SU968655A1 - Vibration machine for testing buillding structures - Google Patents

Description

The invention relates to test equipment and can be used to test construction objects for dynamic effects.

A vibration machine is known, with a rotary housing with a vertical shaft located in it, on which there are horizontal unbalances at two levels of C1].

Closest to the invention _{k, the} technical solution is a vibrating machine, comprising a housing with a vertical drive shaft placed therein, horizontally mounted unbalances and a drive [2J.

A disadvantage of the known devices is that in known machines an undesirable concentrated moment arises at the attachment point of the machine to the test structure. In addition, a change in the eccentricity of the unbalances is carried out by means of elastic-flexible connections, in the process by which all the centrifugal force of the unbalances falls on these connections and is transferred to the drive. This complicates the design of the drive and reduces its service life. thirty

The aim of the invention is to simplify the design, increase reliability and operational efficiency.

c The goal is achieved by the fact that a vibration machine for testing building structures, comprising a housing with a vertical drive shaft placed in it, horizontal unbalances and a drive, is mounted with internal and external disks placed in the same plane, and the unbalances are made integral and mounted on each of the drives with the possibility of moving their components relative to each other, and the base of the casing is equipped with a vertical fixed axis on which it is mounted with Strongly bearings vnut20 renny disk rigidly connected with the drive shaft and the outer disc is mounted rotatably relative to the drive shaft, the latter and the outer disc 25 are connected with the drive bevel gear.

Figures 1 and 2 show the construction of a vibrating machine, * in Fig. 3 a section A-A in Fig. 1.

The vibrating machine consists of a housing 1 and is equipped with housings placed in a rack and the reliability of the entire machine is increased.

Claims (2)

The invention relates to a testing technique and can be used to test building objects for dynamic effects. A known vibration machine, a tea case with a vertical shaft placed on it, on which there are horizontal unbalances at two levels. The closest to the invention, the technical solution is a vibration machine. including a housing with a vertical drive shaft housed therein, horizontally debalance mounted horizontally, and an actuator 2j. A disadvantage of the known devices is that in the known machines an undesirable concentrated moment occurs at the point of attachment of the machine to the structure under test. In addition, the eccentricity of the unbalance is changed by means of elastic-flexible connections, in the process of which the whole centrifugal force of the debalance falls on these bonds and is transmitted to the drive. This complicates the design of the drive and shortens its service life. The aim of the invention is to simplify the design, increase reliability and efficiency. The goal is achieved by the fact that a vibrating machine for testing building structures, including a housing with a vertical drive shaft housed therein, horizontally unbalances installed and driven, and equipped with internal and external disks placed in one plane, and unbalances are made composite and mounted on each of the disks with the ability to move their components from each other, and the base of the body is equipped with a vertical fixed axis on which it is installed with The bearings have an inner disk rigidly connected to the drive shaft, and the outer disk is mounted rotatably relative to the drive shaft, the latter and the outer disk being connected to a drive bevel gear. Figures 1 and 2 depict the structure of a vibration machine, in Fig. 3, section A-A in Fig. 1. The vibratory machine consists of body 1 and is equipped with internal disks 2 and external disks 3 placed in one plane. The balances 4 and 5 are made composite and are installed on each of disks 2 and 3 with the possibility of moving their components relative to each other. The base of body 1 is equipped with vertical fixed axis 6, which is mounted with bearings. 7, an inner disk 2 rigidly connected to the drive shaft 8. And the outer disk 3 is mounted rotatably with respect to the drive shaft 8, the latter and the outer disk being connected to the drive 9 by means of a bevel gear Y. The operation of the vibrating machine consists in bringing circular driving the outer and inner disks in different directions by the drive 9 by means of a bevel gear 10. During operation of the vibratory machine, the arising inertial force can be changed by approaching or spreading the components of the unbalance in 4 and 5 special electric drive. The proposed design of the vibratory machine allows it to increase its efficiency, eliminating the undesirable concentrated moment due to the fact that the disks are placed in one plane and rotate around one axis. In addition, the electric drive for expanding the components of the Unbalance is unloaded, all the inertia of the force of the unbalance falls on the discs and thereby simplifies the design and increases the reliability of the entire machine. Vibrarion testing machine for building structures, including a housing with a vertical drive shaft housed therein, horizontally debalances mounted and driven, characterized in that, in order to simplify the design, increase reliability and efficiency, it is equipped with external disks, and the unbalances are made composite and mounted on each of the disks with the possibility of moving their components relative to each other, and the base of the body is nascheno vertical fixed axis, on which is mounted via bearing inner disc fixedly connected to the drive shaft and the outer disc is mounted rotatably relative to the drive shaft, the latter and the outer disc connected to the drive transmission Ionic. Sources of information taken into account in the examination 1.Shapiro G.A. Vibration testing of buildings. M., stroiizdat, 1972, p.9-10. 2. USSR author's certificate number 215573, cl. In About In 1/16, 1967 (prototype). No I / iJ / J