CN207442782U - Photovoltaic module system with adjustable angle - Google Patents

Abstract

The utility model relates to a photovoltaic power generation technical field especially relates to a photovoltaic module system of angularly adjustable, include: the photovoltaic module comprises a driving device and at least two groups of photovoltaic modules, wherein the at least two groups of photovoltaic modules are arranged at intervals along a fixed surface; each group of photovoltaic modules is provided with two opposite sides, wherein one side of each photovoltaic module is used for being connected with a driving device, and the other side of each photovoltaic module is used for being rotatably connected with the fixed surface; the driving device can simultaneously drive at least two groups of photovoltaic modules to incline for a preset angle. This photovoltaic module system of angularly adjustable can drive multiunit photovoltaic module slope simultaneously through drive arrangement and predetermine the angle, and when the irradiation direction of sun changed, can adjust multiunit photovoltaic module's inclination simultaneously through drive arrangement, makes multiunit photovoltaic module arrive the best inclination position in order to receive illumination in step to improve regulation efficiency, made photovoltaic system's use nimble more convenient.

Description

The photovoltaic component system of adjustable angle

Technical field

The utility model is related to technical field of photovoltaic power generation, more particularly to a kind of photovoltaic component system of adjustable angle.

Background technology

Emphasize environmentally protective today's society, great variety, distributed, renewable energy are occurring for the general layout of power generation Source power generation is increasingly becoming important generation mode, and container is as typical distributed removable photovoltaic generating system, suitable for occupying Firmly, office space.Traditional photovoltaic module installation system used based on container, is usually designed to outside by container top The structure of stretching, extension, photovoltaic module are mounted on the stent at top and the stent that can be flexed outward and folded to centre of both sides On.When the direction of illumination of the sun changes, it is necessary to adjust the angle of inclination of photovoltaic module, enable photovoltaic module with optimal Inclination angle receive illumination.General is mainly to be realized by adjusting the inclination angle of the stent of both sides, but during operation, need to be adjusted respectively The inclination angle of the stent of both sides, very inconvenient and inefficiency.

Utility model content

Based on this, it is necessary to which the problem of needing independent adjustable inclination for traditional photovoltaic module, providing one kind can be same When adjust multigroup photovoltaic module inclination angle photovoltaic component system.

Above-mentioned purpose is achieved through the following technical solutions：

A kind of photovoltaic component system of adjustable angle, including：Driving device and at least two groups of photovoltaic modulies, driving device energy It is enough that at least two groups of photovoltaic modulies is driven to tilt predetermined angle simultaneously.

In one of the embodiments, at least two groups of photovoltaic modulies are arranged at intervals along stationary plane；Every group of photovoltaic module is equal With opposite both sides, for being connected with driving device, opposite side is used to be rotatablely connected with stationary plane for wherein one side；

Driving device includes driving disc and driving band；Driving disc is by driving band to connect respectively with two groups of photovoltaic modulies It connects；Driving disc can increase the tensile force of one side driving band when rotating so that corresponding photovoltaic module moves, and subtracts simultaneously The tensile force of small opposite side driving band is so that corresponding photovoltaic module moves.

In one of the embodiments, two groups of photovoltaic modulies are respectively first assembly and the second component；Driving band includes the One rope and the second rope；

The one side of first assembly is connected by the one side of the first rope and driving disc, the opposite side of first assembly and fixation Face is rotatablely connected；The one side of second component is connected by the second rope with the symmetrical opposite side of driving disc, the second component it is another One side is rotatablely connected with stationary plane；

During original state, the first rope and the second rope are in tensioning state, so that first assembly and the second component are equal Parallel to stationary plane；When driving disc rotates clockwise, the tensile force of the first rope of increase makes first assembly compared with stationary plane It tilts, while the tensile force for reducing the second rope makes the second component be tilted under the effect of gravity compared with stationary plane；Driving disc When rotating counterclockwise, the tensile force of the second rope of increase makes the second component be tilted compared with stationary plane, while reduces the first rope Tensile force first assembly is made to be tilted under the effect of gravity compared with stationary plane.

