to the drive screw. In this case, the washer and coupling half with spline connections create a new connection, which is deprived of the possibility of rotation. The coupling communicates through the nut and the sleeve with the housing, while having the possibility of linear movement along the axis of the housing. This eliminates jamming of the screw pair at the time of operation of the device and reduces the degree of wear during jamming and wedging of the screw pair.

Elements contained in the coupling mechanism can be made in the form of a half coupling with spline joints [Polyakov B.C., Barbash OA, Ryakhovsky OA Coupling Handbook, p. 142], the pucks [Polyakov B.C., Barbash OA, Ryakhovsky OA Coupling Handbook, p. 142], a separator, the configuration of which is shown in FIG. 3, coupling halves, the configuration of which is shown in FIG. 4, precision screws [http: //www.instruments- all.rf/gost_7805-70. Date of treatment: 05.16.2016], springs [http://prughin.ru/index/gost_9389_75/0-132. Date of appeal: 05/13/2016].

The drive mechanism, made in the form of a gearbox and an electric motor, is designed to ensure the movement of screw pairs without the application of manual force.

Elements contained in the drive mechanism can be made in the form of: a reducer [Karp A.V., Erokhin M.N. Machine parts and design fundamentals, p. 354], the electric motor can be made in the form of a DC motor of collector DP40-40-12.

The control panel provides switching on, turning off, stopping and reversing the screw telescopic jack and prevents the need for the application of manual force to operate the screw telescopic jack.

The control panel can be made in the form of a control unit [http://www.ellab.ru/serial/DC_motor_control/awd15. Date of appeal: 05/17/2016].

A telescopic screw jack works as follows: from the control panel 20, it gives a command to the drive mechanism 21, for example, to raise a telescopic screw jack. In this case, the electric motor 14 converts the electrical energy into mechanical energy and transfers the torque to the gearbox 13 via a gear transmission. In turn, the gearbox 13 transmits the torque to the gear wheel 10 via a gear transmission. Using pins 11, which are mounted on the gear wheel 10, rotation is eliminated , and the pins 11 engage with the drive screw 6.

The drive screw 6 converts the rotational motion into linear translational motion through screw pairs 7-5 and 6-5 with the help of a nut 7 and screw 5.

A nut 7 is placed inside the sleeve 2. The sleeve 2 moves along the axis and, from rotation around its axis, the sleeve 2 holds the key connection 3, which is connected with the housing 1. The nut 7 has one degree of freedom and an internal groove, at the bottom of which is located a half-coupling with splined connections 12 The coupling half with spline connections 12 engages with the drive screw 6 and, after passing a certain linear movement, locks the screw pair 7-5 and unlocks the screw pair 6-5.

The exclusion of jamming of the screw pair at the time of operation of the device and the reduction of the wear during jamming and wedging of the screw pair is achieved as follows: in nut 7 there is a screw 5 having an internal and flow thread, the diameter of which exceeds the diameter of the drive screw 6, thereby unlocking and blocking the coupling 4 screw 5 from the drive element goes into the discharge Executive. The screw 5 with a modified degree of freedom moves linearly, and when the specified amount of movement is achieved, the clutch 4 is switched and the drive screw 6 changes the degree of freedom, as a result of which the nut 7 moves until it returns to its original position. The coupling 4 linearly moves along the screw 5 and due to its movement, the screw pairs 7-5 and 6-5 are switched.

When the nut 7 reaches a certain linear displacement, the clutch 4 is switched, and the screw 5 and the sleeve 2 begin to linearly move along the axis of the mechanism. The nut 7 does not make linear displacements relative to the sleeve 2, thereby lifting.

Also on the drive screw 6 there is a limiter 8, which serves as a support for the screw 5, and a pair of bearings 9, holding the drive screw 6 in the housing 1 and perceiving axial and radial loads.

The device is stopped using the control panel 20.

The reversal of a screw telescopic jack occurs similarly to the processes of its operation, but the reverse sequence of actions.

Claims (1)

A telescopic screw jack containing a housing made with a support platform, a lifting device comprising a nut and a sleeve installed between the housing and the nut, and a nut installed in the axial hole of the sleeve, a screw mounted on the outer diameter in the axial hole of the nut, which forms the first nut a screw pair, and in the axial hole of the screw there is a drive screw that forms a second screw pair, a drive mechanism connected to a lifting device, characterized in that a coupling is installed at the end of the nut, The washer, separator, coupling half, precision screws, springs and coupling half with spline connections, the clutch connected to the drive screw via a spline connection and the nut through a gear transmission, a control panel is also connected to the drive mechanism, which is made in the form of a gearbox and an electric motor, the drive mechanism being connected to the drive screw by means of a gear transmission.

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