• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a mobile generator device (11) having at least one directional solar panel (2a, 2b), wherein the solar panel (2a, 2b) can be moved into a transport position (TP) and at least one operation position (BP). The invention is characterized in that the generator device (1) is provided with a housing shell (3a) having an edge area (4), wherein the solar panel (2a) is hinged to the housing shell (3a), such that in the transport position (TP), the solar panel (2a) is inside the housing shell (3a) and does not project beyond the edge area (4). The invention further relates to a cooling system comprising a mobile generator device (1) according to the invention, a control, and a cooling device, in particular a chest freezer, having at least one cooling circuit, wherein the cooling circuit has a compressor, an evaporator, and a condenser. The cooling system according to the invention is characterized in that the energy supply of the cooling system is provided by means of the mobile generator device (1) and the control regulates the cooling system as a function of the energy supply.
    公开号:AU2012359088A1
    申请号:U2012359088
    申请日:2012-04-19
    公开日:2014-07-24
    发明作者:Andreas Hoffmann;Admilson Pinto;Uwe SCHRAMER
    申请人:Dometic SARL;
    IPC主号:H01L31-042
    专利说明:
    Mobile Generator Device and Cooling System The present invention relates to a mobile generator device having at least one alignable solar panel, wherein the solar panel can be moved to a transport position and at least one operating 5 position, and a cooling system with a mobile generator device, a control and a cooling device, in particular a freezer, having at least one cooling circuit, wherein the cooling circuit has a compressor, an evaporator, and a condenser. Typically, such generator devices and cooling systems are employed in remote areas, in par 10 ticular in developing countries where a stable and safe energy supply under normal circum stances cannot be ensured. It has therefore turned out feasible to photovoltaically generate the energy required for the operation since in the most developing countries the insolation is suf ficiently high over the whole year. Thus, also delicate goods, such as for example medical products that need to be cooled can be stored safely, whereby the quality of life of the local 15 people can be improved. To counteract this, the World Health Organization (WHO) has made a catalogue with thresh old criteria which has to be fulfilled by the used generator device and cooling equipment for the transport and storage of medical products. However, with the generator devices of the 20 prior art meeting these criteria this means that as a rule predefined installation set-ups are required for operation. For example, the solar panels are anchored on a base pedestal or at tached to walls and roofs. However, in remote areas there is often a lack of the infrastructure that is required for installation and starting up. Occasionally, qualified staff such as electri cians, mechanics, welders, or bricklayers must be externally included for the installation and 25 starting up of the plant. This makes the plant expensive and also causes problems in mainte nance and upkeep. Moreover, because of this the known plants can in no way be flexibly em ployed but only used stationary and again it requires a great effort to move such devices, re spectively. 30 Moreover, the known devices are difficult to transport and there often occur damages in transport to the delicate solar panels, in particular when the transport leads through difficult terrain or also water.
    2 Thus, it is the object of the present invention to provide a mobile generator system for the photovoltaic power generation that fulfills the criteria of the WHO and at the same time, does not need any installation setups, can be easily transported, and in which transport damages to the solar panels can be avoided. Furthermore, it is the object of the present invention to pro 5 vide a cooling system the power supply of which is provided by a mobile generator system according to the invention. The solution of the object is accomplished with a mobile generator device according to claim 1 and a cooling system according to claim 18. Practical developments are described in the 10 dependent claims. The mobile generator device according to the invention is distinguished from the generator devices known in the prior art in particular by the fact that the generator device has a housing shell with a peripheral area, wherein the solar panel is hinged to the housing shell so that the 15 solar panel is in the transport position within the housing shell and does not project over the peripheral area. With other words, for transport the solar panel can be pivoted into the shell. Thus, the panel is safely protected against shock and/or other transport damages. Moreover, this also allows the simple and easy transportation of the generator device by air, water, and ashore since the generator device does not need any installation setups. By the shell-like con 20 struction it is also possible to optimally align the plant towards the sun since the shell can be rotated without major problems. Preferably, the generator device has a further housing shell with a peripheral area. The further housing shell is connected to the other housing shell by a housing hinge connection so that 25 the peripheral area of the further housing shell can be contacted with the peripheral area of the other housing shell. Thus, the solar panel in the transport position can be even better pro tected against damages since it is located inside the shell. Here, it is conceivable that the pe ripheral areas of the housing shells are fixed to each other by suitable locking means. 