UA67090U - Energy generator - Google Patents

Abstract

An energy generator relates to machine-building. The technical result of the utility model is in simplification of kinematic configuration of the device and decrease or exclusion of power losses at overcoming friction forces in structural units.

Description

((b1) IPC (2011.01)

Co.) E16H 19/00

M E16H 33/00

CIVIL SERVICE and

INTELLECTUAL (F) P I S is issued under

PROPERTIES are updated

UKRAINE TO PATENT patent

НА КОРИСНУ МОДЕЛЬ ишиГлРОІОТЛМЛИЬЛЬЛИТЬЛЬЛЬЛИЛДИТЬТЬТЬЬТИЬНЬ6ИЬТЬШИЬИЬТЬТЬТНИТЬТНШЬЬИТСИТИТИОИООТИТИТОИОИИТИИЬЬИИИОИИИИОВЛЛЄОЄИЄЄИБИТНТЦИЖИЄ6ЦООЦТНИИТЛ ОІаІНШШШООЛІТОООЛЇИОООЛООЛЛЛТОООХТОЛИОІЕВПОВШ?ИЙЦТЬНТНТИТИТЬТЬТЬЬЬЬШЬОХОИТЬИЬТИТОИИОСХИХДТИОВИТХИХННЙКЙИХИТИИИИНИТТЯ (54) ГЕНЕРАТОР ЕНЕРГІЇ 1 2 (21) и201113628 4. Генератор енергії за пп. 1-3, which differs (22) 11/18/2011 in that the mechanism for transmitting shaft rotation to (24) 01/25/2012 elements with an unbalanced mass is made on the basis of a friction or toothed, or belt, or (72) TRUBYANOV YURI VALENTYNOVYCH, MYRO chain, or worm transmission of rotation from

Shnychenko Dmytro Yevgenovich of the leading wheel to the driven wheel. (73) TRUBYANOV YURI VALENTYNOVYCH, MYRO- 5. Energy generator according to paragraphs 1-4, which is different

Shnychenko Dmytro Yevgenovich due to the fact that the loads are rigidly fixed on the surface (57) 1. An energy generator containing a body in driven eccentric wheels. which is installed, with the possibility of rotation, 6. Energy generator according to paragraphs 1-4, which differs in the drive shaft; a driving link, which includes a mechanism that each eccentric wheel is equipped with a system for transmitting the rotation of the drive shaft through a radial guide, inside of which there is a drive wheel, rigidly installed on the drive load, with the possibility of its radial change of the shaft, elements with an unbalanced by the mass, moving along the guide, under the action additionally made in the form of wheels, which are equipped with forged loads additionally installed local drive device; kinematic chain between pro- for cargo. one link and the final consumer, which includes 7. The energy generator according to item 6, which differs in that the working nodes are made with the possibility of transmission of the mouth, that the radial guide is made of a rectilinear lateral moment, which differs in that it is me- or arc-shaped , or a spiral with a center, the chanism of transmission of rotation of the shaft contains at least two wheels coincident with the axis of rotation of the eccentric, kinematically connected with the leading wheel. - driven eccentric wheels, each of which is installed 8. Energy generator according to paragraphs 6, 7, which is distinguished by the fact that the local drive device for the movable driven axes located parallel to the load is mechanical (spring or drive shaft axis and rigidly levered at both ends) or electric (in the form of an electric map - connected to each other by a connecting element, cognit or rotor), or electronic, or hydraulic! rowing machine, the center of which is freely fixed on the receiver, or pneumatic. b water shaft, at the same time, each driven axis is 9. Energy generator according to paragraphs 1-8, which differs in that it does not have an additional connecting link, which contains the mechanism for transmitting the rotation of the shaft and one end of which is fixed on the axis, and its pro- additional driving wheels fixed in series Pe! the rear end is connected to a movable element along the axis of the drive shaft, with a kinematically rotating working chamber with a variable volume, which is connected to each of them driven eccentric e. contains intake valves for injection by impellers. environment and exhaust valves, connected through 10. Energy generator according to paragraphs 1-9, which distinguishes the receiver from the end user. by the fact that it contains additional driven eccentrics 2. The energy generator according to item 1, which differs in that the driven wheels are kinematically connected to the same "in that the driven eccentric wheels of the mechanism are driven by the leading wheel so that each subsequent driven -From the transmission, the rotations are made with the same diameter - the wheel is kinematically connected to the previous one, with the frame. this includes all axles on which the driven wheels are located, t 3. Energy generator according to paragraphs 1, 2, which is distinguished by the fact that the rocker arm is made in the form of a geometrical rocker arm, the center of which is freely fixed on a parallel figure, in which the extreme points, in the places of which the water shaft. it is attached to driven axes equidistant from 11. Energy generator according to paragraphs 1-10, which is distinguished by the attachment point of the rocker arm on the drive shaft, but by the fact that it contains additional working chambers, namely: a circle or a regular polygon (quad- on each driven axis, installed opposite to a perrata, an equilateral triangle), or a cross - shims, which make up working pairs in this way. curvaceous figure.

