RU2098298C1 - Method of and device for protecting automobile from stealing - Google Patents

Abstract

FIELD: transport engineering; automotive industry; automobile accessories. SUBSTANCE: method comes to the following: at least one shutoff member is installed in any place in engine air supply system which regulates air flow within 0 and 100%. Shutoff member is made, for instance, in form of gate, shutter, hemisphere or elastic material chamber and control of shutoff member is provided by mechanical, electric, hydraulic or pneumatic drive. Given in description of invention are placed of installation of shutoff members most efficient from point of view of automobile antitheft protection. EFFECT: improved reliability of protection. 6 cl, 10 dwg, 1 tbl

Description

 The invention relates to the field of operation of vehicles, and specifically to a method of protecting a vehicle from theft.

 A known method of protecting vehicles from theft, which consists in blocking the exhaust gas removal system from an internal combustion engine (ICE) and a device for implementing this method, comprising an element for blocking the passage section of the exhaust pipe of an ICE (GB, application No. 2193531, class B 60 R 25 / 04, 1987).

 There is also a known method of protecting vehicles from theft, in which an exhaust system is selected as a means of theft, including the impact on it of the movement of exhaust gases (GB, A, 2186911).

 The disadvantage of using this system and the method of influencing the movement of exhaust gases in it is that this system is constantly in operation under the influence of high temperatures and spent carcinogenic exhaust gases that carry hot residues of combustible mixtures that clog and seal the exhaust gas shut off element.

 There is also known a method of protecting a vehicle from theft, which consists in blocking the inlet pipe of the supply system of one of the components of the working mixture in the internal combustion engine, for example, fuel and a device for implementing this method, comprising an element for blocking the passage section of the inlet pipe of the supply system of one of the components of the working mixture in ICE, in this case, fuel, and controls for this element (international application WO 88/08796, CL B 60 R 25/04, 1988).

 The present invention is based on the task of creating a more reliable method and device for protecting the vehicle from theft, virtually eliminating the possibility of theft.

The problem is solved by creating a method of protecting the vehicle from theft, which consists in blocking the inlet pipe of the supply system of one of the components of the working mixture and the internal combustion engine, in which the value A _{1 of the} capacity of the intake pipe of the air supply system is regulated in the range from 0 to 100% in any a place along its entire length from the place of air intake into the system until it enters the internal combustion engine, and a device for implementing this method, containing an element for blocking I have a cross section of the inlet pipe of the system for supplying one of the components of the working mixture to the internal combustion engine and means for controlling this element, in which an element for blocking the cross section is installed in the inlet pipe of the system for supplying air to the internal combustion engine, and means for controlling this element is made with the possibility of adjusting the area S _{1 of the} flow passage of the pipeline to ensure a change in the value of A _{1 the} throughput of the air supply system to the engine in combustion from 0 to 100%
According to the invention, an element for closing the passage section can be installed in the inlet pipe of the air supply system before it enters the carburetor.

 In addition, according to the invention, in the absence of a carburetor in the internal combustion engine, the passage cross-section element can be installed in the inlet pipe of the air supply system before it enters the internal combustion engine.

 Moreover, according to the invention, an element for closing the passage section can be installed in the housing, which is located in the place of air intake into the inlet pipe.

 According to the invention, the means for controlling the blocking element of the passageway of the inlet pipe of the air supply system to the internal combustion engine can be performed with a mechanical, electric, hydraulic or pneumatic drive.

 In FIG. 1 shows a general diagram of an air supply system (air filter) and the most probable possible locations of the overhead passage element in the system; in FIG. 2 shows a diagram of an overhead blocking element for placement between a carburetor and an air filter; in FIG. 3 and 4, two versions of the element of overlapping the passage section of the inlet pipe of the air supply system in the form of a valve; in FIG. 5 the same as a curtain; in FIG. 6 and 7, the same in the form of a shutter in closed and open form; in FIG. 8 the same in the form of a hemispherical surface; in FIG. 9 and 10 are the same in the form of an elastic chamber.

 The proposed method of protecting a vehicle from theft is as follows.