30 Moreover, the further housing shell can have at least one alignable solar panel, wherein the solar panel is hinged to the further housing shell so that the solar panel in the transport posi tion is within the further housing shell and does not project over its peripheral area. In this way, the available solar panel surface - and thus, the power yield of the generator device - can 3 be significantly increased. Here, the housing shells preferably are substantially mirrored and identical, respectively, so that the advantages already mentioned-above also apply. Furthermore, it can also be advantageous if the housing hinge connection is detachable. In 5 this way, both shells can be moved separately. In particular, when solar panels are disposed in both shells this allows an individual alignment of the solar panels. It is practical if each solar panel has a transport locking device so that the solar panel can be fixed in its transport position within the housing shell. In this way, the protection against 10 damage can be increased again. Here, it is particularly advantageous if the transport locking device has a simple construction and can be accomplished by manually screwing in a thumb or knurled thumbscrew, for example. Preferably, for each solar panel the generator device has at least one rail disposed within the 15 housing shell and one connecting arm assigned to the rail. Here, the solar panel is connected to one end of the rail by a panel hinge connection. The rail extends vertically towards the ro tational axis of the panel hinge connection. The connecting arm is connected to the solar pan el by a first hinge at its first end and to a slide by a second hinge at its second end, wherein the slide can be moved along the rail such that the solar panel can be continuously aligned in 20 various operating positions. This has the advantage that the inclination of the solar panel can be adjusted by simply shifting the slide. Thus, the solar panel can be quickly and easily brought into the desired operating position and aligned towards the sun, respectively. Furthermore, it is advantageous if the slide is fixed in its position along the rail. Thus, inad 25 vertent shifting the inclination of the solar panel can be avoided. Preferably, the rail is detachably connected to the housing shell. This opens the possibility, that the solar panels can also be used without the shell. For example, the solar panels thus can be firmly fixed on a roof or at a wall. 30 Alternatively, it has been found practical if each solar panel is connected by at least one panel hinge connection to the housing shell and the housing shell has at least one perforated strip. Here, the perforated strip extends vertically to the rotational axis of the panel hinge connec- 4 tion. The solar panel has a connecting arm, wherein the connecting arm is connected to the solar panel via a first hinge at its first end, and the connecting arm has a receptacle for a fas tening pin at its second end. The connecting arm can be fixed at different positions along the perforated strip via the fastening pin so that the solar panel can be aligned in different operat 5 ing positions. This alternative solution has the advantage that the inclination of the solar panel can be adjusted by simply changing the fastening pin. Thus, the solar panel can be quickly and easily brought into the desired operating position and aligned towards the sun, respective ly. Moreover, the fastening pin also prevents inadvertent shifting the inclination of the solar panel. 10 Preferably, the solar panel is detachably connected to the housing shell. This opens the possi bility that the solar panel can also be used without the shell. For example, then the solar pan els can be firmly fixed on a roof or at a wall. 15 Preferably, the housing shell is made of a weatherproofed material, in particular of polyeth ylene. In this way, the shell becomes particularly light and stable. However, it is also con ceivable that the shell is made of wood or another metallic material. It is advantageous if the housing shell has at least one chamber, wherein the chamber can be 20 filled with material to act as a weight. In this way, the structural stability of the generator de vice can be increased. Preferably, the housing shell has a multi-wall construction, wherein the housing shell has at least one opening for filling and discharging the housing shell. Thus, the shell can be filled 25 with a liquid, fine gravel, or sand, for example. In the discharged state, this has also the ad vantage that the shell becomes more rigid and at the same lighter. By the multi-wall construc tion the generator device can also be designed floatable. Moreover, at least one housing shell can have transport receptacles, in particular for the 30 transport with an industrial truck or aircraft. In this way, the generator device can easily be raised, moved, and loaded. Here, by an industrial truck in particular a forklift or also a car riage is to be understood.
