CN112356971B

CN112356971B - Auxiliary transportation device based on lifting of total load of cargo ship

Info

Publication number: CN112356971B
Application number: CN202110059279.0A
Authority: CN
Inventors: 林雪峰
Original assignee: Yantai Zhihuigang Technology Innovation Co ltd
Current assignee: China Shipping Vastwin Project Logistic Co ltd
Priority date: 2021-01-18
Filing date: 2021-01-18
Publication date: 2021-03-30
Anticipated expiration: 2041-01-18
Also published as: CN113044168A; CN112356971A; CN113044168B

Abstract

The invention discloses an auxiliary transportation device based on lifting of the total load of a cargo ship, and belongs to the technical field of marine equipment. The method comprises the following steps: the positioning and mounting frame body is arranged on the side wall of the ship body structure; the air bag accommodating cavity is arranged on the positioning installation frame body; a floating air bag portion; the sliding mounting plate is arranged at the bottom end of the air bag part of the floating body and is in sliding fit with the air bag accommodating cavity; the limiting bearing plate is arranged at the top end of the floating body air bag part, and the floating body air bag part and the limiting bearing plate synchronously slide and displace; the limiting bearing plate can be in contact with the auxiliary loading and transporting deck; a touch alarm is pressed; the touch alarm is arranged on the limiting bearing plate. The device can bear the shipment goods with the help of body gasbag portion self buoyancy, need not the bottom atress and can offset the gravity of shipment goods, still can be by the instant automatic alarm of touch-press alarm after the critical value that body gasbag portion can offset is reachd, prevents the functional failure, has promoted the functional practicality of structure.

Description

Auxiliary transportation device based on lifting of total load of cargo ship

Technical Field

The invention relates to the technical field of marine equipment, in particular to an auxiliary transportation device based on lifting of the total load of a cargo ship.

Background

At present, during transportation in the ship industry, a method for increasing the load capacity of a ship body is generally adopted to increase the draught volume of the ship (namely, the underwater volume of the ship) or a catamaran and the like so as to increase the overall load capacity.

A catamaran in the prior art refers to a "ship" in which two separate underwater hulls are connected to each other by a reinforcing frame to form a whole, and a host and a propeller are respectively disposed in the two hulls, and the catamaran can be used to place cargo through a bridge (generally called a connecting bridge) connecting the two hulls. However, the load capacity is increased mainly by increasing the load area, two ship hulls with rated load capacity are still needed for carrying the load capacity, and the load capacity of the ship hulls is still high. The cargo cannot be continuously placed on the basis of the rated load capacity formed by increasing the area of the ship, and the total load capacity of the ship body is difficult to increase.

In view of the above-mentioned prior art, the applicant of the present invention has made a lot of repeated and useful researches, and the final products have achieved effective results and have formed the technical solutions to be described below.

Disclosure of Invention

Therefore, the invention provides an auxiliary transportation device based on the total load of a lifting cargo ship, which aims to solve the technical problem that the method for lifting the total load of the ship in the prior art is still limited to increase the draught volume and the load area of the ship, and the cargo can not be continuously placed on the ship body with the rated load exceeding the increased area to lift the total load of the ship body on the basis of increasing the area of the ship.

In order to achieve the above purpose, the invention provides the following technical scheme:

an auxiliary transportation device based on lifting of the total load of a cargo ship comprises a ship body structure, wherein auxiliary shipping decks are arranged on two sides of the ship body structure along the advancing direction of the ship body structure; the auxiliary transporting apparatus further comprises:

the two loading and transporting bearing parts are respectively arranged on the two auxiliary loading and transporting decks in a one-to-one correspondence manner; the loading and carrying part comprises a positioning and mounting frame body, an air bag accommodating cavity and a limiting sliding cavity; the two positioning and mounting frame bodies are fixedly connected to two side walls of the ship body structure along the advancing direction of the ship body structure in a one-to-one correspondence mode respectively; and the positioning and mounting frame body is positioned below the auxiliary shipping deck;

