CN102562205B - Three valve gas compressors - Google Patents

Abstract

The invention discloses a kind of three valve gas compressors, comprise piston-cylinder mechanism, the working medium envelope of described piston-cylinder mechanism is established intake valve, for valve and exhaust valve, described intake valve, described in valve and described exhaust valve partly or entirely by timing control mechanism controls.Three valve gas compressors disclosed in this invention effectively can overcome the impact of clearance volume, improve the efficiency of gas compressor, reduce weight, reduce cost.

Description

Three valve gas compressors

Technical field

The present invention relates to gas compression field, especially a kind of gas compressor.

Background technique

Conventional piston formula gas compressor is all according to suction stroke---air feed stroke two stroke cycle of calming the anger work pattern, but in this circulation mode, the efficiency impact of clearance gap (being also clearance volume) on gas compressor is serious.Therefore, need to invent a kind of new gas compressor that can scientificlly and effectively utilize clearance gap to improve compressor efficiency.

Summary of the invention

In order to solve the problem, the technological scheme that the present invention proposes is as follows:

A kind of three valve gas compressors, comprise cylinder piston mechanism, and the working medium envelope of described cylinder piston mechanism is provided with intake valve, for valve and exhaust valve; Described intake valve, described in valve and described exhaust valve partly or entirely by timing control mechanism controls, described timing control mechanism be set to control described three valve gas compressors according to suction stroke-air feed stroke of calming the anger-clearance air work stroke-exhaust stroke circulation mode work without combustion four-stroke control mechanism.

A kind of three valve gas compressors, comprise cylinder piston mechanism, and the working medium envelope of described cylinder piston mechanism is provided with intake valve, for valve and exhaust valve; Described intake valve, described in valve and described exhaust valve partly or entirely by timing control mechanism controls, described timing control mechanism be set to control described three valve gas compressors according to suction stroke-air feed stroke of calming the anger-clearance air work stroke-exhaust stroke-suction stroke-exhaust stroke without combustion six-stroke control mechanism.

A kind of three valve gas compressors, comprise cylinder piston mechanism, and the working medium envelope of described cylinder piston mechanism is provided with intake valve, for valve and exhaust valve; Described intake valve, described in valve and described exhaust valve partly or entirely by timing control mechanism controls, described timing control mechanism be set to control described three valve gas compressors according to suction stroke-air feed clearance gas of calming the anger release stroke cycle work pattern without combustion two-stroke control mechanism.

Described three valve gas compressors also comprise gas compressor, described gas compressor through the inner space of described intake valve and described working medium envelope, described timing control mechanism be set to control described three valve gas compressors according to air inlet scavenging calm the anger air feed stroke-clearance air work stroke circulation mode work without combustion two-stroke control mechanism.

Described gas compressor is set to impeller gas compressor.

A kind of three valve gas compressors, comprise cylinder piston mechanism, and the working medium envelope of described cylinder piston mechanism is provided with intake valve, for valve, exhaust valve and Jet injector Inflation door; Described intake valve, described in valve, described exhaust valve and described Jet injector Inflation door partly or entirely by timing control mechanism controls, described timing control mechanism be set to control described three valve gas compressors according to first inhale rear pressurising gas air feed stroke-clearance air work stroke circulation mode work without combustion inflation two-stroke control mechanism.

Described working medium envelope is set to the wall in the space of the accommodation gas working medium be made up of the piston of described cylinder piston mechanism and the cavity that matches with it.

The inwall of described working medium envelope is all or part of is set to heat-insulating.

Described intake valve is located on the piston of described piston-cylinder mechanism.

Described compressor also comprises finished product gas storage tank, and described finished product gas storage tank is communicated with described working medium envelope for valve through described.

Described intake valve is arranged on the sidewall of the cylinder liner of described piston-cylinder mechanism.

Described exhaust valve is set to direct-acting valve.

The described valve that supplies comprises the free valve block of external-open and valve block tappet.

Describedly comprise the free valve block of external-open and Nei Kai valve for valve, open in described valve comprise in open valve head and Nei Kai valve stem.

The described communicating passage for valve is provided with bypass tube, and described bypass tube is through the inner space of Jet injector and described working medium envelope.

The piston of described cylinder piston mechanism is set to free-piston.

The inner chamber of described working medium envelope is communicated with the working medium entrance of impeller power machine structure through described exhaust valve.

Communicating passage between the working medium entrance of described exhaust valve and described impeller power machine structure is provided with Jet injector.

Rotary inertia body is established on described impeller power machine structure and/or on the pto＝power take-off of described impeller power machine structure.

The inner chamber of described working medium envelope is communicated with exhaust storage tank through cooler through described exhaust valve again.

The relief opening of described piston-cylinder mechanism is communicated with through the suction port of cooler with described piston-cylinder mechanism.

Jet injector is provided with between the suction port of described cooler and described piston-cylinder mechanism.

Improve a method for three valve gas compressor efficiency described above, in clearance air work stroke, when the gas pressure in described working medium envelope is lower than atmospheric pressure, described intake valve is opened.

In the present invention, so-called timing control mechanism refers to all control gear, unit or systems that can make described three valve gas compressors and work according to logical relation disclosed in this invention (include combustion two-stroke, without combustion two-stroke, without combustion inflation two-stroke, have combustion four-stroke, without combustion four-stroke, have combustion six-stroke, without combustion six-stroke etc.), can be Machinery Control System (as cam control gear), hydraulic control system, electromagnetic control system and electronic control system, or their various combined control systems.

