CN115014308B - Device for measuring mark measuring point for ocean engineering - Google Patents

Abstract

The invention provides a device for measuring a mark measuring point for ocean engineering, which relates to the field of mark measuring points and comprises a fixed shell, wherein the fixed shell is of a rectangular shell structure, and an installation space is formed in the fixed shell; a supporting seat is arranged in the mounting space of the fixed shell in a sliding manner; a collecting shell is fixedly arranged at the top of the supporting seat; under the cooperation of the collecting shell and the supporting seat, when the device meets weather such as heavy rain, the supporting seat is retracted into the fixed shell, and other parts of the device are protected in sequence, so that the service life of the device is prolonged, the device can automatically protect in the weather of heavy rain, and the problem that the parts of the device are damaged by the weather such as heavy rain if the device for marking the measuring points is not protected by a good protection mechanism due to the fact that the weather environment on the sea is relatively severe and the device for marking the measuring points needs to face the weather such as heavy rain is solved.

Description

Device for measuring mark measuring point for ocean engineering

Technical Field

The invention relates to the technical field of marking measuring points, in particular to a device for measuring a marking measuring point for ocean engineering.

Background

Ocean engineering aims at developing, utilizing, protecting and recovering ocean resources, and during construction of ocean engineering, a device for marking measuring points is usually adopted to mark positions required by the ocean engineering so as to facilitate measurement requirements of subsequent engineering.

The existing device for measuring the marked measuring point has the following defects in practical application:

1. the marking measuring point device is usually placed on the sea surface, but because the weather environment on the sea surface is relatively severe, the device for marking measuring points needs to face weather such as heavy rain, and the like, and if the device for marking measuring points does not have a good protection mechanism to protect the components of the device for marking measuring points, the weather such as heavy rain and the like can damage the components of the device, the service life of the device is influenced, and the construction of ocean engineering is further influenced;

2. when heavy rain weather is met, the device is usually required to be operated and protected by manpower alone, the speed of protection of parts of the device is difficult to guarantee, the labor intensity of workers is further increased, in the heavy rain weather, the manufacturing difficulty of the workers is relatively high, safety accidents easily occur, and the safety of the workers in the heavy rain weather cannot be guaranteed.

Disclosure of Invention

In view of the above, the invention provides a device for measuring and marking measuring points for ocean engineering, which has the advantages that under the matching of a collecting shell and a supporting seat, when the device encounters weather such as heavy rain, a floating ball triggers a proximity sensor, so that the supporting seat is retracted into the fixed shell to sequentially protect other parts of the device, and therefore, the service life of the device is prolonged, and the device can automatically protect under weather such as heavy wind and heavy rain.

The invention provides a device for measuring and marking measuring points for ocean engineering, which has the following aims and effects: the fixing shell is of a rectangular shell structure, and an installation space is formed in the fixing shell; a supporting seat is arranged in the mounting space of the fixed shell in a sliding manner; a collecting shell is fixedly arranged at the top of the supporting seat; the fixed shell also comprises: the mounting brackets are arranged in a square frame structure, four groups of mounting brackets are arranged, and the mounting brackets are fixedly arranged in the middle of the outer side of the fixed shell in an annular array shape; the buoyancy tank is arranged as a floating body and is fixedly arranged in the mounting bracket; the limiting plates are arranged in a rectangular plate structure, two groups of limiting plates are arranged, and the limiting plates are symmetrically arranged above the installation space of the fixed shell in a sliding manner; the connecting blocks are arranged in a square block structure, four groups of connecting blocks are arranged, and the connecting blocks are symmetrically and integrally arranged at two ends of the limiting plate; springs are arranged between the connecting blocks and the fixed shell.

Further, the fixed shell further comprises: the fixed bottom shell is of a square shell structure, and an installation space is formed inside the fixed bottom shell; the fixed bottom shell is fixedly arranged at the bottom of the fixed shell; the servo motor is arranged in the mounting space of the fixed bottom shell; the adjusting screw is rotatably arranged in the fixed shell; the bottom of the adjusting screw rod is in transmission connection with a rotating shaft of the servo motor.