 In the vehicle, the air supply system 1 (Fig. 1) is selected as the functional system of the internal combustion engine, in which they act technologically by interrupting its movement at least at any place along the entire length of the air supply system 1, and the element 2 for closing the system 1 can be installed either in place 3 before the air exit from system 1, or in place 4 of the air inlet to system 1, or element 2 with housing 5 is installed by attaching it to the free end 6 of system 1, or the body is attached Som 5 to the neck 7 of the carburettor and the other side 8 of the housing 5 to the attachment ledge 9 of system 1, and any other parts of the system 1.

In the places of installation of elements 2, with the help of the latter, the capacity A _{1 of the} capacity of the air supply system 1 is regulated until it is completely or almost completely reduced from 0 to 100%. The limits _{of the} capacity A _{1 are} determined from the following considerations. With a decrease in the value of A ₁ throughput to 0, the engine cannot work, because air does not enter the combustion chambers at all. Since it is almost impossible to completely seal the air in the combustion chambers, a structural error is allowed. At the same time, the amount of air passing through a negligible area will not be enough for the engine to work stably, and it will stall immediately or at the slightest load.

 A further increase in the size of the gap and the velocity of the air flow in the aggregate can create conditions for the stable operation of the engine, and therefore, its theft.

 Moreover, in the air supply system 1, which in most cases on internal combustion engines 20 is an air filter, the elements 2 for blocking the pipeline are installed anywhere in the system 1, however, their preferred location is to ensure reliability against theft due to inaccessibility, the difficulty of dismantling is the space between the carburetor 8 and the mounting protrusion 9 of the system 1 or between the carburetor 8 and the engine 20.

 The proposed device for protecting a vehicle from theft contains the following design features and works as follows.

On the internal combustion engine 20 of the vehicle there is an air supply system 1, usually in the form of an air filter, at any place along the entire length of which at least one element 2 is installed, equipped with means for regulating 10 _{of the} passage area S ₁ (at the installation site) , to ensure a change in the value of A ₁ throughput system 1 from 0 to 100%
At the same time, a series of elements 2 is proposed that provide partial or complete restriction of the movement of air in system 1 when it is supplied to the internal combustion engine, which excludes it from practically entering the combustion chamber and does not allow the hijacker to start the engine when trying to steal a car.

 It is possible to install two overlapping elements at the air inlet to the system and at the air outlet from it.

 In FIG. 3 shows a series of overlapping elements 2 of a cross-sectional area 11, so in FIG. 3 and 4, the overlapping elements 2 are represented by gate valves 12, in FIG. 5 by a shutter 13, in FIG. 6 and 7 by the shutters 14, in FIG. 8 with a hemispherical surface 15, in FIG. 9 and 10 - elastic camera 16.

 The means of regulation 10 of the area of the bore 11 of the system 1 can be made in the form of a mechanical, electrical, hydraulic or pneumatic drive.

 An infinite variety of mechanical, electrical, and hydraulic drives is known and there is no need to describe them. Let us dwell on the example of the pneumatic drive. The chamber 16 of elastic material is mounted in a cylindrical body 5, and the bore 11 of the system 1 is overlapped by a plate grid 17, so that the chamber 16 of elastic material occupies a specific volume and has a reliable support. From a special gas cylinder using a pneumatic compressor or a hand (foot) pump in a matter of seconds, the chamber 16 is filled with air under pressure up to 1.5 atm. As a result, the chamber 16 fills the volume between the cylindrical body 5 and the plate grill 17. When you try to start the engine 20 from the side of the plate grill 17, a region of reduced pressure is formed, thereby pressing the camera 16 to the plate grill 17, and atmospheric pressure will be on the opposite side of the chamber 16 still denser to press the camera 16 to the edges and sides of the overlapping element 2, thus further sealing the passage section 11 of the system 1.

 If it is necessary to disarm the vehicle, the valve 18 of the chamber 16 opens, which can be a regular automobile or bicycle nipple, and air comes out of the chamber 16, and its return to a non-working place can be carried out either using a spring or using a cone platform 19, which press the material of the chamber 16 to the side wall of the overlapping element 2, while air freely enters the carburetor 8 and the engine 20.

