CN205475178U - Dive formula ocean static sounding machine - Google Patents

Abstract

The utility model provides a dive formula ocean static sounding machine belongs to the ocean and equips technical field. The not enough problem of penetrating power when it has solved the current continuous injection of static sounding machine. This dive formula ocean static sounding machine, lift by crane structure by what pulley and steel rope constituted with linking firmly including seabed frame on the frame of seabed, it stretches out to the probe rod of seabed frame downside to wear to be equipped with its lower extreme in the frame of seabed, the lower extreme of probe rod is equipped with quiet spy probe, be equipped with the continuous injection hydraulic system who is used for driving probe rod injection or pull -out on the frame of seabed, be equipped with the kelly ware that is used for blocking the probe rod when injection or pull -out on this continuous injection hydraulic system, still be equipped with dive hydraulic control unit and deviational survey and automatically controlled unit on the frame of seabed, injection hydraulic system is connected with this dive hydraulic control unit in succession. The utility model has the advantages of penetrating power and big, the quiet spy penetration depth of pull -out power can reach the engineering design requirement.

Description

Submersible type ocean static contact-detection machine

Technical field

This utility model belongs to marine settings technical field, relates to a kind of submersible type ocean static contact-detection machine, the submersible type ocean static contact-detection machine of a kind of reciprocating oil cylinder formula free of discontinuities.

Background technology

Static cone penetration equipment is the in-situ test equipment that geotechnical engineering investigation is conventional, its test method is at the uniform velocity to be pressed in soil equipped with the contact probe of sensor one inside by the quasi-static(al) of a series of feeler levers, survey suffered resistance of popping one's head in note penetration process, according to the physico-mechanical properties of the penetration resistance size indirect judgement soil recorded simultaneously.Owing to cone penetration test need not sample, the complex site bigger for formation variation and be difficult to obtain the saturated sand of undisturbed soil sample, sandy silt and the prospecting of high sensitivity soft soil layer, there is the superiority of uniqueness, thus use extensively.Cone penetration test result is affected by many factors, including injection speed, injection mode, probe size etc..Traditional injection mode is to use batch (-type) injection mode, process of the test needs, along with the press-in of a feeler lever, another root feeler lever of adjunction that stops, the feeler lever penetrating speed causing process of the test is uneven, discontinuous and unstable, and trial curve form and test data are produced impact.Therefore, continuous penetration type static cone penetration equipment is developed significant for improving test accuracy and enhancement work efficiency.

Such as, Chinese patent discloses a kind of chain drive continuous penetration type static sounding device [application publication number is CN103122604A], comprise bar shaped base, the upper end of this bar shaped base is fixed with base plate, the bottom mirror picture of this base plate is provided with lower sprocket pedestal, it is inserted with, between this lower sprocket pedestal, the lower rotary shaft being rotatably assorted with it, between lower rotary shaft between lower sprocket pedestal, mirror image is cased with lower sprocket, on be fixed with the column of hollow structure, the center of column is provided with feeler lever, feeler lever is provided with two gable plates being socketed with it, gable plate is connected on feeler lever by fixture, upper cover is stamped at the top of column, the top mirror picture of upper cover is fixed with upper sprocket wheel pedestal, the upper rotating shaft being rotatably assorted with it it is inserted with between upper sprocket wheel pedestal.

This chain drive continuous penetration type static sounding device can effectively realize continuous injection and can effectively improve the work efficiency that detection is on-the-spot, effectively prevent and affect the phenomenon of measuring accuracy because of injection interval, the engineering investigation demand of vast coastal area can be met.But owing to it uses chain drive, quiet spy penetrating power to be generally 6t～10t, do not reach the requirement of 20t, can not meet the design requirement of China's engineering investigation.

And for example, Chinese patent discloses a kind of double all-hydraulic continuous injection static contact-detection machine of oil cylinder group [Authorization Notice No. is CN 102116018B], it uses two group oil cylinders to be that decussation divides upper and lower two-layer to be arranged in frame, every group oil cylinder connects firmly together by crossbeam, being provided with oild chuck on crossbeam, the lower section of oil cylinder is equipped with lead limit switch；Feeler lever passes through from the central bore of two oild chucks.It uses double oil cylinder group feeding and automatic changeover control；Double-hydraulic chuck Automatic-clamping and unclamp feeler lever, coordinates the motion of oil cylinder to be automatically obtained the most uninterrupted feeding；Electrohydraulic proportional velocity regulating valve is utilized to realize stable average rate feeding, but owing to this structure hydraulic chuck clamping force is inadequate, and easily produce fault, can not meet the requirement of 20t.Owing to the upper and lower cavity of this oil cylinder is different volume, although with the injection of continuously and smoothly, but can not realize rising of continuously and smoothly and pull out.

