CN216861291U - Light stores up car platform cabin device - Google Patents

Abstract

The utility model discloses a platform cabin device of a light storage vehicle. The device comprises a second type chassis, wherein an auxiliary frame platform cabin is arranged on the second type chassis; the auxiliary frame platform cabin is of a framework square cabin structure and is surrounded by rectangular square steel pipes in a welding mode to form three cabin bodies, and the three cabin bodies are a battery cabin, a light storage cabin and a control cabin from the head to the tail of the vehicle in sequence; the auxiliary frame platform cabin 1 is provided with a split type bearing mechanism, and the split type bearing mechanism comprises 3 groups of bearing bridges and 3 groups of bearing hanging frames. The device has the advantages that the split type bearing mechanism reasonably decomposes the load, carries out stress simulation analysis, ensures the installation strength, and has the advantages of convenience in installation, maintenance, precision adjustment and the like.

Description

Light stores up car platform cabin device

Technical Field

The utility model relates to the field of power supply equipment, in particular to a platform cabin device of an optical storage vehicle.

Background

With the goal of carbon peak reaching in 2030 years and carbon neutralization in 2060 years in China, the carbon emission reduction policy will gradually become stricter in the future, and the trend that new energy gradually replaces the traditional energy is obvious. Under the background of this energy transformation, how to combine solar photovoltaic power generation with current traditional portable power source, it is significant to develop novel light and store up portable power source equipment technical research.

In order to meet the power utilization requirements of special conditions such as field operation, government rescue and relief, military combat emergency and the like in remote areas, power vehicles are generally adopted as mobile power supply equipment in China. The power supply vehicle mainly adopts a diesel generating set as the only power generation equipment, has the characteristics of flexibility, mobility, stable power supply and the like, and also has the problems of large noise, high emission, poor infrared concealment, poor high-altitude performance, high oil cost, difficult supply and the like. In order to actively cope with the domestic energy revolution situation, a new energy application technology is explored. In summary, a new light storage mobile power supply equipment project is urgently needed.

Disclosure of Invention

The utility model aims to provide a light storage vehicle platform cabin device.

In order to achieve the purpose, the optical storage vehicle platform cabin device comprises a second type chassis, wherein an auxiliary vehicle frame platform cabin is arranged on the second type chassis; the auxiliary frame platform cabin is of a framework square cabin structure and is surrounded by rectangular square steel pipes in a welding mode to form three cabin bodies, and the three cabin bodies are a battery cabin, a light storage cabin and a control cabin from the head to the tail of the vehicle in sequence; the auxiliary frame platform cabin is provided with a split type bearing mechanism, and the split type bearing mechanism comprises 3 groups of bearing bridges and 3 groups of bearing hanging frames; the 3 groups of bearing bridges are respectively an end bearing bridge, a middle bearing bridge and a tail bearing bridge, and the end bearing bridge, the middle bearing bridge and the tail bearing bridge are respectively arranged at the end part, the middle part and the tail part of the platform cabin of the auxiliary frame; the 3 groups of bearing hanging frames are respectively a battery bearing hanging frame, a light storage bearing hanging frame and a control bearing hanging frame; the battery bearing hanging bracket, the light storage bearing hanging bracket and the control bearing hanging bracket are respectively arranged on the battery cabin, the light storage cabin and the control cabin;

the bearing bridge mainly comprises an upper layer frame, a lower layer frame and longitudinal support rods, wherein the longitudinal support rods are at least provided with 6, are respectively arranged on four corners of the upper layer frame and the lower layer frame and are arranged in the centers of two long side edges of the upper layer frame and the lower layer frame; the upper layer frame is respectively provided with a first bearing surface and a second bearing surface;

the bearing hanger comprises an object carrying platform, and four fixed keys of the object carrying platform are respectively a first longitudinal fixed key, a second longitudinal fixed key, a third longitudinal fixed key and a fourth longitudinal fixed key, wherein the first longitudinal fixed key and the second longitudinal fixed key are connected through a first supporting rod, and the third longitudinal fixed key and the fourth longitudinal fixed key are connected through a second supporting rod; the rack object stage is arranged on the first supporting rod and the second supporting rod.

An inclined support rod is further arranged between the upper layer frame and the lower layer frame and comprises a first inclined support rod and a second inclined support rod which are oppositely arranged.

A first inclined supporting rod is arranged between the adjacent longitudinal supporting rods, or a second inclined supporting rod is arranged between the adjacent longitudinal supporting rods.

Install expanded photovoltaic module on the sub vehicle frame platform cabin, expanded photovoltaic module includes photovoltaic panel base and expanded photovoltaic panel, be provided with a pair on the photovoltaic panel base and correspond the triangular supports frame that sets up, correspond and install expanded photovoltaic panel between the triangular supports frame that sets up.

The auxiliary frame platform cabin is divided into a battery cabin, a light storage cabin and a control cabin through a cabin separation plate.

A first reinforcing rib is arranged between the end part bearing bridge and the battery cabin; and a second reinforcing rib is arranged between the light storage cabin and the control cabin.

