CN210729593U - Manual experiment platform for designing cement cleaning equipment inside submarine tubular pile - Google Patents
Manual experiment platform for designing cement cleaning equipment inside submarine tubular pile Download PDFInfo
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- CN210729593U CN210729593U CN201921093242.4U CN201921093242U CN210729593U CN 210729593 U CN210729593 U CN 210729593U CN 201921093242 U CN201921093242 U CN 201921093242U CN 210729593 U CN210729593 U CN 210729593U
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Abstract
The utility model relates to a manual experiment platform for designing inside cement clean-up equipment of tubular pile in seabed, including main frame, leading wheel, moving frame connect vice, moving frame handle, remove about, guiding axle, dolly guide block, steel sheet dolly, swivel bearing, twist grip, briquetting, shower nozzle connecting plate, adjusting screw, fixed steel sheet, steel pipe, through around manual, control and rotatory twist grip, can realize the rotatory removal cutting action of high pressure water shower nozzle. The beneficial effects of the utility model are that, simple structure, reliable operation, manually operation device can not receive the restriction of motor rotational speed, and the adjustment is easy, conveniently carries out high pressure water jet pressure adjustment experiment. The simulation of the working environment of the equipment can be completed, and the measurement and collection of experimental data are convenient.
Description
Technical Field
The utility model relates to a manual experiment platform for designing inside cement clean-up equipment of tubular pile in seabed, the effect that accurate assessment equipment cleared away cement provides accurate data basis to the global design and the site operation of equipment.
Background
Cement is often filled in the marine platform pipe pile to reinforce the firmness of the pipe pile so that the pipe pile can be kept stable on a stable seabed. In the platform dismantling process, the cement in the seabed pipe pile is generally required to be removed completely, and then the in-pile cutting operation can be performed. At present, no mature mechanical equipment is available for completing the crushing and removing work of the cement in the pile, and the effect of removing the cement by high-pressure water and the setting of equipment parameters need accurate data foundation. The accurate evaluation of the effect of the equipment on removing cement is of great significance to the overall design and the field construction of the equipment. Therefore, the development of an experimental platform for automatic cleaning equipment of cement in the submarine tubular pile is of great significance.
Disclosure of Invention
In view of the needs of job site, the utility model provides a manual experiment platform for designing the inside cement clean-up equipment of submarine tubular pile, the design parameter that carries out clean-up equipment to the inside cement of tubular pile accomplishes the experiment and verifies. The concrete technical scheme is, a manual experiment platform for designing inside cement clean-up equipment of tubular pile in seabed, including main frame, leading wheel, moving frame connect vice, moving frame handle, remove about, guiding axle, dolly guide block, steel sheet dolly, swivel bearing, twist grip, briquetting, shower nozzle connecting plate, adjusting screw, fixed steel sheet, steel pipe, its characterized in that: the device comprises two movable frame handles, two left-right moving guide shafts and a rectangular movable frame, wherein guide wheels are arranged at four corners of the rectangular movable frame through a movable frame connecting pair and are arranged on the upper end surface of the main frame, the guide wheels rotate back and forth along guide grooves on two sides of the main frame, a trolley guide block is fixed on the lower end surface of a steel plate trolley, the trolley guide block is arranged on the left-right moving guide shafts, the steel plate trolley can move left and right along the left-right moving guide shafts, a rotary bearing is fixed in a central fixed hole of the steel plate trolley, the central shaft of the rotary handle is fixedly penetrated in the rotary bearing, a spray head connecting plate and a fixed steel plate are fixed together in parallel through four adjusting screws, a central shaft of the rotary handle is fixed with; when the device is used, the high-pressure water nozzle is fixed on the spray head connecting plate and is connected with the high-pressure water pump through the high-pressure water pipe.
The beneficial effects of the utility model are that, simple structure, reliable operation, can accomplish equipment operational environment simulation, make things convenient for experimental data to measure and collect.
Drawings
FIG. 1 is a perspective view of the present invention;
fig. 2 is an exploded view of the present invention;
fig. 3 is a usage state diagram of the present invention.
Detailed Description
As shown in figures 1 and 2, the manual experiment platform for designing the cement cleaning equipment in the submarine tubular pile comprises a main frame 1, guide wheels 2, a movable frame connecting pair 3, a movable frame handle 4, a left-right moving guide shaft 5, a trolley guide block 6, a steel plate trolley 7, a rotary bearing 8, a rotary handle 9, a pressing block 10, a nozzle connecting plate 11, an adjusting screw 12, a fixed steel plate 13 and a steel pipe 14, two movable frame handles 4, two left-right moving guide shafts 5 and a rectangular movable frame, wherein the guide wheels 2 are arranged at four corners of the rectangular movable frame through the movable frame connecting pair 3 and are arranged on the upper end surface of the main frame 1, the guide wheels 2 rotate back and forth along guide grooves 1-1 at two sides of the main frame 1, the trolley guide block 6 is fixed on the lower end surface of the steel plate trolley 7, the trolley guide block 6 is arranged on the left-right moving guide shaft 5, and the steel plate trolley, a rotary bearing 8 is fixed in a central fixing hole of the steel plate trolley 7, a rotary handle 9 is fixed in the rotary bearing 8 in a penetrating mode through a central shaft, a spray head connecting plate 11 and a fixed steel plate 13 are fixed together in parallel through four adjusting screw rods 12, the central shaft of the rotary handle 9 is fixed with the top end center of the fixed steel plate 13 through a steel pipe 14, and a pressing block 10 is fixed on the periphery of the central hole on the bottom end face of the spray head connecting plate 11.