the air bag accommodating cavity and the limiting sliding cavity are both arranged on the positioning installation frame body, and the cavity opening of the air bag accommodating cavity and the cavity opening of the limiting sliding cavity are both positioned on the auxiliary shipping deck; the cavity opening of the limiting sliding cavity is positioned on the side part of the cavity opening of the air bag accommodating cavity;

the floating air bag part is vertically and slidably arranged in the air bag accommodating cavity; the floating air bag part can form a self-floating body structure with the overall density smaller than that of air, and the downward pressure of the floating air bag part on the ship body structure is 0;

an airbag floor portion including a slide mounting plate; the sliding mounting plate is fixedly connected to the bottom end of the air bag part of the floating body, and the sliding mounting plate is vertically matched with the cavity wall of the air bag accommodating cavity in a sliding manner; the floating body air bag part is vertically arranged on the cavity wall of the air bag accommodating cavity in a sliding manner based on the sliding mounting plate;

the bearing plate part comprises a limiting bearing plate; the limiting bearing plate is fixedly connected to the top end of the floating air bag part, and the floating air bag part and the limiting bearing plate can synchronously and vertically slide and displace; the bottom end of the limiting bearing plate is fixedly connected with a plurality of extension positioning rods, and one ends of the extension positioning rods, which are far away from the limiting bearing plate along the extension direction, are fixedly connected with limiting sliding blocks; the number of the limiting sliding blocks is equal to that of the limiting sliding cavities, and the limiting sliding blocks are arranged in the limiting sliding cavities in a sliding mode;

the sliding position of the limiting sliding block in the limiting sliding cavity is provided with a highest point, the limiting sliding block is the highest point when sliding to the topmost part of the limiting sliding cavity, the limiting bearing plate is correspondingly provided with the highest point, and the limiting bearing plate can limit the highest position of the air bag part of the floating body;

the limiting bearing plate can be used as a shipping part of the cargo to be shipped, and the limiting bearing plate can slide downwards to be in contact with the auxiliary shipping deck under the action of the gravity of the cargo to be shipped;

a touch alarm is pressed; the touch alarm is fixedly connected with the limiting bearing plate and provided with a pressure detection end; the pressure detection end vertically corresponds to the auxiliary shipping deck; when the limiting bearing plate slides to be in contact with the auxiliary shipping deck, the pressure detection end synchronously generates contact pressure with the auxiliary shipping deck, the contact pressure alarm can give an alarm when the contact pressure is generated, and at the moment, the weight born by the floating body airbag part reaches a critical value which can be counteracted by the floating body airbag part.

On the basis of the technical scheme, the invention can be further improved as follows:

as a development of the invention, the shipping and carrying part further comprises a plurality of supporting angle brackets;

and the supporting angle frames are fixedly connected between the outer bottom end of the positioning and mounting frame body and the side wall of the ship body structure, and form a triangular support through the supporting angle frames.

As an improved scheme of the invention, the positioning installation frame body is fixedly connected with at least two vertically arranged guide slide rails on the inner wall of the cavity corresponding to the air bag accommodating cavity; the floating body air bag part can vertically slide along the guide sliding rail in the air bag accommodating cavity by means of the sliding mounting plate.

As a development of the invention, the airbag base plate portion further comprises at least two adaptive sliders;

the number of the self-adaptive sliding blocks is equal to that of the guide sliding rails, and at least two self-adaptive sliding blocks are in one-to-one corresponding sliding fit with at least two guide sliding rails respectively;

at least two the side end of sliding mounting board is located to the self-adaptation slider rigid coupling respectively, sliding mounting board can be in under the effect of self-adaptation slider along the vertical slip of direction slide rail.