And for example, Chinese patent discloses a kind of seabed static sounding penetration device [application publication number CN10251805B], including the pedestal for supporting whole device, feeler lever storehouse, walking mechanism, mechanical hand, earth anchor, base plate, rotate indexing mechanism and hydraulic power supply, base plate is fixed on base plate, rotating shaft and feeler lever frame are positioned at storehouse frame, feeler lever is positioned on feeler lever frame, rotating shaft is fixed on the center of feeler lever frame and feeler lever frame can be driven to rotate, the top of storehouse frame is fixed on by rolling bearing in the top of its shaft, the bottom of rotating shaft is fixed on base plate by rolling bearing, this seabed static sounding penetration device compact conformation, control simple and convenient, use reliable and stable, the feeler inspection technique that auger depth sounding degree is 15m can be realized, it is applicable to seabed static sounding, operation can also be carried out on land.But this structure depth of penetration does not reaches design requirement.

Summary of the invention

The purpose of this utility model is to there are the problems referred to above for existing technology, it is proposed that a kind of penetrating power and pulling force spy depth of penetration big, quiet can reach the submersible type ocean static contact-detection machine of engineering design requirements.

The purpose of this utility model can be realized by following technical proposal:

This submersible type ocean static contact-detection machine, including seabed frame and the hoisting structure being made up of pulley and hawser being fixed on the frame of seabed, it is equipped with its lower end in described seabed frame and extend out to the feeler lever on the downside of the frame of seabed, the lower end of described feeler lever is provided with quiet spy and pops one's head in, it is characterized in that, described seabed frame is provided with for driving feeler lever injection or acting the continuous injection hydraulic system pulled out, this continuous injection hydraulic system be provided with injection or rise pull out time for blocking the jamming rod device of feeler lever, diving hydraulic control unit and deviational survey and ECU it is additionally provided with on described seabed frame, above-mentioned continuous injection hydraulic system is connected with this diving hydraulic control unit.

Diving hydraulic control unit controls the action of continuous injection hydraulic system, by hoisting structure, seabed frame transported undersea appointment position during exploration, whether tilt phenomenon occurs by the signal determining seabed frame of deviational survey with ECU feedback, if run-off the straight, seabed frame is sling after moving to another location and is continued to transport under sea by seabed frame by hoisting structure, after the signal that reacts when deviational survey and ECU is without exception, diving hydraulic control unit control continuous injection hydraulic work system, thus control feeler lever injection or rise pull out.

In above-mentioned submersible type ocean static contact-detection machine, described continuous injection hydraulic system includes that middle part has a upper mounted plate of through hole and middle part has the bottom plate relatively-stationary with upper mounted plate of through hole, above-mentioned feeler lever is vertically located in the through hole of upper mounted plate and the through hole of bottom plate, the upper cylinder group being made up of at least two oil cylinder and the lower oil cylinder group being made up of at least two oil cylinder it is provided with between described upper mounted plate and bottom plate, in described upper cylinder group, the piston rod of all oil cylinders is connected with upper mounted plate, in described lower oil cylinder group, the piston rod of all oil cylinders is connected with bottom plate, above-mentioned jamming rod device is two: one of them is located in upper cylinder group, another is located in lower oil cylinder group.

The through hole of upper mounted plate is oppositely arranged with the through hole of bottom plate, and guarantee feeler lever is vertically located in the middle of both.All oil cylinders synchronous working in upper cylinder group, all oil cylinders synchronous working in lower oil cylinder group, wherein the oil cylinder in upper cylinder group is identical with the structure of oil cylinder in lower oil cylinder group.When injection, upper cylinder group will be greater than decrease speed (penetrating speed) with the rate of climb (lifting speed) of lower oil cylinder group, thus ensures when one of them works, and another can be in ready position in advance.Rise pull out time, principle is identical, but the decrease speed of upper cylinder group and lower oil cylinder group is more than the rate of climb.

