CN216815878U - Regulating valve body submerged type automatic air tightness testing device - Google Patents
Regulating valve body submerged type automatic air tightness testing device Download PDFInfo
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- CN216815878U CN216815878U CN202220233174.2U CN202220233174U CN216815878U CN 216815878 U CN216815878 U CN 216815878U CN 202220233174 U CN202220233174 U CN 202220233174U CN 216815878 U CN216815878 U CN 216815878U
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Abstract
The utility model relates to a submerged type automatic air tightness testing device for a regulating valve body. The device comprises a clamping mechanism, a plugging mechanism, a lifting mechanism and a centering mechanism, wherein the clamping mechanism comprises a fixed platform, a movable platform, a telescopic oil cylinder assembly and a tool assembly, the tool assembly is arranged on the movable platform, and the telescopic oil cylinder assembly is used for driving the movable platform to move back and forth along the fixed platform; the plugging mechanism comprises a left jacking component, a right jacking component and an upper jacking component, wherein the left jacking component and the right jacking component are arranged on the left side and the right side of the tool component; the lifting mechanism is used for driving the fixed platform and the plugging mechanism to lift; and the left tightening component and the right tightening component are driven by the centering mechanism to lift. The utility model realizes rapid feeding, improves the accuracy of test results by carrying out automatic control on the whole processes of sealing surface plugging, medium flushing, pressurization and the like, is simple and convenient to operate, and can greatly improve the production efficiency.
Description
Technical Field
The utility model relates to the technical field of testing, in particular to a submerged type automatic air tightness testing device for a regulating valve body.
Background
Along with the rapid development of automation application, the regulating valve is also widely applied in the chemical field and the instrument industry, and the air tightness test of a valve body part by a regulating valve manufacturing enterprise meets the capacity bottleneck.
According to the traditional pressure test mode, a universal pressure test machine is adopted to be matched with a tool blind plate for plugging and pressurizing, soapy water is sprayed on the surface of a part, and whether the quality of a blank is qualified or not is judged in a mode of visually observing whether bubbles are raised or not. The labor-intensive manufacturing mode which is based on the accumulation of the number of devices and the centralized configuration of personnel has high cost and low efficiency, the accuracy of a detection result is difficult to ensure, and the product quality has great hidden danger.
Disclosure of Invention
Therefore, the utility model aims to solve the technical problems of high cost, low efficiency and low test precision in the mode of testing the air tightness of the regulating valve by matching a pressure testing machine with a tool blind plate in the prior art.
In order to solve the technical problem, the utility model provides a submerged type automatic air tightness testing device for a regulating valve body, which comprises an equipment main body; the device main body is provided with a lifting mechanism, a clamping mechanism, a plugging mechanism, a centering mechanism, a hydraulic system, a pneumatic system and an electric control system;
the clamping mechanism is fixedly connected with the lifting mechanism into a whole through a fixed platform; the centering mechanism is arranged on a gantry base of the plugging mechanism through a fixing plate;
the plugging mechanism comprises a plurality of tightly-propping oil cylinder assemblies and a tightly-propping blind plate, and the hydraulic system controls the plurality of tightly-propping oil cylinder assemblies to synchronously act; the pneumatic system is a gas circuit and control accessory combined system which introduces an external industrial gas source into a tightly-pushing blind plate of the plugging mechanism in the equipment; the electric control system is an electric system integration which realizes the lifting, clamping and centering actions of all mechanisms through a hydraulic system, performs on-off control on an air source introduced into the equipment and monitors the running state of the equipment through a sensor.
In an embodiment of the utility model, the clamping mechanism comprises a fixed platform, a movable platform, a telescopic oil cylinder assembly and a tool assembly, wherein the tool assembly is arranged on the movable platform and used for a tool for detecting the valve body to be detected, and the telescopic oil cylinder assembly is used for driving the movable platform to move back and forth along the fixed platform.