In one of the embodiments, driving device further includes pulley corresponding with photovoltaic module group number；First rope One end is connected with driving disc, and the other end is connected around a pulley with first assembly；One end of second rope and driving disc Connection, the other end are connected around a pulley with the second component.

In one of the embodiments, photovoltaic module is rotatablely connected by linkage and stationary plane.

In one of the embodiments, linkage includes first axle and connecting rod, and one end and the stationary plane of connecting rod connect It connects, the other end is rotatably coupled by first axle and photovoltaic module.

In one of the embodiments, linkage further includes second hinge, and connecting rod can by second hinge and stationary plane Rotationally connect.

In one of the embodiments, angled display panel is set in driving disc, and angle display panel can show driving The angle that turntable rotates.

In one of the embodiments, at least two groups of photovoltaic modulies are arranged at intervals along stationary plane；Every group of photovoltaic module is equal With opposite both sides, for being connected with driving device, opposite side is used to be rotatablely connected with stationary plane for wherein one side；

Driving device includes drive gear and the drive rack engaged with drive gear；The both sides of drive gear pass through respectively One drive rack is connected with two groups of photovoltaic modulies, and two groups of photovoltaic modulies can be applied on the contrary respectively when drive gear rotates Active force.

In one of the embodiments, two groups of photovoltaic modulies are respectively first assembly and the second component；Drive rack includes First rack and the second rack；

The one side of first assembly is engaged by the first rack with the one side of drive gear, the opposite side of first assembly and fixation Face is rotatablely connected；Second component one side is engaged by the second rack with the symmetrical opposite side of drive gear, the second component it is another Side is rotatablely connected with stationary plane；

During original state, first assembly and the second component are each parallel to stationary plane；When drive gear rotates, the is driven respectively One rack and the second rack move in the opposite direction simultaneously, to drive first assembly, the second component compared with stationary plane simultaneously It tilts.

The photovoltaic component system of above-mentioned adjustable angle can drive multigroup photovoltaic module to tilt pre- simultaneously by driving device If angle, when the direction of illumination of the sun changes, the inclination angle of multigroup photovoltaic module can be adjusted simultaneously by driving device, Multigroup photovoltaic module is made synchronously to reach optimal incident angle to receive illumination, so as to improve adjusting efficiency, makes photovoltaic system The use of system is more flexible and convenient.

Description of the drawings

Fig. 1 is the structure diagram of the photovoltaic component system for the adjustable angle that the utility model embodiment provides；

Fig. 2 is the original state schematic diagram of the photovoltaic component system for the adjustable angle that the utility model embodiment provides；

Fig. 3 is the heeling condition schematic diagram of the photovoltaic component system for the adjustable angle that the utility model embodiment provides；

Fig. 4 is the angular adjustment process signal of the photovoltaic component system for the adjustable angle that the utility model embodiment provides Figure.

Wherein：

100- driving devices；

110- driving discs；

120- drives band；The first ropes of 121-；The second ropes of 122-；

130- pulleys；

200- photovoltaic modulies；

210- first assemblies；The second components of 220-；

The top surface of 300- containers；

400- linkages；

410- first axles；420- connecting rods；430- second hinges；

500- angle display panels.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, by the following examples, and tie Attached drawing is closed, the photovoltaic component system of the adjustable angle of the utility model is further elaborated.It should be appreciated that this place The specific embodiment of description only to explain the utility model, is not used to limit the utility model.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.On the contrary, when element be referred to as " directly existing " another element " on " when, There is no intermediary elements.Term as used herein " vertically ", " horizontal ", "left", "right" and similar statement are For illustrative purposes.

The photovoltaic component system of the adjustable angle of the utility model, being capable of synchronous change multigroup photovoltaic module as needed Angle of inclination may be not only suitable for portable container, be also applied for traditional building construction.Below with the utility model The photovoltaic component system of adjustable angle is applied to illustrating exemplified by the top surface of container.

As shown in Figure 1, the photovoltaic component system of the adjustable angle of one embodiment of the utility model, may act on container Top surface 300, including：Driving device 100 and at least two groups of photovoltaic modulies 200, driving device 100 can simultaneously drive at least Two groups of photovoltaic modulies 200 tilt predetermined angle compared with the top surface 300 of container.

