BRPI1005122A2 - shock absorber with biodegradable hydraulic fluid and biodegradable hydraulic fluid for shock absorbers of any nature - Google Patents

Abstract

SHOCK ABSORBER WITH BIODEGRADABLE HYDRAULIC FLUID AND BIODEGRADABLE HYDRAULIC FLUID FOR SHOCK ABSORBERS OF ANY NATURE. New shock absorber of any nature with biodegradable liquid, which comes with great advantages to replace the hydraulic fluid currently used in shock absorbers that have a mineral base, or even derivations thereof, having no biodegradable properties and that also has low thermal stability, and this new fluid has improvement functional performance and increased service life, among other advantages. This new Biodegradable Hydraulic Fluid for Dampers can be a synthetic base of Group V or of the Glycols group, in solution or not, presenting high thermal stability and low variation of viscosity, besides having the biodegradable characteristic. The viscosity and density must be compatible with the application of hydraulic fluid for shock absorbers, being able to obtain fractions of specific additives. such as defoamer. antifreeze and antifervescent and also antioxidants and others. Where it has a sealing seal with plasma application, which can be obtained through the composition of various gases. And it can also be presented with an automotive shock absorber wear monitoring device, with a Magnetic Spring Actuation Sensor, and with or without a proportional valve as an electronic control device for the damping factor thereof.

Description

BIODEGRADABLE HYDRAULIC FLUID BUMPER AND BIODEGRADABLE HYDRAULIC FLUID FOR ANY NATURE SHOCK.

This report describes the description of a new fluid for use in shock absorbers of any kind and the biodegradable hydraulic fluid shock absorber, where the fluid described here replaces with great advantage the hydraulic fluid currently used in the mineral-based shock absorbers, or It has no biodegradable properties and also has low thermal stability, and this new fluid has improved functional performance and increased service life, among other advantages. This new Biodegradable Shock Absorber Hydraulic Fluid may have either Group V or Glycols synthetic base, in solution or not, with high thermal stability and low viscosity variation, as well as biodegradable characteristics. Viscosity and density must be compatible with the application of hydraulic fluid for shock absorbers and can obtain fractions of specific additives such as antifoam, antifreeze and antifervescent as well as antioxidants and others.

Thousands of shock absorbers are manufactured daily worldwide and the fluid contained within them is released into the environment and is not properly collected and disposed of. Mineral fluid currently used has no biodegradable characteristics so it tends to pollute the environment as the collection is never done correctly, as this fluid is generally lost to the environment along with the end of life of the damper still in use. . Around 1,200,000 units of shock absorbers per month are manufactured in Brazil and for these shock absorbers around 300 ml per shock absorber are used, resulting in a total of approximately 360,000 liters of fluid per month to be discarded, which is a Great source of environmental pollution.

The state of the art of hydraulic dampers, whether monotube, bitube and / or even tritube, is well known for any application and among such applications especially in the automotive field. The commonality between the various types of hydraulic shock absorbers is that they consist of a generally cylindrical tube called a pressure tube, on which a sliding piston is mounted inside it, which is coupled to an axially displaced drive rod whose piston is responsible for dividing this tube into two pressure chambers, one of which is the extension and the other the compression. The damping force offered by the damper is through the control of the hydraulic fluid passage between the extension and compression chambers, which can be pre-defined by combining the components that make up the piston and, when available. through a pressure tube base valve or a variable flow or pressure control valve, which is either mechanically or electrically operated. These dampers are filled with a hydraulic fluid with physical and chemical characteristics determined by technical standards. This hydraulic fluid generally fills both pressure chambers, in some cases requiring the addition of an external reservoir chamber or depending on the model and the application of a chamber externally coupled to the pressure tube, thus constituting the bitubular damper, where the The volume of oil that fills this reservoir chamber is capable of supplying the volume difference between the extension and compression chambers as a function of the volume variation of the damper rod material by axial displacement thereof. And similarly, the tritube damper has the same operating characteristics for the different applications for which it is intended.

There are some documents describing compositions for use in shock absorbers, but none of these compositions have the characteristics of a biodegradable fluid and high thermal stability at the same time, as well as improving the performance of the shock absorbers and increasing their service life, as object of the present invention. These documents include: JP2008 / 248160 dated 10.16.2008, W00012646 dated 03.09.2000, US 6037403 dated 03.03.2000 and JP11002045 dated 01.01.1999, which describe hydraulic fluid formulation specifically for shock absorbers. and its operating characteristics, but as stated above none of them is a biodegradable fluid and has high thermal stability at the same time.