In above-mentioned submersible type ocean static contact-detection machine, described upper cylinder group is made up of the oil cylinder of 2-4 uniform setting, and described lower oil cylinder group is made up of the oil cylinder of 2-4 uniform setting.

In above-mentioned submersible type ocean static contact-detection machine, described upper cylinder group is made up of 2 oil cylinders, and described lower oil cylinder group is made up of 2 oil cylinders.

In order at utmost save taking up room of continuous injection hydraulic system, oil cylinder in one of them upper cylinder group is coaxially disposed with the oil cylinder in one of them lower oil cylinder group, the oil cylinder in another upper cylinder group is coaxially disposed with the oil cylinder in another lower oil cylinder group.

In above-mentioned submersible type ocean static contact-detection machine, described oil cylinder includes that two ends have the cylinder body of end cap, the piston rod of oil cylinder is arranged in cylinder body, the two ends of cylinder body are stretched out at the two ends of this piston rod respectively, the middle part of described cylinder body is provided with the piston for the inner chamber of cylinder body is divided into hydraulic cavities one and hydraulic cavities two, one end of described piston rod is provided with the oil-in one connected with hydraulic cavities one, its other end is provided with the oil-in two connected with hydraulic cavities two, and described cylinder body is provided with the oil return opening one connected with hydraulic cavities one and the oil return opening two connected with hydraulic cavities two.

The work process of this oil cylinder is as follows: when fluid enters in hydraulic cavities one from oil-in one, and the fluid being positioned in hydraulic cavities two is through oil return opening two backflow, and in hydraulic cavities one, pressure raises, and hydraulic cavities two pressure reduces, and cylinder body moves along piston rod towards oil-in one；When oil-in two oil-feed, during oil return opening one oil return, cylinder body moves along piston rod towards oil-in two, can control the cylinder body speed along piston rod movement by the size of fuel delivery.

In above-mentioned submersible type ocean static contact-detection machine, in described upper cylinder group, the piston rod upper end of oil cylinder is connected with upper mounted plate, in described lower oil cylinder group, the piston-rod lower end of oil cylinder is connected with bottom plate, it is additionally provided with intermediate plate between described upper mounted plate and bottom plate, in described upper cylinder group, the piston-rod lower end of oil cylinder is connected with intermediate plate, and in described lower oil cylinder group, the upper end of cylinder piston rod is connected with intermediate plate.

In above-mentioned submersible type ocean static contact-detection machine, described seabed frame includes supporting seat, being fixed on the side stand component supported on seat and be connected and the topmast support on side stand component, above-mentioned upper mounted plate is connected with topmast support, bottom plate is connected with supporting seat, and described diving hydraulic control unit and deviational survey are located on support seat with ECU.

Support seat to be used for carrying diving hydraulic control unit and deviational survey and ECU, therefore support seat and be positioned at bottom, the lower end of side stand component is connected with supporting seat by bolt, topmast support is connected with the upper end of side stand component by bolt or welding manner, upper mounted plate is connected with topmast support by bolt, and bottom plate is connected with supporting seat by bolt.

In above-mentioned submersible type ocean static contact-detection machine, described jamming rod device includes the card rod oil cylinder one being located on a cylinder body, be located on another cylinder body card rod oil cylinder two and the connection seat being located between card rod oil cylinder one and card rod oil cylinder two, it is fixed with slips one on the piston rod of described card rod oil cylinder one, the slips two of setting corresponding with slips one it is fixed with on the piston rod of described card rod oil cylinder two, in feeler lever is located in connection seat and between slips one and slips two, described card rod oil cylinder one, card rod oil cylinder two are connected with diving hydraulic control unit.

Diving hydraulic control unit controls card rod oil cylinder one and the action of card rod oil cylinder two, it is achieved slips one and the folding of slips two, thus realizes the clamping to feeler lever or unclamp.

In above-mentioned submersible type ocean static contact-detection machine, the periphery of described support seat is coated with anti-collision rubber bar, and the lower section of described support seat is provided with mud guard.Mud guard can ensure that quiet spy machine is not absorbed in soil when rising and pulling out.