12. Energy generator according to para. 1-11, which is distinguished by the volume of the cylinder-piston pair used, or by the fact that it contains additional working chambers, a bellows, or a closed chamber with a flexible diaphragm, or pairs of working chambers installed in series with a rod (diaphragm), or a pneumatic chamber (pneumo- on each driven axis. spring). 13. Energy generator according to para. 1-12, which differs in that as a working chamber with a changeable

The useful model belongs to the field of machine safety, it evaporates easily even at low destruction, in particular, before the development of power temperatures, its vapors and compounds are very poisonous. heads of rotational motion (energy generators), and the closest to the device that is claimed, namely, to inertial systems is accumulated, is a power drive for rotation, in particular, energy/transformation, and can be used an electric generator, the action of which is based on the performance - for driving various machines and mechanisms. of the mechanism of intermittent movement, which

Designs of inertial energy converters, including the working link, made with the possibility of manipulation, which use the force of inertia that occurs during melting, to which a sign-changing moment is applied to the rotation of the body, in order to save electrical energy, rotation, which is created with the help of a source consumed by an electric motor, have been developed quite of mechanical vibrations (patent VO Mo 2377458, many. 2009).

The well-known inertial propulsion device "IDU- As a source of oscillations, a percentage of 4 is used" (patent VO Mo 2076241, 1997), in the design of an anchor vibrator in the form of an element of unbalanced unbalanced loads rotating in the same mass, which rotates freely engine, and the plane, carry out a reciprocating movement and install an axially working link with a given frequency to ensure unidirectional continuous action. At the same time, the engine and the element from the imbalance of the inertia forces of these loads. In the device, the used important mass is installed on the working link, and the geometric property of circles inscribed in each other in the mechanism of intermittent movement is used with loads, with a ratio of their diameters of 1:2, and an overrunning clutch. that roll inside each other without slipping. In this power drive, the force is viddenter

The main disadvantage of the device is the use of elements with unbalanced mass in the inertia (where its planetary gear design is the most energy-balanced), which are rotating, used as a more energy-intensive mechanical transmission, which requires too much additional power at its output. and very limited power take-off. speed characteristics. Since the power of the engine to drive the device is spent on the following: only on the rotation of the planetary gear, the economy - the presence of a kinematic chain in the device, the electrical energy consumed by it practically in the links of which occurs several times significant ration of types of motion, as a result of which the energy of rotation

Inertial transmission is also known (the patent VO motion is transformed from rotational to slow

Mo 2354873, 2009), in the design of which the inertial rotary-progressive, and further - again into a rotary mechanism, made in the form of two identical parts, which, in turn, will turn into an electric one. That the design of hollow rectangular rings reduces the efficiency of the drive as a whole, taking into account cutting losses, the internal cavities of which are filled with mercury to overcome the frictional forces in transmission nodes; thu Inside the rings, on the extended parts, - the output shaft of the device is transmitted to the rotating fixed pumps, which at a high speed of translational movement with a high torque and move the mercury inside the rings. When mercury moves at a low speed of rotation, which requires input, inertia forces Е and РЕ arise; different in size and use of the multiplier, which, in their own way, act in opposite directions. These forces, by no means, lead to additional energy balanced and acting in different directions, create losses and also reduce the efficiency of the pair of forces that cause rotation of the driven shaft of the system; device. - location of the source of oscillations (centrifugal