In one embodiment of the utility model, the plugging mechanism comprises a left tightening assembly, a right tightening assembly and an upper tightening assembly, wherein the left tightening assembly and the right tightening assembly are arranged on the left side and the right side of the tool assembly, the upper tightening assembly is arranged above the tool assembly, the left tightening assembly and the right tightening assembly respectively comprise a first tightening oil cylinder assembly, a first tightening blind plate connected with the first tightening oil cylinder assembly, and a sealing element arranged on the first tightening blind plate, and the first tightening blind plate is provided with an air vent; the upper tightening assembly comprises a second tightening oil cylinder assembly, a second tightening blind plate connected with the second tightening oil cylinder assembly, and a sealing plate arranged on the second tightening blind plate.
In an embodiment of the present invention, the telescopic cylinder assembly is mounted on a fixed platform, and a driving end of the telescopic cylinder assembly is connected with a movable platform.
In one embodiment of the utility model, the tool assembly comprises two V-shaped tool plates, and both the two V-shaped tool plates are fixed on the moving platform through threaded fasteners.
In an embodiment of the present invention, the lifting mechanism includes a lifting cylinder assembly, and a bearing bracket connected to a driving end of the lifting cylinder assembly, and the fixed platform is connected to the bearing bracket.
In an embodiment of the utility model, the gantry base is connected with the bearing support, and the first tightening cylinder assembly and the second tightening cylinder assembly are both mounted on the gantry base.
In one embodiment of the utility model, the seal is an O-ring seal.
In one embodiment of the utility model, the centering mechanism comprises an adjusting oil cylinder assembly, a traction pull rope, a bearing pair and a movable plate;
the movable plate is movably connected to the gantry base up and down;
the adjustable oil cylinder assembly and the bearing pair are mounted on the gantry base, the movable plate is connected with the adjustable oil cylinder assembly through the bearing pair and the traction pull rope, and the movable plate is driven to move up and down through the telescopic action of the adjustable oil cylinder assembly.
In one embodiment of the present invention, the sealing plate is a circular plate, and the material of the sealing plate is nylon.
Compared with the prior art, the technical scheme of the utility model has the following advantages:
according to the submerged type automatic air tightness testing device for the valve body of the regulating valve, quick feeding of a moving platform provided with the valve body to be tested can be achieved through the clamping mechanism, the valve body to be tested can be lifted and submerged through the lifting mechanism, automatic control of the whole processes of sealing surface plugging, medium flushing, pressurization and the like can be carried out through the plugging mechanism, the accuracy of a testing result is effectively improved through a submerged bubble detection mode, the operation is simple and convenient, and the production efficiency can be greatly improved.
Drawings
In order that the present disclosure may be more readily and clearly understood, reference is now made to the following detailed description of the embodiments of the present disclosure taken in conjunction with the accompanying drawings, in which
FIG. 1 is a schematic view of the overall structure of the submerged air tightness automatic testing device of the regulating valve body of the utility model.
FIG. 2 is a front view of the main body of the apparatus of the present invention.
FIG. 3 is a top view of the clamping mechanism of the device of the present invention.
Fig. 4 is a front view of the occlusion mechanism of the device of the present invention.
FIG. 5 is a schematic view of the lifting mechanism of the device of the present invention.
Fig. 6 is a schematic structural view of a centering mechanism of the device of the present invention.
FIG. 7 is a front view of the valve body clamp of the device of the present invention.
FIG. 8 is a front view of a regulator valve body of the apparatus of the present invention.
Fig. 9 is a hydraulic schematic of the apparatus of the present invention.
Fig. 10 is an electrical schematic of the device of the present invention.
