CN103982326B - High-pressure working medium power straight-line transmitting delivery system - Google Patents

Abstract

The invention discloses a kind of high-pressure working medium power straight-line transmitting delivery system.It comprises two Seal cages, piston is provided with in two piston sleeves, the lower end of two pistons is connected with bar magnet, the interior bar magnet front end of two Seal cages is all enclosed in separation sleeve, interior bar magnet extend in separation sleeve, periphery, interior bar magnet front end is all placed with inner magnet, separation sleeve is outside equipped with outer magnetic tube, the sidewall of outer magnetic tube is provided with outer magnet, outer magnetic tube below two Seal cages is connected with crank, two crank phase angle differences 180 degree on output shaft, two Seal cages are provided with air inlet/outlet, connecting tube is connected with between air inlet/outlet, connecting tube be connected with constant voltage one-way valve and access in Working medium gas system.After adopting above-mentioned structure, carry out transmission of power by the alternating movement of two nested structures, even if there is leakage also can only leak in Seal cage, namely effectively prevent the transmission efficiency that leakage problem also ensure that power thus, system cloud gray model is reliable, has saved cost of production.

Description

High-pressure working medium power straight-line transmitting delivery system

Technical field

The present invention relates to a kind of heat engine power-transmission system, specifically a kind of high-pressure working medium power straight-line transmitting delivery system.

Background technique

In traditional heat engine power-transmission system, all that high-pressure working medium driven plunger of expanding with heat and contract with cold by closing outputs power, realize the straight line transmission of power, and due to power-transmission system vibrational power flow unreasonable, in power transmission process, easily cause high-pressure working medium from piston gap serious leak phenomenon, the whole efficiency of system is made greatly to reduce thus, and need often to safeguard system, frequent tonifying Qi, time-consuming.

Summary of the invention

The technical problem to be solved in the present invention is to provide one and can avoids leaking, and ensures the high-pressure working medium power straight-line transmitting delivery system of power transmission efficiency.

In order to solve the problems of the technologies described above, high-pressure working medium power straight-line transmitting delivery system of the present invention, comprise two Seal cages be set up in parallel, two Seal cages communicate with high-pressure medium active chamber respectively by piston sleeve, a piston is respectively arranged with in two piston sleeves, the lower end of two pistons respectively be positioned at respective Seal cage bar magnet and be connected and bar magnet reciprocating linear can be driven to move, the interior bar magnet front end of described two Seal cages is all enclosed in the separation sleeve be positioned at outside respective Seal cage, interior bar magnet extend in separation sleeve by the perforate on respective Seal cage, separation sleeve open part and Seal cage are connected to form seal space, periphery, interior bar magnet front end in two Seal cages is all placed with inner magnet, separation sleeve is outside equipped with outer magnetic tube, the sidewall of outer magnetic tube is provided with can with respective Seal cage in the outer magnet that attracts each other of the inner magnet of bar magnet, outer magnetic tube synchronously can move up and down along with interior bar magnet, outer magnetic tube below two Seal cages to be connected with two cranks on an output shaft respectively by connecting rod and can to rotate by driver output axle, two crank phase angle differences 180 degree on described output shaft, two Seal cages are provided with air inlet/outlet, connecting tube is connected with between the air inlet/outlet of two Seal cages.

The interior bar magnet of described two Seal cages is connected to connecting plate, and the interior bar magnet in each Seal cage described is set to two or more and is connected on connecting plate simultaneously, described separation sleeve and the supporting setting of interior bar magnet, outer magnetic tube and the supporting setting of separation sleeve.

Connecting plate in described two Seal cages is all in latticed and be connected between multiple interior bar magnet.

The outer magnetic tube be positioned at below two Seal cages is integrally connected respectively by link press span, is provided with support, is provided with guide rail between described link press span and support below described Seal cage.

Described connecting plate in two Seal cages respectively and separately Seal cage be respectively arranged with damping spring between two interior edge faces up and down.

Described output shaft there is output shaft flywheel.

Tip shape is all arranged in the upper and lower end face of the described piston being positioned at piston sleeve and the bar magnet longitudinal direction being positioned at Seal cage, inner chamber lower end and the interior bar magnet lower end external frame of described separation sleeve adapt, and inner chamber lower end and the interior bar magnet lower end external frame of described outer magnetic tube adapt.