Wherein, at least two groups of photovoltaic modulies 200 are arranged at intervals along the top surface 300 of container；Every group of photovoltaic module 200 is equal With opposite both sides, for being connected with driving device 100, opposite side is used to rotate with the top surface 300 of container for wherein one side Connection.Every group of photovoltaic module 200 may include the photovoltaic module (also referred to as solar panel) of multiple series connection, each photovoltaic module It can be connected by tie-beam.Every group of photovoltaic module 200 is rack mountable, passes through stent and driving device 100 and packaging The top surface 300 of case, which is connected or can be provided at 200 surface of photovoltaic module (such as on above-mentioned tie-beam), is fixedly connected with block, leads to It crosses and is fixedly connected with block and is connected with the top surface 300 of driving device 100 and container.When the direction of illumination of the sun changes, The inclination angle of multigroup photovoltaic module 200 can be adjusted simultaneously by driving device 100, multigroup photovoltaic module 200 is made synchronously to reach Optimal incident angle is to receive illumination, and so as to improve adjusting efficiency, the use for making photovoltaic system is more flexible and convenient.

And the structure type of the driving device 100 in above-described embodiment can there are many, as a kind of enforceable mode, Driving device 100 includes driving disc 110 and driving band 120；Driving disc 110 by drive band 120 respectively with two groups of photovoltaics Component 200 connects；Driving disc 110 can increase the tensile force of one side driving band 120 so that corresponding photovoltaic module when rotating 200 move, while reduce the tensile force of opposite side driving band 120 so that corresponding photovoltaic module 200 moves.

Wherein, driving band 120 can be rope, belt, toothed belt or chain etc., and correspondingly, driving disc 110 can be with It is that either sprocket wheel etc. and the rotation of driving disc 110 are not limited to manually or the forms such as motor driving for turntable, belt pulley, gear.

Referring to Fig. 2, Fig. 3 and Fig. 4, and a kind of enforceable mode is used as, two groups of photovoltaic modulies 200 are respectively first assembly 210 and second component 220；Band 120 is driven to include the first rope 121 and the second rope 122；The one side of first assembly 210 passes through First rope 121 is connected with the one side of driving disc 110, and the opposite side of first assembly 210 and the top surface 300 of container rotate Connection；The one side of second component 220 is connected by the second rope 122 with 110 symmetrical opposite side of driving disc, the second component 220 opposite side and the top surface 300 of container are rotatablely connected.

210 and second component 220 of first assembly is arranged at intervals along the top surface 300 of container, and in original state, the One component 210 and the second component 220 are each parallel to the top surface 300 (as shown in Figure 2) of container, it will be understood that first assembly 210 Same plane is may be at the second component 220, same plane can not also be in.The A sides of first assembly 210 and container Top surface 300 is rotatablely connected, and the B sides of first assembly 210 are connected by the first rope 121 with the E points of driving disc 110, second group The C sides of part 220 are connected by the second rope 122 with the F points of driving disc 110, the D sides of the second component 220 and the top of container Face 300 is rotatablely connected, wherein, E points and F points are with symmetrical two points of the center of rotation of driving disc 110.Preferably In, driving disc 110 is not limited to round turntable or square turntable etc., and it is in rod-shaped that can also be, the both ends of bar are respectively Above-mentioned E points and F points, during original state, the length direction of bar is parallel to the top surface 300 of container.

When driving disc 110 rotates clockwise, the tensile force of the first rope 121 of increase makes on the B sides of first assembly 210 Lift is from H, so that first assembly 210 is become and the top surface of container 300 by the state of the top surface 300 parallel to container In the state of α angle tilts, while under the tensile force for reducing the second rope 122 makes the C sides of the second component 220 under the effect of gravity Fall distance H, so that the second component 220 is also become the top surface with container by the state of the top surface 300 parallel to container 300 be in the state of α angle tilts (end-state is as shown in Figure 3).

It is appreciated that when driving disc 110 rotates counterclockwise, the tensile force of the second rope 122 of increase makes the second component 220 C sides rise certain distance, so that the second component 220 is become and collected by the state of the top surface 300 parallel to container The top surface 300 of vanning inclined state, while the tensile force for reducing the first rope 121 makes the B of first assembly 210 at an angle Side falls identical distance under the effect of gravity, so that first assembly 210 is also by the shape of the top surface 300 parallel to container It is in the inclined state of equal angular that state, which becomes with the top surface of container 300,.