Further, the fixed shell further comprises: the storage batteries are arranged in two groups and are symmetrically arranged in the mounting space of the fixed bottom shell; the control box is arranged in the mounting space of the fixed bottom shell; the counterweight block is fixedly arranged at the bottom of the fixed bottom shell; the installation of balancing weight bottom is provided with the anchor chain, and the one end installation of anchor point is provided with the anchor.

Furthermore, the supporting seat is of a square seat structure, and a sliding space is formed inside the supporting seat; the supporting seat is still including: the mounting racks are arranged in two groups and symmetrically and rotatably arranged at two ends of the supporting seat; the solar panel is arranged in the mounting frame; the two groups of mounting racks are arranged, and the connecting rods are symmetrically and rotatably arranged at the bottom of the mounting racks; the transmission seat is of a square seat structure and is arranged inside the sliding space of the supporting seat in a sliding mode.

Further, the supporting seat further comprises: the four groups of transmission plates are arranged, and the transmission plates are integrally arranged at the top of the transmission seat; the transmission grooves are formed in the transmission plates and are designed in an inclined manner; the inclination directions of the transmission grooves of the two groups of transmission plates are opposite to those of the transmission grooves of the transmission plates on the other two sides; the four groups of touch blocks are arranged, and the touch blocks are symmetrically and integrally arranged at two ends of the transmission seat; the bottom of each touch block is provided with an inclined plane structure; the threaded cylinder is fixedly arranged at the top of the transmission plate and is in threaded connection with the adjusting screw; the two groups of rotating blocks are arranged, and the rotating blocks are symmetrically and rotatably arranged at one end of the connecting rod; the rotating block is connected with the transmission groove of the transmission plate in a sliding manner.

Furthermore, the collecting shell is of an L-shaped shell structure, a collecting space is formed in the top of the collecting shell, and the top of the collecting space of the collecting shell is of an inclined plane structure; the collection shell is still including: the alarm device is arranged at the top of the collecting space of the collecting shell; the connecting seat, the connecting seat sets up to circular seat structure, and the connecting seat installation sets up in alarm device top.

Further, the collecting shell further comprises: the punctuation rod is arranged at the top of the connecting seat; the waterproof shell is of a circular shell structure and is fixedly arranged inside one end of the collecting space of the collecting shell; the water inlet cylinder is of a circular cylinder structure, and a water inlet hole is formed in the outer part of the water inlet cylinder; the water inlet cylinder is arranged at the bottom of the waterproof shell.

Further, the collecting shell further comprises: the floating ball is arranged as a floating body and is arranged in the water inlet cylinder in a sliding way; a metal layer is wrapped outside the floating ball; the water seepage holes are arranged in a circular hole structure and symmetrically arranged at the bottom of one end of the collecting space of the collecting shell; and the proximity sensor is installed inside the waterproof shell through threaded connection.

Advantageous effects

1. When the mark measurement station device meets weather such as heavy rain, rainwater can continuously fall into the collection space of collecting the shell, the water that collects the collection space one end of shell constantly accumulates the water level and changes, and the floater can trigger proximity sensor for the supporting seat is withdrawed the inside of set casing, protects other parts of device in proper order, thereby extension fixture's life makes the device can make the protection automatically under the weather of strong wind and heavy rain.

2. Through the transmission seat, under the cooperation of driving plate and servo motor, the shell is collected in cooperation that can be good and is used, make servo motor pass through adjusting screw, the screw cylinder drives the transmission seat and moves down, make the position of the drive groove on the driving plate change, the position of the drive groove of the driving plate that rotatory piece can be followed changes and moves together, rotatory piece passes through the connecting rod and drives the mounting bracket and remove, make the mounting bracket remove the initial position of principle, make solar panel can realize automatic protection under heavy rain weather, and then guarantee the part security of device, the life of extension fixture.

