CN203585352U - Delayed opening type throttling stop valve - Google Patents

Abstract

The utility model discloses a delayed opening type throttling stop valve. The delayed opening type throttling stop valve comprises a valve body, a valve core and a valve rod, wherein an output channel and a through hole, which are communicated with an inner cavity of the valve body respectively, are formed in the valve body; an input channel of the valve body is communicated with the through hole; the valve core is arranged in the inner cavity; a penetration hole is formed in the valve core; the upper end of the valve rod penetrates through the through hole and the penetration hole in sequence and relatively moves up and down in the through hole and the penetration hole; a valve rod cap is connected with the upper end of the valve rod; a limiting structure is arranged between the valve core and the valve rod cap; a spring is sleeved on the limiting structure; the limiting structure synchronously moves along with the valve rod; when the valve core seals a charging hole in a joint of the through hole and the inner cavity, the lower end of the limiting structure props against the upper surface of the valve core, the penetration hole is sealed, and the spring is under a compression state. According to the delayed opening type throttling stop valve, the inflowing speed of slurry is reduced, and the flow of the slurry is accurately controlled. T; the delayed opening type throttling stop valve has the advantages of high sensitivity, high accuracy, high working efficiency, high quality of manufactured products and the like.

Description

Prolong out throttling stop valve

Technical field

The utility model relates to the coating field of manufacturing lithium cell, relates in particular to a kind of throttling stop valve that prolongs out being applied on the feeding device of quick gap.

Background technique

Valve is the control gear of fluid line, and its fundamental function is the circulation that switches on or off pipeline medium, changes the circulating direction of medium, regulates pressure and the flow of medium, and the normal operation of protective tube pipeline equipment also has the functions such as shunting or overflow release.Along with the development of modern industry, the demand of valve constantly increases, and the requirement of the validity of valve has also been increased.

Particularly in manufacturing the coating industry of lithium cell, in order to make the better quality of the product of coating machine production, make product have more the market competitiveness, need the valve of the control coating in coating machine to have very high sensitivity, can very accurately control the coating content flowing out from valve.In the valve of existing coating machine, when spool is opened the material feeding mouth of valve, slurry will pour in valve from material feeding mouth, and gushes out from discharge port.At this moment will have a problem, because material feeding mouth is opened suddenly, the slurry pouring in from material feeding mouth at first has a very large speed, the speed of the slurry pouring in after this speed is greater than.In the unit time, will increase the discharge of slurry like this, and then will increase the thickness that is coated on the head that is coated with the slurry on body, the effect of impact coating.And an end face of the spool of the valve of existing coating machine is designed to plane, spool, in mobile process, can find that the plane of spool need to promote to fill the coating in valve cavity.So just increase the resistance that spool moves, also increased the rate of outflow of slurry.Affected the sensitivity of valve, made valve can not accurately control the amount of slurry of outflow.

Model utility content

In order to overcome the problems referred to above, when the utility model provides a kind of valve opening to society, can accurately control the throttling stop valve that prolongs out of slurry flow.

The technical solution of the utility model is: a kind of throttling stop valve that prolongs out is provided, comprise valve body, spool and valve rod, on described valve body, be provided with the output channel and the through hole that communicate with the inner chamber of described valve body respectively, the input channel of described valve body communicates with described through hole, described spool is arranged in described inner chamber, on described spool, be provided with a perforation, the upper end of described valve rod is successively through described through hole and described perforation, in described through hole and described perforation, relatively move up and down, one valve thimble is connected with the upper end of described valve rod, one limit structure is arranged between described spool and described valve thimble, one spring housing is located on described limit structure, described limit structure is along with described valve rod is synchronized with the movement, when described spool seals the material feeding mouth of described through hole and described inner chamber junction, the lower end abutment of described limit structure is on the upper surface of described spool, by described aperture seal, described spring is in compressive state.

As to improvement of the present utility model, described limit structure is the spacing preiection arranging with described valve-stem integratedization.

As to improvement of the present utility model, described limit structure is the spacing collar being set on described valve rod.

As to improvement of the present utility model, the upper end of described limit structure is connected with a position of the lower surface of described valve thimble, and described valve rod upper end is through the hole on described limit structure, is connected with another position of the lower surface of described valve thimble.

As to improvement of the present utility model, the lower end of described limit structure is connected with the upper end of described valve rod, and the upper end of described limit structure is connected with described valve thimble.