A first battery pack is arranged in the battery cabin through a battery bearing hanging bracket; a second battery pack, a high-pressure box and a light storage inversion integrated machine are arranged in the light storage cabin through a light storage bearing hanging bracket; and the control cabin is provided with a control module by controlling the bearing hanging bracket.

The utility model relates to a light storage vehicle platform cabin device, which has the beneficial effects that: the device adopts a split type bearing mechanism, so that the device has the characteristics of flexibility, simplicity and convenience in operation, low noise, zero emission, easiness in maintenance, good adaptability to high altitude, low power generation cost and the like, can meet the power utilization requirements of special conditions such as field operation in remote areas, government rescue and relief, military combat emergency and the like, and has better application prospect and development space.

Drawings

FIG. 1 is a schematic view of a sub-frame platform bay;

FIG. 2 is a schematic view of a split type bearing mechanism of the photovoltaic module;

FIG. 3 is a schematic view of the cabin layout;

FIG. 4 is a schematic view of a maintenance orifice;

FIG. 5 is a schematic view of a load bearing bridge;

figure 6 is a schematic view of a load-bearing cradle;

in the figure: 1-an auxiliary frame platform cabin, 2-a first reinforcing rib, 3-a second reinforcing rib, 4-a battery cabin, 5-a light storage cabin, 6-a control cabin, 7-an end part bearing bridge, 8-a middle part bearing bridge, 9-a tail part bearing bridge, 10-a photovoltaic component containing cabin, 11-an object stage, 12-a first longitudinal fixed key, 13-a first supporting rod, 14-a second longitudinal fixed key, 15-a third longitudinal fixed key, 16-a second supporting rod, 17-a fourth longitudinal fixed key, 18-an upper layer framework, 19-a lower layer framework, 20-a longitudinal supporting rod, 21-a first inclined supporting rod, 22-a second inclined supporting rod, 23-a first bearing surface and 24-a second bearing surface.

Detailed Description

Example 1

As shown in fig. 1 to 6, the optical storage vehicle platform cabin device of the present invention comprises a second type chassis, wherein an auxiliary frame platform cabin 1 is arranged on the second type chassis; the auxiliary frame platform cabin 1 is of a framework square cabin structure and is surrounded by rectangular square steel pipes in a welding mode to form three cabin bodies, and the three cabin bodies are a battery cabin 4, a light storage cabin 5 and a control cabin 6 from the head to the tail of the vehicle in sequence; the auxiliary frame platform cabin 1 is provided with a split type bearing mechanism, and the split type bearing mechanism comprises 3 groups of bearing bridges and 3 groups of bearing hanging frames; the 3 groups of bearing bridges are respectively an end bearing bridge 7, a middle bearing bridge 8 and a tail bearing bridge 9, and the end bearing bridge 7, the middle bearing bridge 8 and the tail bearing bridge 9 are respectively arranged at the end part, the middle part and the tail part of the auxiliary frame platform cabin 1; the 3 groups of bearing hanging frames are respectively a battery bearing hanging frame, a light storage bearing hanging frame and a control bearing hanging frame; the battery bearing hanging bracket, the light storage bearing hanging bracket and the control bearing hanging bracket are respectively arranged on the battery cabin 4, the light storage cabin 5 and the control cabin 6;

the bearing bridge mainly comprises an upper layer frame 18, a lower layer frame 19 and longitudinal support rods 20, wherein the longitudinal support rods 20 are at least provided with 6, are respectively arranged on four corners of the upper layer frame 18 and the lower layer frame 19 and are arranged in the centers of two long side edges of the upper layer frame 18 and the lower layer frame 19; the upper layer frame 18 is respectively provided with a first bearing surface 23 and a second bearing surface 24;

the bearing crane comprises an object stage 11, four fixed keys of the object stage 11 are respectively a first longitudinal fixed key 12, a second longitudinal fixed key 14, a third longitudinal fixed key 15 and a fourth longitudinal fixed key 17, the first longitudinal fixed key 12 is connected with the second longitudinal fixed key 14 through a first supporting rod 13, and the third longitudinal fixed key 15 and the fourth longitudinal fixed key 17 are connected through a second supporting rod 16; the rack object stage 11 is arranged on the first supporting rod 13 and the second supporting rod 16;

the device also comprises a supporting leg structure and an air conditioning module; the photovoltaic module is mainly provided with a photovoltaic display panel and is a solar panel.

An inclined support rod is further arranged between the upper layer frame 18 and the lower layer frame 19, and the inclined support rod comprises a first inclined support rod 21 and a second inclined support rod 22 which are oppositely arranged.

A first inclined support bar 21 is installed between the adjacent longitudinal support bars 20, or a second inclined support bar 22 is installed between the adjacent longitudinal support bars 20.

And a photovoltaic module is arranged on the auxiliary frame platform cabin 1, and a photovoltaic module accommodating cabin 10 is arranged outside the photovoltaic module.

