TWM415992U - Dual-shaft valve structure - Google Patents

Description

M415992 V. New description: [New technical field] This creation is about the valve body structure, especially a two-shaft valve body structure for cutting off and controlling fluid flow. [Prior Art] As shown in Figs. 2 and 2, a valve body structure of a conventional control valve is shown, wherein the control valve 10 has a water inlet passage 10 and a water passage 1〇2. A buffer passage 103 communicates with the buffer passage 103, and a valve seat n is formed between the buffer passage 103 and the buffer passage 103. The valve seat u has a two-ring rib]n formed on the inner wall of the flow passage and forms a two-port 112. The valve body 12 is disposed between the two ring ribs ln, and a channel 121 is defined in the center of the ball; the valve seat U and the ball body 12 together form a ball valve; Between the water outlet passage 1〇2 of the control valve 1 and the buffer flow passage 1〇3, there is no valve housing 13'. The valve housing 3 has a hollow structure along the direction in which the flow passage is opened, and has a water inlet 131. A ring flange 132 is formed on the periphery, and a water outlet 133 is provided with a limiting rib 34 to partially shield the water outlet 133; a check member 14 is disposed in the valve housing 13; the valve housing 13 and the check member 14 together form a check valve; rotate the ball 12, as shown in Fig. 1, so that the passage 121 and the runner Wang Pingyu break into the water passage 1〇1 and the buffer flow 1〇3 is turned on, and the fluid enters the buffer flow channel 131 along the water inlet channel 101' through the ball 12(four) 121, and impacts the thrust member 14_ the ring flange 132 and abuts against the limiting rib M415992 134. 'Let the fluid flow from the valve inlet 13 of the valve casing 13 to the water outlet 133 into the water outlet passage 1〇2; as shown in Fig. 2, the passage 121 is perpendicular to the flow passage, and the spherical body 12 blocks the The water inlet passage 1〇1 and the buffer flow passage 103' and the flow in the outlet flow passage 1〇2 are returned to the check member 14 by the action of the water raft to cause the check member 14 to leave the eye position rib 134. The pressure against the ring abutment 132 blocks the fluid and prevents backflow from causing damage to the valve seat 11 and the ball 12. However, in the actual use of the fluid control valve structure, since the outer shape of the spherical body 12 of the spherical stack does not match the space shape of the valve seat; the spherical body 2 and the flow path wall surface and A gap 104 is formed between the ring ribs m. When the ball 12 is rotated, the opening of the channel 121 toward the gap 104' and the fluid accumulated in the channel 121 of the ball 12 also rotates and flows into the gap 104. Inside, it causes difficult to clean the scale. Once the scale solidifies, the ball 12 can not be rotated relative to the valve seat 11, causing the valve body structure to lose the function of the control fluid. In addition, when the ball valve is used, the valve body structure is prevented from being damaged due to the backflow of the ball valve, and the check valve is usually required to jointly form a one-way feed fluid control valve; and the check valve is The fluid flow direction determines the conduction or closure of the flow channel, which is initiated when the action of the water raft is generated. Therefore, some of the fluid will flow back into the buffer flow channel to balance the ball raft structure, thereby increasing the possibility of the fluid flowing into the space 104. Sex. M415992 [New content] In view of the above-mentioned use problems, the creators of this case believe that it is necessary to design to block the fluid while it is actuating to stop the fluid, avoiding the damage of the valve body due to the backflow of the water, and at the same time providing A valve body structure that is difficult to grind, easy to clean, and has a variety of uses. Therefore, in order to achieve the above object, the present invention provides a two-shaft valve body structure, which is disposed inside a piston seat and houses a piston disk provided with two elastic members and two shaft members, and the two shaft members penetrate the piston seat. And extending in a valve seat; wherein the piston disk is concavely provided with two sets of slots, the two elastic members are respectively received in the set groove, one end is pressed against the piston disk, and