CN108357632A - A kind of anchor structure of detection tsunami - Google Patents

Abstract

The invention discloses a kind of anchor structures of detection tsunami, including anchor pole, the lower end of the anchor pole is internally provided with cavity, and the first threaded rod is equipped in the cavity, the upside outer wall of first threaded rod connects together with axle sleeve, and the axle sleeve runs through the lower end outer wall of anchor pole.The anchor structure of the detection tsunami, when being impacted by seawater, since the outer wall of bearing is connected with the inner wall of sleeve, the inner wall of bearing is connected with the outer wall of cage plate, and sliding block can only slide on vertical slide bar, anchor fluke and the first threaded rod is then realized to move up and down relative to anchor pole rotation and vertical direction by bearing, effectively avoid the phenomenon that anchor fluke is wound during storage or release by the impact of seawater, rope or chain is set to remain that the state loosened is shunk, avoid the fracture and be damaged that rope or chain generate when in use, improve the practicability of safety and device that anchor fluke uses.

Description

A kind of anchor structure of detection tsunami

Technical field

The present invention relates to tsunami detection technique field, specially a kind of anchor structure of detection tsunami.

Background technology

Tsunami is exactly the destructive wave generated by submarine earthquake, volcano eruption, submarine landslide or meteorological variation, tsunami Velocity of wave is up to 700~800 km per hour, can cross ocean within a few hours；Wavelength can be propagated several up to several hundred kilometers Thousand kilometers and energy loss very little, often bring destructive disaster, tsunami is mainly by sea-floor relief, seashore to coastal cities The control of thread geometry and wave characteristics, the wave ice wall to whistle are just repeated once every several minutes or dozens of minutes, are destroyed Embankment floods land, seizes lives and properties, and destructive power is very big, with the development of science and technology, people can accomplish for The monitoring that part tsunami occurs can play the role of early warning before tsunami occurs for land personnel, and people are common with height The anchor of sensitivity detection device, underwater are monitored, although the prior art can accomplish the real-time prison for part tsunami Purpose is surveyed, but during being stored to anchor fluke, since the contact area of anchor fluke and seawater is relatively large, is tended to It is intertwined by the impulse force of seawater and the rope of anchor fluke or chain, the fracture of rope or chain is even caused when serious, Form security risk.

Invention content

The purpose of the present invention is to provide a kind of anchor structures of detection tsunami, to solve to propose in above-mentioned background technology The problem of.

To achieve the above object, the present invention provides the following technical solutions：A kind of anchor structure of detection tsunami, including anchor Bar, the lower end of the anchor pole are internally provided with cavity, are equipped with the first threaded rod in the cavity, outside the upside of first threaded rod Wall connects together with axle sleeve, and the axle sleeve runs through the lower end outer wall of anchor pole, and the outer wall of the axle sleeve is connected with anchor pole, the set The upper end of plate is equipped with rubber pad, is interference fitted between the upper end outer wall and cage plate of first threaded rod, outside the cage plate Wall is connected with the inner wall of bearing, and the outer wall of the bearing is connected with the inner wall of sleeve, and the left and right ends of the sleeve pass through company Bar is connected with one end of sliding block, and the sliding block is connected with slide bar activity clamping, and the upper and lower ends of the slide bar are interior with cavity Wall is connected, and is threadedly coupled with the first thread barrel outside the lower end of first threaded rod, and anchor fluke is run through in first thread barrel part Center on the upside of, first thread barrel is connected with anchor fluke, and the upper end of first thread barrel is equipped with bottom plate, the bottom plate and First threaded rod connects together, and the upper end of the bottom plate is connected with the lower end of spring, the lower surface left and right ends of the bottom plate It is connected with the upper center of anchor fluke by cushion block, the spring connects together with the first threaded rod, the upper end of the spring It is connected with the lower end of anchor pole, the outside of first threaded rod is equipped with bottom cylinder, the lower end of the bottom cylinder and the center upside of anchor fluke It is connected, the upside of the bottom cylinder on the downside of the first groove and anchor pole by being connected together.

Preferably, it is equipped with the second groove at left and right sides of the lower end of the anchor pole, handle, institute are equipped in second groove The side and the inner wall of the second groove for stating handle overlap, and one end of the handle is equipped with the second threaded rod, and described By through-hole, anchor pole is run through in part to two threaded rods respectively, second threaded rod by through-hole through the outer wall of bottom cylinder, described the One end outer wall of two threaded rods is threadedly coupled with the second thread barrel, and anchor pole, second spiral shell are run through in second thread barrel part Line cylinder is connected with anchor pole.

Preferably, the lower surface left and right ends of the bottom plate are connected by cushion block with the upper center of anchor fluke.

