CN104786037A

CN104786037A - Embedding method for end-gap-free L-shaped nonmetal piston ring and piston and none-clearance structure forming compressor

Info

Publication number: CN104786037A
Application number: CN201510109924.XA
Authority: CN
Inventors: 梁嘉麟
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-03-18
Filing date: 2015-03-08
Publication date: 2015-07-22
Also published as: CN104929900A; CN104929901A; CN104929907A; CN104786194A; CN104924268A; CN104929904A; CN104847625A; CN104929905A; CN104832399A; CN104929903A; CN104929906A; CN114992090A; CN104929902A; CN104791219A; CN106150972A; CN104763611A; CN104847624A

Abstract

The invention discloses an embedding method for an end-gap-free L-shaped nonmetal piston ring and a piston and a none-clearance structure forming a compressor. The purpose of none clearance is achieved through the embedding method of the piston ring and the piston, and in other word, a clearance on the top space of the piston (5), a clearance in a suction and exhaust mechanism and a clearance caused by arranging the piston ring (K) are immediately eliminated. The none-clearance contact state without any geometric space can be finally formed among the piston (5), an exhaust valve plate (3), a conical air suction valve block (4), the piston ring (K) and an air cylinder (6). A world traditional piston reciprocating compressor appears with the more brand-new appearance, the exhaust efficiency (the actual displacement of the piston reaches 100%) and/or the work compression ratio of the compressor type are/is greatly improved, conditions are created for new generation products of the piston type reciprocating compressor, and even due to the fact that the cost performance is greatly improved, conditions for the piston type reciprocating compressor to become new generation products of various types of compressors used in other project fields are created.

Description

The method for embedding of the nonmetal piston ring of end-clearance-free L-type and piston and formed compressor completely without clearance structure

Technical field

The present invention relates to the technology of piston reciprocating compressor, particularly related to the method for embedding of the nonmetal piston ring of end-clearance-free L-type and piston and formed the technology completely without clearance structure of reciprocating compressor.

Background technology

Great majority in the compressor kind of current appearance are all the conventional piston compressors by crank-driven, it has: manufacture simple, long service life, cannot Comprehensive Characteristics by comparison to other kind compressor of the less demanding grade of material, this has been unfailing main cause since its comes out.

Piston reciprocating compressor is the same with other compressors, and owing to being structurally subject to the puzzlement of insurmountable " clearance " problem, therefore its exhaust efficiency is or/and compression ratio is difficult to improve all the time.---such as: when compression ratio is close to " 10 ", its capacity will be reduced to the degree losing its work meaning.

" clearance " in existing piston reciprocating compressor comprising: outer " clearance " that must exist with both exhausts mechanism between top and cylinder inner top and due to air-breathing of piston, and the clearance caused due to the existence of piston ring.

Patent CN1680717A discloses a kind of version of " without clearance " piston reciprocating compressor without piston ring.

In addition, JP8-9985B2 discloses a kind of without oily piston reciprocating compressor, this compressor have employed the piston ring that the polymer that comprises such as polytetrafluoroethylene (PTFE) (PTFE) or polyflon is made, but, in its structure, it is so inevitable that the end gap existence of this piston ring is appointed, and namely the tip-clearance of C type piston ring is appointed is so inevitable.

Summary of the invention

The object of the present invention:

The object of the present invention: be exactly the degree for reaching 100% in theoretical capacity, and actual exhaust air amount is all in close proximity to a kind of improvement in structure and material of metallic piston ring " completely without clearance " the compressor type of 100% under any working condition.---reach the degree that its theoretical capacity and actual exhaust air amount can both reach 100%.

In order to realize foregoing invention object, intend adopting following technology:

The method for embedding of the present invention and piston:

Utilize the assistance of instrument can press down allowing under brute force from top land as installed cycle casing and allow it progressively embed completely the annular groove of piston in the thicker one end of the piston ring centripetal direction be made up of macromolecule polymer material of deformation.

The present invention forms the version completely without clearance piston reciprocating compressor after piston ring is arranged on piston:

Structurally meet three organization establishes conditions of following a, b and c again:

A. the top outer adapted of piston controls the taper inlet valve block that suction hole opens and closes;

B. at least with the outside and top flush position of piston on be provided with its section and be L-type and the piston ring be made up of nonmetal macromolecule polymer material of end-clearance-free;

C. piston is in forward compression instroke, finally can back down exhaust valve plate and go out cylinder, piston is in backward travel, when piston is for returning in cylinder completely, be about to, with the moment being blocked in outer exhaust valve plate by cylinder and being separated, piston, exhaust valve plate, taper inlet valve block will be caused, between piston ring and cylinder, form " completely without the clearance " contact condition not having geometric space;

---exhaust valve plate is the top being positioned at cylinder by the elastic device of spring one class.

The control method of the present invention's temperature rise under high compression ratio operating mode: adopt the water-cooling pattern as explosive motor to be solved.

Feature of the present invention:

Due to present invention employs its section be interior ladder type and end-clearance-free as nonmetal and can the piston ring structure made of the soft macromolecule polymer material of oil resistant heatproof of deformation, this just creates condition for piston ring can be installed easily on the Special annular groove of location (packing into) on piston; This just and then not only can come out with the most perfect efficient configuration form but also create condition for the with the longest history in the world and piston reciprocating type type that " cost performance " is the highest.

Accompanying drawing explanation

Fig. 1 illustrates the embodiment of the present invention in the driving high-power piston reciprocating compressor of horizontal crankshaft.

Fig. 2 illustrate Fig. 1 type piston-advance (exhaust) run time piston, valve and cylinder relative position.

