TW200813358A - Improvement of a valve structure - Google Patents

Abstract

This invention is about the improvement of a valve structure. This structure comprises a conduit, a valve rod, a joint piece, and an elastic element. One end of the conduit has a hollow flow-divider. The flow-divider has a dripping hole and at least one flow-dividing hole. The other end of the conduit has a runner and one end of the valve rod connecting to the hole of the conduit is included in the runner. The other end of the valve rod is placed against the flow-dividing portion to stop the flow. The valve rod can be relatively displaced with the conduit. The joint piece is connected to one end of the valve rod and the elastic element is located between the conduit and the joint piece. The fluid can flow into the runner by pushing the joint piece to link to the valve rod, and then flow out the flow-divider through the dripping hole and the flow-dividing hole.

Description

200813358 IX. INSTRUCTIONS: - TECHNICAL FIELD OF THE INVENTION The present invention mainly discloses a valve, and more particularly a valve disposed in a joint. [Prior Art]

Referring to Figure 1, there is a schematic diagram of the state of use of the conventional connector 1. The connector body includes a housing 2 and a seat body 3 coupled to the housing 2; an inlet hole 21 is defined in one side of the housing 2, and an accommodation space 22 is defined in the housing 2. The seat body 3 includes a valve seat 31, two screw members 32, a guide tube, an elastic body 34 and an engaging member 35. The valve seat 31 is received in the accommodating space 22, and the screw member 32 is extended. The valve seat 31 is screwed to the end of the housing 2, and the guide 33 is disposed between the housing 2 and the valve seat. The guide tube can be displaced relative to the valve seat 31. The elastic body 34 is disposed between the slanting slant and the guiding tube 33, and the rotating body 34 can provide the force of the guiding tube. The miscellaneous member 35-end is screwed to the guiding flow; f 33 _ End, the connector 35 is provided at the other end - the connecting portion is, for example, the connecting portion is set = 3] QCO. The 匁 匁 之 该 该 该 壳体 ( ( ( ( ( 进入 进入 进入 进入 进入 进入 进入 进入 进入 进入 ' ' ' ' ' ' 33, and interlocking the engaging member 35 causes the engaging portion 351 of the initial fitting 35 to protrude from the receiving portion? The upper portion is joined to the joint portion 41 of the joint head 4, so that the outlet hole of s = is disconnected from the inlet hole 42 of the joint head 4, and the joint is made. The outlet of the engaging portion 351 is removed, and the connector 4 is connected to the inside of the connector 4. , the public Λ 200813358, but the 'f know structure is still practically more than the f-duct 33, the connection '35 is engaged, the fluid pushes the space 22, and when the fluid _ the guide is accommodated in the capacity Arranging: interlocking the connecting member 35, and engaging the joint portion 4 of the connecting head 4: the outlet hole 352 of the working portion 351 and flowing into the connecting head to push the guiding tube 33 via the engaging portion to make the guiding flow The tube 33, the shift=two from the joint of the fluid top _35, such as the joint connection of the joint head 4, s: l one for the anti-Ds day ... the entire crossing portion of the joint 41 μ 0, ^ During the joining of the junction 351 to the junction outflow μ, the fluid suddenly abuts from the outlet _3 of the engaging portion 351 to engage the joint portion 41, and then does not flow into the accommodating space 22. When the force of pushing the fluid into the draft tube 33 is less than the force of the elastic (4) pushing the draft tube 33, the engaging portion 351 is away from the joint portion 41, so that the fluid is thrown from the hole of the connecting portion 35i. > "L out of the user's troubles" is necessary to improve. Therefore, the present invention intends to eliminate or at least mitigate the problems encountered in the prior art. The technical problem to be solved by the "structural improvement of the valve" of the present invention is that, in the process in which the engaging portion of the joint of the joint is engaged with the joint portion of the joint, the fluid suddenly flows out from the outlet of the joint portion. After the engaging portion is joined to the joint portion, when the fluid no longer flows into the accommodating space of the casing, the force of the flow-inducing flow tube of the flow 200813358 is smaller than the force of the elastic body pushing the guide tube. The connecting portion is away from the joint portion, so