SU519152A3 - Drive unit - Google Patents

Claims (7)

(54) PRIVATE DEVICE Doped cells. The one advantage of the design of the design is an increase in speed due to the possibility of using a more powerful heat source. FIG. 1 shows the proposed drive unit, a longitudinal section; in fig. 2 appearance of the device; in fig. 3 - external view of the device; ; in fig. 4 - bottom view of the device; in fig. 5 and 6 are options for mounting the device. The drive unit has an external coax for an electrically insulating material, for example, a phenolic material; plastics, which is formed by two equal parts 1 and 2, longitudinally cut and forming a cylindrical cavity 3. Holes 4 and 5 in each half serve to join these parts together. The spike 6 in one half is inserted into the reciprocal recess 7 in the other half of the casing to ensure the alignment of both halves. A piston 8 of cylindrical shape is placed in the cavity, which can also be made on plastics. The piston at one end is provided with an outwardly protruding radial flange 9, the lateral surface of which fits snugly against the walls of the cavity. A coil return spring 10 is located around the piston, resting on the flange 9 and the upper rack 11. The piston has a rod part 12 of reduced diameter, which creates an access 13 with the main part of the piston, which serves to limit the movement of the piston to the outside. The outer part of the piston passes into the hole 14. In the housing there is an annular step 1, on which the lower surface of the flange 9 rests under the influence of a spring. In this way, the piston stroke is limited by two stop positions. Piston 8 is drilled 16 and Naira Lenn; and down is a blob 17. The drilling depth is longer than the length of the piston stroke. The chamber 18, made of a heat-conducting material, for example, brass, comprises a cylindrical part 19, a conical part 20 and a sleeve-like part 21. The second part enters the piston drilling. The other end of the chamber is formed by a base 22 and a sleeve 23 facing the inside of the chamber. The chamber is filled with medium 24, (for example, purified paraffin), expanding when heated. The piston heads 25 and 26 have floating holes 27 28, respectively, in which are placed colp seals for the gasket 29 and 30 of the gasket made of an elastic material that is able to withstand high temperatures, for example, fluoric elastic material. A second coil spring 31 is placed between the flange part of the chamber 22 and the ledge of the casing 32. This spring shifts the camera towards the –inh of the casing and the plate of the electric heater 33. The electric heater 33 is a surface with two metallized surfaces, made copulating of a material with a positive temperature coefficient of resistance, for example, barium titanate ceramic poluprovoshgakovogo, legirovannogch lanthanum. . Wasp power inlet: installed through terminals 34 and 35, passage through the holes in the Kt shaft and ending with round horizontal platforms 36 and 37. One platform is in contact with the heating plate of the other directly - through the spring 38. The drive unit works like this in a way. When power is applied to the electric heater 33 through the terminals 34 and 35, its temperature is higher and the heat is over-; It is given through one day 22 cameras in the United States environment 24. Expanding with Hai roar, the medium moves the working rod-11Or4-. When the medium continues to expand, an increase in the pressure of the piston 25 causes the chamber to separate from the heater 33, and the position of the chamber is determined by the balance between the pressure in the chamber and the amount of heat. iio stepping into the medium. When the power is turned off, the medium is cooled, the chamber under the action of the spring 31 and the working rod - the piston under the action of the spring 10 returns to its original position. The desired stroke length of the working piston can be obtained using ring X gaskets that are worn on its rod part 12. Invention 1. Driving device holding a hollow casing, a chamber with a main piston element installed in the casing, the medium housed during heating the camera, and the heat source, such as electric heating gel, is applied so that, for the purpose of protecting the devices, they can be protected from overheating or seizure. The chamber is installed in the housing with the possibility of gearing and an additional piston element, the piston - the rod of which enters the channel made in the bottom of the chamber, and its base is in thermal contact with the heat source and the return spring, and the effective cross section of the additional piston is larger than 9 Fractal section of the main piston section. 2. The device according to claim 1, characterized in that the chamber is a pilindrich body, one end of which is surrounded by a truncated cone with a sleeve elongation, and the other end is a truncated cone facing inwards, also with a sleeve-like elongation, and in bushings there are channels , Cylinders of the porous element. 3. The device according to claim 1, characterized by the fact that the pistons are provided with pas: valves, and the piston elements are equipped with elas., And with the usual sealing gaskets. I 4. The device according to claim 1, that is, with the aim that, in order to increase the efficiency of converting thermal energy into linear mechanical movement, the chamber is made of thermally conductive material, and the return spring is installed with pressure on the camera. 5. The device according to claim 1, characterized by TeMj that, with the aim of increasing the reliability of operation, the piston elements 1 by means of corresponding protrusions I located on the casing, chamber and piston; x, are mechanically limited in their movement between two stop positions. 6. The device according to claim 1, that is, so that, in order to shorten the course of the working piston, a spacer ring is installed on the center of the left part of the working piston. 7. Ust {device according to claim 1, such that with, in order to enable installation of the device in the desired position, the coop has slots and ribs for placement in snap rings. 25 5,148 10 7 FIG. one R .2 FIG. FIG. five .-- V l, -, lh1 TUU P / / / / FIG. 6