KR20170070497A - Freight Car photovoltaic devices - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a photovoltaic power generation system for a freight vehicle, and more particularly, to a photovoltaic power generation system for a freight vehicle, and more particularly to a photovoltaic power generation system for a freight vehicle, So that the refrigerator and the refrigerator and the convenience device can be continuously used, thereby making it possible to create a user-friendly and hygienic environment.
In the configuration of the present invention, a pair of front and rear sides of the loading cargo 10 of the freight car are symmetrically positioned, respectively, and fixed to the upper frame 11, and a mounting portion 22 having a fitting space 21 is formed at an upper end thereof A fixing bracket 20;
Front and rear transverse supports 31a and 31b at both ends of which are fitted in the fitting space 21 of the fixing bracket 20 bound to both front and rear sides of the loading box 10;
A module frame 40 hinged to the front transverse support 31a and having a solar module 45 fixedly installed on the module frame 40;
Elevating means (50) coupled to the rear lateral support (31b) and the module frame (40) to move the module frame (40) up and down;
And buffering means 60 installed in the fitting space 21 of the fixing bracket 20 for fixing and supporting the ends of the front and rear lateral support members 31a and 31b.

Description

{Freight Car photovoltaic devices}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a photovoltaic power generation system for a freight vehicle, and more particularly, to a photovoltaic power generation system for a freight vehicle, and more particularly to a photovoltaic power generation system for a freight vehicle, So that the refrigerator and the refrigerator and the convenience device can be continuously used, thereby making it possible to create a user-friendly and hygienic environment.

2. Description of the Related Art Generally, a refrigerator, a refrigerator, and a refrigerator (hereinafter, referred to as a car) is provided with a rectangular enclosure equipped with a door that is opened or closed on the side or rear so as to safely carry and unload freight, Or medium and large cargo transportation vehicles.

The loading vehicle has a plurality of body frames installed in the loading space, and an upper surface provided on the outer side of the body frame to form a closed space. A panel, a side panel, and a lower panel.

In addition, a body frame and a panel for constituting the loading space are connected to a freight vehicle having various loading spaces such as a camper, a van, a trailer, a food truck for selling and cooking food, A convenience appliance using electricity, and a heating and heating device are mounted and used.

However, as described above, in the case of the above-mentioned top vehicle as an example in various types of vehicles such as a convenience vehicle using electricity, a top car equipped with a cooling / heating device, a camcorder, a van, a trailer, etc., The battery is charged and the air conditioner is operated by using the stored battery to cool the inside of the loading box. Therefore, when the vehicle is in a stopped state of the vehicle in which the engine of the vehicle is not driven, or when the power of the vehicle battery mounted in the vehicle is insufficient As the refrigerator and freezer were stopped, the temperature inside the loading box rises and the food was deteriorated and contaminated.

As described above, in the case of the overhead vehicle in which the battery power is to be used for a long time, it is necessary to additionally install a large capacity auxiliary battery or to drive the vehicle engine at all times, thereby wasting energy due to excessive fuel consumption and a financial cost for adding a large capacity battery There was a difficulty to be raised.

In addition, some vehicles may stop operation of the freezer in order to prevent a decrease in power consumption or reduce fuel consumption during operation, and the food poisoning is increased due to deterioration of food due to stoppage of operation of the refrigerator, .

[Patent Document 1]. Korean Patent Registration No. 10-1383308. Refrigerated vehicle using solar energy and control method thereof (Registration date April 02, 2014) [Patent Document 2]. Korean Utility Model Registration No. 20-0478221. Integrated power management device for vehicles (registered on September 03, 2015)

In order to solve the above-described problems, the present invention is applied to a vehicle that uses electricity for a long time or a large capacity such as a refrigerator, a refrigerator, a camper, a van, So that the air conditioner and the comfort device of the vehicle can be continuously used.

It is another object of the present invention to improve the electric production efficiency through the solar module by moving the solar module along the meridional direction of the sun.

It is a further object of the present invention to provide a solar energy generating device mounted on an upper portion of a loading box, which further includes an air spoiler mounted on the vehicle so as to minimize the resistance of the air, thereby reducing fuel consumption.