Preferably, outer wall is mounted on the first lateral mass, the lower end of first lateral mass at left and right sides of the lower end of the bottom cylinder It is connected with the upper center of anchor fluke.

Preferably, the upper end inner wall center of the cavity is equipped with baffle.

Preferably, the upper end side of the slide bar is equipped with the second lateral mass, the upper end of second lateral mass and cavity it is interior Wall is connected.

Preferably, one end outer wall of the connecting rod is equipped with sole piece, and one end of the sole piece is connected with sleeve.

Preferably, one end inner wall of second thread barrel is equipped with gasket.

Preferably, the anchor is internally provided with tsunami detection device, tsunami detection device include infrared sensor monitoring, Shock sensor and instruction circuit control sender unit.

Compared with prior art, the beneficial effects of the invention are as follows：The anchor structure of the detection tsunami, by pulling down anchor Pawl, anchor fluke drive bottom cylinder to move down, and leak out a fixed gap between bottom cylinder and anchor pole, directly make the first threaded rod not by external force Rotate, then the first threaded rod can be relatively rotated and be unloaded with the first thread barrel in anchor fluke, keep anchor fluke easily stored or Repair and replace, while when being impacted by seawater, due to the outer wall of bearing is connected with the inner wall of sleeve, the inner wall of bearing and The outer wall of cage plate is connected, and sliding block can only slide on vertical slide bar, then realize anchor fluke and the first threaded rod passes through axis It holds and is moved up and down relative to anchor pole rotation and vertical direction, effectively avoid anchor fluke during storage or release by sea The phenomenon that impact winding of water, makes rope or chain remain that the state loosened is shunk, avoids rope or chain when in use The fracture of generation and impaired, the practicability for the safety and device that raising anchor fluke uses.

Description of the drawings

Fig. 1 is schematic structural view of the invention；

Fig. 2 is the first threaded rod, the first thread barrel and the cavity attachment structure schematic diagram of Fig. 1；

Fig. 3 is cage plate, slide bar and the sliding block attachment structure schematic diagram of Fig. 2；

Fig. 4 is the second threaded rod of Fig. 2, bottom cylinder and the second thread barrel attachment structure schematic diagram.

In figure：1, anchor pole, 2, anchor fluke, the 3, first threaded rod, the 4, first thread barrel, 5, cavity, 6, slide bar, 7, cage plate, 8, Second threaded rod, 9, bottom cylinder, 10, bottom plate, 11, cushion block, the 12, first lateral mass, 13, spring, the 14, second thread barrel, 15, axle sleeve, 16, sliding block, 17, sleeve, the 18, second lateral mass, 19, rubber pad, 20, baffle, 21, bearing, 22, connecting rod, 23, sole piece, 24, second Groove, 25, handle, 26, through-hole, 27, set block, 28, gasket, the 29, first groove.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

