DE102012013431A1 - Solar collector stacking unit i.e. parabolic trough collector stacking unit, has axle- and/or shaft-receiving unit for receiving solar panel axle and/or shaft and comprising pipe segment, which is provided to abut against axle and/or shaft - Google Patents

Abstract

The unit (10) has an axle- and/or shaft-receiving unit (22) for receiving a solar panel axle and/or a shaft. The axle- and/or shaft-receiving unit comprises a pipe segment (24), which is provided to abut against a solar collector axle and/or shaft. A set of plug-in units (18, 20) is formed by plug-in element retainers (30, 32), and another set of plug-in units (14, 16) is formed by plug-in elements (26, 28). Blocking elements (36, 38) arranged outside of the plug-in element retainers and limit plug-in movements of the plug-in units. A base body (12) comprises positioning units (40, 42, 44).

Description

State of the art

The invention relates to a solar collector stack unit, in particular a parabolic trough collector stack unit, with a base body and with at least one first plug-in means according to the preamble of claim 1.

A solar collector stack unit has already been proposed. The solar collector unit is used for stacking solar panels, in particular for the stacked transport of solar panels. The already known solar collector stacking unit is inserted during transport on corners of the solar collector and then removed again.

Advantages of the invention

The invention is based on a solar collector stack unit, in particular a parabolic trough collector stack unit, with a base body and with at least one first plug-in means.

It is proposed that the solar collector stacking unit has an axle and / or shaft receiving unit which is intended to receive a solar collector axis and / or shaft. The solar collector stacking unit is particularly intended to allow an ordered stacking of at least two solar panels. Preferably, the base body is formed by a plate-shaped element. In this context, a "plate-shaped element" in this context should be understood to mean, in particular, an element which, viewed in a flattened state, has at least two mutually perpendicular main stretches which are substantially larger than a third extent perpendicular to the two main stretches, d , H. at least 5 times larger, preferably at least 10 times larger. Particularly preferably, the base body connects at least a majority of the further elements of the solar collector stacking unit. In this context, "at least a large part" should be understood as meaning, in particular, at least 50%, preferably at least 60% and particularly preferably at least 80%. Furthermore, in this context, a "plug-in means" should be understood to mean in particular a means which forms at least part of a plug connection. Preferably, the connector can be solved only in one direction. Particularly preferably, the plug-in means is formed by a plug element and / or a plug element exception. A "plug-in element" is to be understood in this context, in particular an element which is intended to enter into a plug-in connection with a differing plug-in means of a differentiating solar collector stacking unit. Preferably, the plug element is provided to be inserted to form a plug connection in a plug-in recess, particularly preferably in a plug element receptacle. Furthermore, in this context, a "plug-in element receptacle" is to be understood as meaning, in particular, a receptacle which is provided to accommodate a differing plug-in means of a differing solar collector stack unit for forming a plug connection. Preferably, the plug element receptacle is provided to receive a plug-in element to form a plug connection. In this context, the term "picking up" should be understood in particular to mean that, in at least one plane, a male element is enclosed at least to a large extent by the plug element receptacle. In this context, "at least to a large extent" is to be understood as meaning in particular at least 50%, preferably at least 60% and particularly preferably at least 70% of a scope. Furthermore, an "axle and / or shaft receiving unit" in this context is to be understood in particular as meaning a unit which is intended to receive and preferably to hold an axle and / or a shaft. Preferably, the unit is intended to rotatably hold an axle and / or a shaft, in particular with respect to the unit. Preferably, the axle and / or shaft receiving unit has a receiving area for this, wherein the receiving area particularly preferably has at least one round edge defining a recess. Furthermore, in this context, a "solar collector axis and / or shaft" should be understood to mean, in particular, an axle and / or shaft which serves to mount the solar collector. Preferably, the axis and / or shaft in particular forms an axis of rotation of the solar collector and / or particularly preferably the axis and / or shaft is provided to rotate the solar collector.

Due to the inventive design of the solar collector stacking unit components can be advantageously saved. Furthermore, advantageously, the axle and / or shaft receiving unit can be integrated in the unit.

