RU2400115C1 - Female part of button fastener - Google Patents

Abstract

FIELD: personal use articles. ^ SUBSTANCE: female part of button fastener includes the first receiving zone intended for fixation of the first male part and the second receiving zone intended to fix the second male part. The first receiving zone and the second receiving zone are concentric towards each other. ^ EFFECT: invention provides for compact design. ^ 6 cl, 28 dwg

Description

The invention relates to mechanical engineering and can be used in internal combustion engines, pumps, compressors.

Known "Rotary machine" containing a cylindrical body with a spark plug and with suction and exhaust openings, inside which a shaft is mounted on which working elements are fixed with the formation of working chambers, the cylindrical body is equipped with end caps (Patent SU No. 1752991, F01C 1/063, Op. 07.08.1992).

The disadvantage of the above installation is not the durability of the structure, large dimensions and low efficiency.

The closest technical solution is a “Rotary vane internal combustion engine” containing a cylindrical housing with end caps and inlet and outlet windows, inside of which a shaft is mounted on bearings, on which working elements are fixed to form working chambers (Patent RU No. 2338904, F02B 53/08, 55/16, Op. 20.11.2008).

The disadvantage of the above internal combustion engine is the design complexity and low efficiency.

The proposed technical solution improves reliability, increases machine resources, has a simplified design and reduced overall dimensions.

This goal is achieved in that the plate machine comprises a cylindrical body with end caps and with inlet and outlet channels, inside which a shaft is mounted for rotation, on which the working elements are fixed with the formation of working chambers, the plate machine further comprises a flywheel, gear, connecting rod, a rocker rigidly fixed to the shaft and interconnected with a connecting rod, which interacts with the gear gear meshed with the flywheel, two partitions with inlet and outlet channels, w tightly fixed on the inner surface of the cylindrical housing along the entire length, arranged uniformly and parallel to the axis of rotation, in cross section which are an isosceles trapezoid, valves installed in the inlet and outlet channels of the partitions and the cylindrical body, working elements are rigidly fixed along the entire length of the shaft and represent two working plates, which are equipped with sealing elements, in addition, the plate machine additionally contains a gas distribution mechanism, interacting with the valves, spark plugs installed with the possibility of ignition of the fuel mixture and an external start source that interacts with the flywheel, or it additionally contains an external rotation source that interacts with the flywheel.

In Fig.1 shows a plate machine in section, in Fig.2 shows a section aa.

The plate machine comprises a flywheel 1, a gear 2, a connecting rod 3, a link 4, a cylindrical body 5 with inlet and outlet channels and with end caps 6, inside of which a shaft 7 is mounted for rotation.

On the shaft 7 with the formation of the working chambers, the working elements are rigidly fixed, and the link 4 is rigidly fixed, which is interconnected with the connecting rod 3, rotatably mounted on the gear 2, i.e. interacts with gear 2, while gear 2 is engaged with flywheel 1.

The working elements are rigidly fixed along the entire length of the shaft 7 and are two working plates 8, which are equipped with sealing elements (not shown).

The shaft 7 is mounted for rotation in the end caps 6, for example, in bearings 9.

On the inner surface of the cylindrical body 5 along the entire length, two partitions 10 with inlet and outlet channels are rigidly fixed and parallel to the axis of rotation. Partitions 10 in cross section are an isosceles trapezoid. The inlet and outlet channels of the partitions 10 are coaxial with the inlet and outlet channels of the cylindrical body 5, that is, they are interconnected, and valves (not shown) are installed in them.

The internal volume of the cylindrical body 5 by means of a shaft 7 with working plates 8 and partitions 10 is divided into two working chambers, in each of which two working cavities are formed during the movement of the working plates 8 from one partition to another. In the process of moving the working plate 8 from one partition 10 to another partition 10, one working cavity is formed on one side of the working plate 8, in which the rarefaction process is carried out, which entails the suction of the working medium from outside through the inlet channels, simultaneously on the other side of the working plate 8, another working cavity is formed in which the process of compressing the working medium to a predetermined compression ratio is carried out, which entails the removal of the working medium from the working cavity through the outlet channels.