- 4 are please referred to Fig.1, the present invention provides a kind of technical solution：A kind of anchor structure of detection tsunami, including anchor pole 1, anchor 1 is internally provided with tsunami detection device, and tsunami detection device includes infrared sensor monitoring, shock sensor and instruction Circuit control signal emitter, after the infrared sensor of connection chain anchor bottom monitors that anchor reaches seabed, infrared biography Information is passed to control panel by sensor by observation circuit, and controlling motor switch by instruction circuit after control panel processing closes It closes, convenient and efficient, shock sensor is able to detect that the vibrations in seabed, and control can be passed information to by observation circuit Information is stored in the RAM card of storage device by plate, control panel, and when monitoring vibrations, control panel is controlled by instruction circuit to be believed Number emitter passes the information on away, meanwhile, control panel control alarm sends out alarm, warns neighbouring ship, in device The structures such as threaded rod, spring and slide bar are all made of stainless steel, prevent from impregnating or wash away for a long time in the seawater being corroded Phenomenon, the lower end of anchor pole 1 are internally provided with cavity 5, are equipped with the first threaded rod 3 in cavity 5, the upside outer wall of the first threaded rod 3 with Axle sleeve 15 connects together, and the first threaded rod 3 freely can be moved up and down or be rotated in axle sleeve 15, and axle sleeve 15 runs through anchor pole The outer wall of 1 lower end outer wall, axle sleeve 15 is connected with anchor pole 1, and the upper end of cage plate 7 is equipped with rubber pad 19, the first threaded rod 3 it is upper It is interference fitted between end outer wall and cage plate 7, the outer wall of cage plate 7 is connected with the inner wall of bearing 21, outer wall and the sleeve 17 of bearing 21 Inner wall be connected, the left and right ends of sleeve 17 are connected by connecting rod 22 with one end of sliding block 16, due to bearing 21 outer wall and The inner wall of sleeve 17 is connected, the inner wall of bearing 21 is connected with the outer wall of cage plate 7, and the sliding block 16 that sleeve 17 passes through the left and right sides In the limitation of slide bar 6, sliding block 16 can only slide on vertical slide bar 6, and sleeve 17 is made not rotate in the horizontal direction, then real Show anchor fluke 2 and the first threaded rod 3 to move up and down relative to the rotation of anchor pole 1 and vertical direction by bearing 21, sliding block 16 and slide bar 6 Activity clamping is connected, and the upper and lower ends of slide bar 6 are connected with the inner wall of cavity 5, outside the lower end of the first threaded rod 3 and the first screw thread Cylinder 4 is threadedly coupled, and 4 part of the first thread barrel is on the upside of the center of anchor fluke 2, and the first thread barrel 4 is connected with anchor fluke 2, the first spiral shell The upper end of line cylinder 4 is equipped with bottom plate 10, and bottom plate 10 connects together with the first threaded rod 3, upper end and the spring 13 of bottom plate 10 Lower end is connected, and the lower surface left and right ends of bottom plate 10 are connected by cushion block 11 with the upper center of anchor fluke 1, spring 13 and first Threaded rod 3 connects together, and the upper end of spring 13 is connected with the lower end of anchor pole 1, the extruding that spring 13 passes through anchor pole 1 and bottom plate 10 Elastic force is generated, can make to connect between the structure of device by elastic force even closer, the outside of the first threaded rod 3 is equipped with bottom cylinder 9, bottom It is connected on the upside of the lower end of cylinder 9 and the center of anchor fluke 2, the upside of bottom cylinder 9 is connected to one by the downside of the first groove 29 and anchor pole 1 It rises, pulls down anchor fluke 2, anchor fluke 2 drives bottom cylinder 9 to move down, and a fixed gap is leaked out between bottom cylinder 9 and anchor pole 1, direct by external force So that the first threaded rod 3 is not rotated, then the first threaded rod 3 can be relatively rotated and be unloaded with the first thread barrel 4 in anchor fluke 2 Under, the second groove 24 is equipped at left and right sides of the lower end of anchor pole 1, is equipped with handle 25 in the second groove 24, the side of handle 25 with The inner wall of second groove 24 overlaps, and one end of handle 25 is equipped with the second threaded rod 8, and the second threaded rod 8 passes through through-hole 26 partly run through anchor pole 1 respectively, and the second threaded rod 8 is circle by through-hole 26 of the through-hole 26 on the outer wall of bottom cylinder 9, bottom cylinder 9 Arc makes the position of the vertical direction of 8 limitation bottom cylinders 9 of the second threaded rod, bottom cylinder 9 still can be with anchor fluke 2 with respect to 1 turn of anchor pole Dynamic, one end outer wall of the second threaded rod 8 is threadedly coupled with the second thread barrel 14, and 14 part of the second thread barrel is through anchor pole 1, and second Thread barrel 14 is connected with anchor pole 1, and the lower surface left and right ends of bottom plate 10 are connected by cushion block 11 with the upper center of anchor fluke 1, Outer wall is mounted on the first lateral mass 12, the lower end of the first lateral mass 12 and the upper center phase of anchor fluke 1 at left and right sides of the lower end of bottom cylinder 9 Even, the upper end inner wall center of cavity 5 is equipped with baffle 20, and the upper end side of slide bar 6 is equipped with the second lateral mass 18, the second lateral mass 18 Will be fixed more stable between slide bar 6 and the inner wall of cavity 5, the upper end of the second lateral mass 18 is connected with the inner wall of cavity 5, connecting rod 22 One end outer wall sole piece 23 is installed, one end of sole piece 23 is connected with sleeve 17, and one end inner wall of the second thread barrel 14 is equipped with Gasket 28.

When carrying out dismounting storage work to anchor fluke 2, anchor fluke 2 is pressed upwards, the rubber pad 19 of 3 upper end of the first threaded rod is made to begin Be bonded eventually with the inner wall of 1 cavity 5 of anchor pole, when rotating anchor fluke 2, due to being bonded for rubber pad 19 and 5 inner wall of cavity, cage plate 7 and First threaded rod 3 does not rotate, or drop-down anchor fluke 2, and anchor fluke 2 drives bottom cylinder 9 to move down, and is leaked between bottom cylinder 9 and anchor pole 1 Go out a fixed gap, the first threaded rod 3 is directly made not rotate by external force, then it can be by the first threaded rod 3 and the in anchor fluke 2 One thread barrel 4, which relatively rotates, simultaneously to be unloaded, when anchor fluke 2 is worked, due to the outer wall of bearing 21 is connected with the inner wall of sleeve 17, The inner wall of bearing 21 is connected with the outer wall of cage plate 7, and sleeve 17 by the sliding block 16 of the left and right sides slide bar 6 limitation, it is sliding Block 16 can only slide on vertical slide bar 6, so that sleeve 17 is not rotated in the horizontal direction, then realize anchor fluke 2 and first Threaded rod 3 is moved up and down by bearing 21 relative to the rotation of anchor pole 1 and vertical direction, makes anchor fluke 2 during release and collection The phenomenon that being not susceptible to winding.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with Understanding without departing from the principles and spirit of the present invention can carry out these embodiments a variety of variations, modification, replace And modification, the scope of the present invention is defined by the appended.

