CN114635984A

CN114635984A - Stable push-down stop valve

Info

Publication number: CN114635984A
Application number: CN202210277011.9A
Authority: CN
Inventors: 韩昱; 王麒雄; 安德春; 黄博远; 邓博远; 郭琰林; 滕远; 范德利; 高子钰; 韩尚; 董家宇; 韩栋
Original assignee: Jiangsu Jiangyuan Machinery Co ltd
Current assignee: Jiangsu Jiangyuan Machinery Co ltd
Priority date: 2022-03-21
Filing date: 2022-03-21
Publication date: 2022-06-17
Anticipated expiration: 2042-03-21
Also published as: CN114635984B

Abstract

The invention relates to the field of petroleum valves, in particular to a stable downward-pressing stop valve. The utility model provides a stabilize formula stop valve that pushes down, includes the valve body to and set up the valve clack of control stop valve switching in the valve body, and be four arcs of annular setting on the valve clack. The valve flap comprises a valve flap body and is characterized by further comprising ten fonts arranged on the lower side of the valve flap body, wherein the ten fonts are connected with the four arc-shaped plates. The valve body is characterized by further comprising a flat partition plate, an inclined partition plate II and an inclined partition plate I, wherein the inclined partition plate II and the inclined partition plate I are arranged on the left side and the right side of the flat partition plate respectively, the left side of the inclined partition plate II and the left side of the inclined partition plate I are inclined downwards, and the flat partition plate, the inclined partition plate II and the inclined partition plate I are arranged in the valve body and divide the valve body into two spaces. Still including setting up the awl section of thick bamboo on the flat separator, the valve clack setting is in the upside of awl section of thick bamboo, and the vertical sliding connection of four arcs is on a awl section of thick bamboo. The press-down closing can be stabilized.

Description

Stable push-down stop valve

Technical Field

The invention relates to the field of petroleum valves, in particular to a stable downward-pressing stop valve.

Background

The opening and closing part of the stop valve is a plug-shaped valve clack, the upper surface of the seal is a plane or a sea cone surface, and the valve clack moves linearly along the central line of the valve seat. The movement form of the valve rod, also a lifting rotating rod type, can be used for controlling the flow of various types of fluid such as air, water, steam, various corrosive media, slurry, oil products, liquid metal, radioactive media and the like. When the transmission stop valve presses down for sealing, if the transmission stop valve is unstable during movement, the situation of poor sealing can occur.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the stable downward-pressing stop valve which has the beneficial effect that the stop valve can be closed stably by downward pressing.

The utility model provides a stabilize formula stop valve that pushes down, includes the valve body to and set up the valve clack of control stop valve switching in the valve body, and be four arcs of annular setting on the valve clack.

The valve flap comprises a valve flap body and is characterized by further comprising ten fonts arranged on the lower side of the valve flap body, wherein the ten fonts are connected with the four arc-shaped plates.

The valve body is characterized by further comprising a flat partition plate, an inclined partition plate II and an inclined partition plate I, wherein the inclined partition plate II and the inclined partition plate I are arranged on the left side and the right side of the flat partition plate respectively, the left side of the inclined partition plate II and the left side of the inclined partition plate I are inclined downwards, and the flat partition plate, the inclined partition plate II and the inclined partition plate I are arranged in the valve body and divide the valve body into two spaces.

Still including setting up the awl section of thick bamboo on the flat separator, the valve clack setting is in the upside of awl section of thick bamboo, and the vertical sliding connection of four arcs is on a awl section of thick bamboo.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first schematic structural view of a stable push-down stop valve;

FIG. 2 is a second schematic structural view of a stable push-down stop valve;

FIG. 3 is a third schematic structural view of a stable push-down stop valve;

FIG. 4 is a first schematic structural diagram of a valve body;

FIG. 5 is a second schematic structural view of the valve body;

FIG. 6 is a first schematic view of the valve flap;

FIG. 7 is a second schematic view of the structure of the valve flap;

FIG. 8 is a first schematic structural view of the cap, the valve stem and the cross-post;

fig. 9 is a structural schematic diagram two of the cap, the valve stem and the cross post.