It is further proposed that the axle and / or shaft receiving unit has at least one pipe segment, which is intended to abut against the solar collector axis and / or shaft. Preferably, a frictional connection can be made between the pipe segment and the solar collector axis and / or shaft. A "pipe segment" is to be understood in this context, in particular an element which represents a segment of a pipe, wherein the segment consists of an angular range about an axis of rotation of the tube. Preferably, the angular range is equal to or greater than 180 °. Preferably, the element is intended to at least partially enclose an axis and / or a shaft, preferably the solar collector axis and / or shaft, wherein an inner surface of the element corresponds at least approximately to an outer surface of the axle and / or shaft. Particularly preferably, the pipe segment on fastening means which are intended to connect the pipe segment with the differing pipe segment or itself. This can advantageously be achieved a secure connection between the axle and / or shaft receiving unit and the solar collector axis and / or shaft. Furthermore, a simple assembly can be realized.

It is also proposed that the solar collector stacking unit has at least one further insertion means, which is formed by a plug element receptacle, wherein the at least first plug-in means is formed by a plug-in element. As a result, a solar collector stack unit with at least two differing, complementary plug-in means can advantageously be achieved.

Furthermore, it is proposed that the at least one further plug-in means is arranged on a side of the main body opposite the first plug-in means. Preferably, the at least one further plug-in means is arranged on a side of the solar collector stack unit opposite the first plug-in means, viewed on a main extension direction of the solar collector stack unit. This can be achieved with identical solar collector stacking units a theoretical endless stacking.

It is further proposed that the at least one plug-in element, viewed in the insertion direction, has an at least partially decreasing extent. Preferably, the at least one plug-in element, viewed in the insertion direction, has an at least partially reducing cross-sectional area. Particularly preferably, the plug-in element has at least one inclined surface, which is tilted relative to the plug-in direction. In this context, a "plug-in direction" is to be understood as meaning, in particular, a direction which defines a direction of movement of the plug-in element during a plug-in operation. Furthermore, in this context, "at least partially reducing engagement" should be understood to mean that at least one extension of the at least one plug element decreases over at least 5%, preferably over at least 10% and particularly preferably over at least 15% of an extent of the plug element in the insertion direction , As a result, advantageously, a comfortable and simple insertion can be realized by an operator.

It is further proposed that the solar collector stacking unit has a blocking element arranged outside the at least one plug element receptacle, which is provided to limit a plugging movement of the at least one first plug-in means. Preferably, the blocking element is provided to limit an insertion depth of the plug element into the plug element receptacle. Particularly preferably, the blocking element directly adjoins the at least one plug-in element. A "blocking element" should be understood in this context, in particular a stop. Preferably, the stop is intended to abut at a maximum insertion movement of the plug means to the respective complementary plug-in means. The blocking element can advantageously realize a uniform and parallel stacking. Furthermore, it is advantageous to maintain a constant distance between the solar collectors.

Furthermore, it is proposed that the base body has at least one positioning means, which is provided to allow a positionally accurate attachment of a retaining element. In this context, a "positioning means" is to be understood as meaning, in particular, a means which is intended to predetermine and / or enable a relative position of an element relative to the base body. Preferably, the positioning means is formed by a positioning recess and / or a positioning element. As a result, advantageously, the holding element can be fixed accurately and quickly. In this case, a measurement can be saved during assembly.

It is also proposed that the at least one positioning means is provided to allow a positionally accurate attachment of an absorber tube holding unit. In this context, an "absorber tube holding unit" should be understood to mean in particular a unit which is intended to hold an absorber tube at a predetermined distance from the solar collector, in particular to a parabolic trough collector. As a result, a simple, quick and accurate installation of the absorber tube holding unit can be realized.

It is further proposed that at least the main body is produced in a chill casting process. As a result, the basic body can be manufactured inexpensively and accurately. Furthermore, a particularly smooth surface can be achieved.

drawings

Further advantages emerge from the following description of the drawing. In the drawings, an embodiment of the invention is shown. The drawings, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

Show it:

1 a solar collector stack unit according to the invention in a schematic representation,

2 the solar collector stack unit according to the invention in an alternative schematic representation,

3 the solar collector stacking unit according to the invention in a schematic sectional view along the section line III,

4 the solar collector stacking unit according to the invention with a pipe segment counterpart and fastening means in an alternative schematic representation and

5 Parabolic trough collectors with solar collector stacking units according to the invention on an adapted pallet in a schematic representation.