Also document W02006 / 099022 of 21.09.2006, which describes a biodegradable hydraulic fluid for dockside equipment, and the documents: Pl - 0004663-9, BIODEGRADABLE HYDESOLUBLE FLUID FOR METAfS1 CUTTING AND MACHINING OPERATIONS present patent to a biodegradable water-soluble fluid for metal cutting and machining operations, specially developed to revolutionize hitherto existing technology, offering highly advantageous economic gains, enviable environmental gains and a reduction in appreciable health / social security costs, consisting primarily of a fluid (01) produced from a mixture of tall oil (02), fatty acids and esters of vegetable oils (03) (predominantly linoleic acid ester), coconut vegetable ethanoldiamine (04), tea (05), antioxidants (06) not nitrogenous or sulphorous, biodegradable preservatives (07) and aqueous solution (08); Pl - 0006564-1, ELECTRICAL CONDUCTOR FLUID DEVICE, which refers to the present invention to a novel and functional electrothermal conductive fluid, composed of non-toxic, non-polluting, low cost of production, biodegradable, high heat conductive and electric conductive fluid. , obtained by macerating the leaves of the tabacum, herbaceous plant of the family of solamaceas and eucaíyptus globulus, of the myrtaceae family, and water, oil or other fluid that is placed in a container, whether or not sealed, of brass or copper, in contact with a graphite or stainless steel electrode connected to electric power replaces existing electrical resistors with enormous advantages; and PI0202361-0, OIL BASED BIODEGRADABLE DRILLING FLUID COMPOSITIONS AND OIL AND GAS WELL DRILLING PROCESS. Where oil-based biodegradable drilling fluid compositions are described which comprise an oily phase preferably composed of soybean oil-derived methyl carboxylic acid esters, a finely dispersed aqueous phase in the oily phase by specific emulsifiers and a further series of additives with Specific performance functions The manner of producing the inverted emulsion used and the drilling process employing the composition of the invention are also described. Which describe biodegradable hydraulic fluids, but none of these formulations describe the fluid presented herein for its application to shock absorbers and which is biodegradable and has high thermal stability at the same time, with better damping performance characteristics.

The following is a non-restrictive preferred embodiment of the present biodegradable fluid damper, its components and operation, as well as the formulation of the fluid, object of this patent, where it may suitably vary in the amounts of the major component types. this formulation for each damper model in which it will be used; describing at least two of the embodiments that lead to realizing the object described and the way in which it functions and is applied.

The shock absorber with Biodegradable Hydraulic Fluid and Biodegradable Hydraulic Fluid for shock absorbers of any nature, object of the present invention is a shock absorber of any nature, especially for automobiles, characterized by being a monotube, bitube and / or tritube shock absorber. any application and among such applications in particular for the automotive area, containing a fluid of a biodegradable composition, preferably of low toxicity, with a viscosity to withstand a pressure of up to 300 Bar, operating temperature between -50 to 150 ° C. Being a Fluid essentially composed of a base which may be soluble or non-soluble in water in such a way as to form a biodegradable formulation. Where the water-soluble formulation consists of a Glycolt Base with Kinematic Viscosity at 100 ° C, mm2.s "1, ASTM D 445 from 2,000 to 10.00, Flash Point, ° C, ASTM D 92 minimum 90, and Pour Point, ° C, ASTM D 97, maximum -45, plus corrosion inhibitors, or anti-corrosion and defoamers, and the non-water-soluble formulation is a Group V Base Oil with Kinematic Viscosity at 100 0C, mm2.s ~ 1, ASTM D 445 from 2,000 to 10.00, viscosity index, ASTM D 2270 minimum of 100, Flash Point, 6C1 ASTM D 92 minimum of 150 and Melting Point, 0C1 ASTM D 97 maximum of -45, plus antioxidant and defoamer additive where corrosion or anti-corrosion inhibitors are intended to prevent aging of the final product (fluid) by oxidation as a function of the action of oxygen in the air and in combination with temperatures during working regime and defoamer inhibits foaming and maintains physical stability. Where corrosion inhibitors and antioxidant additives can be: Corrosion Inhibitor VP-1749, Hostacor, ADDCO-ST 5000, ALOX, NAUGALUBE. Bardahl LPP, Bardahl Anticorrosive, Maxlub AR, Maxlub ACA, Maxlub Biocut, Maxlub RET and / or others; and where the Defoamer may be: Dow Corning Q7-9120 Spray, Bardahl Max All and / or others.

The Biodegradable Hydraulic Fluid Damper can be presented with an automotive damper wear monitoring device, which is a strategically arranged electro-electronic damper device that monitors the number of relevant cycles, which are the suspension actuations. depending on the irregularities presented by the paving in general, and that can effectively cause some damage to the suspension components, where this information is made available to the driver of the vehicle informing him when the replacement of a component is recommended.

The Biodegradable Hydraulic Fluid Damper can also be featured with a Magnetic Spring Actuation Cycle Sensor, which is an electro-electronic device strategically arranged on the damper to detect the actuation movements of a particular movement, especially in the direction vertical.