As an improved scheme of the invention, the distance between the limiting slide block and the bottom of the limiting slide cavity, the distance between the bottom end face of the limiting bearing plate and the auxiliary shipping deck, and the distance between the bottom end face of the slide mounting plate and the bottom of the air bag accommodating cavity are all equal;

when the limiting slide block slides to the bottommost part of the limiting slide cavity, the sliding mounting plate slides to the bottommost part of the air bag accommodating cavity; the limiting bearing plate is in contact with the auxiliary shipping deck.

As the improvement scheme of the invention, the touch alarm is also provided with a red and blue alarm lamp;

the pressure detection end is parallel and level with the bottom end face of the limiting bearing plate, the red and blue alarm lamp corresponds to the top end face of the limiting bearing plate, when the limiting bearing plate is in contact with the auxiliary shipping deck, the pressure detection end of the touch alarm can synchronously touch and press the auxiliary shipping deck, the red and blue alarm lamp can emit bright indicator light under the action of a built-in power supply and a control module of the touch alarm, and the weight borne by the floating body air bag part reaches a critical value which can be offset by the floating body air bag part.

As the improvement scheme of the invention, the floating body air bag part comprises a plurality of helium air bags filled with helium gas; and a plurality of helium airbags are communicated with each other.

As an improved scheme of the invention, the floating air bag part also comprises a plurality of air charging and discharging interfaces communicated with the inside of the helium air bags; the air charging and discharging interface extends through the limiting bearing plate from the helium bag.

As the improvement scheme of the invention, the device also comprises a gas supplementing module;

the gas supplementing module comprises a gas bottle group fixedly arranged on the auxiliary shipping deck; the gas bottle group comprises a plurality of helium bottles filled with compressed helium; the helium bottles are communicated with the gas charging and discharging interfaces of the helium air bag through pipelines, and the communication pipelines between the helium bottles and the gas charging and discharging interfaces are provided with one-way control valves.

As an improvement of the invention, the gas supplementing module further comprises a pressure gauge;

the plurality of helium bottles are communicated with the pressure gauge through pipelines, and the communication pipelines between the plurality of helium bottles and the pressure gauge are provided with one-way control valves;

the pressure gauge is communicated with the air charging and discharging interface of the helium air bag through a pipeline.

The invention has the following advantages:

the device can effectively lift the shipping area of the ship body through the shipping bearing parts arranged on the two sides of the ship body structure, effectively bear the shipped goods by virtue of the bearing force provided by the buoyancy of the floating body airbag part on the basis of the lifted shipping area of the ship body, and can offset the gravity of the shipped goods without bearing the force of the bottom, so that no additional vertical pressure can be generated on the ship body structure, and the total overall loading capacity of the ship body structure can be increased; meanwhile, the touch alarm can automatically alarm in time after reaching a critical value which can be counteracted by the floating air bag part, so that the function failure is prevented, the weight of the shipment goods loaded on the floating air bag part can be further adjusted until the alarm is relieved, and the maximum floating body performance of the floating air bag part is fully utilized; in addition, in the transportation of hull structure, when the body performance that leads to because the inside atmospheric pressure of body gasbag portion changes reduces, the alarm of pressing still can real-time automatic alarm, can supply atmospheric pressure for body gasbag portion fast through gaseous supplementary module, guarantees the feasibility of its predetermined body performance and function, has effectively promoted the functional practicality of structure.

Drawings

In order to clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly introduced, and the structures, the proportions, the sizes, and the like shown in the specification are only used for matching with the contents disclosed in the specification, so that those skilled in the art can understand and read the modifications of any structures, the changes of the proportion relationships, or the adjustments of the sizes, without affecting the functions and the achievable purposes of the present invention, and still fall within the scope of the technical contents disclosed in the present invention.

Fig. 1 is a schematic overall axial structure diagram of an auxiliary transportation device based on total load of a lift cargo ship according to an embodiment of the present invention.

Fig. 2 is a schematic view of an operation state of the auxiliary transportation device based on lifting the total load of the cargo ship according to the embodiment of the present invention.