3. Carry out the counter weight through the balancing weight of fixed drain pan bottom for downward vertical state can be guaranteed to the device, at this moment, is fixing the device in proper order through contacting the anchorage with ground.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 is a schematic structural diagram of a device for measuring and marking measuring points for ocean engineering in a protection state, according to an embodiment of the invention;

FIG. 2 is a schematic structural diagram of a device for measuring and marking measuring points for ocean engineering in a use state according to an embodiment of the invention;

FIG. 3 is a schematic view of a disassembled structure of a fixed shell of the device for measuring and marking measuring points for ocean engineering, which is disclosed by the embodiment of the invention;

FIG. 4 is a schematic structural diagram of a supporting seat of the device for measuring and marking measuring points for ocean engineering, which is arranged inside a fixed shell;

FIG. 5 is a schematic structural diagram of a transmission plate of the device for measuring the marked measuring points for ocean engineering, which is disclosed by the embodiment of the invention;

FIG. 6 is a schematic structural diagram of a mounting rack of the device for measuring and marking measuring points for ocean engineering, which is disclosed by the embodiment of the invention;

FIG. 7 is a schematic structural diagram of a mounting frame and a transmission seat matching structure of the device for measuring the marked measuring points for ocean engineering, which is disclosed by the embodiment of the invention;

FIG. 8 is a schematic view of a disassembled structure of a support seat of the device for measuring and marking measuring points for ocean engineering in accordance with the present invention;

fig. 9 is a schematic view of a disassembled structure of a collecting shell of the device for measuring and marking measuring points for ocean engineering, which is disclosed by the embodiment of the invention.

FIG. 10 is a schematic diagram of a partially enlarged structure at A in FIG. 4 of the device for measuring and marking measuring points for ocean engineering according to the embodiment of the present invention.

List of reference numerals

1. A stationary case; 101. mounting a bracket; 102. a buoyancy tank; 103. a limiting plate; 104. connecting blocks; 105. fixing a bottom shell; 106. a servo motor; 107. adjusting the screw rod; 108. a storage battery; 109. a control box; 110. a counterweight block; 111. fixing an anchor; 2. a supporting base; 201. a mounting frame; 202. a solar panel; 203. a connecting rod; 204. a transmission seat; 205. a drive plate; 206. a touch block; 207. a threaded barrel; 208. rotating the block; 3. collecting shells; 301. an alert device; 302. a connecting seat; 303. a punctuation rod; 304. a waterproof shell; 305. a water inlet cylinder; 306. a floating ball; 307. a water seepage hole; 308. a proximity sensor.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

The embodiment is as follows: please refer to fig. 1 to 10:

the invention provides a device for measuring a marked measuring point for ocean engineering, which comprises: the fixing device comprises a fixing shell 1, wherein the fixing shell 1 is of a rectangular shell structure, and an installation space is formed in the fixing shell 1; a supporting seat 2 is arranged in the mounting space of the fixed shell 1 in a sliding manner; the top of the supporting seat 2 is fixedly provided with a collecting shell 3; the fixed shell 1 further comprises: the mounting brackets 101 are arranged in a square frame structure, the mounting brackets 101 are arranged in four groups, and the mounting brackets 101 are fixedly arranged in the middle of the outer side of the fixed shell 1 in an annular array shape; the buoyancy tank 102 is a floating body, and the buoyancy tank 102 is fixedly arranged inside the mounting bracket 101; the limiting plates 103 are arranged in a rectangular plate structure, two groups of limiting plates 103 are arranged, and the limiting plates 103 are symmetrically arranged above the installation space of the fixed shell 1 in a sliding manner; the connecting blocks 104 are arranged in a square block structure, the connecting blocks 104 are arranged in four groups, and the connecting blocks 104 are symmetrically and integrally arranged at two ends of the limiting plate 103; springs are arranged between the connecting block 104 and the fixed shell 1; the fixed bottom case 105, the fixed bottom case 105 is configured to be a square case structure, and an installation space is formed inside the fixed bottom case 105; the fixed bottom shell 105 is fixedly arranged at the bottom of the fixed shell 1; a servo motor 106, the servo motor 106 being installed in the installation space of the fixed bottom case 105; an adjusting screw 107, wherein the adjusting screw 107 is rotatably arranged inside the fixed shell 1; the bottom of the adjusting screw 107 is in transmission connection with a rotating shaft of the servo motor 106; two groups of storage batteries 108 are arranged, and the storage batteries 108 are symmetrically arranged in the installation space of the fixed bottom shell 105; a control box 109, wherein the control box 109 is installed in the installation space of the fixed bottom case 105; a counterweight 110, wherein the counterweight 110 is fixedly arranged at the bottom of the fixed bottom shell 105; an anchor chain is arranged at the bottom of the counterweight block 110, and a fixed anchor 111 is arranged at one end of the anchor point; the counter-weight is performed by fixing the counter-weight block 110 at the bottom of the bottom case 105 so that the device can be secured in a downward vertical state, at which time the device is fixed in turn by contacting the fixing anchor 111 with the ground.

