CN112644638B

CN112644638B - Marine laboratory leg plate structure

Info

Publication number: CN112644638B
Application number: CN202011411093.9A
Authority: CN
Inventors: 赵自法; 赵振华; 杨聪
Original assignee: Jiangnan Shipyard Group Co Ltd
Current assignee: Jiangnan Shipyard Group Co Ltd
Priority date: 2020-12-03
Filing date: 2020-12-03
Publication date: 2022-04-12
Anticipated expiration: 2040-12-03
Also published as: CN112644638A

Abstract

The invention provides a marine laboratory enclosure wall structure, which comprises an aluminum honeycomb panel and a functional module, wherein the aluminum honeycomb panel is connected between two upright posts, the aluminum honeycomb panel comprises an upper panel and a lower panel, the back surfaces of the upright posts are fixedly connected with an enclosure wall of a ship body structure through a plurality of supporting rods, the bottom of the lower panel is embedded into a U-shaped bottom groove, a rubber pad is arranged in the U-shaped bottom groove, the functional module is positioned between the upper panel and the lower panel, and the functional module is provided with a circuit, an air path and/or a liquid path interface which can be connected with laboratory equipment. The wall structure of the laboratory enclosure can provide an experimental environment with relative vibration and noise reduction when a ship sails, solve the problem of integrated arrangement of experimental water, electricity, gas and the like, provide a clean experimental environment for experiments, fix experimental equipment, facilitate installation and use of the experimental equipment, and is convenient and practical.

Description

Marine laboratory leg plate structure

Technical Field

The invention relates to the technical field of ships, in particular to a marine laboratory enclosure wall structure.

Background

Cabin space on the ship is small, vibration noise is large, and the demand difference of different voyages and different experiments on experimental equipment and experimental environment is large. The problem that the space requirement of satisfying all kinds of experiments in finite space is required to be solved in the on-board laboratory, including solving different voyages, the problem of the interim fixed of different experimental facilities, solving on-board laboratory vibration noise environmental problem. Therefore, a person skilled in the art needs to study how to ensure that a ship-borne laboratory can provide a vibration noise environment required by an experiment and also can meet the fixed requirements of different test equipment.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a marine laboratory enclosure wall structure which is of a multifunctional integrated design and can provide a damping and noise-reducing experimental environment, so as to overcome the defects in the prior art.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a marine laboratory leg plate structure, is including connecting aluminium honeycomb panel and the functional module between two stands, aluminium honeycomb panel includes upper plate and hypoplastron, the stand back is through many spinal branchs vaulting pole and hull structure leg fixed connection, hypoplastron bottom embedding U type kerve is interior, be equipped with the rubber pad in the U type kerve, the functional module is located between upper plate and the hypoplastron, sets up the interface that can be connected with laboratory paraphernalia's circuit, gas circuit and/or liquid circuit on the functional module.

Preferably, the upright is an aluminum profile with a C-shaped groove.

More preferably, the upright post is 4080 aluminum profile with 6C-shaped grooves.

Preferably, the C-shaped groove of the stand column is embedded with a hanging rack and a rubber strip, the left side and the right side of the aluminum honeycomb plate are provided with folded edges, and the folded edges are provided with hooks and hung in hanging holes in the hanging rack.

Preferably, the bracing piece is the angle steel, and the one end of bracing piece weld in on the hull structure leg, the other end of bracing piece passes through the bolt and is connected with first angle board, and the angle board passes through the back of bolt and stand and is connected.

Preferably, the bottom of the upright post and the U-shaped bottom groove are fixed on a water retaining base, and the water retaining base is welded on the deck.

Preferably, the bottom of the upright post is fixedly connected to the water retaining base through a second angle-shaped plate, and the bottom of the U-shaped bottom groove is fixed to the water retaining base through self-tapping screws.

Preferably, the bottom of the functional module is fixedly connected with a cross rod, and two ends of the left side and the right side of the cross rod are fixedly connected with the upright posts.

More preferably, the cross bar is a 4040 aluminum profile with 4C-shaped grooves.

Preferably, the functional module comprises a functional slot and a functional cover plate at the rear end.

As mentioned above, the invention is a marine laboratory enclosure wall structure, which has the following beneficial effects:

the marine laboratory enclosure wall plate structure comprises an aluminum honeycomb plate and a functional module, wherein the aluminum honeycomb plate is connected between two stand columns, the aluminum honeycomb plate comprises an upper plate and a lower plate, the bottom of the lower plate is embedded into a U-shaped bottom groove, a rubber pad is arranged in the U-shaped bottom groove, vibration noise caused by ship shaking can be relieved, the experimental environment with relative vibration and noise reduction can be provided, the functional module is located between the upper plate and the lower plate, a circuit, a gas circuit and/or a liquid circuit interface which can be connected with laboratory equipment is arranged on the functional module, and a pipeline interface required by an experiment is integrally arranged on the enclosure wall plate, so that the clean experimental environment can be provided, the stand columns can fix the experimental equipment, the installation and the use of the experimental equipment can be facilitated, and the marine laboratory enclosure wall plate structure is convenient and practical.

