阅读说明：本技术 运输托盘、具有至少一个该托盘的运输集装箱和运输车辆 (Transport pallet, transport container and transport vehicle with at least such pallets ) 是由 阿维杜·米兰·马洛瓦克 弗里茨·斯米加 于 2019-03-26 设计创作，主要内容包括：在运输托盘(1)中,其配有上侧部(10)、下侧部(11)以及配置在上侧部(10)和下侧部(11)之间的和/或邻近上侧部(10)和下侧部(11)的至少四个侧部或侧面(12,13,14,15),所述运输托盘(1)可配备或配备有至少一个可再充电储能器(2),其中所述至少一个可再充电储能器(2)被构造成为运输车辆(8)的至少一个电气或电子部件(9)提供能量,其中,所述运输托盘(1)包括至少一个能量传输装置(4),其用于从所述至少一个可再充电储能器(2)到所述运输车辆(8)的所述至少一个电气或电子部件(9)和/或从至少一个电源(6,7)到所述可再充电储能器(2)进行能量传输。(In a transport tray (1) provided with an upper side (10), a lower side (11) and at least four sides or flanks (12, 13, 14, 15) arranged between the upper side (10) and the lower side (11) and/or adjacent to the upper side (10) and the lower side (11), the transport tray (1) may be provided with or provided with at least rechargeable energy storages (2), wherein the at least rechargeable energy storages (2) are configured to provide energy for at least electrical or electronic components (9) of a transport vehicle (8), wherein the transport tray (1) comprises at least energy transmission means (4) for energy transmission from the at least rechargeable energy storages (2) to the at least electrical or electronic components (9) of the transport vehicle (8) and/or from at least power sources (6, 7) to the rechargeable energy storages (2).)

1. A transport tray (1) provided with an upper side (10), a lower side (11) and at least four sides (12, 13, 14, 15) or flanks arranged between the upper side (10) and the lower side (11) and/or adjacent to the upper side (10) and the lower side (11),

it is characterized in that the preparation method is characterized in that,

the transport tray (1) may be equipped or equipped with at least rechargeable energy storages (2), wherein the at least rechargeable energy storages (2) are configured to provide energy for at least electrical or electronic components (9) of a transport vehicle (8), wherein the transport tray (1) comprises at least energy transmission devices (4) for energy transmission from the at least rechargeable energy storages (2) to the at least electrical or electronic components (9) of the transport vehicle (8) and/or from at least power sources (6, 7) to the rechargeable energy storages (2).

2. Transport tray (1) according to claim 1,

it is characterized in that the preparation method is characterized in that,

the at least energy transmission devices (4) are designed for wired energy transmission, in particular for comprising at least sockets (40, 41), the at least sockets (40, 41) being used for energy transmission via a cable (5) that can be plugged into the at least sockets (40, 41).

3. Transport tray (1) according to claim 1 or 2,

it is characterized in that the preparation method is characterized in that,

the at least energy transmission devices (4) are designed for wireless energy transmission, in particular for inductive energy transmission.

4. transportation tray (1) according to the preceding claim,

it is characterized in that the preparation method is characterized in that,

at least charging electronic units (3) are arranged inside (19) the transport tray (1).

5. transportation tray (1) according to the preceding claim,

it is characterized in that the preparation method is characterized in that,

the transport tray (1) has at least receptacles, in particular at least internal cavities (19), in which the at least rechargeable energy storages (2) are or can be accommodated.

6. transportation tray (1) according to the preceding claim,

it is characterized in that the preparation method is characterized in that,

the transport tray (1) consists of at least synthetic materials, in particular at least at least partially reinforced synthetic materials.

7. transportation tray (1) according to the preceding claim,

it is characterized in that

At least readable data carriers (20), in particular at least RFID transponders (20), can be arranged or arranged in the transport tray (1) and/or on the transport tray (1) for storing data of the at least rechargeable energy storages (2) and/or data enabling the at least rechargeable energy storages (2) and/or the transport tray (1) to be located and identified.

8. transportation tray (1) according to the preceding claim,

it is characterized in that the preparation method is characterized in that,

the transport pallet (1) has at least means (110, 111, 112, 113) for connecting the transport pallet (1) to or more wall sections (101, 102, 103, 104) and/or -shaped parts (106, 107), in particular closed and/or provided with open and/or fence-shaped wall sections (110, 111, 112, 113) and/or -shaped parts (106).