In present embodiment, driving device can realize 210 and second component 220 of first assembly synchronously in the same direction Tilt identical angle, it will be understood that after the embodiment is done appropriate deformation, can also realize first assembly 210 and second Component 220 synchronously tilts identical angle towards different directions.Such as shown in Fig. 3, it is only necessary to by the C sides of the second component 220 with The top surface 300 of container is rotatablely connected, and the D sides of the second component 220 are connected by the second rope 122 and the F points of driving disc 110 It connects, then 210 and second component 220 of first assembly can be achieved, identical angle is synchronously tilted towards different directions.

Above-mentioned inclination angle alpha can be calculated by the angle beta that driving disc 110 rotates, detailed process referring to Fig. 4, Photovoltaic module 200 compared with container top surface inclination angle [alpha] it is smaller in the case of, the driving distance of rope is similar to driving disc 110 rotation arc length, i.e. H ≈ S；

It is drawn by geometrical relationship：

It is released by (1), (2) formula：

Obtain the relation between 110 rotational angle β of 200 inclination angle alpha of photovoltaic module and driving disc.In this way, work as light Volt component 200 is applied when needing adjusting part inclination angle in different latitude area, the geographical location installed first according to container The optimum angle of incidence (inclined predetermined angle) of photovoltaic module 200 is calculated, the angle that driving disc 110 need to rotate then is calculated Degree, to realize the setting of 200 optimum angle of incidence of photovoltaic module.

As a kind of enforceable mode, angled display panel 500,500 energy of angle display panel are set in driving disc 110 Enough show the angle that driving disc 110 rotates.In such manner, it is possible to the angle that driving disc 110 rotates clearly is known, to slap Hold whether the adjusted optimum angle of incidence position to photovoltaic module 200.

In other embodiments, driving disc 110 can be belt pulley, driving band 120 be a root skin band, one end of belt It is connected with first assembly 210, the other end is connected around belt pulley with the second component 220.When driving disc 110 rotates clockwise, Under frictional force effect between belt and belt pulley, the B sides of first assembly 210 is made to increase, while make the C of the second component 220 Side falls under the effect of gravity；When driving disc 110 rotates counterclockwise, under the frictional force effect between belt and belt pulley, The C sides of the second component 220 is made to increase, while the B sides of first assembly 210 is made to fall under the effect of gravity.

Similarly, driving disc 110 or sprocket wheel (gear), driving band 120 coordinate for one and sprocket wheel (gear) Chain (toothed belt), operation principle do not repeating herein with foregoing essentially identical.

As a kind of enforceable mode, driving device 100 further includes pulley 130 corresponding with 200 groups of numbers of photovoltaic module； One end of first rope 121 is connected with driving disc 110, and the other end is connected around a pulley 130 with first assembly 210；The One end of two ropes 122 is connected with driving disc 110, and the other end is connected around a pulley 130 with the second component 220.Pulley 130 are arranged on 130 stent of pulley, and 130 stent of pulley is fixed on the top surface 300 of container, is enabled to by pulley 130 Driving device 100 is more laborsaving to the driving of photovoltaic module 200, while can change driving device 100 to photovoltaic module 200 Active force direction so that the relative position between driving device 100 and photovoltaic module 200 is more flexible and changeable.At other In embodiment, pulley 130 also can be by replacements such as the bearings that can turn.

As a kind of enforceable mode, photovoltaic module 200 is rotatablely connected by linkage 400 and stationary plane.At it In his embodiment, photovoltaic module 200 can also realize the rotation connection with stationary plane by pivot structure.

