CN212318206U - Baffle type marine refrigerated container equipment capable of generating electricity by using wave energy - Google Patents

Abstract

The utility model relates to an ocean can the field, concretely relates to marine frozen products insulated container equipment of baffler formula that can utilize wave energy power generation, including computer lab, scalable pipeline, vertical lift pipeline, dwang, liquid level detection part, pilot lamp, baffle, displacement controller, apron, lift controller, lift control button, fixed bolster, fixation clamp, heat dissipation window, rotating circular disc, trace, generating set, electric wire, storage battery, computer lab door, movable plate and frozen products insulated container consumer. The wave energy of the sea waves moving horizontally is collected through related equipment such as baffles and the like, converted into mechanical energy of a transmission structure, converted into electric energy through the generator set, collected to the storage battery pack and finally transmitted to the electric equipment of the refrigerated container, the electric equipment is not influenced by the stacking mode of the refrigerated container, and the wave energy in renewable energy sources can be fully utilized to generate electricity. Provides a new idea for the design of renewable energy utilization of the refrigerated container.

Description

Baffle type marine refrigerated container equipment capable of generating electricity by using wave energy

Technical Field

The utility model relates to an ocean can the field, concretely relates to can utilize wave energy power generation's marine frozen products insulated container equipment of baffle formula.

Background

The refrigerated container is a device widely applied to cold chain transportation, can be applied to sea transportation and land transportation, is matched with an independent power generation system or a battery to supply electric energy, but both methods have certain disadvantages: the independent power generation system is arranged in the refrigerated container, occupies partial space and compresses the goods stacking space, so that the freight volume of a single refrigerated container is reduced; although the space occupied by the battery for energy storage is small, the stored energy is limited, and if the channel is deviated (specifically, lengthened) in case of sudden situations such as rainstorm and the like during long-distance (or long-time) transportation, the situation of insufficient electric energy may occur.

Renewable energy sources comprise solar energy, wind energy, ocean energy and the like, and the renewable energy sources are used for generating electricity and supplying power to the refrigerated container, so that the situation that the electric energy is insufficient due to emergency caused by only using a self-contained battery can be avoided; a utility model with the publication number of CN210554433U, a antifreeze device for low-temperature refrigeration aluminum alloy carriage doors, which is provided with a solar panel on the top of the carriage body to convert the light energy generated by the sun into electric energy for supplying power; the design of this patent uses the refrigerator car as the design object, installs solar panel in the top of reefer container, when being used for land transportation, there is not the vertically condition of stacking of reefer container on the refrigerator car, can not exert an influence to solar panel's application, nevertheless when sea transportation, there is the vertically condition of stacking of reefer container in the reefer container, except placing the reefer container in the highest place, all the other solar panels of installing in the reefer container top all can not normally exert its efficiency, consequently when carrying out sea transportation, this design is difficult to carry out the better utilization to renewable energy.

Wave energy belongs to ocean energy in renewable energy sources, is mechanical energy, exists in a wave form, contains huge energy, and has less application of generating electricity by utilizing the wave energy on sailing ships at present, and is not popularized.

Disclosure of Invention

An object of the utility model is to provide a marine reefer container equipment of baffle formula that can utilize wave energy power generation, the wave energy of the wave energy absorption equipment collection horizontal motion's wave of application baffle formula to the wave energy that will collect through supporting power generation facility changes the electric energy into, realizes the electric power storage through electric wire connection in storage battery, at last through storage battery with electric energy transmission to the reefer container that needs supply power.

In order to achieve the above object, an embodiment of the present invention provides a baffle type marine refrigerated container apparatus capable of generating electricity by using wave energy, comprising a mini machine room, a retractable pipe, a vertical lifting pipe, a rotating rod, a liquid level detection part, an indicator light, a baffle, a displacement controller, a cover plate, a lifting controller, a lifting control button, a fixed bracket, a fixed clamp, a heat dissipation window, a rotating disc, a linkage rod, a generator set, an electric wire, a storage battery, a machine room door, a moving plate and an electrical equipment for a refrigerated container;

the vertical lifting pipeline comprises a first vertical lifting pipeline, a second vertical lifting pipeline, a third vertical lifting pipeline, a fourth vertical lifting pipeline, a fifth vertical lifting pipeline and a sixth vertical lifting pipeline; the baffle comprises a first baffle and a second baffle; the fixed bracket comprises a first fixed bracket, a second fixed bracket, a third fixed bracket and a fourth fixed bracket; the fixing clamp comprises a first fixing clamp and a second fixing clamp; the moving plate comprises a first moving plate and a second moving plate; the electric equipment for the refrigerated container comprises first electric equipment for the refrigerated container, second electric equipment for the refrigerated container, third electric equipment for the refrigerated container, fourth electric equipment for the refrigerated container and fifth electric equipment for the refrigerated container;

the telescopic pipeline is connected to the top of the right side of the small machine room;

