RU2048238C1 - Vibratory core sand mixture compaction unit - Google Patents

Abstract

FIELD: foundry, in particular, compaction of core sand mixtures hardened by chemical processes. SUBSTANCE: vibratory unit has frame 1 mounted on carrier construction through resilient supporting members 2. Detachable disks 7 are secured above resilient supporting members 2 on bars 3 mounted on frame by means of springs 4, cover 5 and joint nuts 6. Disk and spring system is covered with shell 8 fastened on bar 3 by nut 9. Eccentric vibratory exciter is mounted on frame 1. Connecting rod of vibratory exciter is connected with vibratory table through flexible system. Vibratory table is provided with brackets, which are clamped by rubber gaskets and attached to supporting surfaces by clips. EFFECT: increased efficiency and simplified construction. 2 dwg

Description

 The invention relates to foundry and is intended for compaction of core mixtures in the manufacture of rods from chemically hardening mixtures.

 A device is known that carries out compaction of mixtures by a vibration method, and is made according to a single-mass scheme (Japanese patent N 51-41849, class B 22 C 15/10, 1976). This installation for the manufacture of molds contains a vibrating table having two rows of vibration sources to create vertical vibrations. The vibrating table contains two cutouts, in which there are two chain conveyors for moving the molds.

 The closest in technical essence and the achieved result to the proposed one is a vibration installation according to ed. testimonial. N 1660833, cl. B 22 C 15/30, 1989). This vibrating installation comprises a table resting on the frame through rubber-metal elastic elements. Rubber-metal elastic elements are located on the periphery of the table and mutually perpendicular to each other. The table is driven into vibrational motion by an eccentric vibration exciter with an elastic connecting rod. The frame of the vibrating unit is rigidly attached to the foundation. Installation is performed according to a single-mass scheme. The disadvantage of this installation is the transfer of significant dynamic efforts to the foundation, and, as a consequence, the narrowing of their use on other floors except the first, as well as on farms, racks, etc.

 The aim of the invention is to reduce dynamic loads on load-bearing structures.

 In FIG. 1 shows a diagram of the installation of the frame on load-bearing structures (two systems of elastic elements); figure 2 General view of the vibrating installation for compaction of rod mixtures.

The vibratory installation for compaction of rod mixtures consists of a frame 1, which is mounted on a supporting structure on elastic elements 2 (one of the systems of elastic elements that the installation frame is equipped with), which can be made in the form of coil springs or rubber gaskets. Above the supporting elastic elements 2, a second elastic system is mounted, with which the frame is provided. On the rods 3, rigidly fixed to the frame with the help of springs 4, covers 5 and coupling nuts, removable disks 7 with slots and fixing sides are installed with the possibility of free movement along the rods 3, simplifying their mounting and dismounting. The entire system of disks and springs is covered by a casing 8, fixed by a nut 9 on the rod 3. The casing 8 serves to fix the rod 3 on the installation frame. An eccentric vibration exciter of vertical vibrations 10 is mounted on the frame 1. The connecting rod 11 of the vibration exciter is made elastic. For this, it is connected to the table 12 through an elastic membrane 13. Table 12 is equipped with brackets 14, inclined at an angle of 45 ^about and mutually perpendicular to each other. The brackets 14 are clamped with a preload between the rubber gaskets 15 and are attached to the supporting surfaces 17 of the frame 1 using brackets 16. The system 14-15-16-17 is a rubber-metal element with which the table 12 rests on the frame 1.

 Vibration installation for compaction of rod mixtures works as follows.

After installing the core box on the table and filling it with the core mixture, the electric motor is turned on, which informs the rotation of the eccentric vibration exciter shaft. The connecting rod of the vibration exciter performs vertically swinging movements and, being riveted to the table through an elastic membrane, makes the table move along a certain trajectory. Availability exciter eccentric vertical oscillation combined with the rubber-metal elements mounted on the periphery of the section 45 ^of the frame and are mutually perpendicular to each other, it ensures the stability of the section vertical oscillations. When the drive is running, the installation frame comes into oscillatory motion on the elastic elements on which it is mounted on a supporting structure. In this case, periodic disturbances are transmitted through the springs 4 to the disks 7, as a result of which the disks 7 come into oscillatory motion on the springs 4. To dampen the frame vibrations, the natural frequency of the disks 7 on the springs 4 (one of the systems of elastic elements with which the frame is equipped) must be equal the oscillation frequency of the table and, therefore, the natural oscillation frequency of the frame 4 on the elastic elements 2 (another system of elastic elements that the frame is equipped with). Equality of natural frequencies is carried out by selecting the number of removable disks 7. In this case, disks 7 oscillate in antiphase with the installation frame, and the reaction of the elastic elements 2 is directed so that they create a force transmitted to the frame by the drive. Compensation of disturbing forces occurs, and the frame ceases to oscillate, as a result of which the transmission of dynamic forces to the supporting structures is reduced.

 A core box mounted on a table filled with a core mixture performs linear vertical vibrations with the table, resulting in a compaction of the core mixture.

 The use of such a design of the vibrating installation will significantly expand the scope of its use.

Claims (1)

VIBRATION INSTALLATION FOR SEALING ROD MIXTURES, including a table, elastic supports made in the form of rubber-metal elements mounted on the frame at the table periphery at an angle of 45 ^o and mutually perpendicular to each other, and an eccentric vibration exciter of vertical vibrations with an elastic connecting rod, characterized in that , in order to reduce dynamic loads on load-bearing structures, it is equipped with two systems of elastic elements, through one of which the frame is supported on load-bearing structures, and the second is made in the form of a cylinder ble helical springs, which are secured by mass adjustable wheels on the shaft, wherein the wheels are replaceable with walls and radial slots, a rod with springs and discs closed casing and mounted on the frame.

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