The top of described two piston sleeves is respectively arranged with one group of magnet-controlled valve group, often organize magnet-controlled valve group and comprise two suction valve B and outlet valve C be arranged side by side, valve rod one end cylinder of suction valve B and outlet valve C arranges inner magnet respectively, outside valve rod, put shielding can, the opening of shielding can is connected with the end sealing of piston sleeve, outer magnetic tube is set outside shielding can, outer magnetic tube is arranged in frame by slide block guide rail, often organize magnet-controlled valve group to be connected with cold-hot exchanging tube respectively, the cold junction of two cold-hot exchanging tubes and hot junction are connected to two the shielding can lower ends often organizing magnet-controlled valve group, the top often organizing magnet-controlled valve group is respectively arranged with the lower cam be staggeredly arranged for a pair, two lower cams lay respectively at the top of two outer magnetic tubes in this group magnet-controlled valve, two pairs of lower cams are installed on same lower rotary shaft, lower rotary shaft is provided with lower rotary shaft flywheel, lower rotary shaft is provided with belt between flywheel and output shaft flywheel.

Also a upper magnet-controlled valve is respectively arranged with between the cold junction of described two cold-hot exchanging tubes and hot junction, the outer magnetic tube top of two upper magnet-controlled valves is mounted with an overhead cam respectively, rotating shaft is provided with between described two overhead cams, upper rotating shaft is provided with rotating shaft flywheel, on lower rotary shaft, flywheel is set to two, be provided with belt between one and output shaft flywheel, between another one and upper rotating shaft flywheel, be provided with belt.

The cold junction side of described two cold-hot exchanging tubes is respectively arranged with a fan.

Described connecting tube be connected with constant voltage one-way valve and be linked in two groups of magnet-controlled valve groups.

After adopting above-mentioned structure, due to the Seal cage that two nested structures arranged are identical, the cover be connected with piston has bar magnet in separation sleeve, separation sleeve is outside equipped with outer magnetic tube, transferring power is connected by inside and outside magnetic, current magnetic connects the leakage rate of working medium close to zero, the beneficial effect in addition a major diameter magnetic connection being divided into many groups minor diameter magnetic connection more than two is, the sender matter pressure that minor diameter shielding can ability is larger, and the systematic working medium pressure of the heat engine of closed cycle is higher, the efficiency of heat engine is higher thus improve the efficiency of system, connecting pipeline and output shaft is connected with between two nested structures, two crank phase angle differences 180 degree on output shaft, thus in power transmission process, transmission of power can be carried out by the alternating movement of two nested structures, even if there is leakage also can only leak in Seal cage, when working medium reaches a certain amount of in intrasystem leakage, constant voltage one-way valve is opened automatically, sender matter pressure in balance sysmte, namely effectively prevent the transmission efficiency that leakage problem also ensure that power thus, system cloud gray model is reliable, save cost of production.

Accompanying drawing explanation

Fig. 1 is the structural representation of high-pressure working medium power straight-line transmitting delivery system of the present invention.

Fig. 2 is the interior bar magnet of high-pressure working medium power straight-line transmitting delivery system of the present invention and the connection diagram of connecting plate.

Embodiment

Below in conjunction with the drawings and specific embodiments, high-pressure working medium power straight-line transmitting delivery system of the present invention is described in further detail.

As shown in the figure, high-pressure working medium power straight-line transmitting delivery system of the present invention, comprise two Seal cages 1 be set up in parallel, two Seal cages 1 communicate with high-pressure medium active chamber respectively by piston sleeve 2, a piston 3 is respectively arranged with in two piston sleeves 2, the lower end of two pistons 3 respectively be positioned at respective Seal cage bar magnet 4 and be connected and bar magnet reciprocating linear can be driven to move, the interior bar magnet front end of two Seal cages 1 is all enclosed in the separation sleeve 5 be positioned at outside respective Seal cage, interior bar magnet 4 extend in separation sleeve by the perforate on respective Seal cage, separation sleeve 5 open part and Seal cage are connected to form seal space, periphery, interior bar magnet front end in two Seal cages 1 is all placed with inner magnet 6, separation sleeve 5 is outside equipped with outer magnetic tube 7, the sidewall of outer magnetic tube 7 is provided with can with respective Seal cage in the outer magnet 8 that attracts each other of the inner magnet of bar magnet, outer magnetic tube 7 synchronously can move up and down along with interior bar magnet, outer magnetic tube below two Seal cages 1 to be connected with two cranks on an output shaft 10 respectively by connecting rod 9 and can to rotate by driver output axle, two crank phase angle differences 180 degree on output shaft, two Seal cages 1 are provided with air inlet/outlet 11, connecting tube 12 is connected with between the air inlet/outlet 11 of two Seal cages.