the other end is pressed against the a piston seat; the two shaft members have a connecting end extending and fixed in the piston disc assembly groove for the elastic member; and an actuating end extending from the valve seat to be outwardly expanded to form a tapered surface The valve seat, wherein one end portion is recessed with a communication groove, and the other end portion is provided with two flow passages corresponding to the two shaft members, and the communication groove and each of the flow passages respectively have a through port communication; so that each of the shaft members is worn The valve seat is disposed, the shaft body of each of the shaft members is received in the through hole, and the actuating end is convexly received in the two flow passages, and the piston plate is coupled to the two shaft members to move together, and the tapered surface is opposite to the through hole The opening of the mouth is closed, or the opening of the opening is turned on. The two shaft members are respectively moved in the two flow passages through the piston disc, so as to block the fluid and also act to stop the fluid, thereby preventing the fluid returning impact from damaging the valve body structure due to the water raft action; The two shaft members are formed to cooperate with the inner flow passage of the valve seat to provide a valve body structure which is easy to be fouled and convenient for M415992 cleaning, and the valve seat is easy to add other flow passages to cooperate with each other and has various usage modes. [Embodiment] In order to enable your review committee to have a better understanding and understanding of the purpose, characteristics and efficacy of this creation, please refer to the following [simplified description of the drawings] for details: First, please cooperate with Figure 3. In the preferred embodiment of the present invention, a piston plate 30, two elastic members 40 and two shaft members 50 are disposed inside a piston seat 20, and the two shaft members 50 are provided. And passing through the piston seat 20 and being accommodated in a valve seat 6〇 coupled to the piston seat 2〇; wherein: the s-hai piston seat 20 has a receiving member 21 and a body 22 to form a combination The housing 21 is recessed with a cylindrical space 2U and communicates with an air inlet 212 for inputting a gas pressure from the air inlet 212, and the opening 22 is open to the chamber 211. The two accommodating ports 221 are provided with an oil seal structure 23 for a through hole 231, and each of the oil seal structures 23 is recessed toward the end of the chamber 211 to form a yoke 232; each of the accommodating ports 221 respectively A detection flow path 222 is connected to the oil seal structure 23 for detecting oil sealing Whether the structure is leaking or not, the two accommodating ports 221 are provided with a vent 223 communicating with the outside of the piston seat 20 and the chamber 211; the seat body 22 is convexly provided with a ring recess 224 corresponding to the opening of the chamber 211, a washer The 225 pairs are disposed outside the ring recess 224. The ring recess 224 is correspondingly disposed in the opening of the chamber 7 M415992 211. The gasket 225 is sandwiched between the ring recess 224 and the inner wall of the chamber 211; The disc 30 is disposed in the chamber 211 of the piston seat 20 and has a disc structure corresponding to the shape of the chamber 211. The piston disc 30 is opposite to the two receiving ports 22 and has two groups of recesses. a slot 31, a bottom surface of each of the set of slots 31 is recessed, and a recess 32 is formed between the recess 32 and the set of slots 31. The two elastic members 40 are respectively formed in a ring structure. The piston plate 30 is placed in the set groove 31, and one end is pressed against the yoke 33 of the piston disk 30, and the other end is pressed against the circumferential side of each of the through holes 231 of the piston seat 20 to provide the piston disk 30 with a restoring force. The air pressure provided by the air pump A and the restoring force of the elastic member 40 cause the piston disk 30 to reciprocate in the chamber 211; the two shaft members Each of the shaft members 50 has a long-axis structure and has two ends. One end of the connecting end 501 is provided with a linking member 51. Each of the linking members 51 has a coupling hole 511 for locking the shaft member 50. And extending outwardly from the end portion adjacent to the linking end 501 to form a flange 