that the flow of fluid from the outlet of the engaging portion causes trouble to the user. Therefore, it is necessary to improve. The invention relates to a structural improvement of a valve, which comprises a guiding tube, a valve stem, a coupling member and an elastic body; the air guiding tube has a hollow diverting portion at one end. The diverting portion is provided with a perforation and at least one The diversion hole has a first-class track at the other end of the diversion tube. One end of the valve stem is bored in the through hole of the draft tube, and Φ is received in the flow passage, and the other end abuts against the flow dividing portion to stop the fluid, and the mast can be displaced relative to the draft tube. The coupling member is coupled to one end of the mast, and the elastic body is disposed between the guiding tube and the coupling member. Thereby, the fluid can push the coupling member, and the valve stem is linked to flow the fluid into the flow passage, and the flow dividing portion flows out through the through hole and the diverting hole. Other advantages, advantages, and novel features of the present invention will become more apparent from the following detailed description and the accompanying drawings. [Embodiment] * '········································································· The limitations of this structure. - Referring to Figure 2, the second dimension of the present invention, according to one embodiment of the present invention, the valve 50 includes a draft tube 51, a valve stem 52, a coupling member 53 and an elastomer 54; The body of the rod 52 is provided with a perforation 515. The flange of the valve rod 52 can be abutted against the inner wall 512 of the shaft 51. The coupling member 53 is screwed to the valve rod 52 at the 200813358 joint portion 524. The elastic body 54 is disposed. Between the draft tube 51 and the coupling member 53. The diversion tube 511 has a hollow wall-shaped diverting portion 511 having an inner wall 512 and a conical inner wall 513. The diverting portion 511 is formed inwardly to form a diverter piece 514. The diverter piece 514 is provided with a a hole 515, the splitter 514 is provided with a number of diverting holes 516 between the periphery of the perforation 515 and the inner wall 512. The stem 52 is provided at the end with a head 521 extending to form a flange 522 'the convex The edge 522 can abut against the inner wall M2 of the draft tube η to stop the fluid. The valve 50 further includes a stop ring 55. The stop ring 55 is not disposed between the head 521 and the flange 522. The stop ring 55 abuts against the tapered inner wall 513 of the draft tube 51 to stop the fluid. The flange 522 extends to form a body portion 523 having an outer diameter smaller than the inner diameter of the through hole 515 of the draft tube 51. The body portion 523 extends through the through hole 515 of the draft tube 51. The rod 52 is provided at the other end with a screwing portion 524 which is relatively displaceable from the draft tube 51. The coupling member 53 is axially provided with a screw hole 53. The coupling member 53 is screwed to the screwing portion 524 of the valve stem 52 by a hole. The peripheral edge of the coupling member 53 is axially formed through the nipple 532 at both ends of the coupling member 53 for fluid to flow into the draft tube 51. The elastic body 54 can be implemented as a compressed elastic cyanine. The elastic body is disposed between the draft tube 51 and the joint member 53. The elastic body 54 is sleeved on the valve stem. The body 523 of 52, the elastic turn. The mouth piece 54-end pushes the branching portion 511, and the other end pushes the coupling member 53. 200813358 Mai Zhao Figure 2 and Figure 4, Figure 3 is a perspective view of the body of the present invention installed in the joint (10), and Figure 4 is an exploded perspective view of the present invention installed in the joint. It is shown that the valve 50 is mounted in a joint. The joint (10) includes a housing 61 having an inlet hole 611 and a seat 62 having an outlet hole 623. The base 62 is coupled to the housing 61, but The housing 62 and the housing 61 are not characteristic of the present invention, and therefore will not be described herein, and the valve 5 is disposed between the housing 61 and the base 62. Referring to FIG. 5', FIG. 5 is a cross-sectional view taken along line 5-5 of FIG. 3, the first end of the draft tube 51 is provided with a first-class channel 517, and the flow channel 517 communicates with the hole 515 and the plurality of holes 516. The flow venting portion 511 ′ flows out of the flow dividing