Principle of the present invention is: during described descent of piston (namely away from cylinder head) air-breathing, described intake valve is opened, and after sucking described cylinder by needing the gas of compression (when namely described piston moves to lower dead center), described IC Intake Valve Closes, this one-stroke is called suction stroke;

Described piston stroking upward (namely level off to cylinder head) compresses gas in the jar, when being compressed to a certain degree (when the pressure in cylinder is greater than the pressure in described air feed portion outdoors), the described valve that supplies is opened, gas in cylinder is discharged (can stored in described finished product gas storage tank) through described for valve, described for valve-closing when described piston moves to top dead center, this one-stroke is called to calm the anger air feed strokeif (the clearance gas produced in compression process is discharged by described air outlet flue after air feed terminates, and this one-stroke is called air feed clearance gas of calming the anger releases stroke);

When piston terminates to calm the anger air feed stroke, described piston starts descending (namely away from cylinder head) and utilizes the gas in gas compressor clearance volume directly to do work, until described piston moves to lower dead center, this one-stroke is called clearance air work strokeif (clearance gas is oxygen-containing gas, and now fuel and clearance gas generation combustion chemistry can be made to react and promote described piston to burner oil in clearance volume and do work, until described piston moves to lower dead center, this one-stroke is called clearance gaseous combustion expansion stroke);

When described piston terminates clearance air work stroke or clearance gaseous combustion expansion stroke, described exhaust valve is opened, and be about to after gas in the jar (i.e. acting after gas) discharges described cylinder on described piston starts, described exhaust valve closing, this one-stroke is called exhaust stroke.

In addition, under air inlet is have the prerequisite of body of calming the anger (gas such as after the compression of impeller gas compressor and the gas (as two-stroke air inlet pattern) through the compression of described piston back), when described piston is in lower dead center, described exhaust valve and described intake valve are all opened, the body of calming the anger that has entering described working medium envelope through described intake valve is utilized to be present in gas in described working medium envelope after described exhaust valve is discharged with the form of scavenging by former, described exhaust valve closing, described intake valve is also closed, described piston continuation is up to be compressed gas in the jar, described opening for valve carries out air feed subsequently, until when described piston moves to top dead center, described for valve-closing, this one-stroke is called air inlet scavenging is calmed the anger air feed stroke.

In the structure being provided with described jet pump Inflation door, when descent of piston air-breathing, described intake valve is opened will need the gas of compression to suck described cylinder, after described IC Intake Valve Closes, described jet pump Inflation door is opened, be filled with in described cylinder and need by the gas compressed, then described jet pump Inflation door is closed, described piston starts uply to compress the gas in described cylinder subsequently, when the gas in described cylinder is compressed to a certain degree, the described valve that supplies is opened, until described for valve-closing when described piston moves to top dead center, this one-stroke is called pressurising gas air feed stroke after first inhaling, in this course, can by establishing the modes such as bypass tube using the motive fluid of a part for the pressurized gas through the outflow of described confession valve as described Jet injector on air supply duct.

In the present invention, so-called piston-cylinder mechanism refers to the mechanism be made up of piston and cylinder liner.

In the present invention, so-called valve refers to the mechanism be made up of passage and the on-off structure body that opened and closed by this passage; So-called intake valve refers to the valve of the control air inlet be arranged on described working medium envelope; The so-called valve that supplies refers to the valve (being equivalent to the exhaust valve of conventional piston formula gas compressor) that the finished gas-flow after controlling compression goes out; So-called Jet injector Inflation door refers to that the pressurized gas controlling the generation of described Jet injector is filled with the valve of described working medium envelope; So-called exhaust valve refers to the valve that the gas controlled in described working medium envelope is discharged.

In the present invention, so-called " described air outlet flue is communicated with impeller power machine structure through Jet injector " refers to that described air outlet flue is communicated with the Jet injector power gas jetburner of described Jet injector, and the Jet injector gas outlet of described Jet injector is communicated with described impeller power machine structure.

In the present invention, so-called working medium envelope refers to the wall in the space of the accommodation gas working medium surrounded with the cavity matched by piston, the wall in the space be such as made up of piston, cylinder liner and cylinder head, the wall in the space be such as made up of oppositely disposed two pistons and cylinder liner again, is also such as communicated with the wall in the space that cavity is formed by multiple oppositely disposed piston, the cylinder liner matched with each piston and the cylinder that is communicated with cylinder liner described in these.

In the present invention, the wall in so-called space refers to the object that in space, gas touches, and comprises fixing object such as cylinder liner and cylinder head, also comprises movable object such as piston.

In the present invention, a described working medium envelope can arrange one or more intake valve, also can arrange one or more for valve, one or more exhaust valve can also be set.

In the present invention, so-called finished product gas storage tank refers to can the high-pressure bottle of stored-gas, and so-called finished product gas storage tank can be used for storing the pressurized gas that described three valve gas compressors produce in some technological scheme disclosed in this invention.

In the present invention, being the heat absorbed from described working medium envelope internal surface to reduce compression initial stage gas by the object that described working medium envelope is set to heat-insulating, raising the efficiency.

In the present invention, so-called direct-acting valve refers to by the directly actuated valve body of piston, particularly, refers to and forces the valve body of described direct-acting valve to be subjected to displacement or to deflect by the progradation of described piston or traction action thus realize the mechanism of opening or closing.

In the present invention, so-called Jet injector refers to by motive fluid injection non-powered fluid, the device that two fluid interactions are discharged from an outlet, and so-called Jet injector can be gas jet pump (i.e. jet pump), also can be liquid-jet pump; So-called Jet injector can be conventional fluidic pump, also can be non-conventional fluidic pump.