In the figure: a valve body 101; an upper barrel 102; a swash plate I103; a buffer rib 104; a flat partition plate 105; a cone 106; a swash plate II 107; concentric annular ribs 108;

a valve flap 201; a guide bar 202; a fixed barrel 203; an arcuate plate 204; ten fonts 205;

a cap 301; an insert barrel 302; a conduit 303;

a valve stem 401; a baffle plate 402; a gate 403; a rotor 404; threads 405; a handwheel 406;

a cross post 501; a wafer 502; a plug 503; a spring rod 504; a fixed seat 505; a telescoping rod 506; a track rod 507; an L-shaped stop 508; a plunger 509.

Detailed Description

As shown in fig. 1-9, this example solves the problem of ensuring the tightness of the shut-off valve,

the utility model provides a stabilize formula stop valve that pushes down, includes valve body 101 to and set up the valve clack 201 of control stop valve switching in valve body 101, and be four arcs 204 of annular setting on valve clack 201. Valve clack 201 can be vertical slip on valve body 101, and then control opening and closing of stop valve, because be provided with four arcs 204 on the valve clack 201, four arcs 204 can guarantee that valve clack 201 slides from top to bottom through four arcs 204 are stable, and then makes the stable push down of stop valve sealed, guarantees that the stop valve is sealed tight.

As shown in fig. 1-9, this example solves the problem of not deforming the four arcuate plates 204,

the stable push-down stop valve further comprises a cross-shaped body 205 arranged on the lower side of the valve clack 201, and the cross-shaped body 205 is connected with the four arc-shaped plates 204. Ten fonts 205 can be connected with four arc-shaped plates 204 and the valve body 101 into a whole, so that the ten fonts 205, the four arc-shaped plates 204 and the valve body 101 are stably fixed together, the four arc-shaped plates 204 cannot deform, and the stability of the valve clack 201 in pressing down is further improved.

As shown in fig. 1 to 9, this example solves the problem of dividing the valve body 101 into two spaces,

the stable push-down stop valve further comprises a flat partition plate 105, and an inclined partition plate II107 and an inclined partition plate I103 which are respectively arranged on the left side and the right side of the flat partition plate 105, wherein the left sides of the inclined partition plate II107 and the left sides of the inclined partition plate I103 are inclined downwards, and the flat partition plate 105, the inclined partition plate II107 and the inclined partition plate I103 are arranged in the valve body 101 and divide the valve body 101 into two spaces. The valve flap 201 is vertically slid on the flat partition 105 to control the closing of the stop valve, the stop valve is closed when the valve flap 201 is pressed down on the flat partition 105, and the liquid flows from the right side of the valve body 101 to the left side of the valve body 101, namely the liquid flows from the space on the right side of the valve body 101 to the space on the left side of the valve body 101.

As shown in fig. 1-9, this example solves the problem of lifting the sealing effect between the flap 201 and the cone 106,

the stable push-down stop valve further comprises a conical cylinder 106 arranged on the flat partition plate 105, the valve clack 201 is arranged on the upper side of the conical cylinder 106, and the four arc-shaped plates 204 are vertically connected to the conical cylinder 106 in a sliding mode. The valve clack 201 is the back taper, and awl section of thick bamboo 106 is the cylindric of back taper, presses the valve clack 201 of back taper on the cylindric awl section of thick bamboo 106 of back taper and has promoted the sealed effect between valve clack 201 and the awl section of thick bamboo 106 to the valve clack 201 presses the power of a awl section of thick bamboo 106 big more, and sealed effect is better, and the pressure of the liquid that the stop valve can bear is big more.

As shown in fig. 1-9, this example solves the problem of increasing the strength of the swash plate II107 and I103,

the stable push-down stop valve further comprises a plurality of buffer ribs 104 arranged on the right side of the inclined partition plate II107 and the inclined partition plate I103. The plurality of buffer ribs 104 can muffle the sound of the liquid flow when the liquid in the right space of the valve body 101 flows through, and enhance the strength of the inclined partition plate II107 and the inclined partition plate I103.

As shown in fig. 1 to 9, this example solves the problem of preventing damage to the valve body 101 caused by excessive impact to the valve body 101,

the stable push-down stop valve further comprises a concentric ring ridge 108 arranged in the valve body 101 and above the inclined partition plate II 107. When the valve is just opened, liquid flows from the lower side of the conical cylinder 106 to the upper side of the conical cylinder 106, and the flushed liquid is buffered by the concentric annular ribs 108, so that the valve body 101 is prevented from being damaged due to excessive impact on the valve body 101.