As shown in fig. 3, when the device is used, the nozzle connecting plate 11 is connected with a high-pressure nozzle and is connected with a high-pressure water pump through a high-pressure water pipe 15, a manual experiment platform for designing cement cleaning equipment inside the submarine tubular pile is integrally fixed on a water tank 16 after a cement sample is placed, water is added into the water tank 16 until the high-pressure water nozzle is submerged, and a high-pressure water underwater operation environment is completely simulated. The handle 4 is moved back and forth to drive the moving frame connecting pair 3, the left and right moving guide shaft 5, the trolley guide block 6, the steel plate trolley 7, the steel pipe 14, the fixed steel plate 13, the nozzle connecting steel plate 11, the pressing block 10 and the nozzle to move back and forth along the guide rail 1, so that the high-pressure water nozzle can move back and forth above the cement sample block. The left-right moving handle 9 drives the steel pipe 14, the rotary bearing 8, the steel plate trolley 7, the fixed steel plate 13, the adjusting screw 12 and the nozzle connecting steel plate 11 to drive the trolley guide block 6, the nozzle moves left and right along the left-right direction, the guide shaft 5 moves left and right, and the high-pressure water nozzle can move left and right above the cement sample block. The rotary handle 9 drives the steel pipe 14, the rotary bearing 8, the fixed steel plate 13, the adjusting screw 12, the nozzle connecting steel plate 11, the high-pressure water nozzle and the pressing block 10 to be connected together, and can rotate together around the axis of the rotary bearing along with the handle 9, so that the rotary cutting action of the high-pressure water nozzle can be realized.
The manual operation device can not be limited by the rotating speed of the motor, is easy to adjust, and is convenient for performing a pressure adjustment test of the high-pressure water nozzle.
Claims (1)
1. The utility model provides a manual experiment platform for designing inside cement clean-up equipment of tubular pile in seabed, includes main frame (1), leading wheel (2), moves frame connection pair (3), moves frame handle (4), removes movable shaft guide (5), dolly guide block (6), steel sheet dolly (7), swivel bearing (8), twist grip (9), briquetting (10), shower nozzle connecting plate (11), adjusting screw (12), fixed steel sheet (13), steel pipe (14), its characterized in that: two moving frame handles (4), two left-right moving guide shafts (5) and fixed into a rectangular moving frame, guide wheels (2) are arranged at four corners of the rectangular moving frame through a moving frame connecting pair (3) and are arranged on the upper end surface of the main frame (1) to enable the guide wheels (2) to rotate front and back along guide grooves (1-1) at two sides of the main frame (1), a trolley guide block (6) is fixed on the lower end surface of a steel plate trolley (7), the trolley guide block (6) is arranged on the left-right moving guide shafts (5) to enable the steel plate trolley (7) to move left and right along the left-right moving guide shafts (5), a rotating bearing (8) is fixed in a center fixing hole of the steel plate trolley (7), a center shaft of a rotating handle (9) penetrates through and is fixed in the rotating bearing (8), a spray head connecting plate (11) and a fixed steel plate (13) are fixed together in parallel by four adjusting screw rods (12), and the center shaft The bottom end face of the spray head connecting plate (11) is fixed with a pressing block (10) around the central hole, and when the spray head connecting plate is used, the high-pressure water nozzle is fixed on the spray head connecting plate (11) and is connected with the high-pressure water pump through the high-pressure water pipe.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921093242.4U CN210729593U (en) | 2019-07-12 | 2019-07-12 | Manual experiment platform for designing cement cleaning equipment inside submarine tubular pile |
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CN201921093242.4U CN210729593U (en) | 2019-07-12 | 2019-07-12 | Manual experiment platform for designing cement cleaning equipment inside submarine tubular pile |
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CN210729593U true CN210729593U (en) | 2020-06-12 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112371891A (en) * | 2020-10-19 | 2021-02-19 | 哈尔滨工业大学 | Semi-solid thixoforging device for 2A14 aluminum alloy thin-wall high-rib deep-cavity shell part and application method |
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2019
- 2019-07-12 CN CN201921093242.4U patent/CN210729593U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112371891A (en) * | 2020-10-19 | 2021-02-19 | 哈尔滨工业大学 | Semi-solid thixoforging device for 2A14 aluminum alloy thin-wall high-rib deep-cavity shell part and application method |
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