In the present invention, so-called conventional fluidic pump refers to what the pipe arranged by two suits was formed, inside pipe provides high voltage power gas, interior pipe high voltage power gas sprays within the outer tube, interior pipe high voltage power gas spray and outer tube acting in conjunction under make other gases between inner and outer pipes (gas from outer tube enters) produce along the injection direction of interior pipe high voltage power gas the device moved; The outer tube of so-called Jet injector can have reducing and expansion district, and outer tube can be set to Venturi tube, and interior pipe nozzle can be set to Laval nozzle, and so-called reducing and expansion district refers to the region that in outer tube, section area changes; Described Jet injector has three interfaces at least or claims passage, i.e. Jet injector power gas jetburner, Jet injector low-pressure gas entrance and Jet injector gas outlet.

In the present invention, so-called non-traditional Jet injector refers to what the pipe being arranged by two or more mutual sheathing or be mutually set up in parallel was formed, wherein at least one pipe is communicated with motive gas source, and the flowing of power gas in motive gas source can cause the gas in other pipes to produce the device of directional flow; The pipe of so-called Jet injector can have reducing and expansion district, and can be set to Venturi tube, the nozzle of pipe can be set to Laval nozzle, and so-called reducing and expansion district is the region that in vial, section area changes; Described Jet injector has three interfaces at least or claims passage, i.e. Jet injector power gas jetburner, Jet injector low-pressure gas entrance and Jet injector gas outlet; Described Jet injector can comprise multiple Jet injector power gas jetburner, in the structure comprising multiple Jet injector power gas jetburner, described Jet injector power gas jetburner can be arranged in the district of pipeline center of described Jet injector low-pressure gas entrance, near the tube wall that also can be arranged in described Jet injector low-pressure gas entrance, described Jet injector power gas jetburner also can be the annular spray mouth around described Jet injector low-pressure gas inlet pipe wall.

In the present invention, described Jet injector comprises Multi-stage jet pump, multiple jets pump and Pulsed Jet Pump etc.

In the present invention, according to the known technology of gas compression field and engine art, necessary parts, unit or system are set in the place of necessity, as described in fuel inlet place fuel charge system etc. is set.

beneficial effect of the present invention is as follows:

Three valve gas compressors disclosed in this invention effectively can overcome the impact of clearance volume, improve the efficiency of gas compressor, reduce weight, reduce cost.

Accompanying drawing explanation

Shown in Fig. 1 is the structural representation of the embodiment of the present invention 1;

Shown in Fig. 2 is the structural representation of the embodiment of the present invention 2;

Shown in Fig. 3 is the structural representation of the embodiment of the present invention 3;

Shown in Fig. 4 is the structural representation of the embodiment of the present invention 4;

Shown in Fig. 5 is the structural representation of the embodiment of the present invention 5;

Shown in Fig. 6 is the structural representation of the embodiment of the present invention 6;

Shown in Fig. 7 is the structural representation of the embodiment of the present invention 7;

Shown in Fig. 8 is the structural representation of the embodiment of the present invention 8;

Shown in Fig. 9 is the structural representation of the embodiment of the present invention 9;

Shown in Figure 10 is the structural representation of the embodiment of the present invention 10;

Shown in Figure 11 is the structural representation of the embodiment of the present invention 11;

Shown in Figure 12 is the structural representation of the embodiment of the present invention 12;

Shown in Figure 13 is the structural representation of the embodiment of the present invention 13;

Shown in Figure 14 is the structural representation of the embodiment of the present invention 14;

Shown in Figure 15 is the structural representation of the embodiment of the present invention 15;

Shown in Figure 16 is the structural representation of the embodiment of the present invention 16;

Shown in Figure 17 is the structural representation of the embodiment of the present invention 17;

Shown in Figure 18 is the structural representation of the embodiment of the present invention 18;

Shown in Figure 19 is the structural representation of the embodiment of the present invention 19;

Shown in Figure 20 is the structural representation of the embodiment of the present invention 20;

Shown in Figure 21 is the structural representation of the embodiment of the present invention 21;

Shown in Figure 22 is the structural representation of the embodiment of the present invention 22;

Shown in Figure 23 is the structural representation of the embodiment of the present invention 23;

Shown in Figure 24 and Figure 25 is the structural representation of the embodiment of the present invention 24;

Shown in Figure 26 and Figure 27 is the structural representation of the embodiment of the present invention 25,

In figure:

1 piston, 2 cylinder liner, 3 intake ducts, 4 air supply ducts, 5 air outlet flues, 6 fuel inlets, 7 spark plugs, 8 cylinders are communicated with cavity, 9 gas compressors, 10 impeller power machine structures, 12 finished product gas storage tanks, 13 exhaust storage tanks, 15 cylinder head, 17 working medium envelopes, 18 Jet injector Inflation doors, 20 bypass tubes, 21 Jet injectors, 31 intake valves, 32 coolers, 33 flow controllers, 35 rotary inertia bodies, 36 direct-acting valves, 37 passages, 39 heat exchangers, 41 for valve, 51 exhaust valves, 90 impeller gas compressors, 100 piston-cylinder mechanisms, 211 Jet injector power gas jetburners, 212 Jet injector gas outlets, 213 Jet injector low-pressure gas entrances, the free valve block of 411 external-open, 412 valve block tappets, valve is opened in 413, valve head is opened in 414, valve stem is opened in 415, 1601 without combustion four-stroke control mechanism, 1602 without combustion two-stroke control mechanism, 1603 have combustion four-stroke control mechanism, 1604 have combustion two-stroke control mechanism, 1605 without combustion six-stroke control mechanism, 1606 without combustion inflation two-stroke control mechanism, 1607 have combustion six-stroke control mechanism.