    5 Preferably, the housing shell has structures for safely stacking several housing shells on top of each other at the outside. This is particularly advantageous in transport and storage of the generator device since thus, it can at least partially be refrained from costly storage and transport locking devices. 5 It is advantageous if the housing shell has at least one grommet for fixation and/or protection against theft. In this way, the generator device can be even better transported. Here, the grommets are formed such that for example round slings for the hanging transport can be threaded in. It is also conceivable that pegs or the like are driven through the grommets so as 10 to also increase the stability of the generator device and also protect it against theft. Preferably, the housing shell has a plurality of handles. The handles allow the transport by hand and are also helpful in loading the generator device. Here, it is preferable if correspond ing loading means, such as for example belts, can be attached. 15 Moreover, the present invention relates to a cooling system having a generator device accord ing to the invention and at least one cooling circuit. The cooling system has a control and a cooling device, in particular a freezer. The cooling system is distinguished over the cooling systems known in the prior art by the fact that the power supply of the cooling system is pro 20 vided by the mobile generator device and the control regulates the cooling system depending on the power supply. This has the advantage that the cooling system fulfills the guidelines and criteria of the WHO and thus, a safe storage of the chilled goods is possible. In this context, it is also advantageous if the connection between the cooling device and the 25 mobile generator device and/or between individual generator devices is provided via a plug quick connection having a female and male part. Also the single solar panel itself can be con nected to the housing shell of the generator device by the plug quick connection. In particular, here cables with corresponding 3P plugs or 3P couplings can be used. If several mobile gene rator devices are to provide the power supply for the cooling device it is preferably if at least 30 one clamping strip or the like is employed for connecting the generator devices to the cooling device. Here, at least two generator devices can be detachably connected by at least one cou pling, wherein the coupling can be directly connected to the cooling device or in turn to an other coupling. To thereby prevent incorrect mating the plug quick connections in their shape 6 can accordingly be formed such that it allows only one way of connection. Also, a colored or other indication is conceivable. This makes it possible in an advantageous manner to quickly and simply isolate individual mobile generator devices if those for example are to be em ployed elsewhere or have a defect. Moreover, the individual solar panel can be separated 5 from the housing shell by means of the plug quick connection so as to exchange it for another solar panel or to mount it for example separately from the housing shell directly on the roof of a house. In the following, the invention is explained in more detail with respect to examples illustrated 10 in the figures. Here, schematically: Fig. 1 shows a first example of a mobile generator device according to the invention; Fig. 2 shows a detailed view of the adjusting mechanism of the generator device illus trated in fig. 1; Fig. 3 shows three operating positions of the generator device illustrated in fig. 1; 15 Fig. 4 shows a second example of the mobile generator device according to the inven tion; Fig. 5 shows a top view of the generator device illustrated in fig.4; Fig. 6 shows a detailed view of the adjusting mechanism of the generator device illus trated in fig. 4; 20 Fig. 7 shows six operating positions and the transport position of the generator device illustrated in fig.4; Fig. 8 shows two generator devices, as illustrated in fig. 4, stacked on top of each other; and Fig. 9 shows detailed views of the generator device illustrated in fig.4. 25 In fig. 1 to 3 a first example of a mobile generator device 1 according to the invention is illus trated. The generator device 1 shown in fig. la and lb has two single-wall housing shells 3a, 3b and two solar panels 2a, 2b, wherein one solar panel 2a, 2b is disposed in each housing shell 3a, 3b. Furthermore, the housing shells 3a, 3b each have a peripheral area 4a, 4b and are 30 connected by joints or hinges 5, respectively. Here, the hinges 5 define a rotational axis by which the housing shell 3b can be moved towards the other housing shell 3a such that the peripheral areas 4a, 4b of the housing shells 3a, 3b come into contact. This state is shown in fig. lb.
