RU142834U1 - REINFORCING DEVICE FOR VIBRO-SOUND-INSULATING PRODUCT AND REINFORCING ELEMENT USED IN IT - Google Patents

Abstract

1. Reinforcing device for a vibration-soundproofing product, comprising a shell with reinforcing elements installed in its air cavity having a rod with a corresponding cross-sectional shape and base, characterized in that the reinforcing elements are provided with an intermediate base, the rod between the bases has a cross-shaped cross section, this rod and base are made in one piece from a polymer with a high coefficient of mechanical loss, for example from polyamide filled with fiberglass. 2. A reinforcing element for a vibration-soundproofing product containing bases connected by a rod, characterized in that an intermediate base is introduced having a diameter less than one base and more than another and their diameters larger than the diameter of the rod, the rod between them having a cross-shaped cross section and made in one piece with the mentioned bases of a polymer with a high coefficient of mechanical loss, for example of fiberglass-filled polyamide.

Description

The proposed utility model relates to means for protecting against the effects of noise, various acoustic vibrations or for suppressing them, in particular to the details of vibration-soundproofing devices, and can find application in various kinds of engineering structures used in construction, measuring equipment and other systems.

One of the ways to reduce noise and vibration levels produced by various kinds of equipment is the use of vibration-soundproofing and absorbing rubber products, which are usually made of rubber-like materials containing air inclusions-cavities, which are acoustic elements that provide the required values of vibration soundproofing and absorption in predetermined piezo-frequency ranges. Such rubber products include, for example, numerous designs of vibration-soundproofing and sound-absorbing coatings, pneumatic shock absorbers, fenders, fenders, etc.

When operating such structures under the influence of significant variable mechanical loads (external and internal pressure, mass of equipment), the shapes and sizes of these air cavities change, which leads to a change in the acoustic efficiency of these products. To increase the piezostability of the effect of reducing noise and vibration, a reinforcing device is used for a vibration-soundproofing product with corresponding reinforcing elements, the variety of which is due to the wide range and design features of these rubber products.

So, for example, in acoustic coatings operating under high pressure, according to US patents No. 4164727, IPC G10K 11/00, from 04/14/1977, publ. 08/14/1979, No. 4399526, IPC G10K 11/00, dated 01/27/1981, publ. 08/16/1983, the perforated layers of rubber of similar materials are reinforced with layers of hard rubber, plastic, metal.

In vibration-absorbing panels according to US patent No. 3525417, IPC G10K 11/00, dated 11/27/1967, publ. 08/25/1970, and the Federal Republic of Germany patent No. 2239048, IPC F16F 1/36, 08/10/1971, publ. 02.22.1973, the reinforcement of the cavities is carried out by the inner layer of more rigid material, made with ledges.

In the design of the rubber fender according to French patent No. 2138543, IPC B63B 59/00, dated 05.27.1971, publ. 05/25/1973, the reinforcement is performed by metal rings pressed into the array of its rubber shell.

A device is known by A.S. USSR No. 399424, IPC B63B 59/02, 04/21/1971, publ. 10/03/1973, where the rubber shell of the fenders is reinforced with a hose which is helically placed inside it, into which compressed air is supplied.

The compressed gas reinforces the cavity in the rubber layer of an underwater adjustable sound-absorbing device according to the patent of the Russian Federation No. 2035769, IPC G10K 11/00.

In the device by A.S. USSR No. 356724, IPC H01P 1/30, dated 09.22.1970, publ. 10/23/1972, the stabilization of the characteristics of the resonator in the form of a sealed chamber with liquid, with a change in temperature is carried out by a spring-loaded piston located in the center of the bottom of the chamber.

The closest technical solution to the claimed utility model is a vibration isolating device according to as USSR No. 815348, IPC F16F 1/34, dated 10.26.1978, publ. 03/23/1981 This is a reinforcing device for a vibration-soundproofing product in which there is a reinforcing element. This device is placed in the air cavity 1 of the rubber mass of structure 2 and consists of reinforcing elements 3 connected by a common core 4, the axis of which coincides with the longitudinal axis of the specified structure. The reinforcing device is made by casting from light alloys. This device is a reinforcing device for a vibration-soundproofing product containing a shell with reinforcing elements installed in its air cavity, each of which has a rod with a triangular cross-section with rounded peaks and bases.

The disadvantage of the prototype is the transfer through it of part of the sound energy from a source of noise and vibration to the environment, due to the low coefficient of mechanical losses used for its manufacture of the material and the configuration of the reinforcing elements.

To reduce this phenomenon in the prototype provides an option for using an additional vibration-soundproof pad. In this case, as with the use of a reinforcing device with a gap, the stability of the structure deteriorates. In addition, the specified reinforcing device, having a significant mass, cannot be used in a number of vibration-soundproofing and absorbing, for example, rubber products due to the stringent requirements for weight and size.

The specified device is selected by the applicant as a prototype, because since it has the largest number of essential features coinciding with the proposed utility model and solves a similar problem.

The objective of the proposed utility model is the creation of a new reinforcing device for vibration-soundproofing products, ensuring the achievement of the following technical results:

- increased strength with a simultaneous decrease in weight while maintaining the high efficiency of the vibration-soundproofing properties of rubber products;

- reducing the proportion of sound energy transmitted through the reinforcing device from a noise and vibration source to the environment while reducing the mass of the specified device.

The technical result is achieved in that in a reinforcing device for a vibration-soundproofing article containing a shell with reinforcing elements installed in its air cavity having a rod with a corresponding cross-sectional shape and base, according to this utility model, the reinforcing elements are provided with an intermediate base, a rod between the bases has a cross-shaped cross section, while the rod and the bases are made in one piece from a polymer with a high coefficient of mechanical loss, n example of fiberglass-filled nylon.