portion 511 , and the fluid can also flow out of the flow dividing portion 511 through the flow dividing holes 516 , and the flow dividing holes 516 can greatly increase the flow rate of the fluid flowing out of the flow dividing portion 511 from the flow channel 517 . Accelerating the flow of fluid from the flow passage 517 out of the split portion 5' is a progressive designer. The body portion 523 and the threaded portion 524 of the valve stem 52 are received in the flow passage 517, and the flange 522 of the valve stem 52 abuts against the inner wall 512 of the draft tube 51 to stop the fluid. The diverting portion 511 of the draft tube 51 is provided with a stop surface 518 toward the inner ring, and the retaining surface 518 is provided for the elastic body 54 to abut. The number of notches 532 of the coupling member 53 allows fluid to flow into the flow path 5 of the draft tube 51. The end of the draft tube 51 is provided with a groove portion 519. The valve 50 further includes a sealing ring 56. The sealing ring 56 is sleeved on the groove portion 519 to stop the fluid. A recess 525 is defined between the head 521 of the valve stem 52 and the flange 522. The recess 525 is sleeved by the stop ring 55, and the stop ring 55 abuts against the tapered inner wall of the draft tube 51. 513 to stop the fluid. 200813358 Referring to Figure 6, Figure 6 is a schematic view showing the state of use of the present invention installed in the joint 6〇. The ventilating portion 612 ′ of the housing 61 flows into the accommodating space 612 ′ of the housing 61 to push the connecting tube 51 to interlock the connecting member 621 of the base body ( 10 ) to make the connecting portion of the connecting member 621 . The 622 is formed by the accommodating space 612 of the housing 61 so that the engaging portion 622 is engaged with the joint portion 71 ′ of the connecting portion 70 to allow the outlet hole 623 of the engaging portion 622 to communicate with the through hole 711 of the joint portion 71. Referring to Figure 7, Figure 7 is a continuation of Figure 6. It is shown that the outlet hole 623 of the engaging portion 622 communicates with the inlet hole 711 of the joint portion 71, and the fluid can push the coupling member 53 to interlock the valve stem 52 to flow the fluid into the flow tube 517 of the draft tube 51. The flow dividing portion 511 flows out through the through hole 515 of the draft tube 51, and flows out of the flow dividing portion 511 through the flow dividing holes 516 to greatly increase the flow rate of the fluid flowing out of the flow dividing portion 511 from the flow path 517, thereby accelerating. The fluid flows out of the flow passage 517 from the flow dividing portion 511, and flows into the connecting head 7 through the inlet hole 711 of the connecting head 70 to completely flow the fluid from the joint 60 into the connecting head 70 without leakage. The effect is actually a progressive designer. When the fluid no longer flows into the accommodating space 612 of the housing 61, the force of the fluid pushing the coupling member 53 is less than the force of the elastic body 54 pushing the coupling member 53, the elastic body 54 pushes the The coupling member 53 is used to interlock the valve rod 52 such that the flange 522 of the valve rod 52 abuts against the inner wall 512 to stop the fluid, and the elastic member 624 of the seat body 62 drives the air guiding tube 51 to interlock The engaging member 621 of the seat body 62 moves inwardly, so that the engaging portion 622 of the engaging member 621 is received in the accommodating space 612 to prevent the engaging portion 622 200813358 from causing fluid outside during the process of detaching the joint portion 71. leak. Referring to FIG. 8 and FIG. 9 , FIG. 8 is a perspective view showing a second embodiment of the present invention installed in the connector 80, and FIG. 9 is a perspective view showing the second embodiment of the present invention installed in the connector 80. In the exploded view, the second embodiment of the present invention differs from the first embodiment in that an opening 911 is formed on one side of the guide tube 91 of the valve 9〇, and FIG. 10 is shown in FIG. -10 section line taken. In the 彳 view, the coupling member 92 is provided with a groove portion 921. The valve 90 further includes a sealing ring 93. The sealing ring 93 is sleeved on the groove portion 921 and abuts against the flow path 912 of the guiding tube 91. The annular inner wall 913 stops the fluid. 