    7 In the illustration according to fig. la the solar panels 2a, 2b are shown in both shells 3a, 3b in the transport position TP. The solar panels 2a, 2b are disposed within the corresponding housing shell 3a, 3b such that they do not project over the peripheral area 4a, 4b, by which a 5 damage to the solar panels 2a, 2b by folding up the housing shells 3a, 3b is prevented. Moreover, the housing shell 3a has handles 22 disposed on opposite sides of the housing shell 3a. In this example, at each side three handles 22 are provided. Furthermore, the housing shell 3a has several webs 16 at the outer periphery 17. These webs prevent an offset between 10 the peripheral areas 4a, 4b of the two housing shells 3a, 3b if these are in the folded state. The operating principle of the webs 16 is in particular seen in fig. lb. Moreover, the housing shells 3a, 3b have three transport receptacles 19 with each transport receptacle 19 consisting of three blocks 21 and a connection board 21. By the parallel arrangement of the transport receptacles 19 over the entire ceiling and floor surface, respectively, of the housing shells 3a, 15 3b there arises the possibility to take the generator device 1 from all four sides with an indus trial truck or aircraft and transport it, respectively. In fig. 2a and 2b, detailed views of a linearly guided adjusting mechanism 18 according to the invention are shown by means of which the solar panel 2a can be aligned in a changed way 20 between the transport position TP and a number of operating positions BP. Here, fig. 2b shows the solar panel 2a without the housing shell 3a. In this example, the solar panel 2a is mounted on a frame 23, wherein the alignment of the solar panel 2a takes place by two linear guides. In the following, only one linear guide is described in more detail since both guides are substantially the same. The solar panel 2a and the frame 23, respectively, onto which the 25 solar panel 2a is mounted is with one side connected to a rail 8 via a hinge connection 10. Here, the rail 8 extends vertically from the rotational axis defined by the hinge connection 10 and parallel to the bottom surface of the housing shell 3a. At the back of the solar panel 2a and the frame 23, respectively, there is fixed a connecting arm 9 with its first end 12 by means of a first hinge 11. The connecting arm 9 with its second end 14 is fixed to a slide 15 30 by means of a second hinge 13. The slide 15 runs along a profile of the rail 8, in which case a reversed T profile is used. Moreover, the slide 15 has a fastening means 24 by means of which the slide 15 can be fixed in its position along the rail 8. As is illustrated, two screws can be provided for that by means of which the slide 15 can be positively clamped to the rail 8 profile. It is also conceivable that the fastening means 24 are only provided at one slide 15. Thus, the solar panel 2a can be continuously adjusted in its inclination. Furthermore, in fig. 2b there is also shown the transport locking device 6, 7 for locking the 5 solar panel 2a in its transport position TP. The transport locking device 6, 7 consists of a first lug 6 with a bore at the free end of the first lug and a second lug 7 with a thread at the free end of the second lug. The first lug 6 is disposed at the solar panel 2a and at the frame of the solar panel 2a, respectively, and the second lug 7 is disposed at the housing shell 3a such that the free end of the first lug 6 contacts the free end of the second lug 7 when the solar panel 2a 10 is in the transport position TP. Then, a threaded screw, in particular a thumb screw, can be screwed into the thread of the second lug 7 through the bore of the first lug 6 and thus, form the transport locking device. In fig. 3, the generator device 1 shown in fig. 1 is illustrated in different operating positions 15 BP. Depending on insolation and season, respectively, a strong and a rather flat inclination can be chosen as the operating position BP of the solar panels 2a, 2b. In fig. 4 to 8, a second example of a mobile generator device 100 according to the invention is shown. Generator device 100 has a multi-wall housing shell 103 with a peripheral area 104 20 and a solar panel 102 disposed in said housing shell 103. As shown in fig. 4, the solar pan el 102 is supported in the illustrated transport position TP within the housing shell 103 such that it does not project over the peripheral area 104 of the housing shell 103. The peripheral area 104 has a number of structures 120 which can interact with the corresponding structures 120 at the lower side of another housing shell 103 so that several generator devices 100 can 25 be safely stacked on top of each other (see, fig. 8). Furthermore, the housing shell 103 has a number of handles 122 and grommets 121 distribut ed at the outer periphery 128. In this example, twelve handles 122 and six grommets 121 in total are distributed at the outer periphery 128. 