Wherein, the supporting seat 2 is arranged to be a square seat structure, and a sliding space is arranged inside the supporting seat 2; supporting seat 2 is still including: two groups of mounting racks 201 are arranged, and the mounting racks 201 are symmetrically and rotatably arranged at two ends of the supporting seat 2; the solar panel 202 is arranged inside the mounting frame 201; the two groups of the mounting racks 201 are arranged, and the connecting rods 203 are symmetrically and rotatably arranged at the bottoms of the mounting racks 201; the transmission seat 204 is of a square seat structure, and the transmission seat 204 is slidably arranged in the sliding space of the support seat 2; the driving plates 205, the driving plates 205 are arranged in four groups, and the driving plates 205 are integrally arranged on the top of the driving seat 204; the transmission plate 205 is internally provided with transmission grooves, and the transmission grooves of the transmission plate 205 are designed in an inclined manner; the transmission grooves of the two groups of transmission plates 205 are opposite to the transmission grooves of the transmission plates 205 on the other two sides in inclination direction; the touch blocks 206, the touch blocks 206 are arranged in four groups, and the touch blocks 206 are symmetrically arranged at two ends of the transmission seat 204 in an integrated manner; the bottoms of the touch blocks 206 are all arranged into an inclined plane structure; the threaded cylinder 207 is fixedly arranged at the top of the transmission plate 205, and the threaded cylinder 207 is in threaded connection with the adjusting screw 107; two groups of rotating blocks 208 are arranged, and the rotating blocks 208 are symmetrically and rotatably arranged at one end of the connecting rod 203; the rotating block 208 is connected with the transmission groove of the transmission plate 205 in a sliding manner; when transmission seat 204 drives transmission plate 205 rebound, because sliding connection between the transmission groove of seting up and the rotatory piece 208 on the transmission plate 205, when transmission plate 205 rebound, make the position of the transmission groove on the transmission plate 205 change, at this moment, rotatory piece 208 can receive the extrusion force and move the transmission groove other end along the transmission groove on the transmission plate 205, make rotatory piece 208 pass through connecting rod 203 and drive mounting bracket 201 and remove, make mounting bracket 201 keep the state of slope.

The collecting shell 3 is of an L-shaped shell structure, a collecting space is formed in the top of the collecting shell 3, and the top of the collecting space of the collecting shell 3 is of an inclined plane structure; the collecting shell 3 further comprises: an alarm device 301, the alarm device 301 being installed at the top of the collecting space of the collecting case 3; a connecting seat 302, wherein the connecting seat 302 is arranged in a circular seat structure, and the connecting seat 302 is arranged at the top of the alarm device 301; the punctuation rod 303 is arranged at the top of the connecting seat 302; the waterproof shell 304 is of a circular shell structure, and the waterproof shell 304 is fixedly arranged inside one end of the collecting space of the collecting shell 3; the water inlet cylinder 305 is of a circular cylinder structure, and a water inlet hole is formed in the outer part of the water inlet cylinder 305; the water inlet cylinder 305 is arranged at the bottom of the waterproof shell 304; the floating ball 306 is arranged as a floating body, and the floating ball 306 is arranged inside the water inlet cylinder 305 in a sliding manner; a metal layer is wrapped outside the floating ball 306; the water seepage holes 307 are arranged in a circular hole structure, and the water seepage holes 307 are symmetrically arranged at the bottom of one end of the collecting space of the collecting shell 3; the proximity sensor 308 is installed inside the waterproof shell 304 through threaded connection, and the proximity sensor 308 is installed inside the waterproof shell 304; the marking rod 303 at the top of the collecting shell 3 marks the position of the project to facilitate subsequent measurement, and the alarm device 301 which is arranged at the top of the collecting shell 3 can give an alarm to prevent workers in the project from colliding with the device to give warnings in sequence;

