CN216468348U - Connection structure for splicing offshore platform module - Google Patents

Abstract

The utility model belongs to the technical field of ocean monitoring, and particularly relates to a connecting structure for splicing offshore platform modules. This connection structure is used in splicing of coastal waters platform module, install loop bar and connecting rod respectively through setting up at the both ends of platform body, utilize the connecting rod to cup joint through the movable ring of universal bulb bending rear surface and the surface of loop bar, and then when this body coupling of two adjacent platforms, utilize loop bar and connecting rod to deflect along with two platform bodies respectively, the movable ring cup joints with the surface of loop bar all the time, thereby make to have and be convenient for monitor the characteristics that the platform is connected each other and reduces the wave to connection structure influence simultaneously.

Description

Connection structure for splicing offshore platform module

Technical Field

The utility model relates to the technical field of ocean monitoring, in particular to a connecting structure for splicing offshore platform modules.

Background

The offshore platform provides a structure of production and living facilities for activities such as drilling, oil extraction, centralized transportation, observation, navigation, construction and the like at sea; it can be classified into three types, fixed, movable and semi-fixed, according to its structural characteristics and working state. The lower part of the fixed platform is directly supported and fixed on the seabed by piles, enlarged footing or other structures, and the fixed platform is divided into a pile foundation type and a gravity type according to the supporting condition. The movable platform floats in water or is supported on the seabed and can be moved from one well to another well, and the movable platform can be divided into a bottom type and a floating type according to the supporting condition. In recent years, novel semi-fixed ocean platforms are being researched, which can be fixed in deep water and have mobility, and tension leg platforms belong to the category;

particularly, the offshore platform for offshore monitoring near the coast is mostly used for offshore water quality monitoring, wind power monitoring and other works, so that the scale is much smaller than that of an offshore platform for exploitation, but the offshore platforms need to be connected with each other along with the increase of monitoring equipment and monitoring items, but each offshore platform is different due to the fact that the monitoring equipment is installed, each offshore platform is under the same sea wave action, and along with the shifting range body of the sea wave, dislocation occurs between two adjacent offshore platforms, and therefore the connection structure is damaged, and the offshore platform is not convenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model provides a connecting structure for splicing offshore platform modules, which is based on the technical problem that the existing connecting structure is easy to damage under the condition that two adjacent offshore platforms are staggered.

The connecting structure for splicing the offshore platform modules comprises platform bodies, wherein a connecting device is arranged on the surface of the side wall of each platform body, two adjacent platform bodies are connected with each other through the connecting device, and each connecting device comprises a fixing rod.

Preferably, one end of the fixed rod is fixedly connected with the surface of the front end of the platform body, sleeve rods are fixedly connected to the surface of the side wall of the other end of the fixed rod, the two sleeve rods are respectively positioned on two sides of the fixed rod, and the surfaces of the sleeve rods are cylindrical;

through above-mentioned technical scheme, utilize two loop bars to be connected with the connecting device on adjacent platform body surface to be convenient for increase the steadiness of connecting.

Preferably, a movable ring is sleeved on the surface of the sleeve rod in a sliding manner, a connecting rod is fixedly connected to the outer surface of the movable ring, a pull rod is hinged to the other end of the connecting rod through a universal ball head, a bundling groove is formed in the surface of the rear end of the platform body, and the pull rod is located in the bundling groove;

through above-mentioned technical scheme, utilize the loose collar to connect loop bar and connecting rod to be convenient for deflect between loop bar and the connecting rod, and then be convenient for swing along with the wave.

Preferably, the tail end of the pull rod is fixedly connected with a control rod, the surface of the control rod is fixedly connected with clamping strips, and the surfaces of two adjacent clamping strips are mutually clamped;

through above-mentioned technical scheme, utilize two adjacent control levers to block each other through the card strip to be convenient for hinder the deflection of control lever, avoid the control lever to deflect the shrink of back relaxation pair pull rod.

Preferably, a rotary groove is formed in the platform body, the tail end of the bundling groove is communicated with the inner part of the rotary groove, the control rod is located in the rotary groove, an operation groove is formed in the upper surface of the platform body, and the inner part of the operation groove is communicated with the inner part of the rotary groove;

through the technical scheme, the upper surface of the platform body is utilized to open the operation groove, so that the control rod can be conveniently operated through the operation groove.