The disadvantage of such a technical solution is that the generator) on a common platform, that the inertial transmission transmits rotation only in one direction, leads to an increase in its inertia in one direction, which reduces the use of the entire mass, which, in turn, leads to a decrease in the useful operation of the inertial mechanism and, correspondingly, the efficiency of the drive and the impossibility of using the drive, the coefficient of useful action (hereinafter - the efficiency) of the device and heavier and heavier centrifugal generators; its economy as a whole. In addition, in the device - an inertial (centrifugal) generator in the vid- additional energy costs are required for operation, the device itself transmits rotation in only one direction. direction (only with translational, but not

In addition, the use of mercury (which has a large mobile, moving platform, which reduces the used specific weight) as an imbalance leads to an increase in all the generated useful work and, accordingly, the environmental hazard of such a device, the efficiency of the device and its economy as a whole. Since it is known that mercury belongs to the 1st class, it is structurally possible to install a second overrunning clutch to transmit rotation in both directions, meaning

but will complicate the design by supplementing it with another - the radial guide can be made with a mechanical transmission. In addition, the use of rectilinear, arcuate, or spiral overrunning couplings reduces the working life and efficiency with the center coinciding with the axis of rotation of the external device as a whole. internal wheel;

The task of creating the proposed technical - local drive device for cargo solution is to increase the efficiency of the device, its economy can be made mechanical (spring or strength and reliability, with simultaneous expansion by a lever), or electric (in the form of electrotechnical capabilities, due to the simplification of the magnet or rotor), or electronic, or hydraulic-kinematic scheme of the device and reduction or jaw, or pneumatic; connection of energy losses to overcome forces - the shaft rotation transmission mechanism can jam in its structural nodes and, as a result, clog additional driving wheels fixed in sequence, ensuring the possibility of energy generation, along the axis of the drive shaft, with kinematics which many times exceeds the power associated with each of them driven eccentric drive motor. them with wheels;

The task is solved in the device, - the device can contain additional driven ex- which contains the housing in which it is installed, with possible- centric wheels, kinematically connected with one and left of rotation, drive shaft; driven by the same driving wheel so that each distance, which includes the rotation transmission mechanism, and the driven wheel is kinematically connected to the driven shaft through the driving wheel, rigidly red, at the same time, all axes on which are located installed on the drive shaft, elements of driven wheels, rigidly fixed in series on an unbalanced mass, made in the form of one and the same rocker, the center of which is freely forested, which are provided with additional loads; kine- mounted on the drive shaft; matic circuit between the leading link and the final one - the device may contain additional working cam- by the consumer, which includes working nodes made of a meter on each driven axis, set oppositely by the possibility of transmitting the working moment, according to the first, which thus make working pairs; the claimed useful model, the mechanism - the device may contain additional working cams of the rotation of the shaft contains at least two, measures or pairs of working cameras installed so that they are kinematically connected to the driving wheel, of course, on each driven axis; of eccentric wheels, each of which is installed - as a working chamber with a variable volume, with the possibility of rotation on additional non-rotating cylinder-piston pairs, rigid driven axes located parallel to the axis or a bellows, or a closed chamber with a flexible - the drive shaft and at both its ends rigidly with a partition (diaphragm), or a pneumatic chamber connected to each other by a connecting element, co- (pneumospring). romysl, the center of which is freely fixed on the main shaft, while each driven axis of the zahanic oscillations, which arise under the action of an additional connecting link, which, three forces of eccentric bodies (wheels), one end of which is fixed to the axle, and the other end of which is provided with radial acceleration from the rear end is connected to the moving element of the drive motor through the drive shaft, not through the working chamber with variable volume non-forming energy with losses in rotational energy. A contains inlet valves for injecting the working medium directly to the working node of the environment and exhaust valves connected through the device and, through the connecting link, to the cameras from the receiver to the end user. variable volume, where mechanical energy transforms