The specification reference numbers indicate: 1. an apparatus main body; 11. carbon steel plate; 12. standard section bars; 2. a clamping mechanism; 21. fixing the platform; 22. a mobile platform; 23. a telescopic cylinder assembly; 24. a tooling assembly; 3. a plugging mechanism; 31. a left puller assembly; 311. a first tight-jacking cylinder assembly; 312. a first tightly-jacking blind plate; 313. a seal member; 32. a right puller component; 33. an upper jacking component; 331. the second tight-jacking oil cylinder assembly; 332. the second tightly-propping blind plate; 333. a sealing plate; 34. a gantry base; 4. a lifting mechanism; 41. a mounting substrate; 42. a lift cylinder assembly; 43. a load bearing support; 5. a centering mechanism; 51. adjusting the oil cylinder assembly; 52. a pull cord; 53. a bearing pair; 54. a movable plate; 6. a valve body to be detected; 71. an oil tank; 72. an overflow valve; 73. an oil pump motor; 74. the left and right jacking oil cylinder electromagnetic valves are tightly pressed; 75. the oil cylinders are tightly propped left and right; 76. adjusting an oil cylinder electromagnetic valve; 77. adjusting the oil cylinder; 78. tightly jacking the oil cylinder electromagnetic valve; 79. tightly jacking the oil cylinder; 710. a rack lifting electromagnetic valve; 711. a frame lift cylinder; 712. a platform moving electromagnetic valve; 713. the platform moves the hydro-cylinder.
Detailed Description
The present invention is further described below in conjunction with the drawings and the embodiments so that those skilled in the art can better understand the present invention and can carry out the present invention, but the embodiments are not to be construed as limiting the present invention.
Referring to fig. 1 to 8, the submerged air tightness automatic testing device for the regulating valve body of the utility model comprises an equipment main body 1; the device main body 1 is provided with a lifting mechanism 4, a clamping mechanism 2, a plugging mechanism 3, a centering mechanism 5, a hydraulic system, a pneumatic system and an electric control system;
the clamping mechanism 2 is fixedly connected with the lifting mechanism 4 into a whole through a fixed platform 21; the centering mechanism 5 is arranged on a gantry base 34 of the plugging mechanism 3 through a fixing plate;
the plugging mechanism 3 comprises a plurality of tightly-propping oil cylinder assemblies and a tightly-propping blind plate, and the hydraulic system controls the plurality of tightly-propping oil cylinder assemblies to synchronously act; the pneumatic system is a gas circuit and control accessory combined system which introduces an external industrial gas source into a tightly-supported blind plate of the plugging mechanism 3 in the equipment; the electric control system is an electric system integration which realizes the lifting, clamping and centering actions of all mechanisms through a hydraulic system, performs on-off control on an air source introduced into the equipment and monitors the running state of the equipment through a sensor.
Specifically, the clamping mechanism 2 comprises a fixed platform 21, a movable platform 22, a telescopic oil cylinder assembly 23 and a tool assembly 24, wherein the tool assembly 24 is arranged on the movable platform 22 and used for a tool of the valve body 6 to be detected, and the telescopic oil cylinder assembly 23 is used for driving the movable platform 22 to move back and forth along the fixed platform 21.
Specifically, the plugging mechanism 3 comprises a left tightly-pushing assembly 31 and a right tightly-pushing assembly 32 which are arranged on the left side and the right side of the tool assembly 24, and an upper tightly-pushing assembly 33 which is arranged above the tool assembly 24, wherein each of the left tightly-pushing assembly 31 and the right tightly-pushing assembly 32 comprises a first tightly-pushing cylinder assembly 311, a first tightly-pushing blind plate 312 connected with the first tightly-pushing cylinder assembly 311, and a sealing member 313 mounted on the first tightly-pushing blind plate 312, and the first tightly-pushing blind plate 312 is provided with an air hole; the upper pressing assembly 33 comprises a second pressing cylinder assembly 331, a second pressing blind plate 332 connected with the second pressing cylinder assembly 331, and a sealing plate 333 mounted on the second pressing blind plate 332.
Specifically, the device main body 1 is a welded structural member manufactured by a carbon steel plate 11 and a standard profile 12, is used for bearing various internal mechanical structures, and is placed on the ground of a working area.
Specifically, the telescopic cylinder assembly 23 is mounted on the fixed platform 21, a driving end of the telescopic cylinder assembly 23 is connected with the moving platform 22, and the moving platform 22 is pushed to move forward or backward relative to the fixed platform 21 by the action of the telescopic cylinder.
Specifically, the tooling assembly 24 includes two V-shaped tooling plates that are each secured to the moving platform 22 by threaded fasteners.