the vertical lifting pipeline is connected with the tail end of the telescopic pipeline and consists of 6 sections of a first vertical lifting pipeline, a second vertical lifting pipeline, a third vertical lifting pipeline, a fourth vertical lifting pipeline, a fifth vertical lifting pipeline and a sixth vertical lifting pipeline;

a lifting controller is arranged outside the first vertical lifting pipeline;

a generator set is arranged at the uppermost end in the sixth vertical lifting pipeline;

a rotary disc is arranged in the middle of the sixth vertical lifting pipeline, a linkage rod is arranged above the rotary disc and connected with a generator set, and a rotating rod is arranged at the center of a circle below the rotary disc;

a first baffle and a second baffle are arranged on the left side and the right side of the rotating rod close to the lower end, and a liquid level detection part is arranged at a height equal to the height of the rotating rod;

a first moving plate and a second moving plate are arranged in the liquid level detection part;

a displacement controller and a cover plate are arranged on the first baffle plate;

a first fixing support, a second fixing support, a third fixing support and a fourth fixing support are arranged on the outer side of the small machine room;

a first fixing clamp and a second fixing clamp are respectively arranged on two surfaces of a small machine room, wherein the first fixing support and the fourth fixing support are arranged on the two surfaces;

a lifting control button and an indicator light are arranged on the surface of the small machine room where the first fixing support is arranged; the lifting control button is connected with the lifting controller in a remote control way; the indicator light is connected with the liquid level detection component in a remote control mode;

a heat dissipation window is arranged on the surface of the small machine room, on which the first fixing support is arranged;

installing a storage battery pack in the small machine room; the generator set is connected with the storage battery pack through an electric wire;

installing a machine room door on the surface of the small machine room, which is provided with the second fixing support and the third fixing support, wherein the machine room door is positioned between the second fixing support and the third fixing support;

the storage battery pack is connected with the first refrigerated container electric equipment, the second refrigerated container electric equipment, the third refrigerated container electric equipment, the fourth refrigerated container electric equipment and the fifth refrigerated container electric equipment.

Preferably, the manufacturing materials of the small machine room, the telescopic pipeline, the vertical lifting pipeline, the rotating rod, the liquid level detection part, the baffle plate, the cover plate, the lifting control button, the fixed support, the fixed clamp, the rotating disc, the linkage rod, the machine room door and the moving plate are aluminum alloys.

Preferably, the displacement controller and the lifting controller are externally subjected to waterproof treatment.

Preferably, the sun-proof treatment is carried out outside the small machine room.

Preferably, a sliding rail is embedded between adjacent vertical lifting pipelines, and the lifting controller is controlled by a lifting control button.

Preferably, the wire is additionally provided with a plastic protective layer.

Preferably, the portion of the first fixing clip and the second fixing clip connected with the small machine room is stretchable.

Optionally, the storage battery pack supplies power to 3-7 refrigerated containers.

The utility model discloses a can utilize wave energy power generation's marine frozen products insulated container equipment of baffle formula, the wave energy of the wave energy collecting device through the baffle formula to the horizontal motion's wave energy is collected to application generating set turns into the electric energy, carries to storage battery, transmits the frozen products insulated container to the needs carry out the power supply at last. The utility model discloses can utilize renewable energy to generate electricity according to the draft degree freedom regulation and control equipment of ship apart from the height on sea, effectively realize marine frozen products insulated container's energy-conservation. Through the utility model discloses a design provides a new thinking for marine frozen products insulated container's renewable energy application.

Drawings

FIG. 1 is a schematic view of the structure of a baffle-type marine refrigerated container apparatus capable of generating electricity by wave energy, which comprises 1-a small machine room, 2-a retractable pipe, 3.1-a first vertical lifting pipe, 3.2-a second vertical lifting pipe, 3.3-a third vertical lifting pipe, 3.4-a fourth vertical lifting pipe, 3.5-a fifth vertical lifting pipe, 3.6-a sixth vertical lifting pipe, 4-a rotating rod, and 5-a liquid level detecting part, 6-indicator light, 7.1-first baffle, 7.2-second baffle, 8-displacement controller, 9-cover plate, 10-lifting controller, 11-lifting control button, 12.1-first fixing bracket, 12.2-second fixing bracket, 13.1-first fixing clamp and 14-heat dissipation window.

FIG. 2 is a schematic view of the sectional structure of the baffle type refrigerated container for ships, which can use wave energy to generate electricity, including 1-small machine room, 2-telescopic pipes, 3.1-first vertical lifting pipes, 3.2-second vertical lifting pipes, 3.3-third vertical lifting pipes, 3.4-fourth vertical lifting pipes, 3.5-fifth vertical lifting pipes, 3.6-sixth vertical lifting pipes, 4-rotating rods, 5-liquid level detecting parts, 7.1-first baffle, 7.2-a second baffle, 8-a displacement controller, 9-a cover plate, 10-a lifting controller, 12.3-a third fixed support, 15-a rotating disc, 16-a linkage rod, 17-a generator set, 18-a wire, 19-a storage battery and 20-a machine room door.