At the same time, in the proposed design: the energy of the compressed medium is converted into the energy of the compressed medium, ready without any additional transformations using the driven eccentric wheels of the rotation mechanism, made with the same diameters; become a consumer. The energy obtained in this way - the rocker arm can be made in the form of a geometrically compressed medium is significantly superior to the potometric figure, in which the extreme points, in the places of tension, the energy spent on the rotation of the drive- which it is attached to the driven axes, the equidistant shaft of the device, which, in turn, are significantly raised from the point of attachment of the rocker arm on the drive arm of the latter's efficiency. shaft, namely: a circle, or a regular polygon. As a result of the absence of direct and inverse ka (square, equilateral triangle), or in the mechanical connection between the drive motor (in the form of one of the cruciform figures, for example: the water shaft) and the working chambers with a variable volume, the energy consumed by the device is spent - the mechanism for transmitting the rotation of the shaft is elementalized exclusively for the achievement of the drive shaft there with an unbalanced mass, revolutions of rotation can be performed, in which they arise on the basis of frictional or toothed, or re-centrifugal forces from the interaction of uniformly accelerated mine, or chain, or worm transmission of eccentric bodies, i.e., to overcome their start-rotation from the leading wheel to the driven; inertia and frictional forces in bearings. As a result - the loads can be rigidly fixed on the efficiency of the device as a whole and its surface of the driven eccentric wheels, or the size-economically increases significantly. inside the radial guide, with which each eccentric wheel can be equipped with a rocker arm with equal shoulders, with a secret kinematic connection of the leading and driven ones with the possibility of their radial movement along the eccentric wheels and limits the movement of loads along the guide under the action of an additionally installed rod, relative to the axis of rotation of the drive shaft, the rack drive device for the load; the diameter of which is equal to the distance between the drive shaft and the driven axles. The rocker arm allows you to transmit the use of several working pairs of cameras with the force of eccentric bodies (useful work) only by a variable volume, connected by connecting links in the direction of the above-described arc, and, equivalently, with each of the driven axes, on which are located tno at both ends of it with a given movement amplitude. eccentric bodies. Which, in turn, will allow

That is, with the help of a rocker, the useful work of generating energy in one and the same device is performed alternately in chambers with varying pressure and flow rate of the working medium, located diagonally. Thus, it is higher in each subsequent working chamber. That, each direction (up/down) of effort, which, respectively, increases the technical capabilities of the device and goes from the eccentric bodies to the rocker, is in its economy. the claimed device is working. That is, the listed distinguishing features of the device are not

A useful model is useful in the proposed kinematic scheme, which consists of a rocker arm and eccentric bodies, which are bypassed and sufficient to achieve the set goal. work, at the working revolutions of the latter, The operating principle of the claimed device is explained by the following graphic images of the obtained closed system. | because the excen- where a version of the device is presented in which: the rotating bodies do not have a reverse - the shaft rotation transmission mechanism contains a kinematic connection with the drive shaft and the drive gear - two driving gears, each of which connects a useful work on driven axles, not due to two driven eccentric gears with the body of the device, this type of movement is wheelless; pore movement, which does not require additional - the working unit contains two working pairs of energy consumption chambers. with a variable volume (at the same time, one of the cameras, for

The presence of a rocker arm allows the whole circuit to be more precisely understood as a device circuit, not to be self-balanced relative to the steering axis). bottom shaft at any current moment of its ro- The images show: bots. Due to the fact that the stably balanced Fig. 1 - scheme of the device (front view), with eccentric wheels on two driven axles, as well as the removed front cover of the case; diagonally balanced cameras with variable object Fig. 2 - diagram of the device, side view;

Mom. Fig. C - diagram of the device, top view;