Drawings

Figure 1 is a front view of a bulkhead structure of the invention.

Figure 2 is a side view of the enclosure wall panel structure of the present invention.

Figure 3 is a top view of the enclosure wall structure of the present invention.

Fig. 4 is a partial enlarged view of the point i in fig. 2.

Fig. 5 is a partial enlarged view of the point ii in fig. 2.

Fig. 6 is a partial enlarged view of fig. 3 at iii.

Fig. 7 is a schematic view of the hem and hanger of fig. 6.

FIG. 8 is a front and top view of the T-bolt.

In the figure:

1. the aluminum honeycomb panel comprises an aluminum honeycomb panel 2, a vertical column 3, a cross bar 4, a U-shaped bottom groove 5, a second angle-shaped plate 6, an upper plate 7, a lower plate 8, a T-shaped bolt 9, a self-tapping screw 11, a support rod 12, a first angle-shaped plate 13, a water retaining base 14, a folded edge 15, a hook 16, a third angle-shaped plate 21, a functional module 25, a hanging rack 26, a rubber strip 27, a hanging hole 41, a rubber pad 101, an upper deck 102, a lower deck 103, a structural enclosing wall 211, a functional groove 212, a functional cover plate

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

The structures, proportions, and dimensions shown in the drawings and described in the specification are for understanding and reading the present disclosure, and are not intended to limit the scope of the present disclosure, which is defined in the claims, and are not essential to the skilled in the art. In addition, the terms "upper", "lower", "front", "rear" and "middle" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the relative positions may be changed or adjusted without substantial technical changes.

Referring to fig. 1, 2 and 3, a marine laboratory enclosure wall structure of the present invention is shown, which is arranged on a peripheral structural enclosure wall 103 of a marine laboratory, and is disposed between an upper deck 101 and a lower deck 102, the marine laboratory enclosure wall structure includes an aluminum honeycomb panel 1 and a functional module 21, the aluminum honeycomb panel 1 is connected between two columns 2, the aluminum honeycomb panel 1 includes an upper panel 6 and a lower panel 7, the back of the column 2 is fixedly connected to the hull structural enclosure wall 103 through a plurality of support rods 11, the bottom of the lower panel 7 is embedded into a U-shaped bottom groove 4, a rubber pad 41 is disposed in the U-shaped bottom groove 4, the rubber pad 41 can reduce the vibration transmitted from the lower deck 102 to the aluminum honeycomb panel 1, and reduce the generated noise, the functional module 21 is disposed between the upper panel 6 and the lower panel 7, the functional module 21 is provided with an interface of a circuit, an air path and/or a liquid path, which can be connected to laboratory equipment, the device can supply power, gas and/or liquid for the experimental equipment in a centralized manner, thereby bringing convenience to experimental operation and providing a clean experimental environment.

In this embodiment, the upright 2 is 4080 aluminum profile with 6C-shaped grooves, as shown in fig. 6, the C-shaped grooves on the side and the back are used for connecting with the supporting rod 11 and the aluminum honeycomb panel 1, and the C-shaped grooves on the front can be used for fixing experimental equipment, so that the experimental bench can be conveniently built.

As shown in fig. 6 and 7, in the present embodiment, a hanging rack 25 and a rubber strip 26 are embedded in a C-shaped groove on the back surface of the upright 2, folded edges 14 are arranged on the left and right sides of the aluminum honeycomb panel 1, a hook 15 is arranged on the folded edge 14 and hung in a hanging hole 27 on the hanging rack 25, and the rubber strip 26 can weaken vibration noise generated between the folded edge 14 of the aluminum honeycomb panel 1 and the hanging rack 25.

As shown in fig. 3, the supporting rod 11 is an angle steel, one end of the supporting rod 11 is welded on the hull structure enclosing wall 103, the other end of the supporting rod 11 is connected with the first angle plate 12 through a bolt, and the first angle plate 12 is connected with the back of the upright post 2 through a bolt.

In this embodiment, the support rods 11 are spring angle steels, which can effectively reduce the transmission of vibration noise from the external wall plate structure to the hull structure surrounding wall 103.

As shown in fig. 4, in the present embodiment, the bottom of the upright 2 and the U-shaped bottom groove 4 are fixed on a water-retaining base 13, the water-retaining base 13 is welded on the deck, and the water-retaining base 13 is used for waterproofing in the laboratory and fixing the U-shaped bottom groove 4.

In this embodiment, the bottom of the upright column 2 is fixedly connected to the water-retaining base 13 through the second angle plate 5, the bottom of the U-shaped bottom groove 4 is fixed to the water-retaining base 13 through the tapping screw 9, and the tapping screw 9 penetrates through the rubber pad 41 and the bottom of the U-shaped bottom groove 4 to be fixed to the water-retaining base 13.