30 As shown in fig. 4 and 5, the solar panel 102 is rotatable mounted at the housing shell 103 by four panel hinge connections 110 with the panel hinge connections 110 defining a rotational axis. Along this rotational axis the solar panel 102 can be aligned in the operating positions 9 BP. This happens by the adjusting mechanisms 123 illustrated in detail in fig. 6. In the fol lowing, only one adjusting mechanism 123 is described in detail since the adjusting mecha nisms 123 of this example have an identical construction. The housing shell 103 has two par allel perforated strips 108 extending parallel to the bottom surface of the housing shell 103 5 and vertically to the rotational axis of the panel hinge connections 110. The perforated strips 108 periodically have opposite holes 124. One connecting arm 109 is connected with its first end 112 to the back of the solar panel 102 by a hinge 111 and has a receptacle 113 for a fastening pin 115 at its second end 114. For fixing the position of the connecting arm 109 the fastening pin 115 is put through the holes 124 of the perforated strips 108 and the recepta 10 cle 113 of the connecting arm 109. By changing the fastening pin 115 the inclination of the solar panel 102 and thus, the different operating positions BP can be adjusted. Moreover, in fig. 6 also a chamber 116 is illustrated into which material to act as a weight can be filled. This increases the structural stability of the mobile generator device 100. 15 In fig. 7 there are shown six different operating positions BP of the solar panel 102 as well as the transport position TP. Thus, depending on insolation the solar panel 102 can be continu ously adjusted in its inclination. 20 Fig. 8 shows generator devices 100 stacked on top of each other. Each housing shell 103 has corresponding structures 120 at the peripheral area 104 and the bottom which interact such that several generator devices 100 can be safely stacked. In the stacked state the struc tures 120 are located at the peripheral area 104 of the lower generator device 100 seen in the direction of the solar panel 102 behind the structures 120 at the bottom of the upper generator 25 device 100. Thus, lateral slipping of the upper generator device 100 is not possible. Moreo ver, in fig. 8 there are also shown two channel-like transport receptacles 119 at each generator device 100. Said transport receptacles 119 serve to transport the generator device 100 with an industrial truck. In order to ensure transportability no structures 120 for stacking are provided at the peripheral area 104 above the transport receptacles 119. 30 In fig. 9, enlarged views of various details of the mobile generator device 100 are illustrated. Here, fig. 9a and 9b show a filling and discharging facility 125 by means of which liquid or another material, such as for example sand, can be filled into or discharged from the multi- 10 wall housing shell 103. For that, the filling and discharging facility 125 has two valves 117, 118 with a valve 117 pointing upwards (cf. fig. 9a) and a valve 118 pointing downwards (cf. fig. 9b) so that filling and discharging can be done by gravity. The valves 117, 118 can have a suitable locking means 126 for closing, for example a threaded locking means or a plug lock 5 ing means. In order to ensure ventilation of the housing shell upon filling and discharging the filling and discharging facility has a further opening 127 which like valve 117 points up wards. As a result of the multi-wall construction of the housing shell 103 this can also float. Fig. 9c shows an enlarged illustration of the handles 122 distributed at the outer periphery of 10 the housing shell 103. As can be clearly seen, the handles 122 are formed bridge-like over a vertical recess 129 of the housing shell 103. Thus, there is sufficient space to thread in for example a round sling or to attach a hook or karabiner for transportation of the generator de vice 100 at the handles 122. 15 In fig. 9d, there is shown an enlarged illustration of the grommets 121 distributed at the outer periphery 128 of the housing shells 103. The grommet 121 is disposed on a lug 130 that in turn extends from a vertical recess 131 of the housing shell 103. Thus, the lug 130 is parallel to the bottom of the housing shell 103. The recess 131 provides for sufficient space for at taching transportation means, theft protections, or pegs at the grommet 121, for example. 20 11 List of Reference Numbers 1 generator device 2a, 2b solar panel 5 3a, 3b housing shell 4a, 4b peripheral area 5 hinge connection 6 lug 7 lug 10 8 rail 9 connecting arm 10 panel hinge connection 11 first hinge 12 first end of the connecting arm 15 13 second hinge 14 second end of the connecting arm 15 slide 16 webs 17 outer periphery 20 18 adjusting mechanism 19 transport receptacle 20 blocks 21 connecting board 22 handle 25 23 frame 24 fastening means 102 solar panel 30 103 housing shell 104 peripheral area 108 perforated strip 109 connecting arm 12 110 panel hinge connection 111 first hinge 112 first end of the connecting arm 113 receptacle 5 114 second end of the connecting arm 115 fastening pin 116 chamber 117 opening/valve 118 opening/valve 10 119 transport receptacle 120 structure 121 grommet 122 handle 123 adjusting mechanism 15 124 holes 125 filling and discharging facility 126 locking means 127 ventilation opening 128 outer periphery 20 129 recess 130 lug 131 recess TP transport position 25 BP operating position
    权利要求:
    Claims (18)
    [1] 1. A mobile generator device (1, 100) having at least one alignable solar panel (2a, 2b, 102), wherein the solar panel (2a, 2b, 102) can be moved in a transport position (TP) and at 5 least one operating position (BP), characterized in that the generator device (1, 100) has a housing shell (3a, 103) with a peripheral area (4, 104), wherein the solar panel (2a, 102) is hinged to the housing shell (3a, 103) so that the solar pan el (2a, 102) is in the transport position (TP) within the housing shell (3a, 103) and does not 10 project over the peripheral area (4, 104).