Fig. 3 is a second schematic view of the operation state of the auxiliary transportation device based on the total load of the cargo ship according to the embodiment of the present invention.

Fig. 4 is a third schematic view of the working state of the auxiliary transportation device based on the total load of the cargo ship according to the embodiment of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

a hull structure 1, an auxiliary shipping deck 11;

the loading and transporting device comprises a loading and transporting bearing part 2, a positioning installation frame body 21, a supporting angle frame 22, an air bag accommodating cavity 23, a guide slide rail 24 and a limiting slide cavity 25;

a floating air bag part 3, a helium air bag 31 and an air charging and discharging interface 32;

an airbag bottom plate portion 4, a slide mounting plate 41, and an adaptive slider 42;

a bearing plate part 5, a limit bearing plate 51, an extension positioning rod 52 and a limit slide block 53;

a touch alarm 6;

the gas supplementing module 7, the gas bottle group 71, the pressure gauge 72 and the one-way control valve 73;

the cargo 8 is shipped.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the present specification, the terms "upper", "lower", "left", "right" and "middle" are used for clarity of description only, and are not used 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 change.

The embodiment of the invention provides an auxiliary transportation device based on lifting of the total load of a cargo ship, which is shown in figures 1-4 and comprises a ship body structure 1, a loading and carrying part 2, a floating body air bag part 3, an air bag bottom plate part 4, a carrying plate part 5, a touch pressure alarm 6 and an air supplement module 7; the ship body loading and transporting device is used for effectively lifting the ship body loading and transporting area through the loading and transporting bearing parts 2 arranged on the two sides of the ship body structure 1, effectively bearing the loaded and transported goods 8 by virtue of the bearing force provided by the buoyancy of the air bag part 3 of the floating body on the basis of the lifted ship body loading and transporting area, and offsetting the gravity of the loaded and transported goods 8 without bearing the force of the bottom, so that no extra vertical pressure is generated on the ship body structure 1, and the whole total load capacity of the ship body structure 1 can be lifted; meanwhile, the touch alarm 6 can automatically alarm in real time after reaching a critical value which can be counteracted by the floating air bag part 3, so that the function failure is prevented, the weight of the shipment goods 8 loaded on the floating air bag part 3 can be further adjusted until the alarm is relieved, and the maximum floating body performance of the floating air bag part 3 is fully utilized; in addition, in the transportation of hull structure 1, when the body performance that leads to because the inside atmospheric pressure of body gasbag portion 3 changes reduces, touch alarm 6 still can real-time automatic alarm, can supplement the atmospheric pressure for body gasbag portion 3 fast through gaseous supplementary module 7, guarantee its predetermined body performance and the feasibility of function, effectively promoted the functional practicality of structure. The specific settings are as follows:

as shown in fig. 1, an auxiliary shipping deck 11 extends on both sides of the hull structure 1; to increase the shipping area of the hull structure 1 and maintain balance; the load-bearing plate sections 5 are provided above the auxiliary shipping decks 11, respectively, to bear the shipping cargo 8 through the load-bearing plate sections 5.

The number of the shipping bearing parts 2 is two, and the two shipping bearing parts 2 are fixedly connected to two side walls of the hull structure 1 in a one-to-one correspondence mode respectively; the shipping carrier 2 is located below the auxiliary shipping deck 11, and the carrier panel 5 is vertically slidably engaged with the shipping carrier 2 such that the carrier panel 5 can slide up and down in the vertical direction on the basis of the shipping carrier 2.