Preferably, the two ends of the top of the upper plate 6 are also bolted with the two upright posts 2 through a third angle plate 16.

As shown in fig. 1, in this embodiment, the bottom of the functional module 21 is fixedly connected to the cross bar 3 through a bolt, two ends of the left and right sides of the cross bar 3 are fixedly connected to the columns 2 through T-shaped connecting plates through bolts, and the cross bar 3 is used to support the functional module 21 and fix the columns 2.

As shown in fig. 5, the cross bar 3 is 4040 aluminum profile with 4C-shaped grooves, and the C-shaped grooves on the front side can be used for fixing experimental equipment, so that the experimental bench can be conveniently built.

In this embodiment, the functional module 21 includes a functional groove 211 and a functional cover 212 at the rear end, the functional groove 211 is used for collectively arranging circuits, gas circuits and/or liquid circuits and other pipelines connected with the laboratory equipment, and the functional cover 212 is used for arranging pipeline connection sockets, sockets and the like. Through concentrate and arrange required pipeline interface of experimental facilities and socket, socket etc. solve the integrated problem of arranging of experiment water, electricity, gas etc. and do benefit to experimental environment's clean and tidy, the implementation of the experiment operation of being convenient for.

As shown in fig. 8, the bolts for connecting with the upright 2 and the cross bar 3 are T-shaped bolts 8, and the rectangular heads of the T-shaped bolts 8 can be inserted into the C-shaped grooves of the 4080 aluminum profiles and the 4040 aluminum profiles, and then can not be separated from the C-shaped grooves after being rotated 90 degrees in the grooves.

The marine laboratory enclosure wall structure can provide an experimental environment with relative vibration and noise reduction under the condition of ship navigation, solve the problem of integration and arrangement of experimental water, electricity, gas and the like, provide a clean experimental environment for experiments, fix experimental equipment, facilitate installation and use of the experimental equipment, and is convenient and practical.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Many modifications may be made to the present invention without departing from the spirit or scope of the general inventive concept, and it will be apparent to those skilled in the art that changes and modifications may be made to the above-described embodiments without departing from the spirit or scope of the invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims

1. The marine laboratory enclosure wall plate structure is characterized by comprising an aluminum honeycomb plate (1) and a functional module (21) which are connected between two upright posts (2), wherein the aluminum honeycomb plate (1) comprises an upper plate (6) and a lower plate (7), the back surfaces of the upright posts (2) are fixedly connected with an enclosure wall (103) of a ship body structure through a plurality of support rods (11), and the upright posts (2) are aluminum profiles with C-shaped grooves; a hanging rack (25) and a rubber strip (26) are embedded in the C-shaped groove of the upright post (2), folded edges (14) are arranged on the left side and the right side of the aluminum honeycomb panel (1), and a hook (15) is arranged on each folded edge (14) and hung in a hanging hole (27) in the hanging rack (25); the bottom of the lower plate (7) is embedded into a U-shaped bottom groove (4), a rubber pad (41) is arranged in the U-shaped bottom groove (4), the functional module (21) is located between the upper plate (6) and the lower plate (7), and interfaces of circuits, gas circuits and/or liquid circuits which can be connected with laboratory equipment are arranged on the functional module (21).

2. Marine laboratory wall panel construction according to claim 1, characterized in that the uprights (2) are 4080 aluminium profiles with 6C-shaped grooves.

3. The marine laboratory wall structure according to claim 1, characterized in that the supporting rods (11) are angle steels, one end of each supporting rod (11) is welded to the hull structure wall (103), the other end of each supporting rod (11) is connected with the first angle plate (12) through bolts, and the first angle plate (12) is connected with the back of the upright column (2) through bolts.

4. Marine laboratory wall structure according to claim 1, characterized in that the uprights (2) and the bottom of the U-shaped bottom channel (4) are fixed to a water retaining base (13), said water retaining base (13) being welded to the deck.

5. The marine laboratory wall structure according to claim 4, characterized in that the bottom of the upright column (2) is fixedly connected to the water retaining base (13) through the second angle plate (5), and the bottom of the U-shaped bottom groove (4) is fixed to the water retaining base (13) through the tapping screw (9).

6. The marine laboratory wall panel structure according to claim 1, characterized in that the bottom of the functional module (21) is fixedly connected with the cross bar (3), and the two ends of the left and right sides of the cross bar (3) are fixedly connected with the upright posts (2).

7. Marine laboratory wall panel construction according to claim 6, characterized in that the cross bar (3) is 4040 aluminium profile with 4C-shaped grooves.

8. Marine laboratory wall panel construction according to claim 1, characterised in that the functional module (21) comprises a functional groove (211) and a rear functional cover (212).