阅读说明：本技术 一种角座阀 (Angle seat valve ) 是由 林立 王春鸽 刘�文 王文兵 曹建波 胡小雄 张池 林凯 于 2021-10-20 设计创作，主要内容包括：本发明公开了一种阀杆及角座阀,包括包括依次连接的气缸、连接部、阀体和阀座,气缸的输出端设有阀杆和阀芯,阀芯设于阀体内,阀杆穿过连接部与阀芯连接,阀杆的横截面呈多阶状变化,阀杆的底部伸入至阀芯内且阀杆底部与阀芯之间设有隔热层,阀杆的底部周身朝沿轴向开设有若干个钩槽。本发明提供了一种阀杆及角座阀,通过在阀杆的底端注入气凝胶隔热层、在保证阀杆强度的同时改变阀杆的横截面积、将阀杆底部的结构设计成倒钩状以使气凝胶层与阀杆更加贴合,使得阀体在控制高温液体时,由阀杆传导过来的热度会大大降低,从而保证阀体内部一些密封件和其他塑料制品的正常作业。(The invention discloses a valve rod and a corner seat valve, which comprise an air cylinder, a connecting part, a valve body and a valve seat which are sequentially connected, wherein the output end of the air cylinder is provided with the valve rod and a valve core, the valve core is arranged in the valve body, the valve rod penetrates through the connecting part to be connected with the valve core, the cross section of the valve rod is changed in a multi-step shape, the bottom of the valve rod extends into the valve core, a heat insulation layer is arranged between the bottom of the valve rod and the valve core, and a plurality of hook grooves are axially formed in the circumferential direction of the bottom of the valve rod. The invention provides a valve rod and an angle seat valve, wherein an aerogel heat insulation layer is injected into the bottom end of the valve rod, the cross section area of the valve rod is changed while the strength of the valve rod is ensured, and the structure at the bottom of the valve rod is designed into a barb shape so that an aerogel layer is more attached to the valve rod, so that the heat conducted by the valve rod can be greatly reduced when a valve body controls high-temperature liquid, and the normal operation of sealing elements and other plastic products in the valve body is ensured.)

1. The utility model provides an angle seat valve, includes cylinder (1), connecting portion (4), valve body (2) and disk seat (3) that connect gradually, the output of cylinder (1) is equipped with valve rod (5) and case (6), case (6) are located in valve body (2), valve rod (5) are passed connecting portion (4) with case (6) are connected, its characterized in that: the improved valve is characterized in that a plurality of annular grooves (51) are axially formed in the bottom of the valve rod (5) at intervals, so that the cross sectional area of the valve rod (5) is increased and reduced alternately, a valve rod sleeve (7) is fixedly connected to the bottom of the valve rod (5), the bottom of the valve rod (5) extends into the valve core (6) and is connected with the valve core (6), and a heat insulation layer is arranged between the bottom of the valve rod (5) and the valve rod sleeve (7).

2. An angle seat valve as defined in claim 1, wherein: the grooves (51) are arranged at equal intervals, and the depth of the grooves (51) is consistent.

3. An angle seat valve as defined in claim 1, wherein: the insulating layer is an aerogel insulating layer.

4. An angle seat valve as defined in claim 1, wherein: the groove (51) is inclined upwards to form a hook groove (512).

5. An angle seat valve as defined in claim 4, wherein: the valve rod (5) at the adjacent hook groove (512) forms a protrusion which inclines upwards and gradually reduces the sectional area.

6. An angle seat valve as defined in claim 1, wherein: the middle part of the valve rod (5) is positioned in the connecting part (4), and the groove (51) also extends to the middle part of the valve rod (5).

7. An angle seat valve as defined in claim 1, wherein: the valve rod sleeve (7) covers the whole bottom of the valve rod (5), a gap (71) is formed between the valve rod sleeve (7) and the bottom of the valve rod (5), and the gap (71) is filled with the heat insulation layer.

8. An angle seat valve as defined in claim 7, wherein: the valve is characterized in that a valve core pin (61) is further arranged in the valve body (2), through holes (8) used for being matched with the valve core pin (61) are respectively formed in the valve core (6), the valve rod (5) and the valve rod sleeve (7), and the valve core pin (61) limits the relative movement of the valve core (6), the valve rod (5) and the valve rod sleeve (7).