Specifically, referring to fig. 2 to 4, the shipping bearing part 2 includes a positioning installation frame 21, a supporting angle frame 22, an air bag accommodating cavity 23, a guiding slide rail 24 and a limiting slide cavity 25; a plurality of supporting angle brackets 22 are fixedly connected between the bottom end of the outer side of the positioning and mounting frame body 21 and the side wall of the ship body structure 1, so that a triangular support is formed through the supporting angle brackets 22, and the mounting stability of the positioning and mounting frame body 21 and the internal structure thereof is effectively improved; the inner side of the positioning and mounting frame body 21 is provided with the air bag accommodating cavity 23, and the positioning and mounting frame body 21 is fixedly connected with at least two vertically arranged guide slide rails 24 on the inner wall of the cavity corresponding to the air bag accommodating cavity 23; the floating bag portion 3 can slide vertically up and down along the guide slide rail 24 in the bag housing chamber 23 by the bag bottom plate portion 4.

The floating body air bag part 3 comprises a plurality of helium air bags 31 filled with helium and an air charging and discharging interface 32 communicated with the inside of the helium air bags 31; several helium air bags 31 are communicated with each other to form a self-floating structure with the overall density smaller than that of air and no downward pressure is generated.

The airbag floor portion 4 includes a slide mounting plate 41 and an adaptive slider 42; the number of the adaptive sliding blocks 42 is equal to that of the guide sliding rails 24, and at least two adaptive sliding blocks 42 are in one-to-one corresponding sliding fit with at least two guide sliding rails 24 respectively; at least two adaptive sliding blocks 42 are fixedly connected to the side end of the sliding mounting plate 41, and the sliding mounting plate 41 can slide vertically along the guide slide rail 24 under the action of the adaptive sliding blocks 42; the bottom end of the helium bag 31 is fixedly connected to the top end surface of the slide mounting plate 41, so that the helium bag 31 can further slide vertically up and down along the guide slide rail 24 in the bag accommodating chamber 23 by means of the bag bottom plate portion 4.

With reference to fig. 1 to 4, the supporting plate portion 5 includes a limiting supporting plate 51, an extending positioning rod 52 and a limiting slider 53; the bottom end face of the limit bearing plate 51 is fixedly connected with the top end of the helium bag 31, so that the limit bearing plate 51 can be driven to synchronously move when the helium bag 31 vertically slides up and down; the bottom end face of the limiting bearing plate 51 is also fixedly connected with a plurality of extension positioning rods 52, and the end of each extension positioning rod 52 far away from the limiting bearing plate 51 is fixedly connected with a limiting sliding block 53 along the extension direction. The positioning installation frame body 21 is provided with a plurality of limiting sliding cavities 25 on one side end surface corresponding to the auxiliary shipping deck 11, the number of the limiting sliding cavities 25 is equal to that of the limiting sliding blocks 53, and the limiting sliding blocks 53 are slidably arranged in the limiting sliding cavities 25; the sliding position of the limiting sliding block 53 in the limiting sliding cavity 25 has a highest point, that is, the highest point is formed when the limiting sliding block 53 slides to the topmost part of the limiting sliding cavity 25, so that the limiting bearing plate 51 correspondingly has a highest point, and the highest position of the helium airbag 31 arranged at the bottom end of the limiting bearing plate 51 can be limited; meanwhile, the distance between the limiting slider 53 and the bottom of the limiting sliding cavity 25, the distance between the bottom end surface of the limiting bearing plate 51 and the auxiliary shipping deck 11, and the distance between the bottom end surface of the sliding mounting plate 41 and the bottom of the airbag accommodating cavity 23 are all the same, that is, when the limiting slider 53 slides to the bottommost part of the limiting sliding cavity 25, the sliding mounting plate 41 slides to the bottommost part of the airbag accommodating cavity 23, and simultaneously the limiting bearing plate 51 as a shipping part is lowered to a position where the bottom end surface thereof is in contact with the auxiliary shipping deck 11 under the action of the gravity of the shipped goods 8, so as to effectively ensure that the limiting bearing plate 51 can be in contact with the auxiliary shipping deck 11 under the action of the gravity of a certain amount of the shipped goods 8, and further determine whether the limiting position reaches a critical value which can be offset by the airbag portion 3 or not by using the limiting slider as the critical position, the feasibility of the function is improved.