Preferably, the inner side wall of the operation groove is provided with a drain hole;

through the technical scheme, the drain holes are used for communicating the inside of the operation groove with the outside of the platform body, so that the seawater flowing into the contraction groove is conveniently drained, and the excessive seawater in the operation groove is avoided.

The beneficial effects of the utility model are as follows:

1. through setting up loop bar and connecting rod of installing respectively at the both ends of platform body, utilize the connecting rod to cup joint through the movable ring of universal bulb bending rear surface and the surface of loop bar, and then when will two adjacent platform body coupling, utilize loop bar and connecting rod to deflect along with two platform bodies respectively, the movable ring cup joints with the surface of loop bar all the time to the feasible characteristics that are convenient for monitor each other between the platform and reduce the wave and influence connection structure simultaneously that have.

2. After being connected through activity ring and loop bar through setting up the connecting rod, utilize the control lever pulling connecting rod to get into to receive and restraint the inslot, inner wall through receiving and restraint the groove hinders the deflection of connecting rod, avoid the activity ring to drop from the surface of loop bar, deflect the pull rod in the swivelling chute simultaneously, make the joint of card strip each other on two control lever surfaces, and then hinder deflecting once more of pull rod, and the inner wall through the operation groove carries on spacingly to the upper end and the lower extreme of control lever, thereby make to have the characteristics of being convenient for increase monitoring platform and connecting the steadiness.

Drawings

FIG. 1 is a schematic illustration of a connection for splicing offshore platform modules according to the present invention;

FIG. 2 is a perspective view of a fastening rod structure of a connection structure for splicing offshore platform modules according to the present invention;

FIG. 3 is a sectional view of a trough structure of a connection for splicing offshore platform modules according to the present invention.

In the figure: 1. a platform body; 2. fixing the rod; 21. a loop bar; 22. a movable ring; 23. a connecting rod; 24. a pull rod; 25. a control lever; 26. clamping the strip; 3. a bundling groove; 4. a rotating tank; 5. an operation slot; 6. and (4) draining the water.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, a connection structure for splicing offshore platform modules comprises a platform body 1, wherein a connection device is mounted on the surface of the side wall of the platform body 1, two adjacent platform bodies 1 are connected with each other through the connection device, and the connection device comprises a fixing rod 2;

furthermore, one end of the fixed rod 2 is fixedly connected with the surface of the front end of the platform body 1, the surface of the side wall of the other end of the fixed rod 2 is fixedly connected with the loop bars 21, the two loop bars 21 are respectively positioned at two sides of the fixed rod 2, the surface of each loop bar 21 is cylindrical, and the two loop bars 21 are connected with the connecting device on the surface of the adjacent platform body 1, so that the connecting stability is improved;

furthermore, a movable ring 22 is sleeved on the surface of the loop bar 21 in a sliding manner, a connecting rod 23 is fixedly connected to the outer surface of the movable ring 22, the other end of the connecting rod 23 is hinged to a pull rod 24 through a universal ball head, a restraining groove 3 is formed in the surface of the rear end of the platform body 1, the pull rod 24 is located in the restraining groove 3, and the loop bar 21 and the connecting rod 23 are connected through the movable ring 22, so that the loop bar 21 and the connecting rod 23 can deflect conveniently, and further the swing along with sea waves can be facilitated;

the two ends of the platform body 1 are respectively provided with the loop bar 21 and the connecting rod 23, the connecting rod 23 is sleeved with the surface of the loop bar 21 through the movable ring 22 on the surface of the bent universal ball head, so that the two adjacent platform bodies 1 are connected, the loop bar 21 and the connecting rod 23 deflect along with the two platform bodies 1 respectively, and the movable ring 22 is sleeved with the surface of the loop bar 21 all the time, so that the platform monitoring device has the characteristics of being convenient for monitoring the mutual connection between the platforms and reducing the influence of sea waves on a connecting structure;

furthermore, the tail end of the pull rod 24 is fixedly connected with a control rod 25, the surface of the control rod 25 is fixedly connected with a clamping strip 26, the surfaces of two adjacent clamping strips 26 are mutually clamped, and the two adjacent control rods 25 are mutually clamped through the clamping strips 26, so that the deflection of the control rod 25 is conveniently blocked, and the shrinkage of the pull rod 24 due to the relaxation of the control rod 25 after deflection is avoided;