Description of the embodiment

1 shows a solar collector stacking unit according to the invention 10 , The solar collector stack unit 10 is formed by a parabolic trough collector stacking unit. The solar collector stack unit 10 has a basic body 12 and two first plug-in means 14 . 16 on. The main body 12 is plate-shaped. Furthermore, the solar collector stacking unit 10 two more plug-in means 18 . 20 on. The four plug-in devices 14 . 16 . 18 . 20 Extend parallel to a main plane of extension of the body 12 , The solar collector stack unit 10 has an axle and / or shaft receiving unit 22 which is intended to accommodate a not further visible solar collector axis and / or shaft. The axle and / or shaft receiving unit 22 extends perpendicular to the main extension plane of the basic body 12 , The axle and / or shaft receiving unit 22 is on a plane 46 of the basic body 12 arranged.

The solar collector stack unit 10 is at a parabolic trough collector 48 attached. The solar collector stack unit 10 gets at a base page 50 of the parabolic trough collector 48 attached.

The axle and / or shaft receiving unit 22 has a pipe segment 24 on. The pipe segment 24 is formed by a half-shell element. The pipe segment 24 is semi-tubular. An imaginary axis of rotation 52 of the pipe segment 24 is perpendicular to the main plane of extension of the body 12 , The pipe segment 24 is intended to abut against the solar collector axis and / or shaft. The pipe segment 24 is intended to have a pipe segment counterpart 62 to be pressed onto the not further visible solar collector axis and / or shaft ( 4 ). The pipe segment 24 and the pipe segment counterpart 62 resulting in a composite tube shape. Furthermore, the axle and / or shaft receiving unit 22 two support elements 54 . 56 on. The support elements 54 . 56 are formed by ribs. The support elements 54 . 56 support the pipe segment 24 against the main body 12 from. Through the support elements 54 . 56 can advantageously be saved material and in particular a thickness of the pipe segment 24 be kept low. Furthermore, the axle and / or shaft receiving unit 22 an investment element 58 on. The investment element 58 is plate-shaped. A main extension plane of the contact element 58 extends perpendicular to the main plane of extension of the body 12 and parallel to an imaginary geometric section plane of the pipe segment 24 , The investment element 58 Closes directly to an imaginary cutting area of the pipe segment 24 at. Furthermore, the contact element 58 a contact surface 60 which directly in the imaginary geometric section plane of the pipe segment 24 lies. The contact surface 60 has a gap to the pipe segment counterpart 62 to clamp the not visible axis. Furthermore, the contact element 58 four recesses 64 . 66 on. The recesses 64 . 66 are formed by boreholes. About the recesses 64 . 66 and screws 68 . 70 . 72 . 74 becomes the axle and / or shaft receiving unit 22 with the pipe segment counterpart 62 connected, wherein the pipe segment counterpart 62 and the pipe segment 22 be clamped against each other during a connection via a not further visible gap ( 4 ).

The pipe segment counterpart 62 has a tube segment area and two wing areas. The wing portions protrude out of the pipe segment area and each have two recesses. The pipe segment region has one to the pipe segment 24 identical inner contour on. Furthermore, the four recesses of the wing portions have an identical distance to the Rohsegmentbereich as the recesses 64 . 66 to the pipe segment 24 ( 4 ).

To fix the not further visible solar collector axis and / or shaft, the solar collector axis and / or shaft along the imaginary axis of rotation 52 in the axle and / or shaft receiving unit 22 pushed. A circular recess 76 in the main body 12 holds the solar collector axis and / or shaft in a predetermined position ( 3 ). Subsequently, the pipe segment counterpart 62 with its semi-tubular inner contour to an inner contour of the pipe segment 24 be placed mirror-inverted on the solar collector axis and / or shaft. About the recesses 64 . 66 and the screws 68 . 70 . 72 . 74 can the pipe segment 24 and the pipe segment counterpart 62 be interconnected ( 4 ). This will be the pipe segment 24 and the pipe segment counterpart 62 pressed onto the solar collector axis and / or shaft. As a result, the not further visible solar collector axis and / or shaft rotatably with the solar collector stacking unit 10 get connected.