    [2] 2. The mobile generator device (1, 100) according to claim 1, characterized in that the generator device (1) has a further housing shell (3b) with a peripheral area (4b), wherein 15 the further housing shell (3b) is connected to the other housing shell (3a) by a housing hinge connection (5) so that the peripheral area (4b) of the further housing shell (3b) can be con tacted with the peripheral area (4a) of the other housing shell (3a).
    [3] 3. The mobile generator device (1) according to claim 2, 20 characterized in that the further housing shell (3b) has at least one alignable solar panel (2b), wherein the solar panel (2b) is hinged to the further housing shell (3b) so that the solar panel (2b) is in the transport position (TP) within the further housing shell (3b) and does not project over the pe ripheral area (4b). 25
    [4] 4. The mobile generator device (1) according to claim 2 or 3, characterized in that the housing hinge connection (5) is detachable. 30
    [5] 5. The mobile generator device (1) according to any one of the preceding claims, characterized in that each solar panel (2a, 2b) has a transport locking device (6, 7) so that the solar panel (2a, 2b) can be fixed in its transport position (TP) within the housing shell (3a, 3b). 14
    [6] 6. The mobile generator device (1) according to any one of the preceding claims, characterized in that the generator device (1) for each solar panel (2a, 2b) has at least one rail (8) disposed within 5 the housing shell (3a, 3b) and a connecting arm (9) assigned to the rail (8), wherein the solar panel (2a, 2b) is connected to one end of the rail (8) by a panel hinge connection (10) and the rail (8) extends vertically to the rotational axis of the panel hinge connection (10), and the connecting arm (9) at its first end (12) is connected to the solar panel (2a, 2b) by a first hinge (11) and at its second end (14) is connected to a slide (15) by a second hinge (13), 10 wherein the slide (15) can be moved along the rail (8) so that the solar panel (2a, 2b) can be continuously aligned towards different operating position (BP).
    [7] 7. The mobile generator device (1) according to claim 6, characterized in that 15 the slide (15) can be fixed in its position along the rail (8).
    [8] 8. The mobile generator device (1) according to claim 6 or 7, characterized in that the rail (8) is detachably connected to the housing shell (3a, 3b). 20
    [9] 9. The mobile generator device (100) according to any one of claims 1 to 5, characterized in that each solar panel (102) is connected to the housing shell (103) by at least one panel hinge con nection (110) and the housing shell (103) has at least one perforated strip (108), wherein the 25 perforated strip (108) extends vertically to the rotational axis of the panel hinge connec tion (110), and the solar panel (102) has a connecting arm (109), wherein the connecting arm (109) at its first end (112) is connected to the solar panel (102) by a first hinge (111), and the connecting arm (109) at its second end (114) has a receptacle (113) for a fastening pin (115), wherein the connecting arm (109) can be fixed at different positions along the per 30 forated strip (108) via the fastening pin (115) so that the solar panel (102) can be aligned in different operating positions (BP).
    [10] 10. The mobile generator device (100) according to claim 9, 15 characterized in that the solar panel (102) is detachably connected to the housing shell (103).
    [11] 11. The mobile generator device (1, 100) according to any one of the preceding claims, 5 characterized in that the housing shell (3a, 3b, 103) is made of a weatherproofed material, in particular of polyeth ylene.
    [12] 12. The mobile generator device (100) according to any one of the preceding claims, 10 characterized in that the housing shell (103) has at least one chamber (116), wherein the chamber (116) can be filled with material to act as a weight.
    [13] 13. The mobile generator device (100) according to any one of the preceding claims, 15 characterized in that the housing shell (103) has a multi-wall construction, wherein the housing shell (103) has at least one opening (117, 118) for filling and discharging the housing shell (103).
    [14] 14. The mobile generator device (1, 100) according to any one of the preceding claims, 20 characterized in that at least one housing shell (3a, 3b, 103) has transport receptacles (19, 119), in particular for transportation with an industrial truck.
    [15] 15. The mobile generator device (100) according to any one of the preceding claims, 25 characterized in that the housing shell (103) at the outside has structures (120) for safe stacking several housing shells (103) on top of each other.