Specifically, elevating system 4 includes mounting substrate 41, lift cylinder assembly 42, bears the support 43 with the drive end of lift cylinder assembly 42 links to each other, fixed platform 21 links to each other with bearing the support 43, mounting substrate 41 is the mounting plate that standard steel preparation formed, is connected to equipment main body 1 through standard threaded fastener, and lift cylinder assembly 42 is connected to mounting substrate 41 through standard threaded fastener, drives through the action of lift cylinder assembly 42 and bears support 43 up-and-down motion.
Specifically, the plugging mechanism 3 further includes a gantry base 34, the gantry base 34 is connected with the bearing support 43, and the first tightening cylinder assembly 311 and the second tightening cylinder assembly 331 are both mounted on the gantry base 34.
Specifically, the sealing element 313 is an O-shaped sealing ring, and is mounted on the left and right abutting blind plates through the compression amount of the O-shaped sealing ring; the sealing plate 333 is a circular plate, and the sealing plate 333 is made of nylon.
Specifically, the centering mechanism 5 comprises an adjusting oil cylinder 77 assembly 51, a traction rope 52, a bearing pair 53 and a movable plate 54; the first jacking oil cylinder assembly 311 is mounted on the gantry base 34 through a movable plate 54, and the movable plate 54 is movably connected to the gantry base 34 up and down; the adjusting oil cylinder 77 assembly 51 and the bearing pair 53 are mounted on the gantry base 34, the movable plate 54 is connected with the adjusting oil cylinder 77 assembly 51 through the bearing pair 53 and the traction rope 52, and the movable plate 54 is driven to move up and down through the telescopic action of the adjusting oil cylinder 77 assembly 51. Through the arrangement, the jacking oil cylinder assembly is further driven to realize centering in the height direction.
Specifically, the hydraulic system is provided with various hydraulic component assemblies which are matched for meeting the actions of the clamping mechanism 2, the plugging mechanism 3, the lifting mechanism 4, the centering mechanism 5 and the like; a hydraulic integration device which is set for each mechanism action; the hydraulic system controls the left and right jacking oil cylinders 75 to synchronously act; the pneumatic system is provided with various pneumatic component assemblies for meeting the requirement of gas consumption in the testing process; an external industrial gas source is introduced into a gas path and control accessory combined system of a left and right tightly-pushing blind plate in the equipment; the electric control system is provided with various electric component assemblies for satisfying the execution of control command signals of a hydraulic system and a pneumatic system, performs on-off control on an air source introduced into the equipment for realizing the actions of lifting, clamping, centering and the like of various mechanisms through the hydraulic system, and is integrated with the electric system for monitoring the running state of the equipment through a sensor; the electric control system realizes the actions of lifting, clamping, centering and the like of each mechanism through a hydraulic system, and performs on-off control on an air source introduced into the equipment; the electric control system monitors the running state of the equipment through a sensor; the electric control system realizes the cooperative work of the actions of all mechanisms and the opening and closing of the air source through an internal logic program, and ensures the safe operation.
Through the arrangement, the clamping mechanism 2 can realize quick loading of the movable platform 22 provided with the valve body 6 to be detected, the left jacking component 31 and the right jacking component 32 realize sealing of the valve body to be detected through the sealing piece 313, the upper jacking component 33 realizes sealing of the valve body to be detected through the sealing plate 333, and medium flushing and pressurization are carried out through the vent hole of the first jacking blind plate 312. The valve body 6 to be detected can be lifted and sunk by the lifting mechanism 4, and the whole process of sealing surface plugging, medium flushing, pressurization and the like can be automatically controlled by the plugging mechanism 3.
Fig. 9 shows a hydraulic schematic diagram of a submerged air tightness automatic testing device for a valve body of a regulating valve. The hydraulic lifting device comprises an oil tank 71, an overflow valve 72, an oil pump motor 73, left and right jacking oil cylinder electromagnetic valves 74, left and right jacking oil cylinders 75, an adjusting oil cylinder electromagnetic valve 76, an adjusting oil cylinder 77, an upper jacking oil cylinder electromagnetic valve 78, an upper jacking oil cylinder 79, a rack lifting electromagnetic valve 710, a rack lifting oil cylinder 711, a platform moving electromagnetic valve 712 and a platform moving oil cylinder 713.