The Biodegradable Hydraulic fluid damper may or may not be presented with a proportional valve as an electronic damping factor control device.

The Biodegradable Hydraulic Fluid Damper and Biodegradable Hydraulic Fluid Damper of any nature, object of the present invention, as described above, has a unique, state-of-the-art formulation that gives it great advantages over all damper fluids. known in the market so far. Among the performance improvement points offered by biodegradable hydraulic fluid, for higher yields in terms of durability, noise and friction it is suggested the application of sealing seal with plasma application, which can be obtained through the composition of various gases, such as nitrogen, hydrogen and fluorine, not being restrictive to these elements and there may be variations between them or with other gases. Plasma application on the seal seal polymer is also highlighted as a solution to any chemical interference or adverse reactions that the polymers, rubbers or other materials currently used in making the seals, retainers or seal rings may suffer through contact. directly or indirectly with biodegradable hydraulic fluid for shock absorbers, which is not a restrictive condition for the use of the subject-matter of the present invention. These advantages include: the fact that it stands out in relation to the common mineral hydraulic fluid in relation to its thermal stability and low viscosity variation within a range of -50 ° C to 150 ° C or higher, a decrease of internal friction due to lower reaction between the various materials used internally in the hydraulic damper, less aeration and / or emulsification between fluid and internal gas generally present in the shock absorbers, better performance and stability in the damping force, besides having as main physical characteristic the biodegradability and low or zero toxicity value, not harmful to the environment.

Thus, by the composition, application and operation characteristics described above, it can be clearly noted that the BIODEGRADABLE HYDRAULIC HYDRAULIC FLUID AND BIODEGRADABLE HYDRAULIC FLUID is of a new state of the art fluid which It has conditions of innovation, inventive activity and unprecedented industrialization, which make it deserve the Privilege of Invention Patent.

Claims (4)

1. BIODEGRADABLE HYDRAULIC FLUID AND BIODEGRADABLE HYDRAULIC FLUID FOR ANY NATURE DAMPER SHOCK with low toxicity, for any application, especially for automotive, characterized in that it is a shock absorber of any kind. monotube, bitube and / or tritube damper, containing a fluid of a biodegradable composition, having a viscosity to withstand a pressure of up to 300 Bar, operating temperature between -50 to 150 ° C; wherein the Fluid is essentially composed of a base which may be soluble or not soluble in water, constituting a biodegradable formulation; where the water soluble formulation is comprised of a Glycol Base, with kinematic Viscosity at 100 ° C, mm2.s'1, ASTM D 445 from 2,000 to 10.00, Flash Point, ° C, ASTM D 92 minimum 90 , and Pour Point, ° C, ASTM D -97, maximum of -45, plus corrosion inhibitors, or anti-corrosion and antifoam; and the non-water-soluble formulation is comprised of a Group V Base Oil Base, with kinematic Viscosity at 100 0C1 mm2 s' \ ASTM D 445 from 2,000 to 10.00, viscosity index, ASTM D 2270 minimum of 100, Flash point, ° C, ASTM D 92 minimum of 150 and Pour point, ° C, ASTM D -97 maximum of -45, plus antioxidant and antifoam additive; Where corrosion inhibitors and antioxidant additives can be: Corrosion Inhibitor VP-1749, Hostacor, ADDCO-ST 5000, ALOX, NAUGALUBE. Bardahl LPP, Bardahl Anticorrosive, Maxlub AR, Maxlub ACA1 Maxlub Biocut, Maxlub RET and / or others; and where the Defoamer can be: Dow Corning Q7-9120 Spray, Bardah! Max AU and / or others; where it has a sealing seal with plasma application, which can be obtained through the composition of various gases. 2. BIODEGRADABLE HYDRAULIC HYDRAULIC FLUID AND BIODEGRADABLE HYDRAULIC FLUID FOR ANY NATURAL DAMPER, shock absorber according to claim 1, characterized in that it can be fitted with an automotive shock absorber wear monitoring device, which is an electro-electronic device arranged It strategically monitors the number of relevant cycles, which are the suspension's actions according to the irregularities presented by the paving in general, with this information made available to the driver of the vehicle. 3. BIODEGRADABLE HYDRAULIC FLUID AND BIODEGRADABLE HYDRAULIC FLUID FOR ANY NATURAL DAMPER, shock absorber according to claim 1, characterized in that it can be provided with a Magnetic Spring Actuating Sensor, which is an electro-electronic device arranged in strategically in the system where it is desired to detect the actuation movements of a particular movement, especially in the vertical direction. 4. BIODEGRADABLE HYDRAULIC FLUID AND BIODEGRADABLE HYDRAULIC FLUID FOR ANY NATURE DAMPER, damper according to claim 1, characterized in that it may or may not be provided with a proportional valve as an electronic control device for the damping factor thereof.