In above-mentioned submersible type ocean static contact-detection machine, described support have between seat and side stand component some be obliquely installed add strong ties post, the middle part of this upper end and side stand component of adding strong ties post is connected, and its lower end is connected with supporting seat.

Compared with prior art, this submersible type ocean static contact-detection machine has the advantage that

By upper cylinder group and lower oil cylinder group mating reaction, reaching injection free of discontinuities or act the purpose pulled out, upper cylinder group is made up of at least 2 oil cylinders, and lower oil cylinder group is also made up of at least 2 oil cylinders, penetrating power and pulling force are big, it is ensured that its quiet spy injection can reach the degree of depth of engineering design requirements.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of preferred embodiment that this utility model provides.

Fig. 2 is the working state figure of a kind of preferred embodiment that this utility model provides.

Fig. 3 is the sectional view of oil cylinder in the continuous injection hydraulic system that this utility model provides.

Fig. 4 is the sectional view of the jamming rod device that this utility model provides.

Fig. 5 is the structural representation of the continuous injection hydraulic system that this utility model provides.

Fig. 6 to 10 is the working state figure of the continuous injection hydraulic system that this utility model provides.

In figure, 1, hoisting structure；21, feeler lever；22, quiet probe；3, jamming rod device；41, diving hydraulic control unit；42, deviational survey and ECU；51, upper mounted plate；52, bottom plate；53, upper cylinder group；54, lower oil cylinder group；55, intermediate plate；61, end cap；62, cylinder body；63, piston rod；64, hydraulic cavities one；65, hydraulic cavities two；66, piston；67, oil-in one；68, oil-in two；71, seat is supported；72, side stand component；73, topmast support；74, anti-collision rubber bar；75, mud guard；76, strong ties post is added；81, card rod oil cylinder one；82, card rod oil cylinder two；83, seat is connected；84, slips one；85, slips two.

Detailed description of the invention

The following is specific embodiment of the utility model and combine accompanying drawing, the technical solution of the utility model is further described, but this utility model is not limited to these embodiments.

Submersible type ocean static contact-detection machine as shown in Figure 1, including seabed frame and the hoisting structure 1 being made up of pulley and hawser being fixed on the frame of seabed, being equipped with its lower end in the frame of seabed and extend out to the feeler lever 21 on the downside of the frame of seabed, the lower end of feeler lever 21 is provided with quiet spy probe 22.As shown in Figure 1, seabed frame is provided with for driving feeler lever 21 injection or acting the continuous injection hydraulic system pulled out, this continuous injection hydraulic system be provided with injection or rise pull out time for blocking the jamming rod device 3 of feeler lever 21, being additionally provided with diving hydraulic control unit 41 and deviational survey and ECU 42 on the frame of seabed, continuous injection hydraulic system is connected with this diving hydraulic control unit 41.

Diving hydraulic control unit 41 controls the action of continuous injection hydraulic system, by hoisting structure 1, seabed frame transported undersea appointment position during exploration, whether tilt phenomenon occurs by the signal determining seabed frame of deviational survey with ECU 42 feedback, if run-off the straight, seabed frame is sling after moving to another location and is continued to transport under sea by seabed frame by hoisting structure 1, after deviational survey is without exception with the signal of ECU 42 reaction, diving hydraulic control unit 41 controls continuous injection hydraulic work system, thus controls the injection of feeler lever 21 or rise and pull out.

As shown in Figure 5, continuously injection hydraulic system includes that middle part has a upper mounted plate 51 of through hole and middle part has the bottom plate relatively-stationary with upper mounted plate 51 52 of through hole, feeler lever 21 is vertically located in the through hole of upper mounted plate 51 and the through hole of bottom plate 52, the upper cylinder group 53 being made up of at least two oil cylinder and the lower oil cylinder group 54 being made up of at least two oil cylinder it is provided with between upper mounted plate 51 and bottom plate 52, in upper cylinder group 53, the piston rod 63 of all oil cylinders is connected with upper mounted plate 51, in lower oil cylinder group 54, the piston rod 63 of all oil cylinders is connected with bottom plate 52, jamming rod device 3 is two: one of them is located in upper cylinder group 53, another is located in lower oil cylinder group 54.The through hole of upper mounted plate 51 is oppositely arranged with the through hole of bottom plate 52, and guarantee feeler lever 21 is vertically located in the middle of both.All oil cylinders synchronous working in upper cylinder group 53, all oil cylinders synchronous working in lower oil cylinder group 54, wherein the oil cylinder in upper cylinder group 53 is identical with the structure of oil cylinder in lower oil cylinder group 54.