The two other plug-in means 18 . 20 are each of a plug element receptacle 30 . 32 formed, wherein the two first plug-in means 14 . 16 each of a plug-in element 26 . 28 are formed. The two other plug-in means 18 . 20 are on a first plug-in 14 . 16 opposite side of the body 12 arranged. The plug element receptacles 30 . 32 are each provided to a plug-in element of a differing solar collector stacking unit 78 . 80 take. The differing solar panel stacking units 78 . 80 are identical to the solar collector stacking unit 10 executed and each belong to a different parabolic trough collector 82 . 84 ( 5 ). The plug-in elements 26 . 28 each protrude parallel to each other from the body 12 the solar collector stack unit 10 , The plug-in elements 26 . 28 are symmetrical to an axis of symmetry 75 arranged. The plug-in elements 26 . 28 have a main direction of extension 88 parallel to the main extension plane of the main body 12 on. Furthermore, the plug-in elements 26 . 28 essentially a thickness equal to a thickness of the main body 12 equivalent. The main body 12 always goes into the plug-in elements 26 . 28 above. The plug element receptacles 30 . 32 each limit a recording area 90 . 92 , The shape of the reception areas 90 . 92 essentially corresponds to the shape of the plug-in elements 26 . 28 , The plug element receptacles 30 . 32 are each, along the main extension direction 88 the plug-in elements 26 . 28 considered, on one of the plug-in elements 26 . 28 opposite side of the body 12 arranged. The plug element receptacles 30 . 32 have a main extension plane, that of the main extension plane of the main body 12 equivalent. By mounting the solar collector stacking unit 10 on a base page 50 of the parabolic trough collector 48 become the recording areas 90 . 92 additionally through the base page 50 limited and form recesses 94 . 96 The recesses 94 . 96 the plug element receptacles 30 . 32 are each to one of the plug-in elements 26 . 28 opened away from the side ( 2 . 3 ).

The plug-in elements 26 . 28 wise, in the direction of insertion 34 considered, each a decreasing extent. The plug-in elements 26 . 28 wise, in the direction of insertion 34 considered, each a decreasing cross-sectional area. The plug-in direction 34 runs parallel to the main extension direction 88 the plug-in elements 26 . 28 , The plug-in direction 34 runs in one direction from the plug element receptacles 30 . 32 towards the plug-in elements 26 . 28 , The plug-in elements 26 . 28 run in a plane perpendicular to the main plane of extension of the body 12 and parallel to the main extension direction 88 the plug-in elements 26 . 28 , viewed in the direction of insertion 34 , narrow too. In a plane parallel to the main plane of extension of the main body 12 considered, have the plug-in elements 26 . 28 each a large rounding off 98 . 100 on.

The solar collector stack unit 10 has two outside of the two plug element receptacles 30 . 32 arranged blocking elements 36 . 38 on, which are provided, a plug-in movement of the plug-in means 14 . 16 to limit. The blocking elements 36 . 38 are intended, a plugging movement of the plug-in elements 26 . 28 to limit. The blocking elements 36 . 38 are each in a transition region between the plug-in elements 26 . 28 and the body 12 arranged. The blocking elements 36 . 38 have an approximately wedge-shaped basic shape, wherein the blocking elements 36 . 38 in one of the plug-in elements 26 . 28 repellent direction flat in the body 12 leak. The blocking elements 36 . 38 each have a stop surface 102 . 104 on, which are parallel to the main extension direction 88 extends.

The main body 12 has three positioning means 40 . 42 . 44 which are intended to allow a positionally accurate attachment of a not further visible retaining element. The positioning means 40 . 42 . 44 are formed by positioning recesses. The positioning means 40 . 42 . 44 are formed by boreholes, in particular M6 threads. The positioning means 40 . 42 . 44 are about the axle and / or shaft receiving unit 22 arranged. The positioning means 40 . 42 . 44 each have an identical distance to the imaginary axis of rotation 52 of the pipe segment 24 the axle and / or shaft receiving unit 22 on. The positioning means 40 . 42 . 44 are at intervals of 90 ° around the imaginary axis of rotation 52 of the pipe segment 24 the axle and / or shaft receiving unit 22 arranged. Two of the positioning means 40 . 44 are each at a distance of 180 ° to each other about the imaginary axis of rotation 52 of the pipe segment 24 arranged. An imaginary connecting line between the positioning means 40 . 44 is perpendicular to the imaginary axis of rotation 52 of the pipe segment 24 and perpendicular to the main extension direction 88 the plug-in elements 26 . 28 , The positioning means 42 lies in the direction of insertion 34 from the positioning means 40 . 44 ,

The positioning means 40 . 42 . 44 are intended to allow a positionally accurate attachment of a not further visible absorber tube holding unit, the absorber tube holding unit having identically arranged to each other position recesses.