Fig. 3 is a schematic view of the overlooking connection structure of the 5-liquid level detection part of the baffle type marine refrigerated container device capable of utilizing wave energy to generate electricity of the utility model, which comprises a 4-rotating rod, a 5-liquid level detection part, a 7.1-first baffle, a 7.2-second baffle, an 8-displacement controller, a 21.1-first movable plate and a 21.2-second movable plate.

Fig. 4 is a schematic view of the top-view connection structure of the 15-rotating disc of the baffle type marine refrigerated container apparatus capable of generating electricity by wave energy of the present invention, which comprises a 4-rotating rod, a 15-rotating disc and a 16-linkage rod.

Fig. 5 is a schematic view of the top view structure of the baffle type marine refrigerated container apparatus capable of generating electricity by wave energy of the present invention, which comprises 1-mini machine room, 2-telescopic pipe, 3.1-first vertical lifting pipe, 7.2 second baffle, 10-lifting controller, 12.1-first fixing support, 12.2-second fixing support, 12.3-third fixing support, 12.4-fourth fixing support, 13.1-first fixing clamp and 13.2-second fixing clamp.

Fig. 6 is a left side view schematic structure diagram of a 1-mini machine room part of the baffle type marine refrigerated container device capable of utilizing wave energy power generation of the present invention, which comprises a 1-mini machine room, a 12.1-first fixing bracket, a 12.2-second fixing bracket, a 12.3-third fixing bracket, a 12.4-fourth fixing bracket, a 13.1-first fixing clip, a 13.2-second fixing clip and a 20-machine room door.

Fig. 7 is a schematic diagram of the energy transfer of the baffle-type marine refrigerated container apparatus capable of generating electricity by wave energy according to the present invention, which includes 22.1-first refrigerated container electricity consumption device, 22.2-second refrigerated container electricity consumption device, 22.3-third refrigerated container electricity consumption device, 22.4-fourth refrigerated container electricity consumption device and 22.5-fifth refrigerated container electricity consumption device.

Detailed Description

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

As shown in fig. 1, an embodiment of the utility model provides an embodiment can utilize marine frozen products insulated container equipment's of baffling owner that wave energy electricity generation looked structure chart, including mini-machine room 1, scalable pipeline 2, first vertical lift pipeline 3.1, second vertical lift pipeline 3.2, third vertical lift pipeline 3.3, fourth vertical lift pipeline 3.4, fifth vertical lift pipeline 3.5, sixth vertical lift pipeline 3.6, dwang 4, liquid level detection part 5, pilot lamp 6, first baffle 7.1, second baffle 7.2, displacement controller 8, apron 9, lift controller 10, lift control button 11, first fixed bolster 12.1, second fixed bolster 12.2, first fixation clamp 13.1 and heat dissipation window 14.

As shown in fig. 2, an embodiment of the utility model provides a but application wave energy power generation's marine frozen products insulated container equipment's of baffling main vision section structure picture, including mini-machine room 1, scalable pipeline 2, first vertical lift pipeline 3.1, second vertical lift pipeline 3.2, third vertical lift pipeline 3.3, fourth vertical lift pipeline 3.4, fifth vertical lift pipeline 3.5, sixth vertical lift pipeline 3.6, dwang 4, liquid level detection part 5, first baffle 7.1, second baffle 7.2, displacement controller 8, apron 9, lift controller 10, third fixed bolster 12.3, swivel disc 15, trace 16, generating set 17, electric wire 18, storage battery 19 and machine room door 20.

As shown in fig. 3, an embodiment of the present invention provides a connection structure diagram for overlooking a liquid level detection unit 5 of a baffle type refrigerated container equipment for a ship, which can generate electricity by wave energy, and comprises a rotating rod 4, the liquid level detection unit 5, a first baffle 7.1, a second baffle 7.2, a displacement controller 8, a first moving plate 21.1 and a second moving plate 21.2.

As shown in fig. 4, an embodiment of the present invention provides a top-view connection structure diagram of a rotating disk 15 of a baffle-type marine refrigerated container device capable of generating electricity by using wave energy, which includes a rotating rod 4, a rotating disk 15 and a linkage 16.

As shown in fig. 5, an embodiment of the present invention provides a structure diagram of a top view of a baffle type marine refrigeration container apparatus capable of using wave energy power generation, which includes a mini-machine room 1, a retractable pipe 2, a first vertical lifting pipe 3.1, a second baffle 7.2, a lifting controller 10, a first fixing bracket 12.1, a second fixing bracket 12.2, a third fixing bracket 12.3, a fourth fixing bracket 12.4, a first fixing clip 13.1 and a second fixing clip 13.2.

As shown in fig. 6, an embodiment of the present invention provides a left side view structure diagram of a mini-machine room 1 of a baffle type marine refrigerated container apparatus capable of generating electricity by wave energy, which includes a mini-machine room 1, a first fixing bracket 12.1, a second fixing bracket 12.2, a third fixing bracket 12.3, a fourth fixing bracket 12.4, a first fixing clip 13.1, a second fixing clip 13.2 and a machine room door 20.