Concrete, as it is shown in figure 5, upper cylinder group 53 is made up of 2 oil cylinders, lower oil cylinder group 54 is made up of 2 oil cylinders.In order at utmost save taking up room of continuous injection hydraulic system, oil cylinder in one of them upper cylinder group 53 is coaxially disposed with the oil cylinder in one of them lower oil cylinder group 54, the oil cylinder in another upper cylinder group 53 is coaxially disposed with the oil cylinder in another lower oil cylinder group 54.

As shown in Figure 3, oil cylinder includes that two ends have the cylinder body 62 of end cap 61, the piston rod 63 of oil cylinder is arranged in cylinder body 62, the two ends of cylinder body 62 are stretched out at the two ends of this piston rod 63 respectively, the middle part of cylinder body 62 is provided with the piston 66 for the inner chamber of cylinder body 62 is divided into hydraulic cavities 1 and hydraulic cavities 2 65, one end of piston rod 63 is provided with the oil-in 1 connected with hydraulic cavities 1, its other end is provided with the oil-in 2 68 connected with hydraulic cavities 2 65, and cylinder body 62 is provided with the oil return opening one connected with hydraulic cavities 1 and the oil return opening two connected with hydraulic cavities 2 65.

The work process of this oil cylinder is as follows: when fluid enters in hydraulic cavities 1 from oil-in 1, the fluid being positioned in hydraulic cavities 2 65 is through oil return opening two backflow, in hydraulic cavities 1, pressure raises, and hydraulic cavities 2 65 pressure reduces, and cylinder body 62 moves along piston rod 63 towards oil-in 1；When oil-in 2 68 oil-feed, during oil return opening one oil return, cylinder body 62 moves along piston rod 63 towards oil-in 2 68, can control, by the size of fuel delivery, the speed that cylinder body 62 moves along piston rod 63.

As shown in Figure 5, in upper cylinder group 53, piston rod 63 upper end of oil cylinder is connected with upper mounted plate 51, in lower oil cylinder group 54, piston rod 63 lower end of oil cylinder is connected with bottom plate 52, intermediate plate 55 it is additionally provided with between upper mounted plate 51 and bottom plate 52, in upper cylinder group 53, piston rod 63 lower end of oil cylinder is connected with intermediate plate 55, and in lower oil cylinder group 54, the upper end of cylinder piston rod 63 is connected with intermediate plate 55.

As shown in Figure 1, seabed frame includes supporting seat 71, being fixed on the side stand component 72 supported on seat 71 and be connected and the topmast support 73 on side stand component 72, upper mounted plate 51 is connected with topmast support 73, bottom plate 52 is connected with supporting seat 71, and diving hydraulic control unit 41 and deviational survey are located on support seat 71 with ECU 42.Support seat 71 to be used for carrying diving hydraulic control unit 41 and deviational survey and ECU 42, therefore support seat 71 and be positioned at bottom, the lower end of side stand component 72 is connected with supporting seat 71 by bolt, topmast support 73 is connected with the upper end of side stand component 72 by bolt or welding manner, upper mounted plate 51 is connected with topmast support 73 by bolt, and bottom plate 52 is connected with supporting seat 71 by bolt.

As shown in Figure 4, jamming rod device 3 includes the card rod oil cylinder 1 being located on a cylinder body 62, the card rod oil cylinder 2 82 being located on another cylinder body 62 and the connection seat 83 being located between card rod oil cylinder 1 and card rod oil cylinder 2 82, slips 1 it is fixed with on the piston rod of card rod oil cylinder 1, the slips 2 85 of setting corresponding with slips 1 it is fixed with on the piston rod of card rod oil cylinder 2 82, in feeler lever 21 is located in connection seat 83 and between slips 1 and slips 2 85, card rod oil cylinder 1, card rod oil cylinder 2 82 are connected with diving hydraulic control unit 41.Diving hydraulic control unit 41 controls card rod oil cylinder 1 and the action of card rod oil cylinder 2 82, it is achieved slips 1 and the folding of slips 2 85, thus realizes the clamping to feeler lever 21 or unclamp.