512; the other end is an operating end 502 formed as a intercepting portion 52, and the intercepting portion 52 forms an outward expansion from the shaft of the shaft member 50. The tapered surface 521 and the annular surface 522 are inwardly bundled from the annular surface 522 into a shuttle shape; the interlocking end 501 of each of the shaft members 50 is received in the receptacle 32 of the piston disk 30. The shaft member of each of the shaft members 50 is received in the two through holes 231, and each of the shaft members 50 is sleeved with an elastic member 53 between the flange 511 and the piston seat 20 to provide each of the shaft members 50. The shaft member 50 is a restoring force; the valve seat 60 is disposed on the piston seat 20 corresponding to the two through holes 231. The M415992 has two ends, and the body 61 is combined with a flow dividing member 62; wherein the body 61 is And a connection slot 611 is defined in the end portion adjacent to the piston seat, and a gasket 614 is disposed between the communication groove 611 and the piston seat. A groove 612 is defined in the end portion of the piston seat 2 各. The groove 012 is connected to the communication groove 6 连通. The flow dividing member 62 defines two flow paths 621 and 622 corresponding to the two grooves 612. A gasket 625 is disposed between each of the grooves 612 and the flow paths 621 and 622, and the two flow paths 621 and 622 are fastened through the communication groove 611 through the groove 612 and the opening 613; A non-returning washer 63 is disposed in each of the two recesses 612, and a through hole 631 is defined in the center of each of the anti-return washers 63, and the shaft member 151 is received by the shaft member. The inner peripheral edge of the through hole 631 and the two flow paths 621 and 622 are formed with a ring-shaped tapered surface 632 inclined toward the opening; the shaft member 50 is inserted through the valve seat 60, and the shaft of each of the shaft members 50 is formed. The second end of the second shaft 621, 622 is disposed in the opening 613, and the piston plate 30 drives the two shaft members 50 to move together. As shown in FIG. 1, the tapered surface 521 is separated. The check ring 63 is in a conducting state, or as shown in FIG. 2, the tapered surface 21 abuts against the check washer 63, and the valve body structure is closed. State. The above is the main components of the authoring embodiment and the configuration description thereof. As for the operation mode and the function of the preferred embodiment of the present invention, the following description will be made.凊 参阅 参阅 参阅 ' ' ' ' M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M Actuating; as shown in FIG. 3, when the valve body structure is in a conducting state for conveying materials, the air pressure is supplied through the air pump A to be greater than the pressure of the elastic member 40 and the restoring force of the elastic member 53, so that the piston disk 30 is compressed. The elastic member 40 and the elastic member 53 and the displacement of the two-axis member 50 toward the valve seat 60, the tapered surface 522 of the intercepting portion 52 of the two-axis member 50 is separated from the annular cone surface 632 of the check washer 625. The flow passages 62 and 622 are communicated in the communication groove 611 via the two-port 613. When the air pump A is stopped and the air pressure is output to the chamber 211, as shown in Fig. 4, the air pump A stops applying pressure. The piston disk 30, the restoring force of the elastic member 40 pushes the piston disk 30 upward, and the restoring force of the elastic member 53 pushes the shaft member 50 to remain in the cavity 32 of the piston disk 30. , the two shaft members 50 are displaced in the same direction, and the tapered surface 522 of the two intercepting portions 52 abuts against the anti-reverse pad 625 to the tapered surface 632 together with the ring to enable the channel 62], two shutoff unit 622 for block 52, the valve structure is closed and the stop as a delivery material. When the valve seat 60 of the biaxial valve body structure of the present invention is fitted with the diverter 62 of the two flow paths 621, 622, as shown in FIG. 3, the fluid is made from the flow path 621 as a feed flow path. The flow passage 622 is a discharge flow passage; when the feed flow passage is to be closed, the discharge flow passage is also simultaneously closed with the shaft member 50 to avoid fluid backflow; and, as shown in FIG. 