As to improvement of the present utility model, in the upper end of described valve rod, be provided with outside thread, in the depressed part of described valve thimble, be provided with the internal thread coordinating with described outside thread, the upper end of described valve thimble and described valve rod is together by a threaded connection.

As to improvement of the present utility model, on the described valve rod of the lower surface near described spool, be provided with Anti-shaking structure.

As to improvement of the present utility model, described valve thimble is round and smooth shape away from the surface of the termination of described limit structure.

As to improvement of the present utility model, described spool is cone shape or spheroid, segment or hemispherical near the termination of described material feeding mouth.

As to improvement of the present utility model, the internal surface of described inner chamber and described through hole junction is coniform or spherical shape.

In the utility model, the upper end of valve rod is successively through the perforation on through hole and spool, and relatively move up and down in through hole and perforation, the upper end of valve thimble and valve rod is together by a threaded connection, and between spool and valve thimble, is provided with limit structure, a sheathed spring on limit structure; On the lower end abutment of the limit structure upper surface at spool, and by the aperture seal on spool, spring is when compressive state, and spool is by the material feeding mouth sealing of through hole and inner chamber junction; When the upper surface of limit structure away from spool, the length of compressed spring is slowly extended, under the thrust of the slurry of spool in being stored in through hole, at leisure material feeding mouth is opened and away from material feeding mouth, slurry in input channel will enter into inner chamber lentamente from through hole, reduce the inflow velocity of slurry, and accurately controlled slurry flow; After spool is opened material feeding mouth completely, spring is resisted against the upper surface of spool, gives downward power of spool, and the lower surface of spool is resisted against on Anti-shaking structure, and by modulating valve pole cap, thereby Regulation spring is to the size of the downward power of spool; Valve thimble is round and smooth shape away from the surface of the termination of spring, has reduced the resistance that valve rod moves, and has also reduced the impact on the rate of outflow of slurry; Have highly sensitively, validity is good, and working efficiency is high, the advantage such as the quality of the product of production is good.

Accompanying drawing explanation

Fig. 1 is the cross-sectional schematic of a kind of embodiment's of the present utility model spool while closing.

Fig. 2 is cross-sectional schematic when spool is opened in Fig. 1.

Fig. 3 is the cross-sectional schematic of another kind of embodiment's of the present utility model spool while closing.

Fig. 4 is the cross-sectional schematic of the third embodiment's of the present utility model spool while closing.

Fig. 5 is the cross-sectional schematic of the 4th kind of embodiment's of the present utility model spool while closing.

Wherein: 1. output channel; 2. inner chamber; 3. through hole; 31. seal rings; 4. input channel; 5. spool; 6. valve rod; 61. valve thimbles; 62. limit structures; 7. spring; 8. Anti-shaking structure.

Embodiment

In description of the present utility model, it will be appreciated that, in term " on ", orientation or the position relationship of the indication such as D score be based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, rather than indicate or imply that the device of indication or element must have specific orientation, with specific orientation, construct and operation, therefore can not be interpreted as restriction of the present utility model.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " connection " should be interpreted broadly, and for example, can be to be fixedly connected with, and can be also that dismounting connects, or connect integratedly; Can be mechanical connection, can be to be also electrically connected to; Can be to be directly connected, can be to be also indirectly connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, can concrete condition understand above-mentioned term at concrete meaning of the present utility model.

Refer to Fig. 1 and Fig. 2, that Fig. 1 and Fig. 2 disclose is a kind of a kind of embodiment who prolongs out throttling stop valve, comprise valve body, spool 5 and valve rod 6, on described valve body, be provided with the output channel 1 and the through hole 3 that communicate with the inner chamber 2 of described valve body respectively, the input channel 4 of described valve body communicates with described through hole 3, and described spool 5 is arranged in described inner chamber 2.On described spool 5, be provided with a perforation, the upper end of described valve rod 6 through described through hole 3 and described perforation, relatively moves up and down successively in described through hole 3 and described perforation.One valve thimble 61 is connected with the upper end of described valve rod 6, and a limit structure 62 is arranged on the described valve rod 6 between described spool 5 and described valve thimble 61, and described spring 7 is set on described limit structure 62.Described limit structure 62 is along with described valve rod 6 is synchronized with the movement, when described spool 5 seals the material feeding mouth of described through hole and described inner chamber 2 junctions, the lower end abutment of described limit structure 62 is on the upper surface of described spool 5, and by described aperture seal, described spring 7 is in compressive state.In described through hole 3, be also provided with seal ring 31, described seal ring 31 and described valve rod 6 are sealed and matched.Can effectively prevent the slurry leakage in described input channel 4.

In the present embodiment, described limit structure 62 is the spacing collars that are set on described valve rod 6.Described limit structure 62 is spacing preiection (referring to Fig. 3), described spacing preiection and described valve rod 6 integrated setting.

In the present embodiment, on the described valve rod 6 of the lower surface near described spool 5, be provided with Anti-shaking structure 8, described Anti-shaking structure is plane near the face of the lower surface of described spool 5, and described Anti-shaking structure is sleeve or the collar, and described Anti-shaking structure can also be some projections.

In the present embodiment, in the upper end of described valve rod 6, be provided with outside thread, be provided with the internal thread coordinating with described outside thread in the depressed part of described valve thimble 61, described valve thimble 61 is together by a threaded connection with the upper end of described valve rod 6.

In the present embodiment, described valve thimble 61 is round and smooth shape away from the surface of the termination of described spring 7.Described valve thimble 61 is regular geometric shapes away from the termination of described spring 7.Described regular geometric shapes is cone shape (referring to the valve thimble 61 in Fig. 3), spherosome shape, segment shape, hemispherical or ellipsoid shaped.The benefit of design is like this, has reduced the resistance that described valve rod 6 moves, and has also reduced the impact on the rate of outflow of slurry.

In the present embodiment, when described spool 5 seals the material feeding mouth of described through hole 3 and described inner chamber 2 junctions, the lower end abutment of described limit structure 62 is on the upper surface of described spool 5, and described spring 7 is in compressive state.An effect of described limit structure 62 is, can protect well described spring 7 to a certain extent, prevents that described spring 7 from ad infinitum being compressed, and damages described spring 7.Another effect of described limit structure 62 is, can firmly described spool 5 be resisted against tightly to described through hole 3 and described inner chamber 2 junctions, make described material feeding mouth sealing, and by described aperture seal, prevent that slurry from flowing in described inner chamber 2 from described perforation.

When the upper surface of described limit structure 62 away from described spool 5, the length of compressed described spring 7 is slowly extended, under the thrust of the slurry of described spool 5 in being stored in described through hole 3, at leisure described material feeding mouth is opened, described spool 5 away from described material feeding mouth, slurry in described input channel 4 will enter into described inner chamber 2 lentamente from described through hole 3, has reduced the inflow velocity of slurry, and accurately controls slurry flow.In the unit time, can not increase the discharge of slurry, can not increase the thickness that is coated on the head that is coated with the slurry on body yet, can not affect the effect of coating.

After described spool 5 is opened described material feeding mouth completely, described spring 7 is resisted against the upper surface of described spool 5, gives 5 one downward power of described spool, and the lower surface of described spool 5 is resisted against on described Anti-shaking structure 8.Such benefit is, even if the lower surface of described spool 5 is subject to the thrust of slurry when inhomogeneous, described spool 5 also there will not be shake, can not affect the rate of outflow of slurry, and then can not affect the flow of slurry.The thrust that is subject to slurry when the lower surface of described spool 5 is excessive or too small, and when inhomogeneous, can regulate described valve thimble 61, increases or reduce the described spring 7 downward power to described spool 5.

In the present embodiment, described spool 5 is plane or round and smooth shape away from the surface of the termination of described material feeding mouth.Described spool 5 is spheroid, segment or hemispherical away from the termination of described material feeding mouth.Described spool 5 is cone shape or spheroid, segment or hemispherical near the termination of described material feeding mouth.The internal surface of described inner chamber 2 and described through hole 3 junctions is coniform or spherical shape, and is sealed and matched with the termination of described spool 5 near described material feeding mouth.The benefit of design is like this, has reduced the resistance that described spool 5 moves, and has also reduced the impact on the rate of outflow of slurry.

In the present embodiment, also comprise drive unit, the live axle of described drive unit is connected with the lower end of described valve rod 6, and described drive unit drives described valve rod 6 motions, described drive unit is electric cylinder and pneumatic linear actuator, and described electric cylinder motor used is actuating motor or stepper motor.

Refer to Fig. 4, that Fig. 4 discloses is a kind of the third embodiment who prolongs out throttling stop valve, comprise valve body, spool 5 and valve rod 6, on described valve body, be provided with the output channel 1 and the through hole 3 that communicate with the inner chamber 2 of described valve body respectively, the input channel 4 of described valve body communicates with described through hole 3, and described spool 5 is arranged in described inner chamber 2.On described spool 5, be provided with a perforation, the upper end of described valve rod 6 through described through hole 3 and described perforation, relatively moves up and down successively in described through hole 3 and described perforation.One valve thimble 61 is connected with the upper end of described valve rod 6, and a limit structure 62 is arranged on the described valve rod 6 between described spool 5 and described valve thimble 61, and described spring 7 is set on described limit structure 62.Described limit structure 62 is along with described valve rod 6 is synchronized with the movement, when described spool 5 seals the material feeding mouth of described through hole and described inner chamber 2 junctions, the lower end abutment of described limit structure 62 is on the upper surface of described spool 5, and by described aperture seal, described spring 7 is in compressive state.In described through hole 3, be also provided with seal ring 31, described seal ring 31 and described valve rod 6 are sealed and matched.Can effectively prevent the slurry leakage in described input channel 4.

In the present embodiment, the upper end of described limit structure 62 is connected with a position of the lower surface of described valve thimble 61, and described valve rod 6 upper ends are through the hole on described limit structure 62, is connected with another position of the lower surface of described valve thimble 61.Described limit structure 62 is integrative-structures with described valve thimble 61.

In the present embodiment, in the upper end of described valve rod 6, be provided with outside thread, be provided with the internal thread coordinating with described outside thread in the depressed part of described valve thimble 61, described valve thimble 61 is together by a threaded connection with the upper end of described valve rod 6.

In the present embodiment, on the described valve rod 6 of the lower surface near described spool 5, be provided with Anti-shaking structure 8, described Anti-shaking structure is plane near the face of the lower surface of described spool 5, and described Anti-shaking structure is sleeve or the collar, and described Anti-shaking structure can also be some projections.

In the present embodiment, described valve thimble 61 is round and smooth shape away from the surface of the termination of described spring 7.Described valve thimble 61 is regular geometric shapes away from the termination of described spring 7.Described regular geometric shapes is cone shape, spherosome shape, segment shape, hemispherical or ellipsoid shaped.The benefit of design is like this, has reduced the resistance that described valve rod 6 moves, and has also reduced the impact on the rate of outflow of slurry.

In the present embodiment, when described spool 5 seals the material feeding mouth of described through hole 3 and described inner chamber 2 junctions, the lower end abutment of described limit structure 62 is on the upper surface of described spool 5, and described spring 7 is in compressive state.An effect of described limit structure 62 is, can protect well described spring 7 to a certain extent, prevents that described spring 7 from ad infinitum being compressed, and damages described spring 7.Another effect of described limit structure 62 is, can firmly described spool 5 be resisted against tightly to described through hole 3 and described inner chamber 2 junctions, make described material feeding mouth sealing, and by described aperture seal, prevent that slurry from flowing in described inner chamber 2 from described perforation.

When the upper surface of described limit structure 62 away from described spool 5, the length of compressed described spring 7 is slowly extended, under the thrust of the slurry of described spool 5 in being stored in described through hole 3, at leisure described material feeding mouth is opened, described spool 5 away from described material feeding mouth, slurry in described input channel 4 will enter into described inner chamber 2 lentamente from described through hole 3, has reduced the inflow velocity of slurry, and accurately controls slurry flow.In the unit time, can not increase the discharge of slurry, can not increase the thickness that is coated on the head that is coated with the slurry on body yet, can not affect the effect of coating.

After described spool 5 is opened described material feeding mouth completely, described spring 7 is resisted against the upper surface of described spool 5, gives 5 one downward power of described spool, and the lower surface of described spool 5 is resisted against on described Anti-shaking structure 8.Such benefit is, even if the lower surface of described spool 5 is subject to the thrust of slurry when inhomogeneous, described spool 5 also there will not be shake, can not affect the rate of outflow of slurry, and then can not affect the flow of slurry.The thrust that is subject to slurry when the lower surface of described spool 5 is excessive or too small, and when inhomogeneous, can regulate described valve thimble 61, increases or reduce the described spring 7 downward power to described spool 5.

In the present embodiment, described spool 5 is plane or round and smooth shape away from the surface of the termination of described material feeding mouth.Described spool 5 is spheroid, segment or hemispherical away from the termination of described material feeding mouth.Described spool 5 is cone shape or spheroid, segment or hemispherical near the termination of described material feeding mouth.The internal surface of described inner chamber 2 and described through hole 3 junctions is coniform or spherical shape, and is sealed and matched with the termination of described spool 5 near described material feeding mouth.The benefit of design is like this, has reduced the resistance that described spool 5 moves, and has also reduced the impact on the rate of outflow of slurry.

In the present embodiment, also comprise drive unit, the live axle of described drive unit is connected with the lower end of described valve rod 6, and described drive unit drives described valve rod 6 motions, described drive unit is electric cylinder and pneumatic linear actuator, and described electric cylinder motor used is actuating motor or stepper motor.

Refer to Fig. 5, that Fig. 5 discloses is a kind of the 4th kind of embodiment who prolongs out throttling stop valve, comprise valve body, spool 5 and valve rod 6, on described valve body, be provided with the output channel 1 and the through hole 3 that communicate with the inner chamber 2 of described valve body respectively, the input channel 4 of described valve body communicates with described through hole 3, and described spool 5 is arranged in described inner chamber 2.On described spool 5, be provided with a perforation, the upper end of described valve rod 6 through described through hole 3 and described perforation, relatively moves up and down successively in described through hole 3 and described perforation.One valve thimble 61 is connected with the upper end of described valve rod 6, and a limit structure 62 is arranged on the described valve rod 6 between described spool 5 and described valve thimble 61, and described spring 7 is set on described limit structure 62.Described limit structure 62 is along with described valve rod 6 is synchronized with the movement, when described spool 5 seals the material feeding mouth of described through hole and described inner chamber 2 junctions, the lower end abutment of described limit structure 62 is on the upper surface of described spool 5, and by described aperture seal, described spring 7 is in compressive state.In described through hole 3, be also provided with seal ring 31, described seal ring 31 and described valve rod 6 are sealed and matched.Can effectively prevent the slurry leakage in described input channel 4.

In the present embodiment, the lower end of described limit structure 62 is connected with the upper end of described valve rod 6, and the upper end of described limit structure 62 is connected with described valve thimble 61.Upper end at described limit structure 62 is provided with outside thread, is provided with the internal thread coordinating with described outside thread in the depressed part of described valve thimble 61, and described valve thimble 61 is together by a threaded connection with the upper end of described limit structure 62.

In the present embodiment, on the described valve rod 6 of the lower surface near described spool 5, be provided with Anti-shaking structure 8, described Anti-shaking structure is plane near the face of the lower surface of described spool 5, and described Anti-shaking structure is sleeve or the collar, and described Anti-shaking structure can also be some projections.

In the present embodiment, described valve thimble 61 is round and smooth shape away from the surface of the termination of described spring 7.Described valve thimble 61 is regular geometric shapes away from the termination of described spring 7.Described regular geometric shapes is cone shape, spherosome shape, segment shape, hemispherical or ellipsoid shaped.The benefit of design is like this, has reduced the resistance that described valve rod 6 moves, and has also reduced the impact on the rate of outflow of slurry.

In the present embodiment, when described spool 5 seals the material feeding mouth of described through hole 3 and described inner chamber 2 junctions, the lower end abutment of described limit structure 62 is on the upper surface of described spool 5, and described spring 7 is in compressive state.An effect of described limit structure 62 is, can protect well described spring 7 to a certain extent, prevents that described spring 7 from ad infinitum being compressed, and damages described spring 7.Another effect of described limit structure 62 is, can firmly described spool 5 be resisted against tightly to described through hole 3 and described inner chamber 2 junctions, make described material feeding mouth sealing, and by described aperture seal, prevent that slurry from flowing in described inner chamber 2 from described perforation.

When the upper surface of described limit structure 62 away from described spool 5, the length of compressed described spring 7 is slowly extended, under the thrust of the slurry of described spool 5 in being stored in described through hole 3, at leisure described material feeding mouth is opened, described spool 5 away from described material feeding mouth, slurry in described input channel 4 will enter into described inner chamber 2 lentamente from described through hole 3, has reduced the inflow velocity of slurry, and accurately controls slurry flow.In the unit time, can not increase the discharge of slurry, can not increase the thickness that is coated on the head that is coated with the slurry on body yet, can not affect the effect of coating.

After described spool 5 is opened described material feeding mouth completely, described spring 7 is resisted against the upper surface of described spool 5, gives 5 one downward power of described spool, and the lower surface of described spool 5 is resisted against on described Anti-shaking structure 8.Such benefit is, even if the lower surface of described spool 5 is subject to the thrust of slurry when inhomogeneous, described spool 5 also there will not be shake, can not affect the rate of outflow of slurry, and then can not affect the flow of slurry.The thrust that is subject to slurry when the lower surface of described spool 5 is excessive or too small, and when inhomogeneous, can regulate described valve thimble 61, increases or reduce the described spring 7 downward power to described spool 5.

In the present embodiment, described spool 5 is plane or round and smooth shape away from the surface of the termination of described material feeding mouth.Described spool 5 is spheroid, segment or hemispherical away from the termination of described material feeding mouth.Described spool 5 is cone shape or spheroid, segment or hemispherical near the termination of described material feeding mouth.The internal surface of described inner chamber 2 and described through hole 3 junctions is coniform or spherical shape, and is sealed and matched with the termination of described spool 5 near described material feeding mouth.The benefit of design is like this, has reduced the resistance that described spool 5 moves, and has also reduced the impact on the rate of outflow of slurry.

In the present embodiment, also comprise drive unit, the live axle of described drive unit is connected with the lower end of described valve rod 6, and described drive unit drives described valve rod 6 motions, described drive unit is electric cylinder and pneumatic linear actuator, and described electric cylinder motor used is actuating motor or stepper motor.

Claims (10)

1. one kind is prolonged out throttling stop valve, comprise valve body, spool and valve rod, on described valve body, be provided with the output channel and the through hole that communicate with the inner chamber of described valve body respectively, the input channel of described valve body communicates with described through hole, described spool is arranged in described inner chamber, it is characterized in that, on described spool, be provided with a perforation, the upper end of described valve rod is successively through described through hole and described perforation, in described through hole and described perforation, relatively move up and down, one valve thimble is connected with the upper end of described valve rod, one limit structure is arranged between described spool and described valve thimble, one spring housing is located on described limit structure, described limit structure is along with described valve rod is synchronized with the movement, when described spool seals the material feeding mouth of described through hole and described inner chamber junction, the lower end abutment of described limit structure is on the upper surface of described spool, by described aperture seal, described spring is in compressive state.

2. the throttling stop valve that prolongs out according to claim 1, is characterized in that: described limit structure is the spacing collar being set on described valve rod.

3. the throttling stop valve that prolongs out according to claim 1, is characterized in that: described limit structure is the spacing preiection arranging with described valve-stem integratedization.

4. the throttling stop valve that prolongs out according to claim 1, it is characterized in that: the upper end of described limit structure is connected with a position of the lower surface of described valve thimble, described valve rod upper end is through the hole on described limit structure, is connected with another position of the lower surface of described valve thimble.

5. the throttling stop valve that prolongs out according to claim 1, is characterized in that: the lower end of described limit structure is connected with the upper end of described valve rod, and the upper end of described limit structure is connected with described valve thimble.

6. according to the throttling stop valve that prolongs out described in claim 1,2,3 or 4, it is characterized in that: the upper end at described valve rod is provided with outside thread, in the depressed part of described valve thimble, be provided with the internal thread coordinating with described outside thread, the upper end of described valve thimble and described valve rod is together by a threaded connection.

7. according to the throttling stop valve that prolongs out described in claim 1,2,3,4 or 5, it is characterized in that: on the described valve rod of the lower surface near described spool, be provided with Anti-shaking structure.

8. according to the throttling stop valve that prolongs out described in claim 1,2,3,4 or 5, it is characterized in that: described valve thimble is round and smooth shape away from the surface of the termination of described limit structure.

9. according to the throttling stop valve that prolongs out described in claim 1,2,3,4 or 5, it is characterized in that: described spool is cone shape or spheroid, segment or hemispherical near the termination of described material feeding mouth.

10. the throttling stop valve that prolongs out according to claim 9, is characterized in that: the internal surface of described inner chamber and described through hole junction is coniform or spherical shape.

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