As it is shown in figure 1, the periphery supporting seat 71 is coated with anti-collision rubber bar 74, the lower section supporting seat 71 is provided with mud guard 75, and mud guard 75 can ensure that quiet spy machine is not absorbed in soil when rising and pulling out.As it is shown in figure 1, support have between seat 71 and side stand component 72 some be obliquely installed add strong ties post 76, the middle part of this upper end and side stand component 72 of adding strong ties post 76 is connected, and its lower end is connected with supporting seat 71.

As shown in Figure 2, aboard ship with loop wheel machine, the static contact-detection machine connecting part feeler lever 21 being sunk in the sea at leisure, then limit connects feeler lever 21 limit and sinks, and connects the feeler lever 21 of corresponding length according to engine request and carries out wave resistance and fix, sink to seabed through perpendicularity correct after, start the injection of quiet spy feeler lever 21.During initial position, in upper cylinder group 53, the cylinder body 62 of all oil cylinders is in extreme lower position, and in lower oil cylinder group 54, the cylinder body 62 of all oil cylinders is in extreme higher position, jamming rod device 3 clamping feeler lever 21, down injection when working initial.

The jamming rod device 3 being positioned in upper cylinder group 53 loosens and along with the cylinder body 62 of upper cylinder group 53 moves upward with the speed of 2.2 ms/min, the jamming rod device 3 clamping feeler lever 21 that is positioned in lower oil cylinder group 54 also moves downward with the speed of 1.2 ms/min with the cylinder body 62 of lower oil cylinder group 54, as shown in Figure 6, the jamming rod device 3 being positioned in upper cylinder group 53 first arrives stroke summit and awaits orders.

As shown in Figure 7, when the jamming rod device 3 being positioned in lower oil cylinder group 54 moves to the 95% of total kilometres, (total kilometres are 400mm, then arrive 380mm when it), the jamming rod device 3 being positioned in upper cylinder group 53 clamping feeler lever 21 immediately, and along with the cylinder body 62 the most down injection of upper cylinder group 53.After 20 millimeters of strokes, the jamming rod device 3 being positioned in lower oil cylinder group 54 arrives summit under stroke, is unclamped by feeler lever 21 immediately, and moves upward, and as shown in Figure 8, is returned to original position and awaits orders.

The jamming rod device 3 being positioned in upper cylinder group 53 continues down injection, the jamming rod device 3 clamping feeler lever 21 immediately in the lower oil cylinder group 54 awaited orders when away from original position 20mm, as it is shown in figure 9, and injection together with the cylinder body 62 of upper cylinder group 53.

Reach original position when the jamming rod device 3 being positioned in upper cylinder group 53 covers 20mm, unclamped feeler lever 21 immediately, returned to extreme higher position and await orders, as shown in Figure 10.

Repeat the job step of Fig. 6-Figure 10 later, form reciprocating injection free of discontinuities, on the contrary feeler lever 21 act that to pull out state be also such.

Specific embodiment described herein is only to this utility model spirit explanation for example.Described specific embodiment can be made various amendment or supplements or use similar mode to substitute by this utility model person of ordinary skill in the field, but without departing from spirit of the present utility model or surmount scope defined in appended claims.

Claims (10)

1. a submersible type ocean static contact-detection machine, including seabed frame and the hoisting structure (1) being made up of pulley and hawser being fixed on the frame of seabed, it is equipped with its lower end in described seabed frame and extend out to the feeler lever (21) on the downside of the frame of seabed, the lower end of described feeler lever (21) is provided with quiet spy and pops one's head in (22), it is characterized in that, described seabed frame is provided with for driving feeler lever (21) injection or acting the continuous injection hydraulic system pulled out, this continuous injection hydraulic system be provided with injection or rise pull out time for blocking the jamming rod device (3) of feeler lever (21), diving hydraulic control unit (41) and deviational survey and ECU (42) it is additionally provided with on described seabed frame, above-mentioned continuous injection hydraulic system is connected with this diving hydraulic control unit (41).