the proximity sensor 308 (model number LJ12A 3-4-Z/BX) may be obtained through private customization or through market purchase.

The specific use mode and function of the embodiment are as follows: in the present invention, in the process of applying the device for measuring the marked measuring points to the ocean engineering, the device is first selected to be in a proper position on the sea surface, and then the device is weighted by the weight block 110 fixed to the bottom of the bottom shell 105, so that the device can be ensured to be in a downward vertical state, and at this time, the device is fixed in turn by contacting the fixing anchor 111 with the ground.

After fixing the device, the servo motor 106 is controlled by the control box 109, the servo motor 106 drives the adjusting screw 107 to rotate, at this time, the adjusting screw 107 can drive the transmission seat 204 to move upwards through the screw cylinder 207, so that the transmission seat 204 can drive the supporting seat 2 to move upwards, when the supporting seat 2 moves the top of the fixing shell 1, the screw cylinder 207 can continue to drive the transmission seat 204 to move upwards inside the supporting seat 2, so that the transmission seat 204 drives the transmission plate 205 to move upwards, because the transmission groove formed in the transmission plate 205 is in sliding connection with the rotating block 208, when the transmission plate 205 moves upwards, so that the transmission groove in the transmission plate 205 changes, at this time, the rotating block 208 can be moved to the other end of the transmission groove along the transmission groove in the transmission plate 205 by extrusion force, so that the rotating block 208 drives the supporting seat 201 to move through the connecting rod 203, so that the mounting seat 201 keeps an inclined state, it is ensured that the solar panel 202 on the mounting seat 201 can normally work in sequence, and because the supporting seat 2 is inside the device, the limiting plate 103 and the connecting block 104 can always be on one side of the supporting seat 2, when the supporting seat 2 moves to the top, the supporting seat 2, the supporting seat 104 can limit the downward movement of the supporting seat 2 together, and the supporting seat 2 can limit the downward movement of the supporting seat 2.

When needs are measured, carry out the punctuation to the position at engineering place through the punctuation pole 303 of collecting shell 3 top to convenient subsequent measurement, collect the alarm device 301 of shell 3 top calculation installation moreover and can make the police dispatch newspaper, prevent that the staff in the engineering from hitting the device, make the warning in proper order.

When the device runs into weather such as heavy rain, because the collection space top of collecting shell 3 sets up to the inclined plane structure, the rainwater can constantly fall into the collection space of collecting shell 3, at this moment the rainwater can unify the other end in the collection space of collecting shell 3 of collecting, at this moment, the water of collecting shell 3's collection space one end constantly accumulates the water level and changes, the rainwater can enter into a section of thick bamboo 305 through the inlet opening of intaking section of thick bamboo 305 inside, make the inside floater 306 of intaking section of thick bamboo 305 follow the water level and change the lapse, when floater 306 follows the water level and removes certain height, because floater 306 outside parcel is provided with the metal level, floater 306 can trigger proximity sensor 308, proximity sensor 308 signals gives control box 109, again by control box 109 control servo motor 106 rotation.

At this time, the supporting seat 2 is at the top of the device, the connecting block 104 and the limiting plate 103 limit the bottom of the supporting seat 2, so that the supporting seat 2 cannot move, the driving seat 204 can slide inside the supporting seat 2, the servo motor 106 is controlled to rotate in the opposite direction by the control box 109, the servo motor 106 drives the driving seat 204 to move downwards inside the supporting seat 2 by matching of the adjusting screw 107 and the threaded cylinder 207, the position of the driving groove on the driving plate 205 changes, the rotating block 208 can move along with the change of the position of the driving groove of the driving plate 205, the rotating block 208 drives the mounting frame 201 to move through the connecting rod 203, and the mounting frame 201 moves to the original initial position.

When transmission seat 204 drives mounting bracket 201 and removes original initial position, transmission seat 204 can move the bottommost of supporting seat 2 under servo motor 106's drive simultaneously, the piece 206 that touches at transmission seat 204 both ends all can contact with connecting block 104, because touch the piece 206 bottom and all set up to the inclined plane structure, when touching piece 206 and connecting block 104 and contact, connecting block 104 can move to one side along the inclined plane structure that touches piece 206, make connecting block 104 drive the bottom that limiting plate 103 breaks away from supporting seat 2 to one side of moving supporting seat 2, thereby make the restriction of supporting seat 2 remove, transmission seat 204 can continue to drive transmission seat 204 downstream through the cooperation of supporting seat 2 with servo motor 106.

When the restriction of supporting seat 2 is relieved, continue to be rotated by servo motor 106, servo motor 106 is through adjusting screw 107, drive transmission 204 downstream under the cooperation of screw thread section of thick bamboo 207, the contact of transmission 204 bottom and supporting seat 2 bottom, drive supporting seat 2 downstream by transmission 204, make supporting seat 2 withdraw the inside of set casing 1, thereby protect other parts to the device, the life of extension fixture, make the device can make the protection automatically under the weather of strong wind and heavy rain.

After heavy rain weather, the infiltration hole 307 can be constantly got rid of water for the water level constantly descends, and at this moment floater 306 breaks away from proximity sensor 308, and at this moment, proximity sensor 308 signals for control box 109, and servo motor 106 is controlled by control box 109 again and is launched mounting bracket 201, makes the device can work, thereby makes the device can the automated use.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (5)

1. A device for measuring a marked measuring point for ocean engineering is characterized by comprising: the fixing shell (1), the fixing shell (1) is of a rectangular shell structure, and an installation space is formed in the fixing shell (1); a supporting seat (2) is arranged in the mounting space of the fixed shell (1) in a sliding manner; a collecting shell (3) is fixedly arranged at the top of the supporting seat (2); the fixed shell (1) also comprises: the mounting brackets (101) are arranged in a square frame structure, the mounting brackets (101) are arranged in four groups, and the mounting brackets (101) are fixedly arranged in the middle of the outer side of the fixed shell (1) in an annular array shape; the buoyancy tank (102), the buoyancy tank (102) is set as a floating body, and the buoyancy tank (102) is fixedly arranged in the mounting bracket (101); the limiting plates (103) are arranged to be rectangular plate structures, the limiting plates (103) are arranged to be two groups, and the limiting plates (103) are symmetrically arranged above the installation space of the fixed shell (1) in a sliding mode; the connecting blocks (104) are arranged in a square block structure, the connecting blocks (104) are arranged in four groups, and the connecting blocks (104) are symmetrically and integrally arranged at two ends of the limiting plate (103); springs are arranged between the connecting block (104) and the fixed shell (1); the supporting seat (2) is of a square seat structure, and a sliding space is formed inside the supporting seat (2); supporting seat (2) still including: the two groups of mounting racks (201) are arranged, and the mounting racks (201) are symmetrically and rotatably arranged at two ends of the supporting seat (2); the solar panel (202), the solar panel (202) is arranged in the mounting rack (201); the two groups of the mounting racks (201) are arranged, and the connecting rods (203) are symmetrically and rotatably arranged at the bottom of the mounting racks (201); the transmission seat (204) is of a square seat structure, and the transmission seat (204) is arranged in a sliding space of the supporting seat (2) in a sliding manner; supporting seat (2) still including: the transmission plates (205) are arranged into four groups, and the transmission plates (205) are integrally arranged at the top of the transmission seat (204); the transmission grooves are formed in the transmission plates (205), and the transmission grooves of the transmission plates (205) are designed in an inclined manner; the inclination directions of the transmission grooves of the two groups of transmission plates (205) and the transmission grooves of the transmission plates (205) on the other two sides are opposite; the four groups of touch blocks (206) are arranged, and the touch blocks (206) are symmetrically and integrally arranged at two ends of the transmission seat (204); the bottoms of the touch blocks (206) are all set to be inclined plane structures; the threaded cylinder (207), the threaded cylinder (207) is fixedly arranged on the top of the transmission plate (205), and the threaded cylinder (207) is in threaded connection with the adjusting screw (107); the rotary blocks (208) are arranged into two groups, and the rotary blocks (208) are symmetrically and rotatably arranged at one end of the connecting rod (203); the rotating block (208) is connected with the transmission groove of the transmission plate (205) in a sliding manner; the collecting shell (3) is arranged to be of an L-shaped shell structure, a collecting space is formed in the top of the collecting shell (3), and the top of the collecting space of the collecting shell (3) is arranged to be of an inclined plane structure; the collecting shell (3) also comprises: an alarm device (301), wherein the alarm device (301) is arranged at the top of the collecting space of the collecting shell (3); the connecting seat (302), the connecting seat (302) sets up to circular seat structure, and connecting seat (302) installation sets up in alarm device (301) top.

2. The device for measuring and marking measuring points for ocean engineering as claimed in claim 1, wherein: the fixed shell (1) further comprises: the fixed bottom shell (105), the fixed bottom shell (105) is set to be a square shell structure, and an installation space is arranged inside the fixed bottom shell (105); the fixed bottom shell (105) is fixedly arranged at the bottom of the fixed shell (1); the servo motor (106), the servo motor (106) is installed and arranged in the installation space of the fixed bottom shell (105); the adjusting screw (107), the adjusting screw (107) is rotatably arranged in the fixed shell (1); the bottom of the adjusting screw rod (107) is in transmission connection with a rotating shaft of the servo motor (106).

3. The device for measuring and marking measuring points for ocean engineering as claimed in claim 2, wherein: the fixed shell (1) further comprises: the storage batteries (108) are arranged in two groups, and the storage batteries (108) are symmetrically arranged in the mounting space of the fixed bottom shell (105); a control box (109), wherein the control box (109) is arranged in the installation space of the fixed bottom shell (105); the counterweight block (110), the counterweight block (110) is fixedly arranged at the bottom of the fixed bottom shell (105); the bottom of the balancing weight (110) is provided with an anchor chain, and one end of the anchor point is provided with a fixed anchor (111).

4. The device for measuring the marked points for ocean engineering as claimed in claim 1, wherein: the collecting shell (3) further comprises: the marking rod (303) is arranged at the top of the connecting seat (302); the waterproof shell (304), the waterproof shell (304) is set to be a round shell structure, and the waterproof shell (304) is fixedly arranged in one end of the collecting space of the collecting shell (3); the water inlet barrel (305), the water inlet barrel (305) is arranged to be of a circular barrel structure, and a water inlet hole is formed in the outer part of the water inlet barrel (305); the water inlet cylinder (305) is arranged at the bottom of the waterproof shell (304).

5. The device for measuring the marked points for ocean engineering as claimed in claim 4, wherein: the collecting shell (3) further comprises: the floating ball (306), the floating ball (306) is set as a floating body, and the floating ball (306) is arranged inside the water inlet cylinder (305) in a sliding manner; the outside of the floating ball (306) is wrapped with a metal layer; the water seepage holes (307) are arranged in a circular hole structure, and the water seepage holes (307) are symmetrically formed in the bottom of one end of the collecting space of the collecting shell (3); and the proximity sensor (308) is arranged inside the waterproof shell (304) in a threaded connection mode.

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