As shown in fig. 1-9, this example addresses the problem of facilitating inspection or repair of the interior of the valve body 101,

the stable push-down stop valve further comprises an upper barrel 102 arranged in the middle of the upper side of the valve body 101, and a cover cap 301 screwed on the upper barrel 102. The cap 301 is detachable from the upper cylinder 102, and the inside of the valve body 101 can be easily observed or repaired after the upper cylinder 102 is detached.

As shown in fig. 1-9, this example solves the problem of controlling the valve flap 201 to move up and down,

the stable push-down stop valve further comprises a fixed cylinder 203 arranged on the upper side of the valve clack 201, a valve rod 401 rotatably connected to the cover cap 301, a rotating sheet 404 fixed to the lower end of the valve rod 401, the rotating sheet 404 is rotatably connected to the fixed cylinder 203, a door-shaped part 403 fixedly connected to the upper side of the valve clack 201, the door-shaped part 403 is blocked above the rotating sheet 404, and the valve rod 401 penetrates through the rotating sheet 404. When the valve rod 401 moves up and down, the flap piece 404 can drive the door-shaped part 403 and the valve clack 201 to move up and down, and further control the valve clack 201 to move up and down, and when the valve rod 401 rotates by taking the axis of the valve rod 401 as the axis, the flap piece 404 is driven to rotate, and the flap piece 404 can rotate by taking the axis of the valve rod 401 as the axis in the fixed cylinder 203.

As shown in fig. 1-9, this example addresses the problem of stability when the poppet flap 201 is depressed,

the stable push-down stop valve further comprises two guide rods 202 arranged on the upper side of the valve clack 201 and two guide pipes 303 arranged on the lower side of the cap 301, and the two guide pipes 303 are respectively connected with the two guide rods 202 in a sliding mode. The valve clack 201 drives the two guide rods 202 to lift when moving up and down, the two guide rods 202 can vertically slide on the two guide pipes 303, and therefore the valve clack 201 is kept vertical when moving vertically, and the stability of the valve clack 201 when pressing down is improved.

As shown in fig. 1-9, this example solves the problem of precisely controlling the opening and closing of the shut-off valve by means of threads 405,

stabilize formula stop valve down, still including setting up the screw thread 405 in valve rod 401 middle part to and set up the stull 501 in block 301 upside, valve rod 401 cooperatees with stull 501 through the screw thread. When driving valve rod 401 uses the axis of self to rotate as the axle, because the setting of screw thread 405 for valve rod 401 reciprocates relative spreader 501, and then through the switching of screw thread 405 accurate control stop valve, and screw thread 405 can guarantee that valve rod 401 can the auto-lock, makes the position of screw thread 405 fixed easily.

The stable downward-pressing stop valve further comprises a blocking piece 402, a hand wheel 406, a wafer 502, an inserting column 503, a spring rod 504, a fixing seat 505, an expansion link 506, a track rod 507, an L-shaped blocking piece 508 and an inserting rod 509, wherein the upper side of the cap 301 is fixedly connected with two inserting cylinders 302, the lower side of the cross column 501 is fixedly connected with two inserting rods 509, the two inserting rods 509 are respectively connected to the two inserting cylinders 302 in a sliding manner, the fixing seat 505 is fixedly connected to the upper side of the valve body 101, the upper side of the fixing seat 505 is fixedly connected with the spring rod 504, the left part of the cross column 501 is vertically connected to the spring rod 504 in a sliding manner, the upper side of the spring rod 504 is fixedly connected with the wafer 502, a compression spring is sleeved on the spring rod 504 and arranged between the cross column 501 and the wafer 502, the left part of the cross column 501 is inserted with the inserting column 503, the inserting column 503 can be inserted in the middle part of the spring rod 504, the expansion link 506 is fixedly connected to the upper side of the fixing seat 505, and the expansion link 506 is positioned below the cross column 501, a blocking piece 402 is arranged at the upper end of the thread 405 on the valve rod 401, the track rod 507 is fixedly connected to the right end of the cross column 501, the L-shaped blocking piece 508 is slidably connected to the cross column 501, the L-shaped blocking piece 508 can be slidably blocked at the upper side of the blocking piece 402, a fastening screw is in threaded connection with the L-shaped blocking piece 508, the fastening screw can be pressed on the track rod 507 to fix the L-shaped blocking piece 508 on the track rod 507, and the hand wheel 406 is fixed at the upper end of the valve rod 401.