According to an aspect of the present invention,

A fixed bracket 20 having a pair of front and rear sides symmetrically disposed on both sides of the loading box 10 of the freight vehicle and fixed to the upper frame 11 and having a mounting portion 22 having a fitting space 21 formed thereon; ;

Front and rear transverse supports 31a and 31b at both ends of which are fitted in the fitting space 21 of the fixing bracket 20 bound to both front and rear sides of the loading box 10;

A module frame 40 hinged to the front transverse support 31a and having a solar module 45 fixedly installed on the module frame 40;

Elevating means (50) coupled to the rear lateral support (31b) and the module frame (40) to move the module frame (40) up and down;

And buffering means 60 installed in the fitting space 21 of the fixing bracket 20 for fixing and supporting the ends of the front and rear lateral support members 31a and 31b.

The elevating means 50 includes an electric jockey for adjusting the angle of the module frame 40 using the electric power of the electric motor M or a hydraulic jockey for adjusting the angle of the module frame 40 by the hydraulic pressure supply of the hydraulic motor, And a controller 80 for automatically rotating the module frame 40 in accordance with the solar irradiation direction by operating the hydraulic jockey or the electric jockey according to a detection signal of the light control sensor.

The buffering means 60 includes a mounting hole 22a vertically penetrating the mounting portion 22 and a through hole 32 formed in the end portions of the front and rear lateral supports 31a and 31b, The binding member 61 is fastened and fixed to the lower end of the mounting portion 22 through the mounting hole 22a and the through hole 32 at the upper portion of the mounting portion 20, And a cushion spring 62 for supporting the upper surface and the lower surface of the transverse support is connected to the coupling member 61 so as to be supported.

The vertical support rods 35 connecting the front and rear lateral support rods 31a and 31b are further provided and the elevating and lowering cylinders 70 are installed on the upper surfaces of the front and rear lateral support rods 31a and 31b, And a hinge support portion 75 hinged to the bottom surface of the module frame 40 on the central upper surface of the vertical support 35 so that the angle of the module frame 40 is rotated according to the operation of the elevating cylinder 70 .

According to the present invention, by accumulating the battery while the vehicle is in operation and simultaneously generating electricity through the solar power generation device to accumulate the battery, it is possible to increase the efficiency of accumulation of the battery, and even when the vehicle is at rest, The battery can be used for a long time.

In addition, the solar power generation apparatus can be rotated and moved along the meridional direction of the sun to further improve the efficiency of solar power generation to accumulate the battery. Further, an additional air spoiler is further provided in front of the solar power generation apparatus, It is possible to reduce the resistance of the generated air to reduce the fuel consumption and reduce the running cost.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall perspective view of a photovoltaic device according to the present invention;
2 is an exploded perspective view of the photovoltaic device according to the present invention.
Fig. 3 is a side view showing the installation state of the sunlight heat-sensing apparatus of the present invention. Fig.
FIGS. 4A and 4B are side views showing the rotational movement state of the photovoltaic device according to the present invention. FIG.
5 is an overall perspective view showing another embodiment of the present invention.
6 is a side view showing still another embodiment of the present invention.

The photovoltaic device for a freight vehicle according to the present invention can be installed in a freight vehicle such as a refrigerator, a refrigerator or a camper, a van, and the like for a long time, so that the electricity generated through the photovoltaic generation can be used even when the vehicle engine is stopped. So that it can be used without stopping the refrigeration and freezing device and the convenience device, thereby making it possible to create a user-friendly and hygienic environment.

In the drawings, components (in particular, a solar module and a cross section of a frame) may be exaggeratedly large (or thick), small (or thin), or simplified and expressed in size or thickness However, the scope of protection of the present invention should not be construed as being limited thereto.

1 to 5, a photovoltaic power generation apparatus according to the present invention includes a fixed bracket 20 mounted on a loading box 10 of a freight vehicle and a front and a rear horizontal support rods A module frame 40 hinged to one side of the front and rear transverse supports 31a and 31b and having a solar module 45; Elevating means 50 for adjusting the angle, and buffer means 60 for preventing breakage of the solar module.

The fixing bracket 20 is formed by fixing a mounting space 21 to a mounting portion 22 which is placed on an upper portion of a loading frame while being fastened and fixed to an upper frame 11 from frames constituting a frame of the loading car 10 of a freight car .

At this time, the fixing brackets 20 are fastened to both sides of the front and rear sides of the loading box 10 so as to face each other, and the front and rear lateral supports 31a 31b.