The inlet and outlet channels of the partitions 10 and the cylindrical body 5 provide for the pumping of the working medium from outside to the working cavity and vice versa.

The working medium is a liquid, a gaseous mixture in the form of a fuel mixture, etc.

The plate combustion engine further comprises a gas distribution mechanism that interacts with the valves, spark plugs and an external start source that interacts with the flywheel 1.

The gas distribution mechanism is located with the ability to provide regulation and operation of the valves, namely, the supply of the fuel mixture into the working cavity and the removal from it.

Spark plugs are installed in the partitions 10 and in the cylindrical body 5 with the possibility of providing ignition of the fuel mixture.

An external trigger source is, for example, a starter (not shown).

The vane pump or compressor further comprises an external rotation source (not shown), for example, an engine, interacts with the flywheel 1.

The plate machine operates as follows.

Known means and methods drive the flywheel 1, which by means of gear 2, connecting rod 3 and link 4 rotates the shaft 7 with the working plates 8 around the axis of rotation.

The working plates 8 are moved from one partition 10 to another partition 10.

When the working plate 8 moves from the first partition 10, one working cavity is formed between them, in which the rarefaction process begins and the valves located in the inlet channels open. The working medium from the outside through the inlet channels enters this working cavity. At the same time, on the other side of the working plate 8, namely, between the working plate 8 and the second partition 10 to which it moves, a second working cavity is formed in which the compression process begins. In this case, the valve located in the outlet channel is closed. The movement of the working plate 8 relative to the axis of rotation and from one partition 10 to another partition 10 limits the link 4, which is triggered if the working medium is compressed to a given compression ratio. In the process of compressing the working medium, the pressure in the second working cavity rises to a predetermined value, upon reaching which, the working medium begins to exit the second working cavity through the exhaust channel and after that the movement of the working plate 8 in the opposite direction to the first partition 10 begins.

The cycle repeats.

In the case when the plate machine operates as a plate internal combustion engine, the flywheel 1 is driven before the start of the working cycle by an external start source and the operation mode of the plate internal combustion engine begins.

When the pressure in the second working cavity rises to a predetermined value (at the end of the compression process), the spark plugs are triggered and the movement of the working plate 8 in the opposite direction begins, that is, to the first partition 10.

The cycle repeats.

In the case where the vane machine operates as a vane pump or compressor, the flywheel 1 is driven by an external rotation source and further as described above in the operation of the device.

The proposed plate machine allows for smaller overall dimensions 2.5 times than conventional internal combustion engines with conventional overall dimensions, and by simplifying the design and reducing the number of parts, for example, instead of four cylinders we use one with four working cavities, respectively, instead of four we use one of the connecting rods, provide the same power, increase the working machine resource, and increase the reliability of operation.

The proposed device is simple to manufacture, to install and maintain, reliable and economical to operate, in the manufacture of the proposed device used components manufactured both in the Russian Federation and abroad.

Claims (6)

1. The covering part of the fastener-button, including the first receiving zone (15), designed to fix the first male part (40), and the second receiving zone (16), designed to fix the second male part (46, 47), characterized in that the first receiving zone (15) and the second receiving zone (16) are concentric with respect to each other. 2. The covering part according to claim 1, characterized in that the inner diameter (r) of the first receiving zone (15) is different from the inner diameter (R) of the second receiving zone (16). 3. The covering part according to claim 1 or 2, characterized in that the first receiving zone (15) differs from the second receiving zone (16) in their respective inner diameters (r, R) transverse to the direction (D) in which the male the part (40, 46, 47) is inserted into the female part. 4. The covering part according to claim 1 or 2, characterized in that the second receiving zone (16) surrounds the first receiving zone (15). 5. The covering part according to claim 1 or 2, characterized in that the inner wall (19) of the second receiving zone (16) is at least partially identical to the outer wall (19) of the first receiving zone (15). 6. The covering part according to claim 1 or 2, characterized in that the second receiving zone (16) is annular.

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