Embodiment

Embodiment 1

Three valve gas compressors as shown in Figure 1, comprise piston-cylinder mechanism 100, the working medium envelope 17 of the accommodation gas working medium that the piston 1 of described piston-cylinder mechanism 100, cylinder liner 2 and cylinder head 15 are formed, described cylinder head 15 is connected with described cylinder liner 2, and described piston 1 is arranged in described cylinder liner 2, the cylinder head 15 of described working medium envelope 17 establishes intake valve 31, for valve 41 and exhaust valve 51, the inner chamber of described working medium envelope 17 is respectively by described intake valve 31, described for valve 41 and described exhaust valve 51 and intake duct 3, air supply duct 4 is communicated with air outlet flue 5, described air supply duct 4 is communicated with finished product gas storage tank 12, described intake valve 31, described valve 41 and the described exhaust valve 51 of supplying is subject to controlling without combustion four-stroke control mechanism 1601 of electromagnetic type, the described control procedure without combustion four-stroke control mechanism 1601 is: air-breathing when described piston 1 is descending, described intake valve 31 is opened, described cylinder liner 2 rear (when namely described piston 1 moves to lower dead center) is sucked by needing the gas of compression, described intake valve 31 is closed, complete suction stroke, then described piston 1 is up compresses the gas in described cylinder liner 2, when being compressed to a certain degree, the described valve 41 that supplies is opened, gas in described cylinder liner 2 enters described finished product gas storage tank 12 through described for valve 41, when described piston 1 moves to top dead center, the described valve 41 that supplies is closed, and completes air feed stroke of calming the anger, then described piston 1 starts descending, utilizes the gas in the clearance volume in described cylinder liner 2 directly to promote described piston 1 and does work, until described piston 1 moves to lower dead center, complete clearance air work stroke, last described piston 1 starts up, now described exhaust valve 51 is opened, when described piston 1 moves to top dead center, described exhaust valve 51 cuts out, complete exhaust stroke, enter next circulation, thus---air feed stroke of calming the anger---clearance air work stroke---the circulation mode work of exhaust stroke that makes described three valve gas compressors according to suction stroke.

In order to make above-mentioned three valve gas compressors more efficiently work, in clearance air work stroke, when the gas pressure in described working medium envelope 17 is lower than atmospheric pressure, described intake valve 31 can be made to open.

Embodiment 2

Three valve gas compressors as shown in Figure 2, the difference of itself and embodiment 1 is: described intake valve 31, described for valve 41 and described exhaust valve 51 controlling without firing six-stroke control mechanism 1605 by hydraulic type, the described control procedure without combustion six-stroke control mechanism 1605 is: air-breathing when described piston 1 is descending, described intake valve 31 is opened, by need the gas of compression suck described cylinder liner 2(and described piston 1 move to lower dead center time), described intake valve 31 is closed, and completes suction stroke;

Then described piston 1 is up compresses the gas in described cylinder liner 2, when being compressed to a certain degree, the described valve 41 that supplies is opened, gas in described cylinder liner 2 enters described finished product gas storage tank 12 through described for valve 41, when described piston 1 moves to top dead center, the described valve 41 that supplies is closed, and completes air feed stroke of calming the anger;

Then described piston 1 starts descending, utilizes the gas in the clearance volume in described cylinder liner 2 directly to promote described piston 1 and does work, until described piston 1 moves to lower dead center, complete clearance air work stroke;

Then described piston 1 starts up, and now described exhaust valve 51 is opened, and when described piston 1 moves to top dead center, described exhaust valve 51 cuts out, and completes exhaust stroke;

Then described piston 1 starts descending air-breathing, and now described intake valve 31 is opened again, and when described piston 1 moves to lower dead center, described intake valve 31 is closed, and again completes suction stroke;

Last described piston 1 starts up, and now described exhaust valve 51 is opened again, and when described piston 1 moves to top dead center, described exhaust valve 51 cuts out, and again completes exhaust stroke;

Then next circulation is entered, thus---air feed stroke of calming the anger---clearance air work stroke---the circulation mode work of exhaust stroke---suction stroke---exhaust stroke that makes described three valve gas compressors according to suction stroke.

Embodiment 3

Three valve gas compressors as shown in Figure 3, the difference of itself and embodiment 1 is: the passage 37 of described intake valve 31 is arranged on the sidewall of described cylinder liner 2, and the on-off structure body of described intake valve 31 is set to described piston 1, namely the opening and closing of described intake valve 31 are controlled by the motion of described piston 1, the inner chamber of described working medium envelope 17 is communicated with gas compressor 9 by the passage 37 of described intake valve 31, described gas compressor 9 makes the gas entered in described working medium envelope 17 be body of calming the anger, described exhaust valve 51 and the described valve 41 that supplies controlling by the nothing combustion two-stroke control mechanism 1602 of cammingly, the described control procedure without combustion two-stroke control mechanism 1602 is: when described piston 1 is in lower dead center, described exhaust valve 51 and described intake valve 31 are all opened, utilize enter described working medium envelope 17 through described intake valve 31 have body of calming the anger by the gas that was originally present in described working medium envelope 17 after described exhaust valve 51 is discharged with the form of scavenging, described exhaust valve 51 cuts out, described intake valve 31 is also closed, described piston 1 continues uply to compress the gas in described cylinder liner 2, the described valve 41 that supplies is opened subsequently, air feed is carried out to described finished product gas storage tank 12, until when described piston moves to top dead center, the described valve 41 that supplies is closed, complete air inlet scavenging to calm the anger air feed stroke, then described piston 1 starts descending, utilize the gas in the clearance volume in described cylinder liner 2 directly to promote described piston 1 to do work, until described piston 1 moves to lower dead center, complete clearance air work stroke, then enter next circulation, thus described three valve gas compressors to be calmed the anger air feed stroke---the circulation mode work of clearance air work stroke according to air inlet scavenging.