The touch alarm 6 is provided with a plurality of touch alarms, and the touch alarms 6 are respectively and uniformly fixedly connected and arranged on the position of the limiting bearing plate 51 corresponding to the auxiliary shipping deck 11, so that the touch alarms 6 can touch the auxiliary shipping deck 11 when vertically moving downwards.

Specifically, the touch pressure alarm 6 is respectively provided with a pressure detection end and a red and blue alarm lamp; the pressure detection end is flush with the bottom end face of the limiting bearing plate 51, the red and blue alarm lamp corresponds to the top end face of the limiting bearing plate 51, so that when the limiting bearing plate 51 is in contact with the auxiliary shipping deck 11, the pressure detection end of the touch alarm 6 can synchronously touch and press the auxiliary shipping deck 11, the red and blue alarm lamp emits bright indicator light under the action of a built-in power supply and a control module of the touch alarm 6, and then the limit bearing plate 51 can be judged to reach a critical position, and then the floating body air bag part 3 reaches a critical value which can be offset; after the shipment goods 8 with the preset weight are conveniently taken down from the limit bearing plate 51, under the action of the floating body performance of the floating body air bag part 3, the floating body air bag part 3 can drive the limit bearing plate 51 and the touch alarm 6 to move upwards, the contact action between the touch alarm 6 and the auxiliary shipment deck 11 is removed, and then the alarm is removed. And, in the course of the hull transportation, along with the decline of 3 internal pressure of body gasbag portion, when the body performance weakens, spacing loading board 51 can drive under the action of gravity and touch alarm 6 and touch and press supplementary shipment deck 11, touches alarm 6 and can automatic production report to the police this moment to make the operation personnel in time to make up gas in the body gasbag portion 3, guaranteed the functional practicality of structure.

With continued reference to fig. 1, the gas supplementing module 7 includes a gas cylinder group 71, a pressure gauge 72 and a one-way control valve 73 respectively fixed on the auxiliary shipping deck 11; specifically, the gas cylinder group 71 includes a plurality of helium cylinders filled with compressed helium gas; the helium bottles are communicated with the pressure gauge 72 through pipelines, the helium bottles are communicated with the communication pipelines between the pressure gauge 72 through pipelines, the pressure gauge 72 is communicated with the gas charging and discharging interface 32 of the helium airbag 31 through pipelines, when the gas pressure in the helium airbag 31 is lower than a lower threshold value, the helium airbag 31 can be instantly guided into the compressed helium gas in the helium bottles by opening the one-way control valve 73, the one-way control valve 73 is closed until the touch pressure alarm 6 stops alarming, the real-time gas pressure value in the helium airbag 31 can be observed through the pressure gauge 72, and therefore the functional stability of the hull structure 1 in long-distance navigation is guaranteed.

The use method of the auxiliary transportation device based on the lifting of the total load of the cargo ship specifically comprises the following steps:

s1, when the position-limiting bearing plate 51 in the bearing plate part 5 is in a standing state without goods, the helium airbags 31 in the floating body airbag part 3 respectively drive the airbag bottom plate part 4 and the bearing plate part 5 to move upwards under the action of the self floating body performance; the self-adaptive sliding block 42 in the airbag bottom plate part 4 slides upwards along the guide sliding rail 24 in the shipping bearing part 2, the limiting sliding block 53 in the bearing plate part 5 slides upwards along the limiting sliding cavity 25 in the shipping bearing part 2 and stops under the limiting action when the limiting sliding block 53 slides to the top of the limiting sliding cavity 25, the limiting bearing plate 51 stops upwards moving through feedback conduction by the extending positioning rod 52 connected with the limiting sliding block 53, and the helium airbag 31 and the sliding mounting plate 41 in the bottom airbag bottom plate part 4 stop upwards moving under the limiting action of the limiting bearing plate 51.

At this time, the load-bearing plate portion 5, the floating body bag portion 3, and the bag bottom plate portion 4 are all held in the position to be loaded.