 In addition, the overlapping element 2 of the flow-through section of the air supply system is placed between the outlet of the air stream saturated with vapors of combustible material, for example gasoline, from the carburetor 8 and the place of their entry into the internal combustion engine 20.

Thus, the device allows you to adjust the value of A _{1 the} throughput of the system from 0 to 100
As already noted, the use of devices installed duplicated (doubled) can give an effective result, for example, between a carburetor and an air filter and another at the place where air enters the air filter (while the external device can be removed or broken, but the internal one will remain).

 On expensive machines, devices are mounted in the factory, with a complex drive, the control of which is set by the buyer in a place known to him, or the devices can be built into the carburetor or air filter housing.

 Serial machines on the conveyor can be prepared for the installation of devices (threading, punching holes, etc.).

 Previously released cars can be equipped with devices in repair or specialized workshops.

 As the studies showed the specified technical result is achieved only with the interconnected use of the entire set of essential features of the claimed object. This is confirmed, in particular, by examples of their practical implementation, in the description of which it is inappropriate to repeat in each example the information common to them, reflected in the claims and the description of the invention. When describing examples of practical implementation of the claimed object, it is necessary to provide only quantitative information that distinguishes one example from another, which is presented in table form for the convenience of comparison. To compare the possibilities of achieving the indicated technical result in each of the examples, it turned out to be advisable to use the parameter ξ characterizing the degree of reliability of the vehicle protection from theft in the process of experimental implementation and comparing the results of the claimed technical solution and prototype.

Examples of studies are shown in the table below. The lower and upper values of the declared limits were obtained on the basis of statistical processing of experimental data, mainly on the basis of their conditions for approximation of the parameter x to 1 (ξ ₁ = 1.01, ξ ₂ = 1.02), and also taking into account other known circumstances that impose restrictions to the claimed limits. In the optimal example N 3 of the practical implementation of the claimed invention, the highest parameter value (ξ ₃ = 10.2) was achieved.

When going beyond the lower (example N 5) and upper (example N 6) values of the claimed limits, the indicated technical result, as follows from the table, is not achieved (ξ ₅ = 0.99, ξ ₆ = 0.98). In an arbitrary example, N 4, using the values of the essential parameters within the claimed limits, an intermediate value of the technical result was obtained (ξ ₄ = 8.6).

 It should be noted the environmental quality of the use of this anti-theft device; it works only at the time of theft, while complex electronic devices can work spontaneously, disturbing the peace of people, especially at night.

 The invention can be used not only in the automotive industry, but also in tractor manufacturing, in military transport equipment, in small-tonnage shipbuilding and other economic sectors.

Claims (5)

1. A method of protecting a vehicle from theft, consisting in breaking the inlet pipe of the supply system of one of the components of the working mixture to the internal combustion engine, characterized in that they control the value A _{1 of the} capacity of the intake pipe of the air supply system from 0 to 100% in any a place along its entire length from the place of air intake into the system until it enters the internal combustion engine. 2. A device for protecting the vehicle from theft, containing an element for blocking the passageway of the inlet pipe of the system for supplying one of the components of the working mixture to the internal combustion engine and means for controlling this element, characterized in that the element for blocking the passageway is installed in the inlet pipe of the system supplying air to an internal combustion engine, and means for controlling this element is arranged to regulate the area of passage section S ₁ Pipelines and for changing the value A ₁ capacity air supply system in an internal combustion engine from 0 to 100%
3. The device according to p. 2, characterized in that the element for blocking the bore is installed in the inlet pipe of the air supply system before it enters the carburetor.  4. The device according to p. 2, characterized in that the element for blocking the bore is installed in the inlet pipe of the air supply system before it enters the internal combustion engine.  5. The device according to p. 2, characterized in that the element for closing the bore is installed in the housing, which is located in the place of air intake in the intake pipe.  6. The device according to p. 2, characterized in that the means for controlling the element of overlapping the passage section of the inlet pipe of the air supply system to the internal combustion engine is made with a mechanical, electric, hydraulic or pneumatic drive.

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