During concrete enforcement, described intake valve 31 can not also control to open and close by relying on the motion of described piston 1, such as, control to open and close by control mechanisms such as valves.

Embodiment 4

Three valve gas compressors as shown in Figure 4, the difference of itself and embodiment 1 is: described intake valve 31, described for valve 41 and described exhaust valve 51 controlling without firing two-stroke control mechanism 1602 by cammingly, the described control procedure without combustion two-stroke control mechanism 1602 is: air-breathing when described piston 1 is descending, described intake valve 31 is opened, described cylinder liner 2 rear (when namely described piston 1 moves to lower dead center) is sucked by needing the gas of compression, described intake valve 31 is closed, and completes suction stroke, then described piston 1 starts up, gas in described cylinder liner 2 is compressed, when being compressed to a certain degree (when the pressure in cylinder is greater than the pressure in described air feed portion outdoors), the described valve that supplies is opened, gas in cylinder enters in described finished product gas storage tank 12 through described for valve, close until described when described piston 1 moves to top dead center for valve 41, described exhaust valve 51 of stating is opened the clearance gas discharge in compression process, then described exhaust valve closing, complete air feed clearance gas of calming the anger and release stroke, then described piston 1 starts descending air-breathing, enter next circulation, thus make described three valve gas compressors release the circulation mode work of stroke according to suction stroke-air feed clearance gas of calming the anger.

Embodiment 5

Three valve gas compressors as shown in Figure 5, the difference of itself and embodiment 1 is: on described air supply duct 4, establish bypass tube 20, described bypass tube 20 is through the inner space of Jet injector 21 with described working medium envelope 17, described Jet injector 21 is by the inner space of Jet injector Inflation door 18 with described working medium envelope 17, described intake valve 31, described for valve 41, described exhaust valve 51 and described Jet injector Inflation door 18 controlling without combustion inflation two-stroke control mechanism 1606 by cammingly, described bypass tube 20 is communicated with the Jet injector power gas jetburner 211 of Jet injector 21, the Jet injector gas outlet 212 of described Jet injector 21 is communicated with described working medium envelope 17 through described Jet injector Inflation door 18, the Jet injector low-pressure gas entrance 213 of described Jet injector 21 is communicated with air, the described control procedure without combustion inflation two-stroke control mechanism 1606 is: when described piston 1 starts descending air-breathing, described intake valve 31 is opened to allow needs the gas of compression to enter in described cylinder liner 2, then described intake valve 31 is closed, described Jet injector Inflation door 18 is opened and be filled with more gas in described cylinder liner 2, then described jet pump Inflation door 18 is closed, described piston 1 starts uply to compress the gas in described cylinder liner 2, when the gas in described cylinder liner 2 is compressed to a certain degree, the described valve 41 that supplies is opened, close until described when described piston 1 moves to top dead center for valve 41, complete pressurising gas air feed stroke after first inhaling, in this one-stroke, be located at bypass tube 20 on described air supply duct 4 using the motive fluid of a part for the pressurized gas in described air supply duct 4 as described Jet injector 21, then described piston 1 starts descending, utilize the gas in the clearance volume in described cylinder liner 2 directly to promote described piston 1 to do work, until described piston 1 moves to lower dead center, complete clearance air work stroke, then enter next circulation, thus make described three valve gas compressors according to first inhaling rear pressurising gas air feed stroke---the circulation mode work of clearance air work stroke.

Embodiment 6

Three valve gas compressors as shown in Figure 6, the difference of itself and embodiment 1 is: on described working medium envelope 17, establish fuel inlet 6, described intake valve 31, described valve 41 and the described exhaust valve 51 of supplying is controlled by the combustion four-stroke control mechanism 1603 that has of cammingly, described have the control procedure of combustion four-stroke control mechanism 1603 to be: air-breathing when described piston 1 is descending, described intake valve 31 is opened, described cylinder liner 2 rear (when namely described piston 1 moves to lower dead center) is sucked by needing the gas with oxidability of compression, described intake valve 31 is closed, complete suction stroke, then described piston 1 is up compresses the gas in described cylinder liner 2, when being compressed to a certain degree, the described valve 41 that supplies is opened, gas in described cylinder liner 2 enters described finished product gas storage tank 12 through described for valve 41, when described piston 1 moves to top dead center, the described valve 41 that supplies is closed, and completes air feed stroke of calming the anger, then described piston 1 starts descending, in the clearance volume in described cylinder liner 2, burner oil makes fuel and clearance gas generation combustion chemistry react to promote described piston 1 to do work, until described piston 1 moves to lower dead center, complete clearance gaseous combustion expansion stroke, last described piston 1 starts up, now described exhaust valve 51 is opened, when described piston 1 moves to top dead center, described exhaust valve 51 cuts out, complete exhaust stroke, enter next circulation, thus---air feed stroke of calming the anger---clearance gaseous combustion expansion stroke---the circulation mode work of exhaust stroke that makes described three valve gas compressors according to suction stroke.

In order to make above-mentioned three valve gas compressors more efficiently work, in clearance gaseous combustion expansion stroke, when the gas pressure in described working medium envelope 17 is lower than atmospheric pressure, described intake valve 31 is opened.