The oil tank 71 stores hydraulic oil.
The relief valve 72 can regulate the oil pressure output from the tank to prevent the oil pressure from becoming excessive.
The oil pump motor 73 drives hydraulic oil to operate the oil cylinder.
The left and right jacking oil cylinder electromagnetic valves 74 control the left and right jacking oil cylinders 75 to jack up or release; the adjusting oil cylinder solenoid valve 76 controls an adjusting oil cylinder 77; the upper jacking oil cylinder electromagnetic valve 78 controls the upper jacking oil cylinder 79 to jack up or release; the frame lifting electromagnetic valve 710 controls the frame lifting oil cylinder 711 to ascend or descend; the stage moving solenoid valve 712 controls the stage moving cylinder 713 to move in or out.
Fig. 10 shows an electrical schematic diagram of a submerged type automatic airtightness testing device for a regulating valve body, which comprises an oil pump loop, a control power supply and indication loop, an oil pump and cooler starting and stopping loop, an oil pressure unloading loop, left and right jacking cylinder control loops, an adjusting cylinder control loop, an upper jacking cylinder control loop, a rack lifting control loop and a platform movement control loop.
The oil pump loop is composed of a three-phase motor (M1), a thermal relay (FR 1), an alternating current contactor (KM 1) and a breaker (QF 1). The three-phase motor (M1) drives the oil pump to provide pressure for the whole loop, and the thermal relay (FR 1) cuts off the circuit when the main loop is overloaded, so that overload protection is provided for the three-phase motor (M1). The switch (QF 1) has the function of cutting off, the breaker (QF 1) is switched on, the control circuit enables the coil of the alternating current contactor (KM 1) to be electrified, the main contact (KM 1) of the alternating current contactor is pulled in, and the three-phase motor (M1) is started.
The control power supply and indication circuit consists of a breaker (QF 2), a fuse (FU 1), a power supply starting switch (SA 1), an emergency stop button (SB 0) and an indicator lamp (HL 0). Wherein the power starting switch (SA 1) is provided with a key; the emergency stop button (SB 0) is normally in a normally closed state, and when the button is pressed down in an emergency state, the control loop is powered off; the fuse (FU 1) can be fused when the control loop is over-current or short-circuited, so that the circuit is protected; the indicator lamp (HL 0) is a power indicator lamp, and the control circuit displays when electrified and extinguishes when power is lost.
The oil pump and cooler start and stop loop is composed of an oil pump start button (SB 1), an oil pump stop button (SB 2), an oil pump relay (YA 0), an alternating current contactor auxiliary contact (KM 1), a cooler (M4), an oil pump start indicator lamp (HL 1) and an oil pump stop indicator lamp (HL 2). The AC contactor auxiliary contact (KM 1) is closed when the AC contactor is electrified, the oil pump starting button (SB 1) controls an oil pump relay (YA 0) to electrify an AC contactor coil, and an oil pump is started; an oil pump stop button (SB 2) stops the oil pump; further, when the oil pump start button (SB 1) is pressed, the oil pump start indicator lamp (HL 1) is lit, and the cooler (M4) starts to operate. When the oil pump stop button (SB 2) is pressed, the oil pump start indicator lamp (HL 2) is turned off, and the oil pump stop indicator lamp (HL 4) is turned on.
Oil pump oil pressure off-load return circuit is by oil pressure off-load change over switch (SA 2), the tight button in tight hydro-cylinder top (SB 3) is pushed up about, push up tight hydro-cylinder and relax button (SB 4) about, rise button (SB 5), decline button (SB 6), go up the tight button in hydro-cylinder top (SB 7) of top, go up the tight hydro-cylinder of top and relax button (SB 8), the ascending button of frame (SB 9), frame decline button (SB 10), platform immigration button (SB 11), platform shift out button (SB 11) and constitute. Wherein the oil pressure unloading changeover switch (SA 2) is pressed to unload the oil pressure. The other buttons are in a normally closed state, normally closed contacts of the buttons are connected to the control circuits in series, and when the button contacts of each control circuit are closed, the corresponding button contacts of the oil pressure unloading circuit are disconnected.
The left and right jacking oil cylinder control loop consists of a left and right jacking oil cylinder jacking button (SB 3), a left and right jacking oil cylinder releasing button (SB 4), an oil cylinder jacking relay (YA 3) and an oil cylinder releasing relay (YA 4). Wherein press about tight hydro-cylinder top tight button (SB 3) of top, hydro-cylinder top tight relay (YA 3) gets electricity for about tight hydro-cylinder pressure boost top tight valve body of top, press about tight hydro-cylinder of top loose button (SB 4), hydro-cylinder release relay (YA 4) gets electricity, make about tight hydro-cylinder pressure release of top relax.
The control loop of the adjusting oil cylinder consists of an ascending button (SB 5), a descending button (SB 6), an ascending relay (YA 5) and a descending relay (YA 6). Wherein, the rising button (SB 5) is pressed, the rising relay (YA 5) is electrified, so that the left and right propping blind plates are controlled by the adjusting oil cylinder to rise, and the falling button (SB 6) is pressed, the falling relay (YA 6) is electrified, so that the left and right propping blind plates are controlled by the adjusting oil cylinder to fall.
The upper tightly-jacking oil cylinder consists of an upper tightly-jacking oil cylinder jacking button (SB 7), an upper tightly-jacking oil cylinder releasing button (SB 8), an oil cylinder jacking relay (YA 7) and an oil cylinder releasing relay (YA 8). Wherein press down and go up tight hydro-cylinder top tight button (SB 7), hydro-cylinder top tight relay (YA 7) gets electric for go up the tight hydro-cylinder top tight valve body of top, press down and go up tight hydro-cylinder and loosen button (SB 8), hydro-cylinder loosens relay (YA 8) and gets electric, makes and go up the tight hydro-cylinder of top and loosen.
The rack lifting control loop is composed of a rack lifting button (SB 9), a rack descending button (SB 10), a lifting relay (YA 9) and a descending relay (YA 10). Wherein, when a rack ascending button (SB 9) is pressed, an ascending relay (YA 9) is electrified to control the ascending of the rack, and when a rack descending button (SB 10) is pressed, a descending relay (YA 10) is electrified to control the descending of the rack.
The platform movement control loop consists of a platform moving-in button (SB 11), a platform moving-out button (SB 12), a platform moving-in relay (YA 11) and a platform moving-out relay (YA 12). Wherein, the platform moving-in button (SB 11) is pressed, the platform moving-in relay (YA 11) is electrified, the platform moves in, the platform moving-out button (SB 12) is pressed, the platform moving-out relay (YA 12) is electrified, and the platform moves out.
Finally, it should be noted that the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention is described in detail with reference to examples, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.
Claims (10)
1. A regulating valve body submerged air tightness automatic testing device comprises an equipment main body (1); the device is characterized in that a lifting mechanism (4), a clamping mechanism (2), a plugging mechanism (3), a centering mechanism (5), a hydraulic system, a pneumatic system and an electric control system are arranged on the device main body (1);
the clamping mechanism (2) is fixedly connected with the lifting mechanism (4) into a whole through a fixed platform (21); the centering mechanism (5) is arranged on a gantry base (34) of the plugging mechanism (3) through a fixing plate;
the plugging mechanism (3) comprises a plurality of tightly-propping oil cylinder assemblies and a tightly-propping blind plate, and the hydraulic system controls the plurality of tightly-propping oil cylinder assemblies to synchronously act; the pneumatic system is a gas circuit and control accessory combined system which introduces an external industrial gas source into a tightly-supported blind plate of the plugging mechanism (3) in the equipment; the electric control system is integrated by an electric system which realizes the lifting, clamping and centering actions of all mechanisms through a hydraulic system, performs on-off control on an air source introduced into the equipment and monitors the running state of the equipment through a sensor.
2. The submerged type automatic testing device for the air tightness of the valve body of the regulating valve as claimed in claim 1, wherein: the clamping mechanism (2) comprises a fixed platform (21), a moving platform (22), a telescopic oil cylinder assembly (23) and a tool assembly (24), wherein the tool assembly (24) is arranged on the moving platform (22) and used for a tool of the valve body (6) to be detected, and the telescopic oil cylinder assembly (23) is used for driving the moving platform (22) to move back and forth along the fixed platform (21).
3. The submerged type automatic testing device for the air tightness of the valve body of the regulating valve as claimed in claim 1, wherein: the plugging mechanism (3) comprises a left tightly-jacking assembly (31) and a right tightly-jacking assembly (32) which are arranged on the left side and the right side of the tool assembly (24) and an upper tightly-jacking assembly (33) which is arranged above the tool assembly (24), the left tightly-jacking assembly (31) and the right tightly-jacking assembly (32) respectively comprise a first tightly-jacking oil cylinder assembly (311), a first tightly-jacking blind plate (312) connected with the first tightly-jacking oil cylinder assembly (311) and a sealing element (313) installed on the first tightly-jacking blind plate (312), and the first tightly-jacking blind plate (312) is provided with an air vent; the upper tightly-jacking assembly (33) comprises a second tightly-jacking oil cylinder assembly (331), a second tightly-jacking blind plate (332) connected with the second tightly-jacking oil cylinder assembly (331), and a sealing plate (333) installed on the second tightly-jacking blind plate (332).
4. The submerged type automatic testing device for the air tightness of the valve body of the regulating valve as claimed in claim 2, wherein: the telescopic oil cylinder assembly (23) is installed on the fixed platform (21), and the driving end of the telescopic oil cylinder assembly (23) is connected with the moving platform (22).
5. The submerged type automatic testing device for the air tightness of the valve body of the regulating valve as claimed in claim 2, wherein: the tool assembly (24) comprises two V-shaped tool plates, and the two V-shaped tool plates are fixed on the moving platform (22) through threaded fasteners.
6. The submerged type automatic testing device for the air tightness of the valve body of the regulating valve according to claim 1 or 2, which is characterized in that: the lifting mechanism (4) comprises a lifting oil cylinder assembly (42) and a bearing support (43) connected with the driving end of the lifting oil cylinder assembly (42), and the fixed platform (21) is connected with the bearing support (43); the gantry base (34) is connected with a bearing bracket (43).
7. The submerged type automatic testing device for the air tightness of the valve body of the regulating valve according to claim 1 or 3, which is characterized in that: the first tightly-jacking oil cylinder assembly (311) and the second tightly-jacking oil cylinder assembly (331) are both installed on the gantry base (34).
8. The submerged type automatic testing device for the air tightness of the valve body of the regulating valve as claimed in claim 3, wherein: the sealing element (313) is an O-shaped sealing ring.
9. The submerged type automatic testing device for the air tightness of the valve body of the regulating valve as claimed in claim 1, wherein: the centering mechanism (5) comprises an adjusting oil cylinder assembly (51), a traction pull rope (52), a bearing pair (53) and a movable plate (54);
the movable plate (54) is movably connected to the gantry base (34) up and down;
the adjusting oil cylinder assembly (51) and the bearing pair (53) are mounted on the gantry base (34), the movable plate (54) is connected with the adjusting oil cylinder assembly (51) through the bearing pair (53) and the traction pull rope (52), and the movable plate (54) is driven to move up and down through the telescopic action of the adjusting oil cylinder assembly (51).
10. The submerged type automatic testing device for the air tightness of the valve body of the regulating valve as claimed in claim 3, wherein: the sealing plate (333) is a circular plate, and the sealing plate (333) is made of nylon.
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CN114414158A (en) * | 2022-01-27 | 2022-04-29 | 无锡智能自控工程股份有限公司 | Regulating valve body submerged type automatic air tightness testing device |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN114414158A (en) * | 2022-01-27 | 2022-04-29 | 无锡智能自控工程股份有限公司 | Regulating valve body submerged type automatic air tightness testing device |
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