The front and rear transverse supports 31a and 31b are engaged with each other by the buffering means 60 while the end portions of the front and rear transverse supports 31a and 31b are inserted into the fitting space 21 of the fixing bracket 20.

The buffering means 60 includes a mounting hole 22a vertically penetrating the mounting portion 22 and a through hole 32 formed in the end portions of the front and rear lateral support members 31a and 31b, The binding member 61 is fastened and fixed to the lower end of the mounting portion 22 through the mounting hole 22a and the through hole 32 at the upper portion of the mounting portion 22. In the fitting space 21 inside the mounting portion 22, And a buffer spring 62 for supporting the upper and lower surfaces of the coupling member 61 is connected to the coupling member 61 so as to be supported.

The front transverse support 31a is hinged to the front of the module frame 40 to which the solar module 45 is fixed and the module frame 40 is rotatably connected about the hinge member 33 .

The lifting means 50 is fixedly mounted on the rear lateral support 31b so that the rear of the module frame 40 is coupled to the other side of the lifting means 50 and the operation of the lifting means 50 The module frame 40 is raised and lowered rearward about the front hinge member 33 so that the rotation angle of the module frame 40 can be adjusted along the meridian of the sun.

3, when the photovoltaic device according to the present invention is mounted on the top of the loading box 10, air resistance is seriously affected during high-speed driving of the vehicle. Therefore, in front of the photovoltaic device 100, It is also included in the present invention to further reduce the air resistance by further mounting the air spoiler 12 of the form corresponding to the shape of the apparatus 100 on the top of the freight car.

The module frame 40 is formed such that the front portion thereof is coupled to the horizontal support frame 31a and the hinge member 33 while the rear portion of the module frame 40 is relatively higher than the front portion thereof so as to be coupled to the elevating means 50.

That is, each frame structure of the module frame 40 is divided into three equal parts along the transverse direction of the loading box 10 such that the both side outer side rails 43a are low and the central crossbars 42a are high, The outer side rail 43a is connected to the front side horizontal support bar 31a and the front side horizontal bar 43a is connected to the front side horizontal bar 42a, And the rear central crossbar 42a is connected to the elevating means 50 fixed to the rear lateral support 31b.

The solar module 45 is mounted horizontally on the central frame 42 and the solar module 45 is mounted on the outer frame 43 with an inclination , Solar power can be smoothly generated through the inclined solar module 45 even if the module frame 40 is not rotated in the meridian movement of the sun.

In the present invention, the process of storing electricity generated through the solar module 45 in a battery (not shown) and operating the air conditioner and the convenience device using the electricity stored in the battery is a well known technique, The description of the connection system is omitted.

The module frame 40 is rotated in accordance with the meridian movement of the sun for the efficiency of solar power generation through the solar module 45. The elevator means 50 is disposed behind the module frame 40 And are coupled to the rear lateral support 31b.

4A, the fixing brackets 20 are respectively fastened to the front and rear of the upper frame 11 of the loading box 10 and the mounting portions 22 of the fixing brackets 20 The front and rear lateral supports 31a and 31b are respectively coupled to the front lateral support 31a and the front lateral support 31a by means of the shock absorbing means 60, And the rear side support frame 31b is connected to the elevating means 50 at the rear side of the module frame 40. [

4B, when the rear of the module frame 40 connected to the elevating means 50 is elevated, the module frame 40 is rotated by the front hinge member 33 You can adjust the angle to match the meridian of the sun.

Particularly, the present invention is characterized in that the front and rear lateral supports 31a and 31b, which support the module frame 40 to prevent the solar module 45 from being damaged by an impact generated during driving of the vehicle, (60).

The elevating means 50 elevates and lowers the cylinder by the hydraulic jaw of the electric jockey or the hydraulic motor that adjusts the angle of the module frame 40 by using the electric motor M power, It is also included in the present invention that any one of the jockeys is mounted.

At this time, it is preferable that the electric motor M and the hydraulic motor for operating the elevating means 50 are mounted on a fixing plate which is bound to one side of the elevating means 50 so as not to be interfered with vehicle vibration.

When the hydraulic jockey or the electric jockey is mounted, the rotation angle of the module frame 40 can be manually operated. However, the hydraulic jockey or the electric jockey is operated according to the detection signal of the light control sensor (not shown) ) In accordance with the direction of sunlight irradiation.

5, the width of the top surface of the triple-divided central frame 42 of the module frame 40 is formed to be relatively narrow and the width of the outer frame 43 and the inclined frame 44 is reduced, It is also preferable that the solar module 45 is further mounted on the inclined frame 44 to improve the power generation efficiency in accordance with the enlargement of the power generation area.

6 is a side view showing a state of use for another embodiment of the present invention. This solar module 45 is also rotated in the direction of the meridian of the sun while the impact generated during traveling of the vehicle is cushioned To a photovoltaic device.

 That is, according to the above-described another embodiment, in a state where the front and rear lateral supports 31a and 31b are assembled in a bufferable manner on the fixing bracket 20 bound to the front and rear sides of the loading box 10, And a vertical support 35 for connecting the supports 31a and 31b.

Descending cylinder 70 is provided on the upper surface of the front and rear transverse supports 31a and 31b and a hinge support portion 75 hinged to the bottom surface of the module frame 40 .

Accordingly, the control unit 80 operates the up / down cylinder 70 according to the detection signal of the light control sensor so that the module frame 40 is automatically rotated in the direction of the sunlight irradiation, thereby improving the solar power generation efficiency .

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. .

10. Loader 12. Air Spoiler
20. Fixing bracket 21. Fitting space
22. Mounting portions 31a, 31b. Front and rear horizontal supports
33. Hinge member 40. Module frame
42. Central frame 43. Outer frame
44. Inclined frame 45. Solar module
50. Lifting means 60. Buffering means
61. Coupling member 62. Buffer spring
70. Up and down cylinder 75. Hinge support part
80. Control unit 100. Photovoltaic device

Claims (6)

A fixed bracket 20 having a pair of front and rear sides symmetrically disposed on both sides of the loading box 10 of the freight vehicle and fixed to the upper frame 11 and having a mounting portion 22 having a fitting space 21 formed thereon; ;
Front and rear transverse supports 31a and 31b at both ends of which are fitted in the fitting space 21 of the fixing bracket 20 bound to both front and rear sides of the loading box 10;
A module frame 40 hinged to the front transverse support 31a and having a solar module 45 fixedly installed on the module frame 40;
Elevating means (50) coupled to the rear lateral support (31b) and the module frame (40) to move the module frame (40) up and down;
And a buffer means 60 installed in the fitting space 21 of the fixing bracket 20 for fixing the end portions of the front and rear lateral support members 31a and 31b. The motorcycle according to any one of claims 1 to 3, wherein the elevating means (50) elevates and lowers the cylinder by hydraulic supply of an electric jockey or a hydraulic motor for adjusting the angle of the module frame (40) And a control unit (80) for automatically rotating the module frame (40) in accordance with the solar irradiation direction by operating the hydraulic jockey or the electric jockey in accordance with a detection signal of the light control sensor while any one of the hydraulic jockey Features a photovoltaic generator for freight cars. The buffer means 60 includes a mounting hole 22a formed vertically through the mounting portion 22 and a through hole 32 formed in an end portion of the front and rear lateral supports 31a and 31b, The binding member 61 at the upper portion of the fixing bracket 20 is fastened and fixed to the lower end of the mounting portion 22 through the mounting hole 22a and the through hole 32 so that the fitting space 21 , A buffer spring (62) for supporting the upper surface and the lower surface of the horizontal support is connected to the coupling member (61) so as to be supported by the coupling member (61). The module frame (40) according to claim 1, wherein the module frame (40) is divided into three equal parts along the transverse direction of the loading box (10) so that the crossbars 43a on both ends are low and the center crossbars 42a are high, The outer side rail 43a is connected to the front side horizontal support bar 31a and the front side horizontal bar 43a is connected to the front side horizontal bar 42a, And the rear center crossbar (42a) is connected to the elevating means (50) fixed to the rear lateral support (31b). The photovoltaic device for a freight car according to claim 1, further comprising an air spoiler (12) mounted on the upper part of the freight vehicle with a shape including a shape of the module frame (40). The vertical support rods 35 connecting the front and rear lateral support rods 31a and 31b are further provided and the lifting and lowering cylinder 70 is mounted on the upper surfaces of the front and rear lateral support rods 31a and 31b And a hinge support portion 75 hinged to the bottom surface of the module frame 40 on the central upper surface of the vertical support frame 35 so that the angle of the module frame 40 Wherein the solar power generator is configured to rotate.

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