Further, linkage 400 includes first axle 410 and connecting rod 420, one end of connecting rod 420 and stationary plane Connection, the other end are rotatably coupled by first axle 410 and photovoltaic module 200.Photovoltaic module 200 and driving device 100 When the one side stress of connection changes, under the action of first axle 410, enable photovoltaic module 200 compared with container Top surface 300 vert, to realize the change at 200 inclination angle of photovoltaic module.One end that connecting rod 420 is connected with stationary plane can be straight It connects on the top surface 300 for being fixed on container, the top surface 300 of container can also be rotatably connected to by second hinge 430 On.So so that photovoltaic module 200 is more flexible compared with the rotation of the top surface 300 of container, to applying for driving device 100 Power reacting condition is rapider.

As another enforceable mode, driving device 100 includes drive gear and the driving engaged with drive gear Rack；The both sides of drive gear are connected respectively by a drive rack with two groups of photovoltaic modulies 200, energy when drive gear rotates It is enough that opposite effect power is applied to two groups of photovoltaic modulies 200 respectively.

Wherein, drive rack can be directly fastened on photovoltaic module 200, can also be by a driven gear with setting The driven rack engagement on photovoltaic module 200 is put, realizes and is indirectly sequentially connected, as long as can realize through drive rack Movement drives the movement of photovoltaic module 200.

And a kind of enforceable mode is used as, two groups of photovoltaic modulies 200 are respectively first assembly and the second component；Sliding tooth Item includes the first rack and the second rack；The one side of first assembly is engaged by the first rack with the one side of drive gear, and first The opposite side of component and the top surface 300 of container are rotatablely connected；Second component one side is symmetrical by the second rack and drive gear Opposite side engagement, the opposite side of the second component and the top surface 300 of container are rotatablely connected.

During original state, first assembly and the second component are each parallel to the top surface 300 of container.In this embodiment, Driving device 100 and first assembly, the connection mode of the second component can refer to Fig. 2, i.e. right-to-left, respectively first in Fig. 2 The A sides of component and B sides, the C sides of the second component and D sides, the B sides of first assembly are nibbled by the E sides of the first rack and drive gear It closes, the A sides of first assembly and the top surface 300 of container are rotatablely connected；Second component C sides pass through the second rack and drive gear F sides engagement, the D sides of the second component and the top surface 300 of container are rotatablely connected.When drive gear rotates clockwise, the is driven One rack moves down certain distance while the second rack is driven to move up identical distance, thus, make the B of first assembly Side moves down the laterally moved identical distances of C of above-mentioned distance the second component simultaneously, makes first assembly, the second component towards same One direction tilts identical angle compared with the top surface 300 of container.And drive gear drives the second rack when rotating counterclockwise It moves down certain distance while the first rack is driven to move up identical distance, thus, the C of the second component is made laterally to move down Move the laterally moved identical distances of B of above-mentioned distance while first assembly.

In other implementations, driving device 100 can also be including cylinder and with 200 groups of numbers of photovoltaic module Corresponding drive rod.Assuming that photovoltaic module 200 is two groups, it is first assembly and the second component respectively, then drive rod is also two. In the present embodiment, driving device 100 can refer to Fig. 2 with first assembly, the connection mode of the second component, i.e. oneself is right in Fig. 2 To the left, it is respectively the A sides of first assembly and B sides, the C sides of the second component and D sides, one end of drive rod and the piston of cylinder connect It connecing, the other end is respectively connected to the A sides of first assembly, the C sides of the second component, in this way, when cylinder piston stretches out upwards, first group The A sides of part and the C sides of the second component move up, when cylinder piston bounces back, the A sides of first assembly and the C sides of the second component It moves down, realizes synchronous verting with angle in the same direction.Certainly, the piston of one end of drive rod and cylinder connects, the other end Also the B sides of first assembly can be respectively connected to, the C sides of the second component so can be achieved synchronous with angle but not in the same direction to vert.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope that this specification is recorded all is considered to be.

Embodiment described above only expresses the several embodiments of the utility model, and description is more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent scope.It should be pointed out that the common skill for this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (10)

1. a kind of photovoltaic component system of adjustable angle, which is characterized in that including：Driving device (100) and at least two groups of photovoltaics Component (200), at least two groups of photovoltaic modulies (200) are arranged at intervals along stationary plane；Photovoltaic module (200) described in every group is equal With opposite both sides, for being connected with the driving device (100), opposite side is used to rotate with the stationary plane for wherein one side Connection；The driving device (100) can drive at least two groups of photovoltaic modulies (200) to tilt predetermined angle simultaneously.