Technical Field

The invention relates to the technical field of valves, in particular to an angle seat valve.

Background

In the industries of food chemical industry and the like, fluid is used as a medium, and a sterilization pipeline cannot be controlled without opening an angle seat valve, for example, in some sanitary industries, pure industrial steam is required to be used for high-temperature sterilization after the pipeline is used for a period of time, the temperature of the pipeline can reach the high temperature of 200-300 ℃, so that the temperatures of a valve seat and a valve core of the angle seat valve can also reach the temperature, however, a valve rod of the angle seat valve usually extends into the valve seat, the valve rod is generally made of metal materials for meeting the strength requirement due to the heat conduction effect of the temperature, the heat conduction performance is good, the high temperature can be transmitted to a main body of the angle seat valve through the valve rod, and parts, particularly a sealing element or an electric element at the main body of the angle seat valve can be influenced by the high temperature and can fail or even be damaged.

Disclosure of Invention

The invention aims to provide an angle seat valve, which ensures the normal operation of sealing elements and electric elements of the angle seat valve by arranging a valve rod sleeve at the bottom end of a valve rod, injecting an aerogel heat insulation layer, changing the cross section area of the valve rod while ensuring the strength of the valve rod and greatly reducing the heat conducted by the valve rod when a valve body controls high-temperature liquid.

The technical scheme adopted by the invention for solving the problems is as follows: the utility model provides a valve rod and angle seat valve, includes cylinder, connecting portion, valve body and the disk seat that connects gradually, the output of cylinder is equipped with valve rod and case, the case is located in the valve body, the valve rod passes connecting portion with the case is connected, the annular recess that a plurality of interval set up is seted up to the valve rod bottom along the axial, makes the cross-sectional area of valve rod is the alternate change of increase and reduction, just the bottom fixedly connected with valve rod cover of valve rod, the bottom of valve rod stretches into to in the case and be connected with the case, be equipped with the insulating layer between valve rod bottom and the valve rod cover.

Compared with the prior art, the invention has the advantages that: the bottom of the valve rod is provided with the annular grooves which are arranged at intervals, so that the cross sections of the adjacent grooves and the non-grooves of the valve rod are different, and when heat is conducted to a small area from a large area, the heat cannot be continuously and completely conducted due to the difference of conduction areas, and can be accumulated at the cross sections of the large cross section and the small cross section; when the valve body controls high-temperature liquid, the heat at the bottom of the valve rod is conducted to the upper part of the valve rod, and the shape-changing grooves arranged at intervals can continuously repeat the process of large-area conduction to small-area conduction by the heat, so that the continuous heat insulation effect is achieved, the heat transmitted from the bottom of the valve rod to the upper part of the valve rod is continuously reduced, and the normal work of a sealing element and an electric element in the angle seat valve is protected; through setting up the valve rod cover, overall structure's intensity has been guaranteed to the valve rod cover, can protect the tip structure of valve rod again to set up the insulating layer between valve rod cover and valve rod, the insulating layer in the valve rod cover with valve rod bottom abundant contact, thereby it is isolated to pass through the insulating layer with most heat at first, cooperate the valve rod of cross-sectional area alternation again to insulate against heat, thereby further improved thermal-insulated effect.

As the improvement, a plurality of the recess equidistant setting, and a plurality of the degree of depth of recess is unanimous, through the improvement, guarantee that heat word valve rod bottom conducts to the radiating process in valve rod upper portion and keep a steady, the notch cuttype process that reduces gradually, guarantee the process of each portion of cooling of valve rod progressive, also guarantee the central cross-section's that the valve rod supported the uniformity simultaneously, guaranteed the intensity of valve rod.

As an improvement, the heat insulation layer is an aerogel heat insulation layer, through the improvement, aerogel is conveniently injected between the valve rod and the valve rod sleeve, and can be solidified after the surface of the groove at the position of the valve rod is attached, so that the heat insulation area between the heat insulation layer and the valve rod is ensured, and most of heat conduction is effectively isolated.

As the improvement, the recess slope constitutes the hook groove upwards, through the improvement, valve rod bottom injection aerogel insulating layer comes the direct most heat of insulating, because aerogel insulating layer viscidity is not enough, it is spacing to pass through the hook groove structure with aerogel and valve rod through the ascending hook groove shape of slope, avoid insulating layer relative valve rod to remove and influence thermal-insulated effect, and the hook groove that the slope upwards set up can increase the laminating area on insulating layer and valve rod surface, thereby increase the volume of insulating layer increase heat insulation area, improve heat insulation effect and further reduced the heat of valve rod bottom conduction.