5, It is shown that the auxiliary flow passage 62 is further connected with the auxiliary flow passage 623 to communicate with the flow passage 621 for inputting another M415992, so that the auxiliary flow passage 623 and the feed of the flow passage 621 are mixed in the communication passage 611. The flow path 622 is outputted from the flow path 622. Further, as shown in FIG. 6, the flow dividing member 62 is further provided with an auxiliary discharge port 624 communicating with the two flow paths 621, 622, and the flow path 621 and the auxiliary flow path 623. In the present embodiment, the flow passages 621, 622 and the auxiliary flow passage 623 are simultaneously used as the feed flow passages, so that all the feed flows into the communication passage 611 and are mixed and outputted from the auxiliary discharge 624. A dual-shaft valve body structure with multiple uses is achieved. • [Simplified Schematic Description] Fig. 1 is a schematic cross-sectional view showing the state in which the control valve is turned on. Fig. 2 is a schematic cross-sectional view showing the closed state of the control valve. Fig. 3 is a schematic cross-sectional view showing the structure in which the valve body structure is turned on. Fig. 4 is a schematic cross-sectional view showing the closed state of the valve body structure. Fig. 5 is a cross-sectional view showing the structure of another embodiment of the present invention in a conductive state. • Fig. 6 is a cross-sectional view showing the structure of the valve body structure in another embodiment. [Main component symbol description] "Knowledge" Inflow channel 101 Buffer channel 103 Valve seat 11 Port 112 Control valve 10 Outlet channel 102 Void 104 Ring rib 111 11 M415992 Sphere 12 Valve housing 环 Ring flange 132 · Limit Rib 134 "This new type" Piston seat 20 chamber 21] Seat 22 Detection flow path 222 Annular portion 224 Oil seal structure 23 Abutment 232 Piston disk 30 Groove 32 Elastic member 40 Shaft member 50 Actuating end 502 Joint hole 511 Cut-off portion 52 Torus 522 Seat 60 Connecting groove 611 Channel 121 Inlet 131 Outlet 133 Reversing member 14 Housing 21 Inlet 212 Receptacle 221 Air hole 223 Washer 225 Perforation 231 Set slot 31 Abutment 33 Linking end 501 Linkage 51 abutting edge 512 tapered surface 521 elastic member 53 body 61 groove 612

12 M415992

Port 613 Diverter 62 Flow path 622 Auxiliary discharge port 624 Reversing washer 63 Ring cone surface 632 Air pump A Washer 614 Flow path 621 Auxiliary flow path 623 Washer 625 Through hole 631

Claims (1)

M415992 VI. Scope of application: 1 · A double-pumping valve body structure, comprising: - a piston seat having a chamber, opposite ends of the chamber, one end having an air inlet, and the other end being provided a second perforation and an air hole; a piston disk is accommodated in the chamber of the piston seat, the piston plate is correspondingly disposed with two sets of grooves facing the two perforations; and two elastic members, each of the elastic members is in a circle The structure is respectively received in the set of grooves, the end is pressed against the piston disk and is accommodated in the set groove, and the other end is pressed against each of the perforated circumferential sides of the piston seat; It has two ends, and the end is 1 moving end outward η. And the other end is a working end which is outwardly expanded and formed with a cone so that the interlocking end of each of the pieces is accommodated in the set groove of the piston disk, and the shaft body of each of the shaft members is accommodated. In the two perforations, an elastic member is sleeved between the flange and the piston seat; a valve seat 'corresponding to the two perforations provided in the piston seat, having two ends open: two: phase-connected The groove, the other end portion corresponds to the two-shaft member p-flow passage, and the communication groove and each of the flow passages respectively have a through-mouth=pass; so that each of the_pieces is provided with a flange, and the driving end of each of the correcting members is convex The extension is placed in the second flow channel, and the piston disk is connected to the opening of the opening. The distal tapered surface is closed to the opening of the opening, or is opened by the opening of the opening. The dual-axis coffee structure according to the above-mentioned patent application, wherein the piston seat inlet and the air pump are the same. Connected to provide a pneumatic pressure to push the piston disk to act.