The size of the shell of the small machine room 1 is 2.5 multiplied by 2.5m, and the thickness is 100 mm;

the top on the right side of the small machine room 1 is provided with a telescopic pipeline 2 in the middle, the shell of the telescopic pipeline 2 is 2.3 multiplied by 0.8 multiplied by 5m, the thickness of the telescopic pipeline 2 is 50mm, the distance between the telescopic pipeline 2 and the two sides of the installation surface is 100mm, the distance between the telescopic pipeline 2 and the top of the installation surface is 100mm, an opening with the size of 750 multiplied by 750mm is arranged in the middle at one end of the small machine room 1, the opening is 50mm away from the left end face, an opening with the size of 900 multiplied by 750mm is arranged in the middle at the joint of the telescopic pipeline 2 and the first vertical lifting pipeline 3.1, the opening is 50mm away from the right end face, and;

a first vertical lifting pipeline 3.1 is arranged below the tail end of the telescopic pipeline 2 and is arranged in the middle, the first vertical lifting pipeline 3.1 is a cylinder with the outer diameter of 1600mm and the inner diameter of 1500mm, the height of the cylinder is 5m, the thickness of the cylinder is 50mm, the circle center of the cylinder is 500mm away from the right side face of the telescopic pipeline 2, the bottom of the cylinder is provided with a middle opening, and the diameter of the cylinder is 1500 mm; the first vertical lifting pipe 3.1, the second vertical lifting pipe 3.2, the third vertical lifting pipe 3.3, the fourth vertical lifting pipe 3.4, the fifth vertical lifting pipe 3.5 and the sixth vertical lifting pipe 3.6 are concentric cylinders, the heights are all 5m, the sizes of the openings above are 900 multiplied by 750mm, the thickness is 50mm, the space between the first vertical lifting pipe 3.1 and the second vertical lifting pipe 3.2, the space between the second vertical lifting pipe 3.2 and the third vertical lifting pipe 3.3, the space between the third vertical lifting pipe 3.3 and the fourth vertical lifting pipe 3.4, the space between the fourth vertical lifting pipe 3.4 and the fifth vertical lifting pipe 3.5 and the space between the fifth vertical lifting pipe 3.5 and the sixth vertical lifting pipe 3.6 are all connected through embedded sliding rails, the outer diameter of the second vertical lifting pipe 3.2 is 1500mm, the inner diameter is 1400mm, the outer diameter of the third vertical lifting pipe 3.3 is 1400mm, the inner diameter is 1300mm, the outer diameter of the fourth vertical lifting pipeline 3.4 is 1300mm, the inner diameter is 1200mm, the outer diameter of the fifth vertical lifting pipeline 3.5 is 1200mm, the inner diameter is 1100mm, the outer diameter of the sixth vertical lifting pipeline 3.6 is 1100mm, the inner diameter is 1000mm, the bottoms of the second vertical lifting pipeline 3.2, the third vertical lifting pipeline 3.3, the fourth vertical lifting pipeline 3.4, the fifth vertical lifting pipeline 3.5 and the sixth vertical lifting pipeline 3.6 are cylinders with central opening radius equal to the inner diameter of the cylinders, the thickness of the cylinders is 50mm, and the wall thicknesses of the second vertical lifting pipeline 3.2, the third vertical lifting pipeline 3.3, the fourth vertical lifting pipeline 3.4, the fifth vertical lifting pipeline 3.5 and the sixth vertical lifting pipeline 3.6 are 50 mm;

the lifting control button 11 is connected with the lifting controller 10 in a remote control way; the lifting control button 11 is arranged on the front surface of the small machine room 1, is 1150mm away from the bottom surface and 800mm away from the right side surface, is a rectangle with the size of 100 multiplied by 100mm, and is embedded; a lifting controller 10 is arranged at the top of the first vertical lifting pipeline 3.1, and can send a control instruction to the first vertical lifting pipeline 3.1, the second vertical lifting pipeline 3.2, the third vertical lifting pipeline 3.3, the fourth vertical lifting pipeline 3.4, the fifth vertical lifting pipeline 3.5 and the sixth vertical lifting pipeline 3.6 by operating a lifting control button 11 to carry out lifting operation;

a generator set 17 is arranged at the top of the inner side of the sixth vertical lifting pipeline 3.6, and the length of the generator set 17 is 2300 mm;

a rotating disc 15 is arranged at a position 625mm below the generator set 17, the diameter of the rotating disc 15 is 960mm, and the thickness of the rotating disc is 100 mm;

a linkage rod 16 is arranged at a position 130mm away from the center of the rotary disc 15, the linkage rod 16 is connected with the rotary disc 15 and a transmission system in the generator set 17, and the part of the linkage rod 16, which is positioned between the rotary disc 15 and the generator set 17, is a cylinder with the diameter of 50mm and the length of 625 mm;