The main body 12 is manufactured in a chill casting process. The solar collector stack unit 10 is manufactured in a chill casting process. The solar collector stack unit 10 is made in a chill casting process from a mold.

5 shows four parabolic trough collectors 48 . 82 . 84 . 106 with solar collector stacking units according to the invention 10 . 78 . 80 on a pallet 108 in a schematic representation. For transport and / or storage of parabolic trough collectors 48 . 82 . 84 . 106 becomes a bottom parabolic trough collector 106 with its concave face down on a pallet 108 placed. Subsequently, the other parabolic trough collectors 48 . 82 . 84 each on the top parabolic trough collector 48 . 82 . 84 . 106 on the pallet 108 stacked with an identical orientation. The plug-in elements 26 . 28 of the respective parabolic trough collector 48 . 82 . 84 are doing in the plug element receptacles 30 . 32 of the top parabolic trough collector 48 . 82 . 84 . 106 on the pallet 108 plugged. This allows a particularly advantageous transport and / or a particularly advantageous storage can be achieved. This allows up to nine parabolic trough collectors 48 . 82 . 84 . 106 stacked on top of each other. In principle, however, other uses that appear appropriate to the person skilled in the art are also conceivable.

LIST OF REFERENCE NUMBERS

10

Solar panel stacking unit

12

body

14

plug means

16

plug means

18

plug means

20

plug means

22

Axle and / or shaft receiving unit

24

pipe segment

26

plug-in element

28

plug-in element

30

Plug element receptacle

32

Plug element receptacle

34

plug-in direction

36

blocking element

38

blocking element

40

positioning means

42

positioning means

44

positioning means

46

area

48

parabolic trough collector

50

base side

52

axis of rotation

54

support element

56

support element

58

contact element

60

contact surface

62

Pipe segment counterpart

64

recess

66

recess

68

screw

70

screw

72

screw

74

screw

75

axis of symmetry

76

recess

78

Solar panel stacking unit

80

Solar panel stacking unit

82

parabolic trough collector

84

parabolic trough collector

86

axis of symmetry

88

Main direction

90

reception area

92

reception area

94

recess

96

recess

98

rounding off

100

rounding off

102

stop surface

104

stop surface

106

parabolic trough collector

108

palette

Claims (10)

Solar collector stacking unit, in particular parabolic trough collector stacking unit, having a base body ( 12 ) and with at least one first plug-in means ( 14 . 16 ), characterized by an axle and / or shaft receiving unit ( 22 ) intended to receive a solar collector axis and / or shaft. Solar collector stacking unit according to claim 1, characterized in that the axle and / or shaft receiving unit ( 22 ) at least one pipe segment ( 24 ) which is intended to abut against the solar collector axis and / or shaft. Solar collector stacking unit according to claim 1 or 2, characterized by at least one further plug-in means ( 18 . 20 ), which from a plug element receptacle ( 30 . 32 ), wherein the at least first plug-in means ( 14 . 16 ) of a plug-in element ( 26 . 28 ) is formed. Solar collector stacking unit according to claim 3, characterized in that the at least one further plug-in means ( 18 . 20 ) on one of the first plug-in means ( 14 . 16 ) opposite side of the main body ( 12 ) is arranged. Solar collector stacking unit at least according to claim 3, characterized in that the at least one plug-in element ( 26 . 28 ), in plug-in direction ( 34 ), has an at least partially decreasing cross-sectional area. Solar collector stacking unit at least according to claim 3, characterized by at least one outside the at least one plug element receptacle ( 30 . 32 ) arranged blocking element ( 36 . 38 ), which is intended, a plug-in movement of the at least one first plug means ( 14 . 16 . 18 . 20 ) to limit. Solar collector stacking unit according to one of the preceding claims, characterized in that the basic body ( 12 ) at least one positioning means ( 40 . 42 . 44 ), which is intended to allow a positionally accurate attachment of a retaining element. Solar collector stacking unit according to claim 7, characterized in that the at least one positioning means ( 40 . 42 . 44 ) is provided to allow a positionally accurate attachment of Absorberrohrhalteeinheit. Solar collector stacking unit according to one of the preceding claims, characterized in that at least the main body ( 12 ) is produced in a chill casting process. Solar collector, in particular parabolic trough collector, with a solar collector stacking unit ( 10 ) according to one of claims 1 to 9.

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