8 and 9 show that the valve 90 is installed in a joint 8〇, and the joint 8〇 includes a joint body 81 and an end cover 82. One side of the joint body 81 corresponds to the opening 911 of the guide tube 91. A through hole 8n is provided. The connector body 81 catches the end cover 82 - the end is provided with a through hole 812. The end cover 82 is screwed to the end of the connector body 81 - except that the connector body 81 and the end cover 82 are not The feature of the present invention is therefore not described herein, and the valve 9 is disposed between the joint body 81 and the cover 82, and the end cap 82 is abutted against the joint member 92. Fig. 10 is a schematic view showing the state of use of the second embodiment of the present invention. The user can rotate the end cover 82 to rotate the end cover 82 toward the receiving body 81, and the end cover 82 can push the coupling member 92 to push the coupling member 92 to push the elastic body 94. The valve stem 95 forms a communication state between the opening 911 of the draft tube 91 and the through hole 8n and the through hole 812 of the joint body 81, and the control fluid flows from the through hole δ11 through the opening 911 to the valve hole 911. The flow of the through hole 812 allows the fluid to quickly flow out of the through hole 811 through the opening 911, and the user can rotate the end i 82 away from the 11200813358 joint body 81' and by the elastic body 94. The elastic linkage of the valve stem to quickly block the joint 80 is a convenient design. _ In the above, it can be summarized that the present invention has the following advantages: 1. The present invention "structural improvement of the valve", wherein the present invention allows the engaging portion of the joint of the joint to be engaged or away from the joint of the joint In the process, it is a progressive designer to achieve the effect that the fluid completely flows into the joint from the joint without leakage. 2. The "structural improvement of the valve" of the present invention, wherein the number of the flow dividing holes of the draft tube can substantially increase the flow rate of the fluid from the flow path to the flow dividing portion, and the accelerating fluid k flows out of the flow dividing portion, which is a The designer of progress. 3. The "structural improvement of the valve" of the present invention, wherein the user can rotate the end cap to push the end cap to push the coupling member, and interlock the valve stem to make the opening of the guiding tube and the joint body transparent The hole and the through hole are shaped like a sample, and the control fluid can be controlled by the through hole _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The elastic joint of the elastic body is used to break the joint at the speed of the man, which is a convenient designer. Since the view of the bribe is extremely red-producing, and there is no such thing as the same or similar invention appearing in the _ foreign publication or the public use of the active and miscellaneous pieces of the patented mosquito, it should be granted (4). However, the above description is only the preferred embodiment of the present invention, and the scope of the implementation of the forest (4) is limited. Therefore, the equivalent value of the patent scope of the present invention should still be The scope of the invention patent covers.文匕/,乜 12 200813358 [A brief description of the drawings] Figure 1: Schematic diagram of the state of use of the conventional joints. Figure 2: is an exploded perspective view of the present invention. Figure 3 is a perspective view of the present invention installed in the joint. Figure 4 is a perspective exploded view of the present invention installed in the joint. Figure 5: A cross-sectional view taken along line 5-5 of Figure 3. Figure 6 is a schematic view showing the state of use of the present invention installed in a joint. Figure 7: Continuation of the action of Figure 6. Figure 8 is a perspective view showing a second embodiment of the present invention installed in a joint. Figure 9 is an exploded perspective view showing the second embodiment of the present invention installed in a joint. Figure 10: A cross-sectional view taken along line 10-10 of Figure 8. Figure 11 is a schematic view showing the state of use of the second embodiment of the present invention. [Main component symbol description] (conventional structure) 1 Connector 2 Housing 21 Inlet hole 22 accommodating space 3 Seat body 31 Seat 32 Screw 33 Flow tube 34 Elastomer 35 Connector 351 Connector 352 Outlet 4 Connection Head 41 joint portion 42 into hole 13 200813358