Claims (9)

1. a kind of anchor structure of detection tsunami, including anchor pole（1）, it is characterised in that：The anchor pole（1）Lower end inside set There is cavity（5）, the cavity（5）Inside it is equipped with the first threaded rod（3）, first threaded rod（3）Upside outer wall and axle sleeve （15）It connects together, the axle sleeve（15）Through anchor pole（1）Lower end outer wall, the axle sleeve（15）Outer wall and anchor pole（1） It is connected, the cage plate（7）Upper end rubber pad is installed（19）, first threaded rod（3）Upper end outer wall and cage plate（7）It Between be interference fitted, the cage plate（7）Outer wall and bearing（21）Inner wall be connected, the bearing（21）Outer wall and sleeve（17） Inner wall be connected, the sleeve（17）Left and right ends pass through connecting rod（22）With sliding block（16）One end be connected, the sliding block （16）With slide bar（6）Activity clamping is connected, the slide bar（6）Upper and lower ends and cavity（5）Inner wall be connected, described first Threaded rod（3）Lower end outside with the first thread barrel（4）It is threadedly coupled, first thread barrel（4）Anchor fluke is run through in part（2）In Side in the heart, first thread barrel（4）With anchor fluke（2）It is connected, first thread barrel（4）Upper end bottom plate is installed（10）, The bottom plate（10）With the first threaded rod（3）It connects together, the bottom plate（10）Upper end and spring（13）Lower end be connected, The bottom plate（10）Lower surface left and right ends pass through cushion block（11）With anchor fluke（1）Upper center be connected, the spring （13）With the first threaded rod（3）It connects together, the spring（13）Upper end and anchor pole（1）Lower end be connected, described first Threaded rod（3）Outside be equipped with bottom cylinder（9）, the bottom cylinder（9）Lower end and anchor fluke（2）Center on the upside of be connected, bottom cylinder （9）Upside pass through the first groove（29）With anchor pole（1）Downside be connected together.

2. a kind of anchor structure of detection tsunami according to claim 1, it is characterised in that：The anchor pole（1）Under The end left and right sides is equipped with the second groove（24）, second groove（24）It is interior to be equipped with handle（25）, the handle（25）One Side and the second groove（24）Inner wall overlap, the handle（25）One end the second threaded rod is installed（8）, described Two threaded rods（8）Pass through through-hole（26）Anchor pole is run through in part respectively（1）, second threaded rod（8）Pass through through-hole（26）Run through Bottom cylinder（9）Outer wall, second threaded rod（8）One end outer wall and the second thread barrel（14）It is threadedly coupled, second spiral shell Line cylinder（14）Anchor pole is run through in part（1）, second thread barrel（14）With anchor pole（1）It is connected.

3. a kind of anchor structure of detection tsunami according to claim 1, it is characterised in that：The slide bar（7）Under End outer wall is equipped with set block（27）.

4. a kind of anchor structure of detection tsunami according to claim 1, it is characterised in that：The bottom cylinder（9）Under End left and right sides outer wall is mounted on the first lateral mass（12）, first lateral mass（12）Lower end and anchor fluke（1）Upper center It is connected.

5. a kind of anchor structure of detection tsunami according to claim 1, it is characterised in that：The cavity（5）It is upper End inner wall center is equipped with baffle（20）.

6. a kind of anchor structure of detection tsunami according to claim 1, it is characterised in that：The slide bar（6）It is upper End side is equipped with the second lateral mass（18）, second lateral mass（18）Upper end and cavity（5）Inner wall be connected.

7. a kind of anchor structure of detection tsunami according to claim 1, it is characterised in that：The connecting rod（22）One End outer wall is equipped with sole piece（23）, the sole piece（23）One end and sleeve（17）It is connected.

8. a kind of anchor structure of detection tsunami according to claim 1, it is characterised in that：Second thread barrel （14）One end inner wall gasket is installed（28）.

9. a kind of anchor structure of detection tsunami according to claim 1, it is characterised in that：The anchor（1）It is internal It is provided with tsunami detection device, tsunami detection device includes infrared sensor monitoring, shock sensor and instruction circuit control letter Number emitter.