The valve rod at the adjacent hook groove forms a convex thorn with the inclined upward direction and the sectional area gradually reduced, and through the improvement, the valve rod at the hook groove forms the convex thorn, and the sectional area of the convex thorn is continuously switched between a large area and a small area along the axial direction of the valve rod, so that the heat insulation effect is further improved.

As an improvement, the middle part of the valve rod is positioned in the connecting part, the groove also extends to the middle part of the valve rod, and through the improvement, the groove extending into the connecting part can further isolate heat through the alternate change of the cross section area, so that the heat is prevented from being continuously upwards conducted to influence an electric element, and the heat insulation effect is improved.

As an improvement, the valve rod sleeve covers the whole bottom of the valve rod, a gap is arranged between the valve rod sleeve and the bottom of the valve rod, the heat insulation layer is filled in the gap, through the improvement, the cover is whole the strength of the whole structure is ensured at the bottom of the valve rod, the gap is arranged to increase the injection amount of the aerogel heat insulation layer, and the heat insulation effect is improved.

As an improvement, a valve core pin is further arranged in the valve body, through holes matched with the valve core pin are formed in the valve core, the valve rod and the valve rod sleeve, the valve core pin limits the valve core, the valve rod and the valve rod sleeve to move relatively, and through the improvement, the valve core pin connects the valve core, the valve rod and the valve rod sleeve together, so that the connection strength of the valve core and the valve rod is ensured, meanwhile, the valve core, the valve rod and the valve rod sleeve cannot move relatively, the coaxiality of the valve core, the valve rod and the valve rod sleeve is improved, the synchronous operation of the valve core, the valve rod and the valve rod sleeve is ensured while the operation precision of the mechanism is improved, the stability and the reliability of the three structures are improved, and the valve rod sleeve, the valve core and the valve rod can move as a whole all the time.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a sectional view of the overall structure of the present invention.

Fig. 3 is a partially enlarged view of a in fig. 2.

Fig. 4 is an isometric view of the valve stem.

FIG. 5 is a simulated graph of heat distribution of heat conduction in a valve stem without grooves.

FIG. 6 is a simulated graph of heat distribution of heat conduction by the valve stem when a groove is provided in the middle of the valve stem.

Fig. 7 is a simulated diagram of the heat distribution of the valve stem heat conduction after the valve stem is provided with a hook groove and a valve stem sleeve at the bottom of the valve stem and aerogel is injected.

FIG. 8 is a comparison of a simulated heat distribution diagram of a hooked slot at a valve stem sleeve and a simulated heat distribution diagram of a recessed slot.

Shown in the figure: 1. a cylinder; 2. a valve body; 3. a valve seat; 4. a connecting portion; 5. a valve stem; 51. a groove; 512. a hook groove; 6. a valve core; 61. a spool pin; 62. opening a hole; 7. a valve stem sleeve; 71. a gap; 8. a through hole; 91. a seal spring; 92. and (5) sealing rings.

Detailed Description

As shown in fig. 1-4, an angle seat valve includes a cylinder 1, a connecting portion 4, a valve body 2 and a valve seat 3, which are connected in sequence, wherein a valve rod 5 and a valve core 6 are arranged at an output end of the cylinder 1, the valve core 6 is arranged in the valve body 2, the valve rod 5 penetrates through the connecting portion 4 to be connected with the valve core 6, a plurality of annular grooves 51 are axially formed in the valve rod 5 at intervals, the grooves 51 include two portions, one portion is arranged at the middle portion of the valve rod 5 corresponding to the connecting portion 4, the other portion is arranged at the bottom of the valve rod 5 and is obliquely and upwardly arranged to form a hook groove 512, a valve rod sleeve 7 is coated at the bottom of the valve rod 5, and a gap between the valve rod sleeve 7 and the hook groove 512 is filled through an aerogel thermal insulation layer.

The provision of the groove 51 causes the cross-sectional area of the valve stem 5 to alternately increase and decrease, thereby blocking heat conduction.

Wherein, a plurality of recess 51 equidistant setting, and the degree of depth of a plurality of recess 51 is unanimous, guarantees to participate in the cross-sectional area of the valve rod 5 of central support unanimously, has guaranteed the intensity of valve rod 5.