During concrete enforcement, described fuel inlet 6 can replace to oxidant inlet or reductant-oxidant entrance as required, and as when the gas of compression in working medium envelope 17 as described in entering is the inflammable gas without oxidability, namely described fuel inlet 6 is set to oxidant inlet; When the gas entering compression in described working medium envelope 17 is the non-combustible gas without oxidability, namely described fuel inlet 6 is set to the reductant-oxidant entrance containing Oxidizing and Reducing Agents mixture.

Embodiment 7

Three valve gas compressors as shown in Figure 7, the difference of itself and embodiment 6 is: described cylinder liner 2 is provided with spark plug 7; Described intake valve 31, described valve 41 and the described exhaust valve 51 of supplying are controlled by the combustion six-stroke control mechanism 1607 that has of electromagnetic type, described have the control procedure of combustion six-stroke control mechanism 1607 to be: air-breathing when described piston 1 is descending, described intake valve 31 is opened, described cylinder liner 2(is sucked and described piston 1 moves to lower dead center by needing the gas of compression) after, described intake valve 31 is closed, and completes suction stroke; Then described piston 1 is up compresses the gas in described cylinder liner 2, when being compressed to a certain degree, the described valve 41 that supplies is opened, gas in described cylinder liner 2 enters described finished product gas storage tank 12 through described for valve 41, when described piston 1 moves to top dead center, the described valve 41 that supplies is closed, and completes air feed stroke of calming the anger; Then described piston 1 starts descending, burner oil in the clearance volume in described cylinder liner 2 is also lighted a fire with described spark plug 7, fuel and clearance gas generation combustion chemistry are reacted promote described piston 1 to do work, until described piston 1 moves to lower dead center, complete clearance gaseous combustion expansion stroke; Then described piston 1 starts up, and now described exhaust valve 51 is opened, and when described piston 1 moves to top dead center, described exhaust valve 51 cuts out, and completes exhaust stroke; Then described piston 1 starts descending air-breathing, and now described intake valve 31 is opened again, and when described piston 1 moves to lower dead center, described intake valve 31 is closed, and again completes suction stroke; Last described piston 1 starts up, now described exhaust valve 51 is opened again, when described piston 1 moves to top dead center, described exhaust valve 51 cuts out, again complete exhaust stroke, then next circulation is entered, thus---air feed stroke of calming the anger---clearance gaseous combustion expansion stroke---the circulation mode work of exhaust stroke---suction stroke---exhaust stroke that makes described three valve gas compressors according to suction stroke.

More efficiently work to make above-mentioned three valve gas compressors, in clearance gaseous combustion expansion stroke, the delivery volume of adjustment fuel, the excess air factor in combustion chemistry course of reaction is made to be that 1.90(is less than 1.95), optionally, described excess air factor can also be set to 1.85,1.80,1.75,1.70,1.65,1.60,1.55,1.50,1.45,1.40,1.35,1.30,1.25,1.20,1.15,1.10,1.05 or 1.00 etc.

Embodiment 8

Three valve gas compressors as shown in Figure 8, the difference of itself and embodiment 7 is: the inwall of described working medium envelope 17 is all set to heat-insulating, and described intake duct 3 is provided with impeller gas compressor 90, described intake valve 31, described valve 41 and the described exhaust valve 51 of supplying is controlled by the combustion two-stroke control mechanism 1604 that has of hydraulic type, described have the control procedure of combustion two-stroke control mechanism 1604 to be: when described piston 1 is in lower dead center, described exhaust valve 51 and described intake valve 31 are all opened, utilize enter described working medium envelope 17 through described intake valve 31 have body of calming the anger by the gas that was originally present in described working medium envelope 17 after described exhaust valve 51 is discharged with the form of scavenging, described exhaust valve 51 cuts out, described intake valve 31 is also closed, described piston 1 continues uply to compress the gas in described cylinder liner 2, the described valve 41 that supplies is opened subsequently, air feed is carried out to described finished product gas storage tank 12, until when described piston moves to top dead center, the described valve 41 that supplies is closed, complete air inlet scavenging to calm the anger air feed stroke, then described piston 1 starts descending, in the clearance volume in described cylinder liner 2, burner oil makes fuel and clearance gas generation combustion chemistry react to promote described piston 1 to do work, until described piston 1 moves to lower dead center, complete clearance gaseous combustion expansion stroke, then enter next circulation, thus described three valve gas compressors to be calmed the anger air feed stroke---the circulation mode work of clearance gaseous combustion expansion stroke according to air inlet scavenging.

Embodiment 9

Three valve gas compressors as shown in Figure 9, the difference of itself and embodiment 1 is: the inner chamber of described working medium envelope 17 is through the pressurized gas outlet of described intake valve 31 with impeller gas compressor 90, the inner chamber of described working medium envelope 17 is communicated with the working medium entrance of impeller power machine structure 10 through described exhaust valve 51, and described impeller power machine structure 10 is to described impeller gas compressor 90 outputting power.

Embodiment 10

Three valve gas compressors as shown in Figure 10, the difference of itself and embodiment 1 is: described piston 1 is set to free-piston.

Embodiment 11

Three valve gas compressors as shown in figure 11, it is with the difference of embodiment 9: described piston 1 is connected with connecting rod, the inner chamber of described working medium envelope 17 is communicated with the working medium entrance of impeller power machine structure 10 through Jet injector 21 through described exhaust valve 51 again, wherein, described air outlet flue 5 is communicated with the Jet injector power gas jetburner 211 of described Jet injector 21, the Jet injector low-pressure gas entrance 213 of described Jet injector 21 is communicated with air, and the Jet injector gas outlet 212 of described Jet injector 21 is communicated with the working medium entrance of described impeller power machine structure 10.