The interior bar magnet of said two Seal cages 1 is connected to connecting plate 13, interior bar magnet 4 in each Seal cage is set to two or more and is connected on connecting plate 13 simultaneously, separation sleeve 5 and the supporting setting of interior bar magnet 4, outer magnetic tube 7 and the supporting setting of separation sleeve 5, connecting plate 13 in two Seal cages is all in latticed and be connected between multiple interior bar magnet 4, the outer magnetic tube 7 be positioned at below two Seal cages is integrally connected respectively by link press span 14, support 15 is provided with below Seal cage, guide rail 16 is provided with between link press span 14 and support 15, connecting plate 13 in two Seal cages respectively and separately Seal cage be respectively arranged with damping spring 17 between two interior edge faces up and down, output shaft 10 there is output shaft flywheel 18, tip shape is all arranged in the upper and lower end face of the piston 3 being positioned at piston sleeve 2 and bar magnet 4 longitudinal direction that is positioned at Seal cage 1, inner chamber lower end and the interior bar magnet 4 lower end external frame of separation sleeve 5 adapt, inner chamber lower end and the interior bar magnet 4 lower end external frame of outer magnetic tube 7 adapt.

Further, the top of said two piston sleeves 2 is respectively arranged with one group of magnet-controlled valve group 19, often organize magnet-controlled valve group 19 and comprise two suction valve B and outlet valve C be arranged side by side, valve rod one end cylinder of suction valve B and outlet valve C arranges inner magnet respectively, shielding can is overlapped outward at valve rod, the opening of shielding can is connected with the end sealing of piston sleeve 2, outer magnetic tube is set outside shielding can, outer magnetic tube is arranged in frame by slide block guide rail, often organize magnet-controlled valve group 19 to be connected with cold-hot exchanging tube 20 respectively, the cold junction of two cold-hot exchanging tubes 20 and hot junction are connected to two the shielding can lower ends often organizing magnet-controlled valve group 19, the top often organizing magnet-controlled valve group 19 is respectively arranged with the lower cam 21 be staggeredly arranged for a pair, two lower cams 21 lay respectively at the top of two outer magnetic tubes in this group magnet-controlled valve, two pairs of lower cams 21 are installed on same lower rotary shaft 22, lower rotary shaft 22 is provided with lower rotary shaft flywheel 23, lower rotary shaft is provided with belt between flywheel 23 and output shaft flywheel 18.

Further, also a upper magnet-controlled valve 26 is respectively arranged with between the cold junction of said two cold-hot exchanging tubes 20 and hot junction, the outer magnetic tube top of two upper magnet-controlled valves 26 is mounted with an overhead cam 24 respectively, rotating shaft 25 is provided with between two overhead cams 24, upper rotating shaft 25 is provided with rotating shaft flywheel 27, on lower rotary shaft, flywheel 23 is set to two, belt is provided with between one and output shaft flywheel 18, belt is provided with between another one and upper rotating shaft flywheel 27, the cold junction side of two cold-hot exchanging tubes 20 is respectively arranged with a fan, connecting tube 12 be connected with constant voltage one-way valve 28 and be linked in two groups of magnet-controlled valve groups.

Claims (10)

1. a high-pressure working medium power straight-line transmitting delivery system, it is characterized in that: comprise two Seal cages (1) be set up in parallel, two Seal cages (1) communicate with high-pressure medium active chamber respectively by piston sleeve (2), a piston (3) is respectively arranged with in two piston sleeves (2), the lower end of two pistons (3) respectively be positioned at respective Seal cage bar magnet (4) and be connected and bar magnet reciprocating linear can be driven to move, the interior bar magnet front end of described two Seal cages (1) is all enclosed in the separation sleeve (5) be positioned at outside respective Seal cage, interior bar magnet (4) extend in separation sleeve by the perforate on respective Seal cage, separation sleeve (5) open part and Seal cage are connected to form seal space, periphery, interior bar magnet front end in described two Seal cages (1) is all placed with inner magnet (6), separation sleeve (5) is outside equipped with outer magnetic tube (7), the sidewall of outer magnetic tube (7) is provided with can with respective Seal cage in the outer magnet (8) that attracts each other of the inner magnet of bar magnet, described outer magnetic tube (7) synchronously can move up and down along with interior bar magnet, the outer magnetic tube of described two Seal cages (1) below to be connected with two cranks on an output shaft (10) respectively by connecting rod (9) and also can to rotate by driver output axle, two crank phase angle differences 180 degree on described output shaft, described two Seal cages (1) are provided with air inlet/outlet (11), connecting tube (12) is connected with between the air inlet/outlet (11) of two Seal cages.