When the inserting column 503 is inserted on the spring rod 504, the cross column 501 is fixed on the spring rod 504, and then the hand wheel 406 is screwed to drive the valve rod 401 to rotate, so that the opening and closing of the stop valve can be accurately controlled through the thread 405; when the valve is rapidly controlled to be opened and closed by hand, the L-shaped stopper 508 is moved leftwards on the track rod 507, so that the L-shaped stopper 508 is pressed on the upper side of the baffle 402, at this time, the relative position between the valve rod 401 and the cross column 501 is fixed, at this time, the plug column 503 is pulled out to contact with the fixation between the cross column 501 and the spring rod 504, so that the cross column 501 can vertically slide on the spring rod 504, the compression spring on the spring rod 504 gives the downward pressing force to the cross column 501, so that the cross column 501 drives the valve rod 401 and the valve flap 201 to move downwards, the valve flap 201 is pressed on the conical cylinder 106 to close the valve, at this time, when the telescopic rod 506 is driven to extend, the cross column 501 can be pushed upwards, so that the cross column 501 moves upwards, the valve flap 201 is rapidly opened by extending the telescopic rod 506, but the mode of rapidly opening the valve flap 201 causes the pressure born by the valve to be insufficient, and the valve can be used when the valve needs to be rapidly opened.

Claims

1. The utility model provides a stabilize formula stop valve that pushes down which characterized in that: including valve body (101) to and set up valve clack (201) of control stop valve switching in valve body (101), and be four arc (204) that the annular set up on valve clack (201).

2. A stable push-down stop valve as defined in claim 1, wherein: the valve flap comprises a valve flap (201) and is characterized by further comprising a ten-character style (205) arranged on the lower side of the valve flap, wherein the cross-shaped body (205) is connected with four arc-shaped plates (204).

3. A stable push-down stop valve as defined in claim 1, wherein: the valve body is characterized by further comprising a flat partition plate (105), an inclined partition plate II (107) and an inclined partition plate I (103) which are respectively arranged on the left side and the right side of the flat partition plate (105), the left sides of the inclined partition plate II (107) and the left sides of the inclined partition plate I (103) are inclined downwards, and the flat partition plate (105), the inclined partition plate II (107) and the inclined partition plate I (103) are arranged in the valve body (101) and divide the valve body (101) into two spaces.

4. A stable push-down stop valve as defined in claim 3, wherein: the valve flap is characterized by further comprising a conical cylinder (106) arranged on the flat partition plate (105), the valve flap (201) is arranged on the upper side of the conical cylinder (106), and the four arc-shaped plates (204) are vertically connected to the conical cylinder (106) in a sliding mode.

5. A stable push-down stop valve as defined in claim 3, wherein: the buffer device also comprises a plurality of buffer ribs (104) arranged on the right sides of the inclined partition plates II (107) and the inclined partition plates I (103).

6. A stable push-down stop valve as defined in claim 3, wherein: the valve also comprises a concentric ring edge (108) which is arranged in the valve body (101) and is arranged above the inclined partition plate II (107).

7. A stabilising push-down shut-off valve according to claim 4, wherein: the valve also comprises an upper barrel (102) arranged in the middle of the upper side of the valve body (101) and a cover cap (301) connected to the upper barrel (102) through screws.

8. A stable push-down stop valve as defined in claim 7, wherein: the valve is characterized by further comprising a fixed cylinder (203) arranged on the upper side of the valve clack (201), a valve rod (401) rotatably connected onto the cover cap (301), a rotating piece (404) fixed to the lower end of the valve rod (401), the rotating piece (404) is rotatably connected onto the fixed cylinder (203), a door-shaped piece (403) fixedly connected to the upper side of the valve clack (201), the door-shaped piece (403) is blocked above the rotating piece (404), and the valve rod (401) penetrates through the rotating piece (404).

9. A stable push-down stop valve as defined in claim 8, wherein: the valve further comprises two guide rods (202) arranged on the upper side of the valve clack (201) and two guide pipes (303) arranged on the lower side of the cover cap (301), wherein the two guide pipes (303) are respectively connected with the two guide rods (202) in a sliding mode.

10. A stable push-down stop valve as defined in claim 9, wherein: the valve rod (401) is matched with the transverse column (501) through threads.