Embodiment 12

Three valve gas compressors as shown in figure 12, the difference of itself and embodiment 9 is: on described air supply duct 4, establish heat exchanger 39, described air outlet flue 5 is communicated with described impeller power machine structure 10 through described heat exchanger 39.

Embodiment 13

Three valve gas compressors as shown in fig. 13 that, it is with the difference of embodiment 1: described air outlet flue 5 is communicated with described intake duct 3 through cooler 32.

Embodiment 14

Three valve gas compressors as shown in figure 14, the difference of itself and embodiment 13 is: be provided with flow controller 33 between described cooler 32 and described intake duct 3.

Embodiment 15

Three valve gas compressors as shown in figure 15, the difference of itself and embodiment 13 is: be provided with Jet injector 21 between described cooler 32 and described intake duct 3, wherein, enter described Jet injector 21 from described cooler 32 fluid out through the Jet injector power gas jetburner 211 of described Jet injector 21 and carry out drainage, the Jet injector low-pressure gas entrance 213 of described Jet injector 21 is communicated with air, and the Jet injector gas outlet 212 of described Jet injector 21 is communicated with described intake duct 3.

Embodiment 16

Three valve gas compressors as shown in figure 16, it is with the difference of embodiment 1: the inner chamber of described working medium envelope 17 is communicated with exhaust storage tank 13 through cooler 32 through described exhaust valve 51 again.

Embodiment 17

Three valve gas compressors as shown in figure 17, the difference of itself and embodiment 9 is: on the pto＝power take-off of described impeller power machine structure 10, be provided with rotary inertia body 35.

Embodiment 18

Three valve gas compressors as shown in figure 18, the difference of itself and embodiment 1 is: described exhaust valve 51 is set to direct-acting valve 36, describedly controls without combustion four-stroke control mechanism 1601 by described for valve 41 and described intake valve 31.

Embodiment 19

Three valve gas compressors as shown in figure 19, the difference of itself and embodiment 2 is: the inner chamber of described working medium envelope 17 is through the pressurized gas outlet of described intake valve 31 with impeller gas compressor 90.

Embodiment 20

Three valve gas compressors as shown in figure 20, the difference of itself and embodiment 6 is: the inner chamber of described working medium envelope 17 through described intake valve 31 again through the pressurized gas outlet of cooler 32 with impeller gas compressor 90.

Embodiment 21

Three valve gas compressors as shown in figure 21, the difference of itself and embodiment 1 is: described intake valve 31 is located on described piston 1, and described piston 1 is set to side direction and connects piston.

Embodiment 22

Three valve gas compressors as shown in figure 22, it is from the difference of embodiment 1: the structure of described piston-cylinder mechanism 100 is different, the cavity of the accommodation gas working medium that described working medium envelope 17 is surrounded by two mutually opposing pistons 1 and cylinder liner 2 is formed, and described intake valve 31, to be describedly located on the sidewall of the cylinder liner 2 of described working medium envelope 17 for valve 41 and described exhaust valve 51.

Embodiment 23

Three valve gas compressors as shown in figure 23, it is from the difference of embodiment 1: the structure of described piston-cylinder mechanism 100 is different, the cavity of the accommodation gas working medium that described working medium envelope 17 is surrounded by four mutually opposing piston 1, cylinder liner 2 and cylinder communicated cavity bodies 8 is formed, and described intake valve 31, to be describedly communicated with on cavity 8 with the described cylinder that described exhaust valve 51 is located at described working medium envelope 17 for valve 41.

Embodiment 24

Three valve gas compressors as shown in figures 24 and 25, the difference of itself and embodiment 5 is: describedly comprise the free valve block 411 of external-open and valve block tappet 412 for valve 41, described valve block tappet 412 receives combustion four-stroke control mechanism 1603 and controls, calming the anger, the free valve block 411 of external-open described in air feed stroke is in free state, is in non-free state at the free valve block of external-open 411 described in clearance gaseous combustion expansion stroke under the effect of described valve block tappet 412.Wherein, Figure 24 represents the described positive closing state for valve 41, and Figure 25 represents the described free state for valve 41.

Embodiment 25

Three valve gas compressors as shown in Figure 26 and Figure 27, the difference of itself and embodiment 5 is: describedly comprise the free valve block 411 of external-open and Nei Kai valve 413 for valve 41, open in described valve 413 comprise in open valve head 414 and Nei Kai valve stem 415, open valve 413 in described to receive combustion four-stroke control mechanism 1603 and control, open valve 413 in described in air feed stroke and be in opening state calming the anger, opening valve 413 in described in clearance gaseous combustion expansion stroke is in closed condition.Wherein, Figure 26 represents the described closed condition for valve 41, and Figure 27 represents the described free state for valve 41.

Obviously, the invention is not restricted to above embodiment, according to known technology and the technological scheme disclosed in this invention of related domain, can to derive or association goes out many flexible programs, all these flexible programs, also should think protection scope of the present invention.

Claims (23)

1. three valve gas compressors, comprise cylinder piston mechanism (100), it is characterized in that: the working medium envelope (17) of described cylinder piston mechanism (100) is provided with intake valve (31), for valve (41) and exhaust valve (51); Described intake valve (31), described in valve (41) and described exhaust valve (51) partly or entirely by timing control mechanism controls, described timing control mechanism be set to control described three valve gas compressors according to suction stroke-air feed stroke of calming the anger-clearance air work stroke-exhaust stroke circulation mode work without firing four-stroke control mechanism (1601).