S2, when the ship body structure 1 reaches the rated loading capacity in the process of shipping, the goods 8 to be shipped are evenly placed on the limiting bearing plates 51 of the bearing plate parts 5.

Along with the increase of the total amount of the cargos 8 loaded on the top of the limiting bearing plate 51, the limiting bearing plate 51 starts to gradually move downwards under the action of the gravity from the cargos 8, and simultaneously the limiting bearing plate 51 synchronously drives the extension positioning rod 52, the limiting slide block 53 and the helium gas bag 31 to move downwards; wherein, the limiting slide block 53 gradually slides downwards in the limiting slide cavity 25; the helium gas bag 31 is stably moved downwards by the sliding action between the self-adaptive sliding blocks 42 on both sides of the sliding mounting plate 41 at the bottom thereof and the guide slide rail 24.

S3, when the shipment goods 8 on the top of the limit bearing plate 51 reach the predetermined amount, the limit bearing plate 51 makes the limit slider 53 slide to the bottom of the limit sliding cavity 25 under the action of the gravity of the shipment goods 8, and makes the sliding mounting plate 41 at the bottom of the helium gas bag 31 slide to the bottom of the bag accommodating cavity 23 in the shipment bearing part 2; at this time, the bottom end face of the limit bearing plate 51 is in contact with the auxiliary shipping deck 11, and simultaneously the pressure detection end of the touch alarm 6 fixedly connected to the limit bearing plate 51 synchronously touches the auxiliary shipping deck 11, and the red and blue alarm lamp emits a bright indicator light alarm, that is, the limit bearing plate 51 reaches a critical position, and the weight borne by the floating body airbag part 3 reaches a critical value which can be offset by the limit bearing plate.

S4, the shipment goods 8 placed on the top of the limit bearing plate 51 are taken down by a preset weight, and under the action of the floating body performance of the floating body air bag part 3, the floating body air bag part 3 can drive the limit bearing plate 51 and the touch pressure alarm 6 arranged on the limit bearing plate 51 to move upwards again until the touch pressure action between the touch pressure alarm 6 and the auxiliary shipment deck 11 is eliminated, and then the alarm of the red and blue alarm lamp is relieved.

S5: when the ship body structure 1 is transported in a long distance, the performance of the floating body is weakened along with the reduction of the internal pressure of the air bag part 3 of the floating body, the limiting bearing plate 51 can drive the touch alarm 6 to touch and press the auxiliary shipping deck 11 under the action of the gravity of the shipped goods 8, and the touch alarm 6 automatically gives an alarm.

And opening the one-way control valve 73 to lead the compressed helium in the helium tank into the helium airbag 31 in real time, gradually returning the gas pressure in the helium airbag 31 to a preset range, gradually recovering the performance of the floating body to enable the limiting bearing plate 51 to move upwards, and closing the one-way control valve 73 after the touch pressure alarm 6 stops alarming.

Or the real-time gas pressure value in the helium gas bag 31 can be observed through the pressure gauge 72, and then whether the one-way control valve 73 needs to be opened to introduce helium gas into the helium gas bag 31 is judged.

So far, a group of auxiliary transportation devices based on lifting the total load of the cargo ship is completed, the auxiliary transportation devices can also be suitable for the situation that the preset shipping area is reached but the rated load capacity is not reached, namely, the original ship structure 1 and the auxiliary shipping deck 11 are directly used for carrying the shipped goods 8 together, and after a red and blue alarm lamp in the touch alarm 6 is turned on, a power supply is cut off to continue the shipping until the rated load capacity is reached.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. An auxiliary transportation device based on lifting of the total load of a cargo ship comprises a ship body structure and is characterized in that auxiliary loading decks are arranged on two sides of the ship body structure along the advancing direction of the ship body structure; the auxiliary transporting apparatus further comprises:

the limiting bearing plate can be used as a shipping part for shipping goods, and can slide downwards to be in contact with the auxiliary shipping deck under the action of the gravity of the goods to be shipped;

2. An auxiliary transportation unit based on the total load of a lift vessel as claimed in claim 1, wherein said shipping carrier further comprises a number of support angle brackets; and the supporting angle frames are fixedly connected between the outer bottom end of the positioning and mounting frame body and the side wall of the ship body structure, and form a triangular support through the supporting angle frames.