9. Transport tray (1) according to claim 8,

it is characterized in that the preparation method is characterized in that,

at least four wall sections (110, 111, 112, 113) and/or -shaped parts (106, 107) are connected to the transport tray (1) to construct a box or a transport container (100), in particular a reefer container.

10. A transport container (100) for transporting goods to be transported, comprising a base and a plurality of wall sections (110, 111, 112, 113),

it is characterized in that the preparation method is characterized in that,

providing at least transport trays (1) according to of the preceding claims as a base and the at least transport trays (1) being connectable or connected with the plurality of wall parts (110, 111, 112, 113) and/or shaped parts (106, 107).

11. A transport container (100) according to claim 10,

it is characterized in that the preparation method is characterized in that,

the transport container (100) is designed as a fully closed container, in particular as a refrigerated container, with the at least transport trays (1), side wall sections (110, 111, 112, 113) and/or -shaped parts (106, 107) as base and at least cover sections (105).

12. Transport vehicle (8) provided with at least electric or electronic components, such as at least electric drives (9), and with at least transport faces (81) for arranging at least transport trays (1) according to of the preceding claim, wherein,

the transport vehicle (8) may be configured or equipped with at least connecting or joining means (80) for transferring energy from the at least rechargeable energy storages (2) of the transport pallet (1) to at least electrical or electronic components (9) of the transport vehicle.

13. Transport vehicle (8) according to claim 12,

it is characterized in that the preparation method is characterized in that,

the transport tray (1) is designed as a box or transport container (100), in particular as a refrigerated container.

14. Transport vehicle (8) according to claim 13,

it is characterized in that the preparation method is characterized in that,

the at least rechargeable energy storages (2) of the transport pallet (1) are used for powering a cooling device for cooling an interior space of the transport vehicle (8) or for powering an air conditioning device (82) of the transport vehicle (8).

Technical Field

The invention relates to transport pallets, provided with an upper side, a lower side and at least four sides or flanks arranged between and/or adjacent to the upper and lower sides, and a transport vehicle provided with at least electric or electronic components, such as at least electric drives, transport containers for transporting goods to be transported, comprising a base and a plurality of walls, and with at least transport faces for arranging at least transport pallets.

Background

In order to transport such transport pallets, it is known to use transport vehicles, such as trucks, which are equipped with at least transport surfaces on which the transport pallets are placed, it is now known to provide such transport vehicles no longer with only conventional internal combustion engine drives, but also with hybrid drives, such as internal combustion engines and electric drives, and with only electric drives, however, it is precisely in transport vehicles which are driven only by electric drives that the problem of driving range (Reichweitenproblem) arises, since the range of such transport vehicles, which are driven in particular only by electric drives, is very limited, since it is dependent on the terrain of the region and the transported goods to be transported and their corresponding loads, it is proposed according to DE 102011056921 a1 to use free space below the loading area of the truck for arranging supply trailers and/or supply energy to the trailer for storage and to provide a very high range of the transport vehicle, and to provide a trailer assembly for the transport of such a tractor vehicle which, however, due to the fact that the weight of the tractor vehicle is very high range of the tractor vehicle, which is also increased.

Disclosure of Invention

It is therefore an object of the present invention to provide at least transport pallets, with an upper side, a lower side and at least four sides or flanks arranged between and/or adjacent to the upper and lower sides, and a transport vehicle, with at least electric drives and at least transport faces for placing at least such transport pallets, by means of which the above-mentioned problems can be overcome and, if necessary, larger loads can be easily transported.

This problem is solved for a transport pallet according to the preamble of claim 1 by the transport pallet being equipped or equipped with at least rechargeable energy storages, of which at least rechargeable energy storages are configured to supply at least 0 electrical or electronic components of the transport vehicle with energy, wherein the transport pallet comprises at least 1 energy transfer means for energy transfer from at least rechargeable energy storages to at least electrical or electronic components of the transport vehicle and/or from at least power sources to the rechargeable energy storages, for a transport container according to the preamble of claim 10 the problem is solved by providing at least such transport pallets as a base and being connectable or connected with a plurality of wall parts and/or shaped components, for a transport vehicle according to the preamble of claim 12 the problem is solved by the transport vehicle being equipped or equipped with at least connecting or coupling means for transferring energy from at least rechargeable energy storages of the transport pallet to at least of said transport vehicle or other electronic components of the invention is defined in the subclaims of the present invention.