2. according to high-pressure working medium power straight-line transmitting delivery system according to claim 1, it is characterized in that: the interior bar magnet of described two Seal cages (1) is connected to connecting plate (13), interior bar magnet (4) in each Seal cage is set to two or more and is connected on connecting plate (13) simultaneously, described separation sleeve (5) and interior bar magnet (4) supporting setting, outer magnetic tube (7) and separation sleeve (5) supporting setting.

3. according to high-pressure working medium power straight-line transmitting delivery system according to claim 1, it is characterized in that: the connecting plate (13) in described two Seal cages is all in latticed and be connected between multiple interior bar magnet (4).

4. according to high-pressure working medium power straight-line transmitting delivery system according to claim 2, it is characterized in that: the outer magnetic tube (7) be positioned at below two Seal cages is integrally connected respectively by link press span (14), be provided with support (15) below described Seal cage, between described link press span (14) and support (15), be provided with guide rail (16).

5., according to high-pressure working medium power straight-line transmitting delivery system according to claim 1, it is characterized in that: the connecting plate (13) being positioned at two Seal cages respectively and separately Seal cage be respectively arranged with damping spring (17) between two interior edge faces up and down.

6., according to high-pressure working medium power straight-line transmitting delivery system according to claim 1, it is characterized in that: described output shaft (10) has output shaft flywheel (18).

7. according to high-pressure working medium power straight-line transmitting delivery system according to claim 1, it is characterized in that: tip shape is all arranged in the upper and lower end face of the piston (3) being positioned at piston sleeve (2) and bar magnet (4) longitudinal direction being positioned at Seal cage (1), inner chamber lower end and interior bar magnet (4) the lower end external frame of described separation sleeve (5) adapt, and inner chamber lower end and interior bar magnet (4) the lower end external frame of described outer magnetic tube (7) adapt.

8. according to high-pressure working medium power straight-line transmitting delivery system according to claim 1, it is characterized in that: the top of described two piston sleeves (2) is respectively arranged with one group of magnet-controlled valve group (19), often organize magnet-controlled valve group (19) and comprise two suction valve B and outlet valve C be arranged side by side, valve rod one end cylinder of suction valve B and outlet valve C arranges inner magnet respectively, shielding can is overlapped outward at valve rod, the opening of shielding can is connected with the end sealing of piston sleeve (2), outer magnetic tube is set outside shielding can, outer magnetic tube is arranged in frame by slide block guide rail, often organize magnet-controlled valve group (19) to be connected with cold-hot exchanging tube (20) respectively, the cold junction of two cold-hot exchanging tubes (20) and hot junction are connected to two the shielding can lower ends often organizing magnet-controlled valve group (19), the top often organizing magnet-controlled valve group (19) is respectively arranged with the lower cam (21) be staggeredly arranged for a pair, two lower cams (21) lay respectively at the top of two outer magnetic tubes in this group magnet-controlled valve, two pairs of lower cams (21) are installed on same lower rotary shaft (22), described lower rotary shaft (22) is provided with lower rotary shaft flywheel (23), lower rotary shaft is provided with belt between flywheel (23) and output shaft flywheel (18).

9. according to high-pressure working medium power straight-line transmitting delivery system according to claim 7, it is characterized in that: between the cold junction of two cold-hot exchanging tubes (20) and hot junction, be also respectively arranged with a upper magnet-controlled valve (26), the outer magnetic tube top of two upper magnet-controlled valves (26) is mounted with an overhead cam (24) respectively, rotating shaft (25) is provided with between two overhead cams (24), upper rotating shaft (25) is provided with rotating shaft flywheel (27), lower rotary shaft flywheel (23) is set to two, belt is provided with between one and output shaft flywheel (18), belt is provided with between another one and upper rotating shaft flywheel (27).

10. according to high-pressure working medium power straight-line transmitting delivery system according to claim 7, it is characterized in that: described connecting tube (12) be connected with constant voltage one-way valve (28) and be linked in two groups of magnet-controlled valve groups.