Since, in the claimed device, the movement of van- Fig. 4 - section along A-A of figure Z; tazhev has several degrees of freedom - along the circle of Fig. 5 - general view of the device (axonome - eccentric bodies and along the above-described arc that rubs); is given by the movement of the rocker arm (regulated phase change, Fig. 6 is a diagram of the distribution of mechanical forces when tipping over 180"), as well as diagonally to the operation of the device. working chambers with a variable volume, this is the claimed device, which includes a housing 1, in leads to the smooth operation of the entire device and which has a drive shaft 2 on the bearings of which is installed for the complete exclusion of non-working (idle) strokes. On shaft 2, a leading six is rigidly fixed, which in turn increases the efficiency of the device. spindle 3, with which two driven shafts are kinematically connected

Radial guide of various declared configuration eccentric gears 4.1 and 4.2, containing loads, which can be provided with eccentricities, respectively, 5.1 and 5.2. Gears 4.1 and 4.2 are setting wheels, and inside which the load is placed, supported on bearings on the driven axles, respectively, will provide additional (along with circular motion 6.1 and 6.2, located parallel to the drive of the eccentric wheel and along the above-described arc that shaft 2 , and rigidly fixed on both sides at the ends is set by the movement of the rocker arm) radial adjustment of the rocker arm 7. The center of the rocker arm 7 freely anchors the load along it under the action of local pressures on the bearings on the shaft 2. On the driven axes 6.1 of water devices. and 6.2 installed connecting links, respectively, 8.1 and

And, as a result, it will provide a dynamic change in the ro- 8.2, each of which, in this variant, with its opposite position of the center of mass of the eccentric body - the lying ends are connected to the moving elements - the distance from the axis of rotation of the wheel when colliding one of the working chambers with a variable volume, high rotation speed and approach to it, respectively, 9.1 and 9.2, and oppositely located ro- when the rotation speed decreases. side cameras with variable volume, respectively, 10.1 and

This will allow, with unchanged revolutions of the lead- 10.2. foot of the wheel, in dynamics to change the deflection angle The device, in this version, contains an additional rocker. Which, in turn, will allow, without a stop, the analogous driving gear 11 and the related functions of the entire device, to smoothly adjust the two driven eccentric gears 12.1 and 12.2, similar power, the range of motion of the moving elements are logically fixed, respectively, on the drive shaft in chambers with a variable volume and, respectively, 2 and driven axles 6.1 and 6.2 on the other side of the connector - quantitative indicators of the produced working sulfur links, respectively, 8.1 and 8.2. afterlife Which increases the efficiency of the device and improves its operating conditions. of unbalanced vibrations during operation of

The possibility of installing several driven eccentric shafts in the device, which is built at different working revolutions of the drive is claimed, a technical solution with four cameras (two wheels each, kinematically connected to the same camera on one eccentric body) with a changeable leading wheel on the corresponding parallel volume is predominant. driven axes, and rigidly fixed in series on the device, which is declared, works on the same or the same rocker, accordingly, the nom.

From the driving energy source, as such, liquids, gas, air can be used, depending on the electric motor used, the internal output operating parameters of the proposed combustion engine, the wind generator, the hydrogen generator device and its conditions (including environmental conditions). torus and the like, apply effort to drive operation. shaft 2, which accelerates to a set speed The exhaust valves of the working chambers can be rotation and spins the leading gear 3. In connected with the final consumer through the receiver, in turn, the gear C drives two old eccentric gears 4.1 and 4.2, which on the bearing- losses (in contrast to electric energy) for a long time rotate freely relative to stationary axes during accumulation, storage and transport- driven axes, respectively, 6.1 and 6.2. if necessary, over considerable distances, without stopping