further, a rotary groove 4 is formed in the platform body 1, the end of the bundling groove 3 is communicated with the inner part of the rotary groove 4, the control rod 25 is located in the rotary groove 4, an operation groove 5 is formed in the upper surface of the platform body 1, the inner part of the operation groove 5 is communicated with the inner part of the rotary groove 4, and the operation groove 5 is formed in the upper surface of the platform body 1, so that the control rod 25 can be conveniently operated through the operation groove 5;

furthermore, a drain hole 6 is formed in the inner side wall of the operation groove 5, and the drain hole 6 is used for communicating the inside of the operation groove 5 with the outside of the platform body 1, so that the seawater flowing into the bundling groove 3 can be conveniently discharged, and the excessive seawater in the operation groove 5 is avoided;

through setting up connecting rod 23 and being connected the back with loop bar 21 through activity ring 22, utilize control lever 25 pulling connecting rod 23 to get into and receive and restraint the inslot 3, inner wall through receiving and restraint groove 3 hinders the deflection of connecting rod 23, avoid activity ring 22 to drop from the surface of loop bar 21, deflect pull rod 24 in the swivelling chute 4 simultaneously, make the joint of card strip 26 on two control lever 25 surfaces each other, and then hinder deflecting once more of pull rod 24, and the inner wall through operation groove 5 is spacing to the upper end and the lower extreme of control lever 25, thereby make to have the characteristics of being convenient for increase monitoring platform and connecting the steadiness.

The working principle is as follows:

when the device is used, the connecting rod 23 is pulled out of the binding groove 3 through the movable ring 22 and deflected through the universal ball head, so that the movable ring 22 is sleeved with the loop bar 21 on the surface of the adjacent platform body 1, the control rod 25 is pulled, the control rod 25 pulls the connecting rod 23 into the binding groove 3 through the pull rod 24, the two platform bodies 1 are close to each other, the control rod 25 is erected, the upper end and the lower end of the control rod 25 are blocked by the inner wall of the operation groove 5 and cannot enter the rotation groove 4, and the two adjacent control rods 25 are connected through the clamping strip 26 to complete connection;

when the wave drove platform body 1, platform body 1's deflection makes the connection between activity ring 22 and loop bar 21 take place to deflect to drive connecting rod 23 and pass in and out in bundling groove 3, and then drive the inner wall that control lever 25 striking operation groove 5 in operation groove 5, owing to the connection of card strip 26, and then hinder control lever 25's deflection simultaneously, avoid control lever 25 to get into in the swivelling chute 4.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. A connection structure for splicing offshore platform modules, comprising a platform body (1), characterized in that: the side wall surface mounting of platform body (1) has connecting device, through connecting device interconnects between two adjacent platform bodies (1), connecting device includes dead lever (2).

2. The connection structure for splicing offshore platform modules according to claim 1, wherein: the platform is characterized in that one end of the fixed rod (2) is fixedly connected with the front end surface of the platform body (1), the other end side wall surface of the fixed rod (2) is fixedly connected with a loop bar (21), the loop bar (21) is located on two sides of the fixed rod (2) respectively, and the surface of the loop bar (21) is cylindrical.

3. The connection structure for splicing offshore platform modules according to claim 2, wherein: the surface of loop bar (21) slides and has cup jointed activity ring (22), the outer fixed surface of activity ring (22) is connected with connecting rod (23), the other end of connecting rod (23) articulates through universal bulb has pull rod (24), the rear end surface of platform body (1) has been seted up and has been restrainted groove (3), pull rod (24) are located and are restrainted groove (3) to receipts.

4. A connection structure for splicing offshore platform modules according to claim 3, wherein: the terminal fixedly connected with control lever (25) of pull rod (24), the fixed surface of control lever (25) is connected with card strip (26), adjacent two the surface joint of card strip (26) each other.

5. The connection structure for splicing offshore platform modules according to claim 4, wherein: the rotary trough (4) has been seted up to the inside of platform body (1), the end of receipts bundle groove (3) and the inside communicating pipe of rotary trough (4), control lever (25) are located the inside of rotary trough (4), operation groove (5) have been seted up to the upper surface of platform body (1), the inside of operation groove (5) and the inside intercommunication of rotary trough (4).

6. The connection structure for splicing offshore platform modules according to claim 5, wherein: the inner side wall of the operation groove (5) is provided with a drain hole (6).

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