a rotating rod 4 is arranged below the rotating disc 15, the rotating rod 4 is formed by combining two rods, a vertical cylindrical rod with the diameter of 100mm and the length of 3925mm and a transverse cylindrical rod with the diameter of 100mm and the length of 1700mm are arranged at a position 500mm away from the bottom of the vertical rod, and the rotating rod 4 and the rotating disc 15 are concentric;

a liquid level detection part 5 is arranged at the cross-shaped connection position of the rotating rod 4, the liquid level detection part 5 is 300mm high and is a cylinder, the cross section of the liquid level detection part is composed of a rectangle with the size of 400 multiplied by 400mm and 2 opposite semicircles with the radius of 200mm, and the connecting line of the circle centers of the two semicircles is vertical to any rod of the rotating rod 4;

a first movable plate 21.1 and a second movable plate 21.2 are respectively embedded in the positions of 2 hollowed-out semi-cylinders (the radius of the hollowed-out positions is 150mm and is concentric with the semicircle of the shell) in the liquid level detection part 5, the first movable plate and the second movable plate can be moved randomly in the vertical direction, the thicknesses of the first movable plate 21.1 and the second movable plate 21.2 are both 20mm, and when no other external force is applied, the first movable plate 21.1 and the second movable plate 21.2 are both positioned at the lowest part of the liquid level detection part 5;

the indicator lamp 6 is arranged in the small machine room 1, is away from the bottom 1170mm and the right side 660mm from the front, is a circle with the radius of 30mm, and is embedded; the indicator lamp 6 is connected with the liquid level detection part 5 in a remote control way;

a first baffle 7.1 and a second baffle 7.2 with the size of 800 multiplied by 700 multiplied by 100mm are respectively arranged at the two ends of the transverse rod of the rotating rod 4;

a cover plate 9 is arranged on the first baffle plate 7.1, the size of the cover plate 9 is 600 multiplied by 500 multiplied by 100mm, the cover plate is 100mm away from the top of the first baffle plate 7.1 and 100mm away from the left side of the first baffle plate 7.1, the part of the first baffle plate 7.1 with the same area and blocked by the cover plate 9 is hollowed out, and the right side of the cover plate 9 is connected with the first baffle plate 7.1;

a displacement controller 8 is arranged beside the cover plate 9;

a storage battery pack 19 with the size of 1500 multiplied by 1000mm is arranged in the middle of the small machine room 1, the storage battery pack 19 is connected with the generator set 17 through an electric wire 18, and the electric wire 18 passes through the telescopic pipelines 2 and openings on each vertical lifting pipeline;

the first fixing support 12.1, the second fixing support 12.2, the third fixing support 12.3 and the fourth fixing support 12.4 are all composed of a flat plate with the size of 200 multiplied by 700 multiplied by 50mm and a triangular plate with the bottom of 500mm, the height of 1200mm and the thickness of 200mm, a cylindrical hole with the diameter of 40mm is arranged at the position away from the center of the flat plate, the bottoms of the first fixing support 12.1, the second fixing support 12.2, the third fixing support 12.3 and the fourth fixing support 12.4 are all on the same plane with the bottom of the small machine room 1, the first fixing support 12.1 is installed on the front face of the small machine room 1 and is 1150mm away from the left side face of the small machine room 1, the second fixing support 12.2 and the third fixing support 12.3 are installed on the left side face of the small machine room 1 and are 300mm away from the front face and the back face of the small machine room 1 respectively, the fourth fixing support 12.4 is installed on the back face of the small machine room 1 and is 1150;

the first fixing clamp 13.1 and the second fixing clamp 13.2 are composed of a stretchable part with the length of 500mm, the width of 200mm and the thickness of 100mm and a hasp part with the length of 200mm, the width of 200mm and the thickness of 100mm, a part with the length of 100 multiplied by 100mm exists in the hasp part, the extensible maximum length is 200mm, the stretchable part is used for being clamped on a rail on a cargo ship deck, the first fixing clamp 13.1 is installed on the front side of the mini machine room 1, the uppermost end is 1550mm away from the bottom of the mini machine room 1 and is 300mm away from the right side of the mini machine room 1, the second fixing clamp 13.2 is installed on the back side of the mini machine room 1, the uppermost end is 1550mm away from the bottom of the mini machine room 1 and is 300 mm;

the size of the machine room door 20 is 1200 × 2000 × 100mm, and is mounted on the left side surface of the small machine room 1, and is 650mm away from the front surface and 100mm away from the bottom of the small machine room 1.