    [16] 16. The mobile generator device (100) according to any one of the preceding claims, 30 characterized in that the housing shell (103) has at least one grommet (121) for fixation and/or for protection against theft. 16
    [17] 17. The mobile generator device (1, 100) according to any one of the preceding claims, characterized in that the housing shell (3a, 103) has several handles (22, 122). 5
    [18] 18. A cooling system having a mobile generator device (1, 100) according to any one of the preceding claims 1 to 17, and a control, and a cooling device, in particular a freezer, having at least one cooling circuit, wherein the cooling circuit has a compressor, an evaporator, and a condenser, 10 characterized in that the power supply of the cooling system is provided by the mobile generator device (1, 100) and the control regulates the cooling system in dependence of the power supply.
    类似技术:
    公开号 | 公开日 | 专利标题
    AU2012359088B2|2015-02-05|Mobile generator device and cooling system
    EP3186490B1|2018-10-03|Gas turbine engine package and corresponding method
    US10236820B2|2019-03-19|Modular photovoltaic light and power cube
    US9296554B2|2016-03-29|Expeditionary modules, systems and processes having reconfigurable mission capabilities packages
    AU2014369622B2|2018-07-19|Floating support device for a photovoltaic panel
    US20080264467A1|2008-10-30|Transportable System for Producing Solar Electricity
    US20100206354A1|2010-08-19|Portable Power System
    US9242764B2|2016-01-26|Transportation box for technical equipment
    CA2921804A1|2015-03-19|Modular deployable shelter for camps
    US20150204213A1|2015-07-23|Rotor pivoting system
    RU2017130329A|2019-02-28|WIND POWER PLANT
    US11239792B2|2022-02-01|Deployable solar tracker system
    WO2016170455A1|2016-10-27|Foldable device containing several solar panels
    US10365062B2|2019-07-30|Modular protective system | expedient guard tower and fighting position
    CN108766267A|2018-11-06|A kind of LED Mosaic screens unit box
    KR101784914B1|2017-10-12|Scaffold
    US10381975B1|2019-08-13|Multiple configurable solar photovoltaic assembly
    US7753319B1|2010-07-13|Adjustable cable hanger for securing cables externally
    KR20170000647U|2017-02-21|Folding/unfolding platform for hangar
    US20080265787A1|2008-10-30|Lighting systems for foldable enclosures and methods of use
    US10978992B2|2021-04-13|Multiple configurable solar photovoltaic assembly
    CN205334798U|2016-06-22|Promote portable teaching aid of modern apprentice's system education
    US20180051592A1|2018-02-22|Rotor pivoting system
    WO2020070352A1|2020-04-09|Electricity supply device for the transport of containers such as refrigerator containers
    BR102018073161A2|2019-02-05|vertical structure, with electric power autonomy from modular photovoltaic panels, with hinged base
    同族专利:
    公开号 | 公开日
    US20210351735A1|2021-11-11|
    WO2013091906A2|2013-06-27|
    AU2012359088B2|2015-02-05|
    CN104145166A|2014-11-12|
    HK1200523A1|2015-08-07|
    WO2013091906A3|2014-06-05|
    DK2795201T3|2018-06-14|
    KR101648853B1|2016-08-17|
    US20150059381A1|2015-03-05|
    WO2013091906A4|2014-07-31|
    EP2795201B1|2018-04-04|
    CN104145166B|2017-03-01|
    KR20150031218A|2015-03-23|
    EP2795201A2|2014-10-29|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4378006A|1979-08-13|1983-03-29|Atlantic Richfield Company|Solar panel foundation device|
    US4421943A|1982-02-19|1983-12-20|Cities Service Company|Collapsible mobile solar energy power source|
    FR2694744B1|1989-06-16|1996-03-29|Xancho Rene|HANDLING PALLET, MICRO STORAGE, TRANSPORT UNDER AUTONOMOUS DIRECT TEMPERATURE.|
    DE10050480A1|2000-10-12|2002-04-18|Manfred Griener|Electrically driven cool-box has solar cells arranged on lid of cool-box on carrier, for instance on plate that can be pivoted upwards|