The gear ratio of 1:1 gear wheels (weighing additional communications in the form of applied and conductive, in the case when they are all made of rum, power lines. In addition, it can have the same diameters) ensures an equivalent to be used, in which number, and if necessary, the cyclicity of the spatial location of the ex- increase in the power consumption of the finite centric bodies during each of their full rotation by the living device, which is claimed. What does relative to its axes of rotation. In case of need, it is more economical, compared to known gear ratio adjustments, provided that the systems are followed. equivalent synchronization of eccentric wheels, to the additional advantages of the design of the device, the driven and leading gears are made of what is claimed, it can be done with different diameters, designed to simulate an additional function, namely, to create and transmit forces with the calculated necessary to maintain a vacuum in various technological devices - changing (more / less) transmission numbers, systems and installations, as well as pumping out la. air and steam-gas mixtures in tanks, creating

When loads 5.1 and 5.2 rotate, a vacuum acts on them by blowing them. Moreover, the additional structural centripetal force of inertia, under the influence of which the external transformations increase, is not required for this, the force of the eccentric bodies 4.1 and 4.2 on the driven axes is enough to mutually change the functions of the intake and exhaust sections, respectively, 6.1 and 6.2, and the rocker arm 7 begins to populate chambers with a variable volume. At the same time, each gradually deviating from the primary one will function in the "reverse direction". For the position. using the claimed device, the process of vacuum-

Due to the cyclical change in the direction of centrifugation of the medium, the rocker arm 7 will also become simple and economical, synchronously with the eccentric one. The presence of such an additional function of the device with bodies 4.1 and 4.2 performs oscillating movements. Amp- expands its technical capabilities and makes its amplitude of oscillations always set and equal to two universal ones. distance to the points of the extreme positions of the center of mass. The diagram of the distribution of forces, during the operation of the device, loads 5.1 and 5.2, which are determined by the calculation that is claimed, is presented in Fig. 6, where using the following letter designations are used:

Forces of eccentric bodies 4.1 and 4.2, reaching XM, 4 s - coordinate axes; of the extreme point of the rocker arm deflection, are transmitted to - is instantaneous, i.e., the value of the moment relative to . 7 the radius of the trajectory of the driven eccentric is constant. Only their main gear 4.1 (or 4.2) changes, the distance from the center of the object is 180" at the point of the extreme deviation of the rotation of the drive shaft 2 to the center of rotation of the tiller, when the centrifugal force of the loads of each of the driven axes is bl and 6.2; small coincides with the direction of motion of the rocker arm, E is the angular speed of rocker arm oscillation, i.e., the phase changes smoothly, which allows the effector, which carries out oscillating movements, to actively remove the useful force in both directions relative to the drive shaft 2 with a radius equal to A;

Through the kinematic chain "rocker arm 7 - ve- HOUR angular speed of rotation of the driven extension axes 6.1 and 6.2 - connecting links 8.1 and 8.2 - movable centric gears (angular frequency of rotation of elements of cameras with variable volume 9.1, 9.2, 10.1, loads 5.1 and 5.2); 10.27 any direction of oscillating movement of the korg - the radius of rotation of the center of mass of loads 5.1 and thought sets in motion the moving elements of all chambers 5.2; chambers with a variable volume. At the same time, processes of compression of the working sulfur take place at the same time E - dv - the force applied by the drive engine in two diagonally located chambers to the loads, under the influence of which they rotate from 9.1 and 10.2 when the rocker arm is deflected at the clock frequency 9; the arrow, and the processes of filling the working se in two diagonally located cams, the opposing force is 101 and 9.2, when the rocker arm is deflected against Ru, the centrifugal force is clockwise. That is, any direction E of the rocker arm 7's oscillating motion is working, when x is the radial and the component of the centrifugal force; useful work is performed alternately in all pairs of Me chambers with a variable volume. - load resistance moment;

Working environment with excessive pressure over- PF. the angle between P TE. is given through the exhaust valves (not shown in the diagrams). As a result of the operation of the drive motor, the cams with a variable volume with a final capacity of 2.2 kW are transmitted to the drive shaft 2. as a working medium can be an angular speed of 298.8 s" (2850 rpm). At the same time, the driving gear 3, which is rigidly fixed on the P-1200.21-25200 (W) - 25.2 kW. shaft, rotates at the same speed Since it follows that the theoretical power of the transmission ratio of the leading and each of the driven rocker arms (in 25.2 kW) exceeds the initial ratio 1:1 (in the example given, the power of the engine (in 2.2 kW) , which rotates, given that the diameters of the driving and driven gear shafts are more than 10 times equal to each other), then the angular speed of rotation In the claimed device, the weight and size of the driven gears 9, which are fixed the load of centric bodies is calculated so that the rocker arm 7 5.1 and 5.2, also equal to 298.8 sv, as a result, rotates by a given value when calculating the eccentric bodies (driven gears), the revolutions of the drive shaft 2, performing some centripetal force of : large movements with a given amplitude and, due to the joint