Because there is no shelter for protecting against rainstorm scouring on the deck of the general cargo ship, and the utility model needs to be placed on the deck to operate, therefore, the small machine room 1, the telescopic pipeline 2, the first vertical lifting pipeline 3.1, the second vertical lifting pipeline 3.2, the third vertical lifting pipeline 3.3, the fourth vertical lifting pipeline 3.4, the fifth vertical lifting pipeline 3.5, the sixth vertical lifting pipeline 3.6, the lifting control button 11, the first fixing bracket 12.1, the second fixing bracket 12.2, the third fixing bracket 12.3, the fourth fixing bracket 12.4, the first fixing clip 13.1, the second fixing clip 13.2, the rotating disc 15, the linkage rod 16 and the machine room door 20 are made of aluminum alloy, and the lifting controller 10 is subjected to waterproof treatment to prevent the rainstorm from rusting when the cargo ship is underway, thereby prolonging the service life of the equipment; the small machine room 1 is subjected to sun-screening treatment to prevent the temperature inside the small machine room 1 from being too high due to solar irradiation.

Dwang 4, liquid level detection part 5, first baffle 7.1, second baffle 7.2, displacement controller 8, apron 9, first movable plate 21.1 and second movable plate 21.2 need with sea water direct contact, dwang 4, liquid level detection part 5, first baffle 7.1, second baffle 7.2, apron 9, the aluminium alloy is chooseed for use to the preparation material of first movable plate 21.1 and second movable plate 21.2, displacement controller 8 carries out water repellent outward, cause quick rust to prevent that equipment from contacting with the sea water for a long time, increase the operating life of equipment.

Scalable pipeline 2 is connected through embedded slide rail with mini-machine room 1, stretches out the distance demand on cargo ship deck as required and regulates and control the length that scalable pipeline 2 stretches out mini-machine room 1, and the regulation and control scope of the length that can stretch out is 3m ~ 4.2 m.

Through controlling a lifting control button 11 arranged on the small machine room 1, an instruction can be sent to a lifting controller 10 to control the lifting of a first vertical lifting pipeline 3.1, a second vertical lifting pipeline 3.2, a third vertical lifting pipeline 3.3, a fourth vertical lifting pipeline 3.4, a fifth vertical lifting pipeline 3.5 and a sixth vertical lifting pipeline 3.6; the operation of the elevation control button 11 is that the lower half part of the elevation control button 11 is pressed to be a descending instruction, the upper half part of the elevation control button 11 is pressed to be an ascending instruction, the elevation control button 11 is sent to stop descending or ascending, and if the descending or ascending limit is exceeded, the descending or ascending cannot be continued even if the elevation control button 11 is pressed; the lifting distances of the 6 sections of vertical lifting pipelines are all 4.95m and are 29.7m in total, and the lifting distances are in the sequence from outside to inside in the descending process and in the sequence from inside to outside in the ascending process; the height from the deck of a general cargo ship to the sea surface is about 25m, the sum of the maximum lifting distance of 6 sections of vertical lifting pipelines and the part of a sixth vertical lifting pipeline, which extends out of a rotating rod 4 by 3.6, deducts the height of the small machine room 1, and can be maximally lowered to the position 29.2m below the deck, so that the size condition of the general cargo ship is met, the lifting of the first vertical lifting pipeline 3.1, the second vertical lifting pipeline 3.2, the third vertical lifting pipeline 3.3, the fourth vertical lifting pipeline 3.4, the fifth vertical lifting pipeline 3.5 and the sixth vertical lifting pipeline 3.6 can be regulated and controlled according to requirements, the positions are regulated and controlled to be proper, and the collection efficiency of wave energy of horizontally moving sea waves is improved.

The elevation heights of the first vertical lifting pipeline 3.1, the second vertical lifting pipeline 3.2, the third vertical lifting pipeline 3.3, the fourth vertical lifting pipeline 3.4, the fifth vertical lifting pipeline 3.5 and the sixth vertical lifting pipeline 3.6 are regulated and controlled by observing the indicator lamp 6, the main process is that when the liquid level detection part 5 is in contact with the sea surface, the first moving plate 21.1 and the second moving plate 21.2 are also in contact with the sea surface, the buoyancy of the sea water is gradually increased along with the descending of the equipment, so that the first moving plate 21.1 and the second moving plate 21.2 are pushed to move upwards, when the first moving plate 21.1 and the second moving plate 21.2 are detected to be no longer located at the lowest position of the liquid level detection part 5, a signal is sent to the indicator lamp 6, the indicator lamp 6 is lightened after the signal is received, the equipment reaches the target height, and the elevation control button 11 can be sent.

The absorption process of the wave energy is as follows: when sea waves move horizontally, the first baffle 7.1 and the second baffle 7.2 are impacted, the first baffle 7.1 and the second baffle 7.2 drive the rotating rod 4 to rotate, the rotating rod 4 drives the rotating disc 15 to rotate, the rotating disc 15 drives the linkage rod 16 to rotate, and the linkage rod 16 rotates to drive a transmission system in the generator set 17 to operate, so that wave energy is converted into rotating mechanical energy and is converted into electric energy in the generator set 17; when the first baffle 7.1 and the second baffle 7.2 are subjected to the same force of sea waves, the related equipment cannot rotate, and when the first baffle 7.1 and the second baffle 7.2 just run to be parallel to the moving direction of the sea waves and stop, the related equipment cannot rotate, if the two conditions occur, the displacement controller 8 can detect that the movement of the first baffle 7.1 does not meet the requirement, the cover plate 9 can be controlled to be opened to allow water to pass through, so that the pressure received by the first baffle 7.1 and the second baffle 7.2 can generate a difference value under the first condition, the difference value can enable the related equipment to rotate, under the first condition, the water flow can impact the cover plate 9 to enable the related equipment to rotate, and when the displacement condition of the first baffle 7.1 meets the requirement, the displacement controller 8 can control the cover plate 9 to be closed; the displacement control 8 is set to control the cover 9 to open when the first flap 7.1 cannot be rotated 90 ° within 20s, and to control the cover 9 to close when the first flap 7.1 can be rotated 90 ° within 20s again.

The length of the electric wire 18 connecting the generator set 17 and the storage battery pack 19 is 40m, and a plastic protective layer is additionally arranged, so that abrasion caused by long-term use is prevented.

The first fixing support 12.1, the second fixing support 12.2, the third fixing support 12.3, the fourth fixing support 12.4, the first fixing clamp 13.1 and the second fixing clamp 13.2 are devices for fixing the position of the utility model; the first fixing bracket 12.1, the second fixing bracket 12.2, the third fixing bracket 12.3 and the fourth fixing bracket 12.4 can be fixed by nailing iron nails into cylindrical holes of each fixing bracket; the first 13.1 and second 13.2 clips can fasten the hasp to the rail on the deck and the stretchable portion can be elongated by 1.5m at the maximum.

If the outdoor temperature is higher, the heat dissipation window 14 is opened to dissipate heat, so that overheating in the small machine room 1 is prevented.

When equipment in the mini-machine room 1 needs to be repaired or maintained, the equipment enters from the machine room door 20 to perform repair or maintenance work.

As shown in fig. 7, an embodiment of the present invention provides an energy transfer diagram of a baffle-type marine refrigerated container device capable of generating electricity by using wave energy, which includes a first refrigerated container electrical device 22.1, a second refrigerated container electrical device 22.2, a third refrigerated container electrical device 22.3, a fourth refrigerated container electrical device 22.4, and a fifth refrigerated container electrical device 22.5.

The utilization of wave energy includes four stages: in the first stage, the wave energy in the horizontal direction is collected through a first baffle 7.1 and a second baffle 7.2; in the second stage, the first baffle 7.1 and the second baffle 7.2 drive the rotating rod 4 to rotate and sequentially drive the rotating disc 15, the linkage rod 16 and a transmission system in the generator set 17 to rotate, and in the stage, the wave energy is converted into mechanical energy for rotating the first baffle 7.1, the second baffle 7.2, the rotating rod 4, the rotating disc 15, the linkage rod 16 and the transmission system in the generator set 17; the third stage is that the generator set 17 converts the mechanical energy into electric energy and transmits the electric energy to the storage battery set 19 through the electric wire 18; the fourth phase is that the battery pack 19 transmits the collected electrical energy to the first 22.1, second 22.2, third 22.3, fourth 22.4 and fifth 22.5 refrigerated container electrical devices.

If calamity weather such as rainstorm appears, can lead to equipment to appear damaging, especially with wave direct contact's relevant rotating equipment, consequently come temporarily at calamity weather, the utility model discloses can not use, frozen products insulated container uses the emergent power of ship.

The above embodiments are merely illustrative of the design principles and applications of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may 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 (8)

1. Can utilize marine frozen products insulated container equipment of wave energy electricity generation's baffler formula, its characterized in that:

the baffle type marine refrigerated container equipment capable of generating electricity by using wave energy comprises a small machine room (1), a telescopic pipeline (2), a vertical lifting pipeline, a rotating rod (4), a liquid level detection part (5), an indicator lamp (6), a baffle, a displacement controller (8), a cover plate (9), a lifting controller (10), a lifting control button (11), a fixed support, a fixed clamp, a heat dissipation window (14), a rotating disc (15), a linkage rod (16), a generator set (17), an electric wire (18), a storage battery pack (19), a machine room door (20), a movable plate and electrical equipment for a refrigerated container;

the vertical lifting pipelines comprise a first vertical lifting pipeline (3.1), a second vertical lifting pipeline (3.2), a third vertical lifting pipeline (3.3), a fourth vertical lifting pipeline (3.4), a fifth vertical lifting pipeline (3.5) and a sixth vertical lifting pipeline (3.6);

the baffle comprises a first baffle (7.1) and a second baffle (7.2);

the fixing support comprises a first fixing support (12.1), a second fixing support (12.2), a third fixing support (12.3) and a fourth fixing support (12.4);

the fixing clamp comprises a first fixing clamp (13.1) and a second fixing clamp (13.2);

the moving plate comprises a first moving plate (21.1) and a second moving plate (21.2);

the electric equipment for the refrigerated container comprises first electric equipment (22.1) for the refrigerated container, second electric equipment (22.2) for the refrigerated container, third electric equipment (22.3) for the refrigerated container, fourth electric equipment (22.4) for the refrigerated container and fifth electric equipment (22.5) for the refrigerated container;

the telescopic pipeline (2) is connected to the top of the right side of the small machine room (1);

the vertical lifting pipeline is connected with the tail end of the telescopic pipeline (2) and consists of 6 sections of a first vertical lifting pipeline (3.1), a second vertical lifting pipeline (3.2), a third vertical lifting pipeline (3.3), a fourth vertical lifting pipeline (3.4), a fifth vertical lifting pipeline (3.5) and a sixth vertical lifting pipeline (3.6);

a lifting controller (10) is arranged outside the first vertical lifting pipeline (3.1);

a generator set (17) is arranged at the uppermost end in the sixth vertical lifting pipeline (3.6);

a rotary disc (15) is arranged in the middle of the sixth vertical lifting pipeline (3.6), a linkage rod (16) is arranged above the rotary disc (15), the linkage rod (16) is connected with a generator set (17), and a rotary rod (4) is arranged at the circle center below the rotary disc (15);

a first baffle (7.1) and a second baffle (7.2) are arranged on the left side and the right side of the rotating rod (4) close to the lower end, and a liquid level detection part (5) is arranged at a height equal to the height; a first moving plate (21.1) and a second moving plate (21.2) are arranged in the liquid level detection part (5);

a displacement controller (8) and a cover plate (9) are arranged on the first baffle (7.1);

a first fixed bracket (12.1), a second fixed bracket (12.2), a third fixed bracket (12.3) and a fourth fixed bracket (12.4) are arranged at the outer side of the small machine room (1);

a first fixing clamp (13.1) and a second fixing clamp (13.2) are respectively arranged on two surfaces of a first fixing support (12.1) and a fourth fixing support (12.4) arranged in a small machine room (1);

a lifting control button (11) and an indicator light (6) are arranged on the surface of the small machine room (1) where the first fixing support (12.1) is arranged;

the lifting control button (11) is connected with the lifting controller (10) in a remote control way;

the indicator lamp (6) is connected with the liquid level detection component (5) in a remote control way;

a heat radiation window (14) is arranged on the surface of the small machine room (1) where the first fixing bracket (12.1) is arranged;

a storage battery pack (19) is installed in the small machine room (1);

the generator set (17) is connected with the storage battery pack (19) through an electric wire (18);

a machine room door (20) is arranged on the surface of the small machine room (1) where the second fixing support (12.2) and the three fixing supports (12.3) are arranged, and the machine room door (20) is positioned between the second fixing support (12.2) and the three fixing supports (12.3);

the storage battery pack (19) is connected with a first electric equipment (22.1) for the refrigerated container, a second electric equipment (22.2) for the refrigerated container, a third electric equipment (22.3) for the refrigerated container, a fourth electric equipment (22.4) for the refrigerated container and a fifth electric equipment (22.5) for the refrigerated container.

2. A marine reefer container apparatus of the type employing wave energy generation of a barrier as claimed in claim 1, wherein:

aluminum alloy is selected as manufacturing materials of a small machine room (1), a telescopic pipeline (2), a vertical lifting pipeline, a rotating rod (4), a liquid level detection part (5), a baffle plate, a cover plate (9), a lifting control button (11), a fixed support, a fixed clamp, a rotating disc (15), a linkage rod (16), a machine room door (20) and a moving plate.

3. A marine reefer container apparatus of the type employing wave energy generation of a barrier as claimed in claim 1, wherein:

the displacement controller (8) and the lifting controller (10) are externally subjected to waterproof treatment.

4. A marine reefer container apparatus of the type employing wave energy generation of a barrier as claimed in claim 1, wherein:

and (3) carrying out sun-proof treatment outside the small machine room (1).

5. A marine reefer container apparatus of the type employing wave energy generation of a barrier as claimed in claim 1, wherein:

the lifting control device comprises a first vertical lifting pipeline (3.1), a second vertical lifting pipeline (3.2), a third vertical lifting pipeline (3.3), a fourth vertical lifting pipeline (3.4), a fifth vertical lifting pipeline (3.5) and a sixth vertical lifting pipeline (3.6), wherein a sliding rail is embedded between every two adjacent vertical lifting pipelines, and the lifting controller (10) is controlled through a lifting control button (11).

6. A marine reefer container apparatus of the type employing wave energy generation of a barrier as claimed in claim 1, wherein:

the electric wire (18) is externally provided with a plastic protective layer.

7. A marine reefer container apparatus of the type employing wave energy generation of a barrier as claimed in claim 1, wherein:

the part of the first fixing clamp (13.1) and the second fixing clamp (13.2) connected with the small machine room (1) is stretchable.

8. A marine reefer container apparatus of the type employing wave energy generation of a barrier as claimed in claim 1, wherein:

the storage battery pack (19) supplies power to 3-7 refrigerated containers.

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