The auxiliary frame platform cabin 1 is internally divided into a battery cabin 4, a light storage cabin 5 and a control cabin 6 through a cabin separation plate.

A first reinforcing rib 2 is arranged between the end part bearing bridge 7 and the battery cabin 4; and a second reinforcing rib 3 is arranged between the light storage cabin 5 and the control cabin 6.

A battery pack is arranged in the battery cabin 4 through a battery bearing hanging bracket; a light storage component is arranged in the light storage cabin 5 through a light storage bearing hanging bracket; and the control cabin 6 is provided with a control module by controlling the bearing hanging bracket.

When the power supply vehicle is used, the module components in the power supply vehicle are divided and installed according to the auxiliary frame platform cabin 1, and the shock absorption, ventilation and heat dissipation, heating and fire fighting of the equipment cabin meet the use requirements of each piece of equipment in the cabin; the split type bearing mechanism reasonably decomposes the load, carries out stress simulation analysis, ensures the installation strength, and has the advantages of convenience in installation, maintenance, precision adjustment and the like.

When the device is used for the first time, if the working temperature in the cabin is lower than 0 ℃ (temporary), the device cabin is preheated through a vehicle power takeoff; when the working temperature in the cabin reaches 0 ℃ (temporary), the power takeoff power supply is closed, the light storage power generation system is started, and power is supplied to the light storage power generation system through the distribution box in the cabin for heating. In consideration of the two working conditions, the heating loop is provided with two paths of power supplies for switching power supply.

Claims (6)

1. The utility model provides a light stores up car platform cabin device, includes two kinds of chassis, its characterized in that: an auxiliary frame platform cabin (1) is arranged on the second type chassis; the auxiliary frame platform cabin (1) is of a framework square cabin structure, three cabin bodies are formed by surrounding rectangular square steel pipes in a welding mode, and the three cabin bodies are a battery cabin (4), a light storage cabin (5) and a control cabin (6) from the head to the tail of the vehicle in sequence; the auxiliary frame platform cabin (1) is provided with a split type bearing mechanism, and the split type bearing mechanism comprises 3 groups of bearing bridges and 3 groups of bearing hanging frames; the 3 groups of bearing bridges are respectively an end bearing bridge (7), a middle bearing bridge (8) and a tail bearing bridge (9), and the end bearing bridge (7), the middle bearing bridge (8) and the tail bearing bridge (9) are respectively arranged at the end part, the middle part and the tail part of the auxiliary frame platform cabin (1); the 3 groups of bearing hanging frames are respectively a battery bearing hanging frame, a light storage bearing hanging frame and a control bearing hanging frame; the battery bearing hanging bracket, the light storage bearing hanging bracket and the control bearing hanging bracket are respectively arranged on the battery cabin (4), the light storage cabin (5) and the control cabin (6);

the bearing bridge mainly comprises an upper layer frame (18), a lower layer frame (19) and longitudinal support rods (20) to form a bearing frame, wherein at least 6 longitudinal support rods (20) are arranged at four corners of the upper layer frame (18) and the lower layer frame (19) respectively and at the centers of two long sides of the upper layer frame (18) and the lower layer frame (19); the upper layer frame (18) is respectively provided with a first bearing surface (23) and a second bearing surface (24);

the bearing crane comprises a loading platform (11), four fixed keys of the loading platform (11) are respectively a first longitudinal fixed key (12), a second longitudinal fixed key (14), a third longitudinal fixed key (15) and a fourth longitudinal fixed key (17), the first longitudinal fixed key (12) is connected with the second longitudinal fixed key (14) through a first supporting rod (13), and the third longitudinal fixed key (15) and the fourth longitudinal fixed key (17) are connected through a second supporting rod (16); the rack object stage (11) is arranged on the first supporting rod (13) and the second supporting rod (16).

2. The optical storage vehicle platform compartment apparatus of claim 1, wherein: an inclined support rod is further arranged between the upper layer frame (18) and the lower layer frame (19), and the inclined support rod comprises a first inclined support rod (21) and a second inclined support rod (22) which are oppositely arranged.

3. The optical storage vehicle landing bay device of claim 2, wherein: a first inclined supporting rod (21) is arranged between the adjacent longitudinal supporting rods (20), or a second inclined supporting rod (22) is arranged between the adjacent longitudinal supporting rods (20).

4. A light storage vehicle platform compartment apparatus as claimed in claim 3, wherein: the photovoltaic module is installed on the auxiliary frame platform cabin (1), and a photovoltaic module accommodating cabin (10) is arranged outside the photovoltaic module.

5. The optical storage vehicle platform compartment apparatus of claim 4, wherein: the auxiliary frame platform cabin (1) is internally divided into a battery cabin (4), a light storage cabin (5) and a control cabin (6) through a cabin separation plate.

6. The optical storage vehicle platform compartment apparatus of claim 5, wherein: a first reinforcing rib (2) is arranged between the end part bearing bridge (7) and the battery cabin (4); a second reinforcing rib (3) is arranged between the light storage cabin (5) and the control cabin (6).

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