Eh - t. o? "t -8570 N-links 8.1 and 8.2 transmits the force of eccentric bodies, equal to the force E, to chambers with a variable volume. where: ! At the same time, the moving elements in the chambers change - the mass of each load, taken by an equal volume, moves to a distance equal to 1600 g; given amplitude of oscillations of the rocker arm 7. g - the distance to the center of mass of the load, receiving - That is, in this device only the force Г is equal to 30 mm. is designed for generation in chambers with a variable

E E is the volume of the compressed working medium with

The radial component X of the centrifugal force" by the (excessive) pressure. At the same time, it does not increase - the operation of the device is not affected, because the energy consumed by the device is balanced by the same force that is created by the symmetrical engine directly to increase the pressure by the annually located the second eccentric body of the lateral environment in the chambers.

The instantaneous value, tangential (to the trajectory of the radius HB) and at the same time radial - to the trajectory of the account, generated by the device and transmitted to the final consumer, the energy of the compressed medium with a radius of r, the component of the centrifugal force ", there is a force many times (more than 10 times) greater

ER, which is applied along line 5 to the eccentric axis, is the power of the engine, spent on the drive of the river body itself, and from it - to the camera with a variable device. Which indicates the high efficiency of the device by volume, and is equal to: in general.

E-2-t oy -g.-sova Below are the comparative calculation characteristics, characteristics of the distribution of forces (loads) where: šo | operation of the claimed device and one of the video- number 2 indicates the number of loads; devices for receiving (generating) energy

She rotation time, p. gonosia in the form of a compressed medium (air),

This force, at 1-0. equal: in particular, of a piston compressor.

E- 8BUO N | Calculations were made for the following examples. . . divs of compared devices:

The instantaneous value of the radial speed of the van- - the standard scheme of the piston compressor, the tage (along g and Z) is equal to: when the force of the drive motor is transmitted

M -o-g-sovBoi, directly to the piston group (which consists of

And at 1-0. 0-9 ms, from 3 cylinders) through the crank

At the same time, the angular speed of rotation 9 of the connecting rod mechanism: : o, y : - the scheme of the device, which is declared when the kine- of the driving gear around the axis 7 is much less matic connection between the drive motor and the piston- angular speed 9, so it can be neglected . a new group (selected as a design option

The moment created by the force E relative to the axis 7 of the chamber with a variable volume) consisting of 4 (active moment) is equal to: cylinders, broken.

M.A. At the same time, it is accepted that in the compared cases

In . . systems: where is the distance from axis 7 to the axis of rotation of loads, m.a. the diameters of the pistons are equal to 80 mm;

Then: C - areas of the pistons, equal to pa"/4 - 0.005024 m";

M -8570:014 -1200 Well P - the working pressure is equal to 10 atm. (1.013

In a separate case of rotational movement, the power is MPa). is equal to: 1. In a known device:

RAM at ож -Ф/и where: a) calculation of the corresponding load of the compressed medium for the injection moment and cycle

Ok - angular speed of rocker rotation, suction of one cylinder: rad/s; Evidp - R. -50 kN.

Ф - angle of rotation of the rocker arm, equal to 0.42 rad; b) calculation of the mechanical resistance of the piston

It is the time during which the rocker arm makes one oscillation (friction of rings), rolling and sliding bearings, equal to 0.02 s. Then: for one cylinder: ож - 042/0.02 - 21 rad/s, Eoporu - 03 kN, therefore, the theoretical power of the rocker arm: