CN217087808U - Manual on-vehicle type photovoltaic power plant that expandes of mechanical type - Google Patents

Abstract

The utility model relates to a mechanical manually-unfolded vehicle-mounted photovoltaic power station, which comprises a flat car, a container, a lifting frame, a lifting driving mechanism, a photovoltaic plate, a flat frame and a flat driving mechanism, wherein the container is fixed on the flat car, the front side of the lifting frame is hinged with the top of the container, and the lifting frame can rotate to incline or be horizontally arranged; the lifting driving mechanism comprises a lifting threaded sleeve arranged on the container and a lifting screw rod screwed in the lifting threaded sleeve, and the upper end of the lifting screw rod is hinged with the lifting frame; the flat frame is a plurality of and is arranged along upper and lower direction multilayer at the crane, installs the photovoltaic board on the flat frame, and flat actuating mechanism is including installing the driving gear on the container, rotatable drive gear of installing on the crane and with flat frame fixed connection's flat lead screw, flat lead screw axial is along left and right sides direction, and flat lead screw passes drive gear and both threaded connection coaxially, and the driving gear meshes with drive gear mutually when the crane is kept flat on the container top.

Description

Manual on-vehicle type photovoltaic power plant that expandes of mechanical type

Technical Field

The utility model relates to a photovoltaic power plant field, concretely relates to manual on-vehicle type photovoltaic power plant who expandes of mechanical type.

Background

Photovoltaic green energy power is more and more valued by society, and is a clean renewable energy source. In many remote areas, especially frontier defense inspection stations, mobile mine exploration teams, bridge construction teams, large-scale pasture dump sites in winter and summer, and the like, the power utilization dilemma can exist, and photovoltaic power generation can be applied to the occasions to provide electric energy. However, many of the existing photovoltaic power stations are fixedly installed, and the installation, folding and carrying are not changed, so that the existing photovoltaic power stations are difficult to adapt to the situation that frequent migration is needed, and particularly in severe environments such as cold and the like, the photovoltaic power stations are inconvenient to use.

SUMMERY OF THE UTILITY MODEL

In view of the above prior art's shortcoming, the to-be-solved technical problem of the utility model is to provide a vehicle-mounted type photovoltaic power plant of manual expansion of mechanical type, expand and draw in the convenience, can adapt to and need the place of frequent migration, and operating device is simple stable, and durable can be applicable to cold adverse circumstances.

In order to achieve the purpose, the utility model provides a mechanical manually-unfolded vehicle-mounted photovoltaic power station, which comprises a flat car, a container, a lifting frame, a lifting driving mechanism, a photovoltaic plate, a flat frame and a flat driving mechanism, wherein the container is fixed on the flat car, the lifting frame is arranged at the top of the container, the front side of the lifting frame is hinged with the top of the container, and the lifting frame can rotate around the front side of the lifting frame to incline or horizontally place on the top of the container; the lifting driving mechanism comprises a lifting screw sleeve arranged on the container and a lifting screw rod screwed in the lifting screw sleeve, the upper end of the lifting screw rod is hinged with the lifting frame, and the lifting screw rod can drive the lifting frame to rotate around the front side of the lifting frame when moving up and down; the flat frame is installed on the crane in a manner of moving left and right, the flat frame is a plurality of and is arranged on the crane in multiple layers along the vertical direction, a plurality of photovoltaic panels are installed on the flat frame, the flat driving mechanism comprises a driving gear installed on the container, a transmission gear rotatably installed on the crane and a flat lead screw fixedly connected with the flat frame, the flat lead screw axially passes through the transmission gear and is in threaded connection with the transmission gear along the left and right directions, and the driving gear is meshed with the transmission gear when the crane is horizontally placed on the top of the container.

Furthermore, the flat driving mechanism further comprises a first belt wheel coaxially fixed with the driving gear, a second belt wheel rotatably mounted on the container and located below the driving gear, and a transmission belt sleeved on the first belt wheel and the second belt wheel.

Further, the drive gear and the second pulley are both located on the outer wall of the container.

Furthermore, the lifting device also comprises a lifting support rod, and two ends of the lifting support rod are respectively hinged with the lifting frame and the container.

Furthermore, the lifting support rod is a telescopic rod.

Furthermore, the container support device also comprises a flat support rod, wherein one end of the flat support rod is hinged with the flat frame, and the other end of the flat support rod is hinged with the container.

Furthermore, the flat supporting rod is a telescopic rod.

Furthermore, the flat frame is divided into a left flat frame and a right flat frame, and the flat driving mechanism comprises two sets of mechanisms for respectively driving the left flat frame to extend out of the lifting frame from the left side and driving the right flat frame to extend out of the lifting frame from the right side.

Further, the photovoltaic board is installed to the top of crane.

Furthermore, the lifting driving mechanism also comprises a hand-operated wheel fixed at the lower end of the lifting screw rod.

As the above, the utility model relates to an on-vehicle type photovoltaic power plant has following beneficial effect:

through setting up flatbed, container, crane, lift actuating mechanism, photovoltaic board, open and flat frame and open and flat actuating mechanism, when not carrying out the electricity generation work, the crane is kept flat in the container bottom, and the open and flat frame is all taken in the crane, and whole on-vehicle type photovoltaic power plant is in the state of drawing in, and it is little to take up space, the convenient transfer. When power generation is needed, the flat frames are driven to extend out of the lifting frames through the flat driving mechanism, the flat frames are not overlapped up and down after all the flat frames are unfolded, and the photovoltaic panel on each flat frame can be illuminated to generate power; then, the lifting frame is driven to rotate upwards through the lifting driving mechanism, the lifting frame is inclined at a proper angle, and the photovoltaic panel is convenient to match with the sunlight irradiation angle. The utility model discloses an on-vehicle type photovoltaic power plant, it expandes and draws in the convenience, can adapt to and need the place of frequent migration, and operating device is simple stable, adopts pure mechanical structure, and durable can be applicable to adverse circumstances such as cold.

Drawings

Fig. 1 is the utility model discloses a structural schematic under on-vehicle type photovoltaic power plant expandes.

Fig. 2 is the utility model discloses a structural schematic diagram at another visual angle under on-vehicle type photovoltaic power plant expandes.

Fig. 3 is the utility model discloses an on-vehicle type photovoltaic power plant's left side view.

Figure 4 is the utility model discloses an on-vehicle type photovoltaic power plant's rear view.

Fig. 5 is the structure diagram of the vehicle-mounted photovoltaic power station when it is folded.

Description of the element reference numerals

1 platform lorry

2 Container

3 lifting frame

4 flat frame

5 lifting screw sleeve

6 lifting screw rod

7 drive gear

8 flat lead screw

9 driving gear

10 first pulley

11 second belt wheel

12 transmission belt

13 lifting support rod

14 flat support rod

15 hinge seat

16 photovoltaic panel

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

It should be understood that the drawings of the present application are only used to match the contents disclosed in the specification, so as to be known and read by those skilled in the art, and not to limit the practical limitations of the present invention, so that the present application does not have any technical significance, and any modification of the structure, change of the ratio relationship, or adjustment of the size should still fall within the scope of the present application without affecting the function and the achievable purpose of the present application. Meanwhile, the terms such as "upper", "lower", "left", "right", "middle", and the like used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be considered as the scope of the present invention without substantial changes in the technical content.

Referring to fig. 1 to 5, the utility model provides a mechanical manually-unfolded vehicle-mounted photovoltaic power station, which comprises a flat car 1, a container 2, a crane 3, a lifting driving mechanism, a photovoltaic panel 16, a flat frame 4 and a flat driving mechanism, wherein the container 2 is fixed on the flat car 1, the flat car 1 travels by using a roller at the bottom, the crane 3 is arranged at the top of the container 2, the front side of the crane 3 is hinged with the top of the container 2, and the crane 3 can rotate around the front side to incline or horizontally place at the top of the container 2; the lifting driving mechanism comprises a lifting screw sleeve 5 arranged on the container 2 and a lifting screw rod 6 in the lifting screw sleeve 5 in a screw joint mode, the lifting screw sleeve 5 and the lifting screw rod 6 are in threaded transmission, the upper end of the lifting screw rod 6 is hinged with the lifting frame 3, the lifting screw rod 6 can drive the lifting frame 3 to rotate around the front side of the lifting frame when moving up and down, the flat frame 4 is installed on the lifting frame 3 in a left-right moving mode, the flat frame 4 is provided with a plurality of photovoltaic panels 16 which are arranged in a multi-layer mode along the up-down direction on the lifting frame 3, the flat frame 4 comprises a driving gear 9 installed on the container 2, the lifting frame comprises a transmission gear 7 rotatably mounted on the lifting frame 3 and a flat screw 8 fixedly connected with the flat frame 4, the flat screw 8 axially penetrates through the transmission gear 7 and is in threaded connection with the transmission gear 7 along the left-right direction, and the driving gear 9 is meshed with the transmission gear 7 when the lifting frame 3 is horizontally placed on the top of the container 2.

The utility model relates to an on-vehicle type photovoltaic power plant, container 2 can be used for people to live in or equipment deposits, can remove the transfer through flatbed 1. When the power generation operation is not carried out, the lifting frame 3 is horizontally placed at the bottom of the container 2, the flat frame 4 is collected into the lifting frame 3, the whole vehicle-mounted photovoltaic power station is in a furled state, the occupied space is small, the transfer is convenient, and the driving gear 9 is meshed with the transmission gear 7 at the moment, see fig. 5. When power is needed to be generated, the flat frame 4 is driven to stretch out of the lifting frame 3 through the flat driving mechanism, specifically, the driving gear 9 is rotated to drive the transmission gear 7 to rotate, the transmission gear 7 drives the flat screw rod 8 to move left and right through thread transmission, the flat screw rod 8 drives the flat frame 4 to move, so that the flat frame 4 stretches out of the lifting frame 3, the flat frame 4 is unfolded, after all the flat frames 4 are unfolded, the flat frames 4 are not overlapped up and down, and the photovoltaic panel 16 on each flat frame 4 can be illuminated to generate power. Then, the lifting frame 3 is driven to rotate upwards through the lifting driving mechanism, preferably, a hand-operated wheel (not shown in the attached drawing) is fixed on the lifting screw rod 6, the lifting screw rod 6 is convenient to rotate, the lifting screw rod 6 is manually rotated, the lifting screw rod 6 moves upwards in the fixed lifting screw sleeve 5, the lifting frame 3 is driven to rotate upwards to a proper inclination angle, the lifting frame 3 is supported, and the photovoltaic panel 16 is convenient to match with the sunlight irradiation angle. When the foldable frame needs to be folded, the lifting driving mechanism is operated reversely to lay the lifting frame 3 flat, and then the flat frame 4 is moved to be retracted into the lifting frame 3 through reverse operation.

The utility model discloses an on-vehicle type photovoltaic power plant, it expandes and draws in the convenience, can adapt to and need the place of frequent migration, and operating device is simple stable, adopts pure mechanical structure, and durable can be applicable to adverse circumstances such as cold.

In this embodiment, lift swivel nut 5 can vertically be fixed at 2 tops of container among the lift actuating mechanism, and lift lead screw 6 has certain bending deformation can, and lift lead screw 6 moves upward when lifting up crane 3 rotates, and certain bending can take place for 6 upper segment parts of lift lead screw, because 3 inclination of crane is generally not big during in-service use, and the angle that lift lead screw 6 can send out the bending is little, consequently can not influence its removal on lift swivel nut 5. In other embodiments, the lifting screw sleeve 5 may be hinged to the top of the container 2, and when the lifting screw rod 6 moves upwards to lift the lifting frame 3 and rotates, the lifting screw sleeve 5 can rotate to a certain extent, and the lifting screw rod 6 does not need to be bent.

In this embodiment, referring to fig. 1, as a preferred design, the flat driving mechanism further includes a first belt pulley 10 coaxially fixed with the driving gear 9, a second belt pulley 11 rotatably installed on the container 2 and located below the driving gear 9, and a transmission belt 12 sleeved on the first belt pulley 10 and the second belt pulley 11, and since the driving gear 9 is close to the bottom of the container 2, it is inconvenient to directly operate, by adopting the above manner, the driving gear 9 is driven to rotate by manually rotating the second belt pulley 11, and then the driving gear 9 is driven to rotate by using the transmission belt 12, which is convenient to operate, and of course, the driving gear 9 may also be driven by adopting other manners. Wherein, the driving gear 9 and the second belt wheel 11 are both positioned on the outer wall of the container 2, so that no hole is needed on the top of the container 2, and good sealing performance can be kept.

In this embodiment, refer to fig. 1, as preferred design, on-vehicle type photovoltaic power plant still includes lift bracing piece 13, and 13 both ends of lift bracing piece are articulated with crane 3 and container 2 respectively to the auxiliary stay lives crane 3 and keeps the tilt state, and lift bracing piece 13 is preferred telescopic pole, can conveniently adjust crane 3's inclination. Preferably, still include the flat bracing piece 14, flat bracing piece 14 one end is articulated with flat frame 4, and the other end is articulated with container 2, plays the effect of supporting flat frame 4, ensures that it can remain stable, and preferably, the flat bracing piece 14 also is scalable pole specifically, can conveniently adjust the inclination of crane 3. In this embodiment, all be fixed with articulated seat 15 on flat frame 4, crane 3 and the container 2, flat bracing piece 14 and lift bracing piece 13 all adopt detachably mode to articulate on articulated seat 15 to this is when drawing in the state, and flat bracing piece 14 and lift bracing piece 13 all can be dismantled, and the installation can when expanding, convenient operation.

In this embodiment, referring to fig. 1, the flat frame 4 is preferably divided into a left flat frame 4 and a right flat frame 4, the flat driving mechanism includes two sets, for driving the left flat frame 4 to extend from the left to the crane 3 and the right flat frame 4 to extend from the right to the crane 3, respectively, in particular in the present embodiment, the number of the flat frames 4 is four, the flat frames 4 are divided into two left flat frames 4 and two right flat frames 4, each flat frame 4 is fixedly connected with at least one flat screw rod 8, the flat driving mechanisms comprise two sets, driving gears 9 of the two sets of flat driving mechanisms are respectively arranged on the left outer side wall and the right outer side wall of the container 2, the two left flat frames 4 can be driven to move by rotating the left driving gear 9, and similarly, the two right flat frames 4 can be driven to move by rotating the right driving gear 9. In the present embodiment, referring to fig. 2, as a preferred design, the photovoltaic panel 16 is also installed on the top of the crane 3, and is located above the four flat frames 4, and after the flat frames 4 are all extended, the photovoltaic panel 16 is also located at the position of the crane 3, so that the space of the crane 3 is ensured to be reused.

By last, the on-vehicle type photovoltaic power plant of this application has multi-functional usage, can provide personnel and live in or equipment deposits, and convenient the transfer can conveniently carry out photovoltaic power generation simultaneously, can draw in order convenient the transfer when guaranteeing 16 power generation area of photovoltaic board, can greatly solve the remote area, especially frontier defense inspection station, remove mine detection team, bridge construction team, large-scale winter and summer pasture point of falling into the power consumption predicament such as. And, draw in and expand convenient operation, adopt mechanical mechanism to control, durable can be applicable to adverse circumstances such as cold, is difficult for appearing the service failure under these circumstances.

To sum up, the utility model discloses various shortcomings in the prior art have effectively been overcome and high industry value has.

The above embodiments are merely illustrative of the principles and effects 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 (10)

1. The utility model provides a manual on-vehicle type photovoltaic power plant who expandes of mechanical type which characterized in that: the lifting frame comprises a flat car (1), a container (2), a lifting frame (3), a lifting driving mechanism, a photovoltaic panel (16), a flat frame (4) and a flat driving mechanism, wherein the container (2) is fixed on the flat car (1), the lifting frame (3) is arranged at the top of the container (2), the front side of the lifting frame (3) is hinged with the top of the container (2), and the lifting frame (3) can rotate around the front side of the lifting frame to incline or be horizontally placed at the top of the container (2); the lifting driving mechanism comprises a lifting screw sleeve (5) arranged on the container (2) and a lifting screw rod (6) in the lifting screw sleeve (5) in a screw joint mode, the upper end of the lifting screw rod (6) is hinged with the lifting frame (3), and the lifting screw rod (6) can drive the lifting frame (3) to rotate around the front side of the lifting frame when moving up and down; the utility model discloses a solar energy collecting device, including container (2), open flat frame (4), horizontal flat frame (4) can be removed the ground and install on crane (3) about moving, open flat frame (4) are a plurality of and arrange along upper and lower direction multilayer at crane (3), install a plurality of photovoltaic boards (16) on open flat frame (4), open flat actuating mechanism is including installing driving gear (9) on container (2), rotatable drive gear (7) of installing on crane (3) and with open flat frame (4) fixed connection's open flat lead screw (8), open flat lead screw (8) axial is along left right direction, open flat lead screw (8) pass drive gear (7) and both threaded connection coaxially, driving gear (9) mesh with drive gear (7) when crane (3) are kept flat on container (2) top.

2. The on-board photovoltaic power plant of claim 1, characterized in that: the horizontal and horizontal driving mechanism further comprises a first belt wheel (10) coaxially fixed with the driving gear (9), a second belt wheel (11) rotatably installed on the container (2) and located below the driving gear (9), and a transmission belt (12) sleeved on the first belt wheel (10) and the second belt wheel (11).

3. The on-board photovoltaic power plant of claim 2, characterized in that: the driving gear (9) and the second belt wheel (11) are both positioned on the outer wall of the container (2).

4. The on-board photovoltaic power plant of claim 1, characterized in that: still include lifting support pole (13), lifting support pole (13) both ends are articulated with crane (3) and container (2) respectively.

5. The on-board photovoltaic power plant of claim 4, characterized in that: the lifting support rod (13) is a telescopic rod.

6. The on-board photovoltaic power plant of claim 1, characterized in that: the container is characterized by further comprising a horizontal and flat supporting rod (14), wherein one end of the horizontal and flat supporting rod (14) is hinged with the horizontal and flat frame (4), and the other end of the horizontal and flat supporting rod is hinged with the container (2).

7. The on-board photovoltaic power plant of claim 6, characterized in that: the flat supporting rod (14) is a telescopic rod.

8. The on-board photovoltaic power plant of claim 1, characterized in that: the horizontal and flat frame (4) is divided into a left horizontal and flat frame (4) and a right horizontal and flat frame (4), and the horizontal and flat driving mechanisms comprise two sets and are used for respectively driving the left horizontal and flat frame (4) to stretch out of the lifting frame (3) from the left side and driving the right horizontal and flat frame (4) to stretch out of the lifting frame (3) from the right side.

9. The on-board photovoltaic power plant of claim 1, characterized in that: and a photovoltaic panel (16) is installed at the top of the lifting frame (3).

10. The on-board photovoltaic power plant of claim 1, characterized in that: the lifting driving mechanism also comprises a hand-operated wheel fixed at the lower end of the lifting screw rod (6).

Images