2. three valve gas compressors, comprise cylinder piston mechanism (100), it is characterized in that: the working medium envelope (17) of described cylinder piston mechanism (100) is provided with intake valve (31), for valve (41) and exhaust valve (51); Described intake valve (31), described in valve (41) and described exhaust valve (51) partly or entirely by timing control mechanism controls, described timing control mechanism be set to control described three valve gas compressors according to suction stroke-air feed stroke of calming the anger-clearance air work stroke-exhaust stroke-suction stroke-exhaust stroke without firing six-stroke control mechanism (1605).

3. three valve gas compressors, comprise cylinder piston mechanism (100), it is characterized in that: the working medium envelope (17) of described cylinder piston mechanism (100) is provided with intake valve (31), for valve (41) and exhaust valve (51); Described intake valve (31), described in valve (41) and described exhaust valve (51) partly or entirely by timing control mechanism controls, described timing control mechanism be set to control described three valve gas compressors according to suction stroke-air feed clearance gas of calming the anger release stroke cycle work pattern without firing two-stroke control mechanism (1602).

4. three valve gas compressors as claimed in claim 3, it is characterized in that: described three valve gas compressors also comprise gas compressor (9), described gas compressor (9) through the inner space of described intake valve (31) and described working medium envelope (17), described timing control mechanism be set to control described three valve gas compressors according to air inlet scavenging calm the anger air feed stroke-clearance air work stroke circulation mode work without combustion two-stroke control mechanism (1602).

5. three valve gas compressors as claimed in claim 4, is characterized in that: described gas compressor (9) is set to impeller gas compressor (90).

6. a valve gas compressor, comprise cylinder piston mechanism (100), it is characterized in that: the working medium envelope (17) of described cylinder piston mechanism (100) is provided with intake valve (31), for valve (41), exhaust valve (51) and Jet injector Inflation door (18); Described intake valve (31), described in valve (41), described exhaust valve (51) and described Jet injector Inflation door (18) partly or entirely by timing control mechanism controls, described timing control mechanism be set to control described three valve gas compressors according to first inhale rear pressurising gas air feed stroke-clearance air work stroke circulation mode work inflate two-stroke control mechanism (1606) without combustion.

7. three valve gas compressors as described in claim 1,2,3 or 6, is characterized in that: described working medium envelope (17) is set to the wall in the space of the accommodation gas working medium be made up of the piston of described cylinder piston mechanism (100) (1) and the cavity that matches with it.

8. three valve gas compressors as described in claim 1,2,3 or 6, is characterized in that: the inwall of described working medium envelope (17) is all or part of is set to heat-insulating.

9. three valve gas compressors as described in claim 1,2,3 or 6, is characterized in that: described intake valve (31) is located on the piston (1) of described piston-cylinder mechanism (100).

10. three valve gas compressors as described in claim 1,2,3 or 6, is characterized in that: described compressor also comprises finished product gas storage tank (12), and described finished product gas storage tank (12) is communicated with described working medium envelope (17) for valve (41) through described.

11. as described in claim 1,2,3 or 6 three valve gas compressors, it is characterized in that: described intake valve (31) is arranged on the sidewall of the cylinder liner (2) of described piston-cylinder mechanism (100).

12. as described in claim 1,2,3 or 6 three valve gas compressors, it is characterized in that: described exhaust valve (51) is set to direct-acting valve (36).

13. as described in claim 1,2,3 or 6 three valve gas compressors, it is characterized in that: described for valve (41) comprise the free valve block of external-open (411) and valve block tappet (412).

14. as described in claim 1,2,3 or 6 three valve gas compressors, it is characterized in that: describedly comprise the free valve block of external-open (411) for valve (41) and interiorly open valve (413), open in described valve (413) comprise in open valve head (414) and interiorly open valve stem (415).

15. as described in claim 1,2,3 or 6 three valve gas compressors, it is characterized in that: the described communicating passage for valve (41) is provided with bypass tube (20), described bypass tube (20) is through the inner space of Jet injector (21) with described working medium envelope (17).

16. as described in claim 1,2,3 or 6 three valve gas compressors, it is characterized in that: the piston (1) of described cylinder piston mechanism (100) is set to free-piston.

17. as described in claim 1,2,3 or 6 three valve gas compressors, it is characterized in that: the inner chamber of described working medium envelope (17) is communicated with through the working medium entrance of described exhaust valve (51) with impeller power machine structure (10).

18. three valve gas compressors as claimed in claim 17, is characterized in that: the communicating passage between the working medium entrance of described exhaust valve (51) and described impeller power machine structure (10) is provided with Jet injector (21).

19. three valve gas compressors as claimed in claim 17, is characterized in that: described impeller power machine structure (10) is upper and/or establish rotary inertia body (35) on the pto＝power take-off of described impeller power machine structure (10).

20. as described in claim 1,2,3 or 6 three valve gas compressors, it is characterized in that: the inner chamber of described working medium envelope (17) is communicated with exhaust storage tank (13) through cooler (32) through described exhaust valve (51) again.

21. as described in claim 1,2,3 or 6 three valve gas compressors, it is characterized in that: the relief opening of described piston-cylinder mechanism (100) is communicated with through the suction port of cooler (32) with described piston-cylinder mechanism (100).

22. three valve gas compressors as claimed in claim 21, is characterized in that: be provided with Jet injector (21) between the suction port of described cooler (32) and described piston-cylinder mechanism (100).

23. 1 kinds of methods improving the arbitrary described three valve gas compressor efficiency of claim 1,2,4 or 6, it is characterized in that: in clearance air work stroke, when the gas pressure in described working medium envelope (17) is lower than atmospheric pressure, described intake valve (31) is opened.