It should be noted that, the connection mode of the valve rod sleeve 7 and the valve rod 5 has various modes, for example, the upper end of the valve rod sleeve 7 is provided with an external thread, the part of the valve rod 5, which is in fit connection with the valve rod sleeve 7, is provided with an internal thread, and the valve rod sleeve 7 is in thread fit connection with the valve rod 5; or directly weld valve rod cover 7 and valve rod 5 to guarantee joint strength, also guaranteed not excessive of aerogel after pouring into the aerogel with the clearance.

Wherein, still be equipped with case round pin 61 in the valve body 2, offer the through-hole 8 that supplies case round pin 61 to pass through on case 6, valve rod 5 and the valve rod cover 7 respectively, case round pin 61 runs through case 6, valve rod 5 and valve rod cover 7 to restriction case 6, valve rod 5 and valve rod cover 7 relative movement.

It should be noted that the size of the through hole 8 on the valve core 6, the valve rod 5 and the valve rod sleeve 7 is the same, the size of the through hole 8 is the same as the size of the valve core pin 61, the valve core pin 61 is threaded with the valve core 6 after passing through the through hole 8, and the valve core pin 61 may be a bolt.

Fig. 5 is a heat distribution simulation diagram of heat conduction of the valve rod without the groove, and the simulation is performed at 200 degrees celsius at the bottom of the valve rod 5, so that it can be seen that heat is continuously conducted upwards from the bottom of the valve rod 5, and four measurement points are set in the process, namely 197 degrees celsius, 195.1 degrees celsius, 188.6 degrees celsius and 186.3 degrees celsius in sequence, and the temperature is 185.5 degrees celsius when the temperature is at the top.

Fig. 6 is a heat distribution simulation diagram of heat conduction of the valve rod when the groove is arranged in the middle of the valve rod, and the simulation is performed at 200 degrees centigrade on the bottom of the valve rod 5, so that it can be seen that when heat is conducted to the groove 51, the heat is obviously accumulated at the bottom of the screw rod, and after the continuous groove 51 is arranged, the heat conduction is obviously influenced, four measuring points which are arranged at the same positions as those in fig. 5 are arranged in the process, wherein the four measuring points are 198.2 degrees centigrade, 185.2 degrees centigrade, 180.5 degrees centigrade and 174.1 degrees centigrade in sequence, and when the heat is at the uppermost end, the temperature is 171 degrees centigrade.

Fig. 7 is setting up hook groove and valve rod cover and pouring into the heat distribution analog diagram of valve rod heat-conduction behind the aerogel in the valve rod bottom, recess 51 also extends to valve rod 5 middle part simultaneously, simulate with valve rod 5 bottom 200 degrees centigrade equally, can see, owing to set up insulating layer and valve rod cover 7, the heat is at first cut off in valve rod cover 7 department by a large amount, behind the middle part of valve rod 5 via cross-sectional area alternate change again, the in-process sets up four measuring points with fig. 5 same position, 150.3 degrees centigrade in proper order, 144.6 degrees centigrade, 138 degrees centigrade, 130.2 degrees centigrade until when the top, the temperature is 124 degrees centigrade.

The valve rod 5 of the adjacent hook groove 512 forms a protruding thorn with an upward inclination and a gradually reduced sectional area, so that the sectional area of the groove 51 can be alternatively changed in an increasing and reducing manner, and the heat is blocked, and the heat can be further accumulated at the tip of the protruding thorn, as shown in fig. 8, the hook groove 512 and the groove 51 are subjected to heat distribution simulation comparison, as the valve rod sleeve 7 and the aerogel heat insulation layer are arranged at the hook groove 512, the heat is conducted inwards from the outer wall of the valve rod, so that a heat source is arranged on the outer wall, simulation is carried out under the same outer wall temperature setting of 200 ℃, and the heat at the axis center of the valve rod 5 can be 195 ℃ due to the arrangement of the hook groove 512, and the heat at the axis center after the arrangement of the groove 51 is 197 ℃, so that the heat insulation effect of the hook groove 512 is further improved compared with that of the groove 51.

The foregoing is merely illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and the specific structure thereof is allowed to vary. All changes which come within the scope of the invention as defined by the independent claims are intended to be embraced therein.