    CN2492807Y|2001-06-18|2002-05-22|海尔集团公司|Solar refrigerator with adjustable-angle cell plate|
    US6737573B2|2002-01-04|2004-05-18|Chenming Mold Ind. Corp.|Backup power supply apparatus|
    DE202004010896U1|2004-01-28|2004-09-09|Chan, King Kwong|Multifunctional portable solar energy power pack has the solar cells mounted within a carrying case|
    JP4550527B2|2004-08-31|2010-09-22|積水樹脂株式会社|Foldable solar cell device and emergency power supply system|
    US20120279557A1|2004-10-29|2012-11-08|Spg Solar, Inc.|Floating support structure for a solar panel array|
    DE102005033545B8|2005-07-14|2011-04-07|Allgäu Consult e.K.|Equipment carrier with associated weighting material used to attach structural equipment|
    US8273978B2|2005-09-28|2012-09-25|Thompson Technology Industries, Inc.|Solar panel array sun tracking system|
    CN2879045Y|2006-04-10|2007-03-14|王明祥|Solar energy storing and circularly using device|
    US20090058352A1|2007-08-27|2009-03-05|Yu Chuan Technology Enterprise Co., Ltd.|Cold storage device capable of collecting solar power|
    CN101591953B|2008-05-29|2013-05-29|北京环能海臣科技有限公司|Curtain wall with functions of heat preservation, heat supply and photovoltaic power generation|
    US20110220176A1|2008-11-20|2011-09-15|Powerflower Solar Llc|Portable, durable, integrated solar power generation device|
    WO2010096785A1|2009-02-20|2010-08-26|Elie Rothschild|Modular solar racking system|
    DE102009022746A1|2009-05-26|2011-05-19|Kieselbach Solar Gmbh|Fastening device for solar systems|
    US20120025750A1|2010-07-27|2012-02-02|Margo Philip F|Portable Solar Power System|
    DE202010015848U1|2010-11-26|2011-02-17|Isfort, Frank|Device for arranging at least one solar module on a substrate|ES2472340B1|2012-12-28|2015-05-14|Sener, Ingeniería Y Sistemas, S.A.|Useful for mounting reflective facets and their mounting system|
    US10254011B2|2013-04-02|2019-04-09|Energy Related Devices, Inc.|Photovoltaic module mounting to rubber tires|
    CN103383175A|2013-07-04|2013-11-06|浙江月宫冷链设备有限公司|Energy saving and environmental protection air-conditioned cold store|
    WO2015116911A1|2014-01-30|2015-08-06|Sunedison Llc|Solar module with integrated collapsible rack assembly|
    FR3020648A1|2014-05-05|2015-11-06|Degorce Sixte Nouaille|TRANSPORTABLE ELECTROGENIC MODULE, ADAPTABLE ABOVE CONTAINERS, PREFABRICATED HOUSING OR OTHER RELATIVELY PLAN CARRIER|
    KR101642218B1|2015-02-10|2016-07-29|주식회사 세기종합환경|Unit structure for supporting a solar cell and assembly including the same|
    CN105099356B|2015-06-24|2017-03-08|广东泰晶新能源有限公司|A kind of folding PCB solar panels|
    WO2017027485A2|2015-08-07|2017-02-16|Beamreach Solar, Inc.|Photovoltaic module mounting and installation system|
    CN106803734B|2015-11-25|2018-12-11|中电电气太阳能科技有限公司|Photovoltaic and photothermal integral power generator day by day|
    DE102016204704A1|2016-03-22|2017-09-28|Stefan Schwaderlapp|Floatable carrier system for solar cells|
    CN107265619A|2016-04-06|2017-10-20|世奇综合环境株式会社|Utilize the quality purifying device for water of solar power generation|
    US10812012B2|2018-03-01|2020-10-20|Tesla, Inc.|Hinging inverted seam module mounting system|
    CN109687818A|2018-12-27|2019-04-26|重庆聚光光伏发电有限公司|A kind of Solar lamp solar panel convenient for adjusting|
    WO2020180906A1|2019-03-06|2020-09-10|Litespeed Energy, Inc.|Solutions for photovoltaic modules with integrated mounting systems|
    法律状态:
    2015-06-04| FGA| Letters patent sealed or granted (standard patent)|
    2018-11-15| MK14| Patent ceased section 143(a) (annual fees not paid) or expired|
    优先权:
    申请号 | 申请日 | 专利标题
    DE102011121553||2011-12-20||
    DE102011121553.4||2011-12-20||
    PCT/EP2012/057105|WO2013091906A2|2011-12-20|2012-04-19|Mobile generator device and cooling system|
    [返回顶部]