The piston that Fig. 3 illustrates Fig. 1 type retreats (air-breathing) relative position of piston, valve and cylinder when running.

H: higher-pressure region; W: low-pressure area; K: its section is the piston ring of interior ladder type; N: the conventional piston ring of common rectangular cross section; P: the suction hole of top land; D: alternating current generator; 1: cylinder cap; 2: spring; 3: exhaust valve plate; 4: taper inlet valve block; 5: piston; 6: cylinder; 7: bent axle; 8: connecting rod; 9: body; 10: set screw.

Detailed description of the invention

Fig. 1 illustrates a kind of structure in general of crank-driven type piston reciprocating compressor " completely without clearance ".

Fig. 2 illustrates piston 5 and carries piston ring K together when compression exhaust stroke forward, heads on the situation that exhaust valve plate 3 is advanced together in outside, the hole of cylinder 6.Obvious:

A., before piston 5 contacts with exhaust valve plate 3, this has just defined the high pressure air cushion will alleviating piston 5 and the mutual collision dynamics of exhaust valve plate 3 therebetween in cylinder 6;

B. now mean: the gases at high pressure be compressed into all are clamp-oned higher-pressure region H by piston 5;

C. should guarantee in structural design: the hole of piston ring K can not all depart from (going out) cylinder, otherwise piston ring K just again can not be carry by piston 5 and return cylinder 6.In addition, piston 5 goes out the itinerary part at cylinder 6 hole, can be controlled in about 1/10th or less of its effective travel length.

Fig. 3 illustrates piston 5 state by the taper inlet valve block 4 inspiration low-pressure gas at its top when the suction stroke retreated.Obvious:

A. downflow type suction mechanism is structurally adopted to meet the model structure requirement of " completely without clearance " most.

B. when piston 5 is in the starting stage of backward travel, namely before the hole of the complete setback cylinder 6 of piston 5, first closed by the hole top of larger-diameter exhaust valve plate 3 by more small-bore cylinder 6, will be formed this moment:

Piston 5 (comprising the piston ring K being positioned at its outer rim), taper inlet valve block 4, the state of " completely without clearance " between exhaust valve plate 3 and cylinder 6.---at the moment, the expansion process as residual high pressure gas in prior art would not be there is, directly allow piston 5 just enter to have intake stroke stage of actual air-breathing meaning, until filled up in the space in cylinder 6 between piston 5 to exhaust valve plate 3 by the low-pressure gas of inspiration.

In sum, from structural principle of the present invention, when piston 5 is in intake stroke of the present invention but not yet carries out air-breathing, namely mainly under anticyclonic driving, the moment that the hole top of cylinder 6 closes by exhaust valve plate 3 is allowed: most critical will be formed: piston 5, exhaust valve plate 3, taper inlet valve block 4, between piston ring K and cylinder 6 five, do not have " completely without clearance " contact condition of geometric space.

High pressure problem of temperature rise about high compression ratio type of the present invention:

High compression ratio or extra-high compression ratio type will inevitably face for the high temperature rise problem compressor, this can adopt general air cooling way to solve, and the water-cooling pattern as automobile engine (carrying out the operation of driven plunger by the blast of gasoline high temperature) also can be adopted to solve (belong to prior art category---coolant water temperature generally can not far above 100 DEG C).---the present invention can design infinitely-great work compression ratio type, but, most compression ratios required for service condition is limited, or even it is very limited, such as: the engineering of what compression needed by great majority becomes when adopting unit of the present invention compression, need the high temperature rise problem solved will be simply too much; Instead of by original many levels, the engineering of even tens grades and even tens grades compressions becomes employing unit compression of the present invention.

Obvious:

The piston reciprocating compressor that " has clearance ", its cost performance is very high, if achieve " completely without clearance " structure, its cost performance just can rise by a larger margin, not only new architecture will be allowed can to become the regeneration product of traditional piston reciprocating compressor, also probably become the regeneration product of all kinds compressor used in Other Engineering field.

Claims

1. the method for embedding of the nonmetal piston ring of end-clearance-free L-type and piston:

Utilize the assistance of instrument can press down allowing under brute force from piston (5) top as installed cycle casing and allow it progressively embed completely the annular groove of piston (5) in the thicker one end of piston ring (K) centripetal direction be made up of macromolecule polymer material of deformation.

2. the nonmetal piston ring of end-clearance-free L-type according to claim 1 and piston method for embedding formed compressor completely without clearance structure,

Structurally meet three organization establishes conditions of following a, b and c:

A. the top outer adapted of piston (5) controls the taper inlet valve block (4) that suction hole (P) opens and closes;

B. at least with the outside and top flush position of piston (5) on be provided with its section and be L-type and the piston ring (K) be made up of nonmetal macromolecule polymer material of end-clearance-free;

C. piston (5) is in forward compression instroke, finally can back down exhaust valve plate (3) and go out cylinder (6), piston (5) is in backward travel, when piston (5) is for returning in cylinder (6) completely, be about to, with the moment being blocked in outer exhaust valve plate (3) by cylinder (6) and being separated, piston (5), exhaust valve plate (3), taper inlet valve block (4) will be formed, between piston ring (K) and cylinder (6) five, form " completely without the clearance " contact condition not having geometric space.

3. the nonmetal piston ring of end-clearance-free L-type according to claim 2 and piston method for embedding formed compressor completely without clearance structure, described exhaust valve plate (3) is the top being positioned at cylinder (6) by the elastic device of spring (2) class.

4. the nonmetal piston ring of end-clearance-free L-type according to claim 2 and piston method for embedding formed compressor completely without the temperature rise control method of clearance structure under high compression ratio operating mode: adopt the water-cooling pattern as explosive motor to be solved.