The manufacture of a reinforcing device from a polymer with a high coefficient of mechanical losses provides a greater absorption of the fraction of sound energy that is transmitted through the specified device from a noise source to the environment, which increases the efficiency of vibration-insulating rubber products.

The transition from light alloys to polymers, the density of which is much lower, can significantly reduce the weight of the reinforcing device and thereby expand the range, for example, of rubber products in which the device can be used.

In addition, the use of a polymer instead of a light alloy, ceteris paribus, is technologically simpler and more economically feasible.

From the description of the prototype known reinforcing element used in it. This reinforcing element has a rod with a triangular cross-section with rounded peaks and bases and is made of light metal. In addition, it is known that the rod can have a cylindrical shape in cross section, and two bases at its ends, the diameters of which exceed the diameter of the rod.

This well-known reinforcing element is selected for the prototype, since it has the largest number of essential features coinciding with the technical solution claimed as a utility model.

However, it has a significant drawback consisting in low strength and poor ability to vibration and sound insulation in the structure of the reinforcing device for the corresponding purpose. This is due not only to the fact that the prototype is made of light metal, but also to the presence of a rod, which, due to its cross-sectional shape, does not contribute to the formation of additional cavities in the product to prevent the propagation of vibro-sound waves.

Therefore, another objective of this utility model is the creation of a new reinforcing element that can be used in the inventive reinforcing device for a vibration-soundproofing product, for example, rubber, with the achievement of the following technical results, namely, increasing strength and improving vibration-soundproofing properties.

The problem is solved, namely, so that in the reinforcing element for a vibration-insulating product containing bases connected by a rod, according to the present utility model, an intermediate base is introduced having a diameter less than one base and more than another and their diameters larger than the diameter of the rod, moreover, the rod between them has a cross-shaped cross section and is made in one piece with the mentioned bases of the polymer with a high coefficient of mechanical loss, for example, of fiberglass-filled poly ida.

The implementation of the rod of the reinforcing element of the cross-shaped cross section allows to reduce its weight compared with the cross section of a round shape. The latter is explained by the fact that, for the same cross-sectional area, the moment of resistance and the moment of inertia, which determine its maximum permissible loads, are significantly larger for a cross-shaped core than for a core with a round cross-section. In addition, with this form of the cross section of the rod, cavities are formed that create additional capacities for air, which increases the sound insulation of the device when it is used. The bases, made in one piece with the rod, each of which has a diameter larger than the diameter of the rod, allow them to be used as supports for the formation of similar structures from similar reinforcing elements in different directions of the product, achieving the corresponding formation of air cavities in the product and thereby ensuring high characteristics of vibration soundproofing.

The applicant conducted a patent information search on this topic, as a result of which no technical solutions with the claimed combination of features were identified, which allows us to conclude that the proposed utility model meets the patentability condition of “novelty”.

The inventive device may find application in various kinds of engineering structures used in construction, measuring equipment and other systems and other industries where protection against noise or other acoustic vibrations is relevant, which corresponds to the patentability condition "industrial applicability".

The essence of the utility model is illustrated by drawings, where in FIG. 1 is a sectional view of a reinforcing device in FIG. 2 - general view of the reinforcing element; in FIG. 3 is a section along AA in FIG. 2.

The reinforcing device contains reinforcing elements with bases 1 2 and 3, connected by a rod 4.

The reinforcing device for a vibro-soundproofing product, for example, rubber-technical, contains a shell (Fig. 1 is shown conditionally) in which reinforcing elements with bases 1, 2 and 3 are connected by a rod 4. The rod 4 is made with a cross-shaped cross section of polymer with high mechanical loss coefficient, for example, of fiberglass-filled polyamide.

The reinforcing element for a vibro-soundproofing product, for example, rubber-technical, contains bases 1, 2 and 3 connected by a rod 4. The rod 4 has a cross-shaped cross section between the bases 1, 2 and 3, and the outer diameter of the bases 1, 2 and 3 is made different and exceeds the diameter of the rod 4. The rod 4 and the base 1, 2 and 3 are made in one piece from a polymer with a high coefficient of mechanical loss, for example, from fiberglass-filled polyamide.

The device operates as follows.

Reinforcing elements with bases 1, 2 and 3, connected by a rod 4, are installed in the air cavity, for example, of a rubber mass of a rubber product (not shown in Fig.).

A rubber product (not shown in FIG.) Is mounted on an object (not shown in FIG.) Where vibration and sound insulation is required. Due to the fact that the reinforcing device is made of polymer with a high coefficient of mechanical losses, the absorption of the fraction of sound energy that is transmitted through the specified device from the noise source to the environment occurs, which reduces the noise level and ensures the normal operation of the object on which the vibration isolation device is installed with declared reinforcing agent.

Thus, the claimed device provides a reduction in the fraction of sound energy transmitted from a noise and vibration source to the environment while reducing weight and maintaining the piezostability of the rubber product.

Claims (2)

1. Reinforcing device for a vibration-soundproofing product, comprising a shell with reinforcing elements installed in its air cavity having a rod with a corresponding cross-sectional shape and base, characterized in that the reinforcing elements are provided with an intermediate base, the rod between the bases has a cross-shaped cross section, this rod and base made in one piece from a polymer with a high coefficient of mechanical loss, for example from fiberglass-filled polyamide. 2. A reinforcing element for a vibration-soundproofing product containing bases connected by a rod, characterized in that an intermediate base is introduced having a diameter less than one base and more than another and their diameters are larger than the diameter of the rod, the rod between them having a cross-shaped cross section and is made for integrally with the mentioned bases of the polymer with a high coefficient of mechanical loss, for example of fiberglass-filled polyamide.