3. The auxiliary transportation device based on the total load of the lifting cargo ship is characterized in that at least two vertically arranged guide slide rails are fixedly connected to the positioning installation frame body on the inner wall of the cavity corresponding to the air bag accommodating cavity; the floating body air bag part can vertically slide along the guide sliding rail in the air bag accommodating cavity by means of the sliding mounting plate.

4. The auxiliary transportation device based on the total load of the elevating cargo ship as claimed in claim 3, wherein said air bag bottom plate portion further comprises at least two adaptive sliding blocks; the number of the self-adaptive sliding blocks is equal to that of the guide sliding rails, and at least two self-adaptive sliding blocks are in one-to-one corresponding sliding fit with at least two guide sliding rails respectively; at least two the side end of sliding mounting board is located to the self-adaptation slider rigid coupling respectively, sliding mounting board can be in under the effect of self-adaptation slider along the vertical slip of direction slide rail.

5. The auxiliary transportation device based on the total load of the elevating cargo ship as claimed in claim 1, wherein the distance between the limiting slide block and the bottom of the limiting slide cavity, the distance between the bottom end face of the limiting loading plate and the auxiliary shipping deck, and the distance between the bottom end face of the slide mounting plate and the bottom of the air bag accommodating cavity are all equal; when the limiting slide block slides to the bottommost part of the limiting slide cavity, the sliding mounting plate slides to the bottommost part of the air bag accommodating cavity; the limiting bearing plate is in contact with the auxiliary shipping deck.

6. The auxiliary transportation device based on the total load of the elevating cargo ship as claimed in claim 1, wherein said touch alarm further comprises a red and blue alarm lamp; the pressure detection end is parallel and level with the bottom end face of the limiting bearing plate, the red and blue alarm lamp corresponds to the top end face of the limiting bearing plate, when the limiting bearing plate is in contact with the auxiliary shipping deck, the pressure detection end of the touch alarm can synchronously touch and press the auxiliary shipping deck, the red and blue alarm lamp can emit bright indicator light under the action of a built-in power supply and a control module of the touch alarm, and the weight borne by the floating body air bag part reaches a critical value which can be offset by the floating body air bag part.

7. An auxiliary transportation apparatus for lifting the total load of cargo ship according to claim 1, wherein said floating body air bag part comprises several helium air bags filled with helium gas; and a plurality of helium airbags are communicated with each other.

8. The auxiliary transportation device based on the total load of the elevating cargo ship as claimed in claim 7, wherein the floating body air bag part further comprises an air charging and discharging interface for communicating the inside of the plurality of helium air bags; the air charging and discharging interface extends through the limiting bearing plate from the helium bag.

9. Auxiliary transportation device based on the total load of a lift vessel according to claim 7 or 8, characterized by further comprising a gas replenishment module; the gas supplementing module comprises a gas bottle group fixedly arranged on the auxiliary shipping deck; the gas bottle group comprises a plurality of helium bottles filled with compressed helium; the helium bottles are communicated with the gas charging and discharging interfaces of the helium air bag through pipelines, and the communication pipelines between the helium bottles and the gas charging and discharging interfaces are provided with one-way control valves.

10. The auxiliary transportation device based on the total load of the elevating cargo ship as claimed in claim 9, wherein the gas supplementing module further comprises a pressure gauge; the plurality of helium bottles are communicated with the pressure gauge through pipelines, and the communication pipelines between the plurality of helium bottles and the pressure gauge are provided with one-way control valves; the pressure gauge is communicated with the air charging and discharging interface of the helium air bag through a pipeline.