nullSubmersible type ocean the most according to claim 1 static contact-detection machine，It is characterized in that，Described continuous injection hydraulic system includes that middle part has a upper mounted plate (51) of through hole and middle part has a through hole and upper mounted plate (51) relatively-stationary bottom plate (52)，Above-mentioned feeler lever (21) is vertically located in the through hole of upper mounted plate (51) and the through hole of bottom plate (52)，The upper cylinder group (53) being made up of at least two oil cylinder and the lower oil cylinder group (54) being made up of at least two oil cylinder it is provided with between described upper mounted plate (51) and bottom plate (52)，In described upper cylinder group (53), the piston rod (63) of all oil cylinders is connected with upper mounted plate (51)，In described lower oil cylinder group (54), the piston rod (63) of all oil cylinders is connected with bottom plate (52)，Above-mentioned jamming rod device (3) is two: one of them is located in upper cylinder group (53)，Another is located on lower oil cylinder group (54).

Submersible type ocean the most according to claim 2 static contact-detection machine, it is characterised in that described upper cylinder group (53) is made up of the oil cylinder of 2-4 uniform setting, described lower oil cylinder group (54) is made up of the oil cylinder of 2-4 uniform setting.

Submersible type ocean the most according to claim 3 static contact-detection machine, it is characterised in that described upper cylinder group (53) is made up of 2 oil cylinders, described lower oil cylinder group (54) is made up of 2 oil cylinders.

Submersible type ocean the most according to claim 4 static contact-detection machine, it is characterized in that, described oil cylinder includes that two ends have the cylinder body (62) of end cap (61), piston rod (63) is arranged in cylinder body (62), the two ends of cylinder body (62) are stretched out at the two ends of this piston rod (63) respectively, the middle part of described cylinder body (62) is provided with the piston (66) for the inner chamber of cylinder body (62) is divided into hydraulic cavities one (64) and hydraulic cavities two (65), one end of described piston rod (63) is provided with the oil-in one (67) connected with hydraulic cavities one (64), its other end is provided with the oil-in two (68) connected with hydraulic cavities two (65), described cylinder body (62) is provided with the oil return opening one connected with hydraulic cavities one (64) and the oil return opening two connected with hydraulic cavities two (65).

Submersible type ocean the most according to claim 5 static contact-detection machine, it is characterized in that, in described upper cylinder group (53), piston rod (63) upper end of oil cylinder is connected with upper mounted plate (51), in described lower oil cylinder group (54), piston rod (63) lower end of oil cylinder is connected with bottom plate (52), it is additionally provided with intermediate plate (55) between described upper mounted plate (51) and bottom plate (52), in described upper cylinder group (53), piston rod (63) lower end of oil cylinder is connected with intermediate plate (55), in described lower oil cylinder group (54), the upper end of cylinder piston rod (63) is connected with intermediate plate (55).

Submersible type ocean the most according to claim 2 static contact-detection machine, it is characterized in that, described seabed frame includes supporting seat (71), being fixed on the side stand component (72) supported on seat (71) and be connected and the topmast support (73) on side stand component (72), above-mentioned upper mounted plate (51) is connected with topmast support (73), bottom plate (52) is connected with supporting seat (71), and described diving hydraulic control unit (41) and deviational survey are located in support seat (71) with ECU (42).

nullSubmersible type ocean the most according to claim 5 static contact-detection machine，It is characterized in that，Described jamming rod device (3) includes the card rod oil cylinder one (81) being located on a cylinder body (62)、The card rod oil cylinder two (82) being located on another cylinder body (62) and the connection seat (83) being located between card rod oil cylinder one (81) and card rod oil cylinder two (82)，It is fixed with slips one (84) on the piston rod of described card rod oil cylinder one (81)，It is fixed with on the piston rod of described card rod oil cylinder two (82) and the slips two (85) of the corresponding setting of slips one (84)，Feeler lever (21) is located in connecting seat (83) and is positioned between slips one (84) and slips two (85)，Described card rod oil cylinder one (81)、Card rod oil cylinder two (82) is connected with diving hydraulic control unit (41).

Submersible type ocean the most according to claim 7 static contact-detection machine, it is characterised in that the periphery of described support seat (71) is coated with anti-collision rubber bar (74), the lower section of described support seat (71) is provided with mud guard (75).

Submersible type ocean the most according to claim 7 static contact-detection machine, it is characterized in that, have between described support seat (71) and side stand component (72) some be obliquely installed add strong ties post (76), the middle part of this upper end and side stand component (72) of adding strong ties post (76) is connected, and its lower end is connected with supporting seat (71).