RU101515U1 - FORGING HAMMER VIBROINSULATION DEVICE - Google Patents

Abstract

 1. A device for vibration isolation of a forging hammer, containing bed stands, shabot and springs, characterized in that, in order to increase the efficiency of vibration isolation, it is equipped with a welded support frame made in the form of two horizontal plates, the space between which is filled with stiffeners, forming a rectangular plan a lattice of irregular structure and associated with a Shabot and racks. ! 2. The vibration isolation device of the forging hammer according to claim 1, characterized in that gaskets, for example, from a conveyor belt, are placed between the mating contact surfaces of the base parts. ! 3. The vibration isolation device of the forging hammer according to claim 1, characterized in that the shabot on the support frame is fixed from displacement by limiters. !four. The device for vibration isolation of the forging hammer according to claim 1, characterized in that the racks are associated with the frame using studs with shock absorbers.

Description

The utility model relates to the field of forge-and-press mechanical engineering, namely, devices for vibration isolation of forge-and-press equipment.

A device for vibration isolation of a forging hammer, containing a massive, inertial, concrete block, based on shock absorbers in the form of spring and rubber bags, on which the machine is installed [1].

The disadvantages of this design are the high complexity of installation, the lack of effectiveness of vibration isolation and the complexity of maintenance. At the same time, during operation, taking into account aging and static precipitation of shock absorbers, there is an increase in the stiffness of shock absorbers, and, accordingly, a decrease in the effect of vibration isolation. Increases the complexity of repair work in view of the large dimensions of the inertial unit.

A device for vibration isolation of a forging hammer is known, comprising bed stands, dampers and shock absorbers — springs installed directly under the hammer dashboard [2].

The design drawback is the loss of stability of the hammer's hammer during machine operation and the possibility of dropping the forgings from the die of the stamp. Accordingly, the efficiency of the vibration isolating installation is reduced. The reason for this is that in the design of the forging hammer, the shabot does not have a rigid connection with the uprights and, when the rigidity of the shabot installation is reduced, when using shock absorbers, there is a loss of stability of the vertical vibrations of the shabot, a buildup of the shabot occurs and, accordingly, the forgings are dropped.

The objective of the utility model is to expand the technical capabilities of the device by expanding the base for the placement of springs, by using an additional support frame connecting the rack frame and hammer hammer.

The technical result is an increase in the effectiveness of vibration isolation and reliability during operation of this installation of a forging hammer.

This goal is achieved by the fact that the device for vibration isolation of the forging hammer, containing the bed stands, shabot and springs, is additionally equipped with a supporting welded frame conjugated with the shabot and posts made in the form of two horizontal plates, the space between which is filled with stiffeners, forming in the plan a rectangular lattice of irregular structures and associated with the scabbard and racks, and between the mating contact surfaces of the base parts placed gaskets, for example from a conveyor belt, while Abot fixed on the supporting frame against displacement limiters, and the strut are associated with the frame by means of pins with shock absorbers.

The essence of the utility model is illustrated by drawings, where in Fig.1 schematically shows the proposed device; figure 2 is a cross section of a support frame; figure 3 is a section of a support frame.

The racks 1 of the forging hammer, paired with the cylinder and the assembly of the falling parts, as well as the shabot 2, are mounted on the support frame 3. The support frame 3 is supported by the springs 4. Between the mating surfaces of the posts 1, the shabot 2 and the support frame 3 are placed elastic gaskets 5 from the conveyor tapes. Racks 1 and frame 3 are interconnected by means of pins 6 with shock absorbers 7 in the form of elastomeric bushings.

The proposed design works as follows. During technological impacts of the hammer, loads through the stage 2 are transferred to the support frame 3, which smoothly moves on the springs 4. The vibrations that are generated during the impacts of the hammer are absorbed by the springs 4 and are not transferred to the foundation. The amount of damping in the design of the springs 4 provides damping of the oscillations before the subsequent impact.

The placement of the springs 4 on all surfaces of the support frame 3 improves the stability of the forging hammer. Fixing the Shabot 2 from displacement by the limiters (not shown in the drawing) improves the quality of the forging process. The use of elastic gaskets 5 can reduce contact loads at the joints and increase the durability of the contact surfaces. The connection of the racks 1 of the forging hammer bed with the supporting frame 3 by means of pins 6 with shock absorbers 7 provides a closed load circuit in the hammer bed, which increases the impact efficiency.

Vibrations are damped inside the design of the vibration-isolating installation of the forging hammer and are not transmitted to the ground, while the working conditions of personnel are improved and the vibration safety of the hammer for neighboring buildings and structures is increased.

Tests conducted at the industrial installation of the forging hammer, showed the high performance of this design and its effectiveness with prolonged use.

Information sources:

1. Design, construction and operation of vibration-insulated foundations for stamping and forging hammers with falling parts weighing up to 16 tons (Guiding material). - Voronezh: ENIKMASH, 1967 .-- 83 p.

2. Zhachkin Yu.V., Lapin S.K. The foundation of the forging hammer with m.p.ch. 3 t mod. M134A with sprung scrubber // Forging and stamping. - 1976. - No. 3. - S.22-24.

Claims (4)

1. A device for vibration isolation of a forging hammer, containing bed stands, shabot and springs, characterized in that, in order to increase the efficiency of vibration isolation, it is equipped with a welded support frame made in the form of two horizontal plates, the space between which is filled with stiffeners, forming a rectangular plan a lattice of irregular structure and associated with a Shabot and racks. 2. The vibration isolation device of the forging hammer according to claim 1, characterized in that gaskets, for example, from a conveyor belt, are placed between the mating contact surfaces of the base parts. 3. The vibration isolation device of the forging hammer according to claim 1, characterized in that the shabot on the support frame is fixed from displacement by limiters. 4. The vibration isolation device of the forging hammer according to claim 1, characterized in that the racks are associated with the frame using studs with shock absorbers.