(Invention) 50 valve 511 diverting portion 513 tapered inner wall 515 perforation 517 flow path 519 groove portion 52. valve stem 522 flange 524 screwing portion 53 coupling member 532 notch 55 stop ring 60 joint 611 hole 62 seat body 622 engagement portion 624 elastic member 70 connection head 711 inlet hole 80 joint 811 through hole 82 end cover 90 valve 51 guide tube 512 inner wall 514 shunt piece 516 shunt hole 518 stop surface 521 head 523 body portion 525 recess 531 screw hole 54 Elastomer 56 Sealing ring 61 Housing 612 accommodating space 62l· Adapter 623 Outlet 71 Joint 81 Joint body 812 Through hole 91 Flow tube 14 200813358 911 Opening 912 913 Ring inner wall 92 921 Groove 93 94 Elastomer 95 Runner joint seal ring valve stem

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Claims (1)

200813358 X. Application for Patent Park: 1. A structural improvement of a valve, comprising: a draft tube having a hollow diverting portion at one end thereof, the diverting portion being provided with a perforation and at least one diversion hole, The other end of the draft tube is provided with a first-class channel; a valve stem, one end of which is inserted through the perforation of the draft tube, and is accommodated in the flow channel, and the other end abuts against the shunt portion to stop the fluid, talk about the valve stem Corresponding to the flow guiding tube; a coupling member coupled to one end of the brake rod; w an elastic body, 'which is disposed between the guiding tube and the coupling member; thereby, the fluid can be pushed The coupling member interlocks the valve stem to allow fluid to flow into the flow passage, and flows out of the flow dividing portion through the through hole and the distribution hole. 2. The structural improvement of the valve according to claim 1, wherein the branching portion is provided with a stop surface facing the inner ring, the stop surface is provided for the one end of the elastic body to abut, and the other end of the elastic body pushes the coupling member . 3. The structural improvement of the crucible as recited in claim 1, wherein the diverting portion forms a shunt having the perforation inwardly. 4. The structural improvement of the valve of claim 3, wherein the diverting portion has an inner wall, the diverter having the diverging hole between the inner wall and the perforated periphery. 5. The structural improvement of the valve of claim 1, wherein the diverter has an inner wall, and one end of the stem forms a flange that abuts against the wall to stop the fluid. 6. The structural improvement of the valve of claim 5, wherein the valve further comprises a stop ring, the valve stem is provided with a head at one end, and the head is disposed with the flange 16200813358... The recess of the stop ring is sleeved, and the split portion has a tapered inner wall against which the stop ring abuts. 7. The structural improvement of the valve of claim 1, wherein the outer peripheral edge of the joint member forms at least one notch extending through the ends of the joint member for fluid to flow into the flow passage. 8. The structural improvement of the valve of claim 1, wherein the valve further comprises a sealing ring, the coupling ring is provided with a groove portion, the groove portion is sleeved by the sealing ring, and the flow channel of the guiding tube is An annular inner wall is provided for the sealing ring to abut. 9. The structural improvement of the valve of claim 1, wherein the elastic system is a compression spring. 10. The structural improvement of the valve of claim 1 wherein the coupling member is threaded to the valve stem. 11. The structural improvement of the valve of claim 1 wherein the valve is disposed within a joint. 12. The structural improvement of the valve of claim 11, wherein the joint comprises a casing having an inlet hole and a seat body having an outlet hole, the seat body being coupled to the casing, and the casing is disposed on the casing Between the body and the body. 13. The structural improvement of the valve of claim 11, wherein the joint comprises a joint body and an end cap, the end cap is screwed to the joint body, and the valve is disposed on the joint body and the end cap Between the end of the end cap, the end of the end cap is abutted against the coupling member. 14. The structural improvement of the valve according to claim 13, wherein one side of the guide tube is provided with an opening, and one side of the joint body corresponding to the opening of the draft tube 17 200813358' is provided with a through hole, the joint The body is provided with a through hole at one end of the end cover, and the end cover can be pushed to push the coupling member, and the mast is interlocked to form a communication state between the opening, the through hole and the through hole. 18