2. the photovoltaic component system of adjustable angle according to claim 1, which is characterized in that the driving device (100) Including driving disc (110) and driving band (120)；The driving disc (110) by it is described driving band (120) respectively with two groups Photovoltaic module (200) connection；The driving disc (110) can increase of driving band (120) described in one side when rotating Clamp force is so that the corresponding photovoltaic module (200) moves, while reduces the tensile force of driving band (120) described in opposite side So that the corresponding photovoltaic module (200) moves.

3. the photovoltaic component system of adjustable angle according to claim 2, which is characterized in that photovoltaic module described in two groups (200) it is respectively first assembly (210) and the second component (220)；The driving band (120) includes the first rope (121) and the Two ropes (122)；

The one side of the first assembly (210) is connected by the one side of first rope (121) and the driving disc (110) It connects, opposite side and the stationary plane of the first assembly (210) are rotatablely connected；The one side of second component (220) passes through The symmetrical opposite side of second rope (122) and the driving disc (110) is connected, second component (220) it is another Side is rotatablely connected with the stationary plane；

During original state, first rope (121) and second rope (122) are in tensioning state, so that described the One component (210) and second component (220) are each parallel to the stationary plane；The driving disc (110) rotates clockwise When, increasing the tensile force of first rope (121) makes the first assembly (210) be tilted compared with the stationary plane, simultaneously Reducing the tensile force of second rope (122) makes second component (220) under the effect of gravity compared with the stationary plane It tilts；When the driving disc (110) rotates counterclockwise, increasing the tensile force of second rope (122) makes described second group Part (220) is tilted compared with the stationary plane, while the tensile force for reducing first rope (121) makes the first assembly (210) tilted under the effect of gravity compared with the stationary plane.

4. the photovoltaic component system of adjustable angle according to claim 3, which is characterized in that the driving device (100) Further include pulley (130) corresponding with the photovoltaic module (200) group number；

One end of first rope (121) is connected with the driving disc (110), and the other end bypasses a pulley (130) it is connected with the first assembly (210)；

One end of second rope (122) is connected with the driving disc (110), and the other end bypasses a pulley (130) it is connected with second component (220).

5. the photovoltaic component system of adjustable angle according to claim 2, which is characterized in that the photovoltaic module (200) It is rotatablely connected by linkage (400) and the stationary plane.

6. the photovoltaic component system of adjustable angle according to claim 5, which is characterized in that the linkage (400) Including first axle (410) and connecting rod (420), one end of the connecting rod (420) is connected with the stationary plane, and the other end passes through The first axle (410) is rotatably coupled with the photovoltaic module (200).

7. the photovoltaic component system of adjustable angle according to claim 6, which is characterized in that the linkage (400) Second hinge (430) is further included, the connecting rod (420) is rotationally connected by the second hinge (430) with the stationary plane It connects.

8. the photovoltaic component system of adjustable angle according to claim 2, which is characterized in that the driving disc (110) Upper to set angled display panel (500), the angle display panel (500) can show the angle that the driving disc (110) rotates Degree.

9. the photovoltaic component system of adjustable angle according to claim 1, which is characterized in that the driving device (100) The drive rack engaged including drive gear and with the drive gear；The both sides of the drive gear are respectively by described in one Drive rack is connected with photovoltaic module (200) described in two groups, and the drive gear can be respectively to photovoltaic described in two groups when rotating Component (200) applies opposite effect power.

10. the photovoltaic component system of adjustable angle according to claim 9, which is characterized in that photovoltaic module described in two groups (200) it is respectively first assembly and the second component；The drive rack includes the first rack and the second rack；

The one side of the first assembly is engaged by first rack with the one side of the drive gear, the first assembly Opposite side is rotatablely connected with the stationary plane；The second component one side is symmetrical by second rack and the drive gear Opposite side engagement, the opposite side of second component is rotatablely connected with the stationary plane；

During original state, the first assembly and second component are each parallel to the stationary plane；The drive gear rotates When, first rack and second rack are driven respectively while is moved in the opposite direction, to drive described first simultaneously Component, second component are tilted compared with the stationary plane.