The transport pallet is thus realized in that the rechargeable energy storage of the transport pallet can supply energy to the electric drive of the transport vehicle, by means of which the driving range of the transport vehicle comprising at least electric drives can be significantly increased, whereby the transport pallet is arranged on the transport face of said transport vehicle and the rechargeable energy storage of the transport pallet is connected to the electric drive of the transport vehicle by at least energy transfer means for energy transfer, however, the rechargeable energy storage of the transport pallet can be used not only for supplying energy to the electric drive of the transport vehicle for expanding the driving range of the transport vehicle, but also for supplying energy to other electric or electronic components of the transport vehicle, such as air conditioners or refrigeration means for operating the transport vehicle, which are used for air conditioning of the interior space of the transport vehicle, for example, the transport tray is realized in that by appropriately selecting the number of transport pallets which are at least rechargeable energy storage means, it is possible to obtain electric or electronic components for the transport vehicle, in particular at least energy, after the transport pallet is loaded with the rechargeable energy storage tray, it is discharged, so that the transport vehicle can be unloaded from the transport pallet, and the transport vehicle can be loaded with the transport pallet, so that it can be loaded with at least 3578, the transport vehicle can be unloaded, if it is loaded with the transport pallet is loaded with the transport vehicle, the transport vehicle is loaded with the transport tray is loaded with the transport vehicle, the transport tray can be discharged.

In particular for small transport vehicles with only a small transport surface, on which for example only transport pallets or transport pallets stacked on top of each other occur, the driving range can be greatly increased when using transport pallets provided with at least rechargeable energy storages, due to the relatively low weight of the transport vehicle.

The at least rechargeable energy storages can also advantageously be integrated into the transport tray, in particular accommodated inside the transport tray, between its upper side, lower side and at least four sides or sides, to this end the transport tray can have at least accommodation parts in which at least rechargeable energy storages can be accommodated or accommodated, for example the transport tray is constructed at least two partly modular and comprises at least lower sides and at least upper sides, wherein at least rechargeable energy storages are arranged inside the upper sides and/or upper sides, whereby the upper sides and/or lower sides can be constructed at least partly as hollow bodies.

In particular, the charging electronics unit for at least rechargeable energy storages may be arranged at least in or on or inside the transport tray.

Further advantageously the transport tray may consist of at least synthetic materials, for example the transport tray may consist of at least at least partially reinforced synthetic materials, in particular the area of the transport tray, which is particularly statically and/or dynamically loaded, may consist of at least reinforced synthetic materials, for example fibre reinforced synthetic materials, while the remaining area of the transport tray may consist of at least unreinforced synthetic materials, in principle it is also possible that the transport tray is at least partially made of at least other materials than synthetic materials, which may advantageously be manufactured by an injection moulding process if the transport tray is made of at least synthetic materials.

The at least 0 energy transmission means for transmitting energy from the at least rechargeable energy storages and to the at least rechargeable energy storages may be configured, for example, for wired energy transmission, in particular in the form of sockets for energy transmission by cables insertable therein or plugged therein, in addition, the at least energy transmission means may also be configured for wireless energy transmission, for example for inductive energy transmission, by configuring the energy transmission means, in particular on the outside of the transport tray, for wireless energy transmission during transport using the transport tray, for example by means of a forklift, there is no risk of the components of the energy transmission means being soiled or even damaged, in particular when the wired energy transmission is formed by at least energy transmission means, it may be configured, particularly advantageously, in the form of sockets which may be arranged, in particular, on the sides or sides of the transport tray , in this way, also undesired damage to the energy transmission means may be avoided, since such sockets may be configured in such a way (hinekragged) into the interior of the transport tray, thus, in a situation where the transport tray is connected, at least on the energy transmission means, or on the transport tray, or on the transport tray, the cable may be connected to at least 3623, or to the transport tray, or to a transport tray, in a wireless energy transmission device, or to a transport tray, which, or a wireless energy transmission device may be connected to a charging station, which, may be connected to the transport tray, or a charging station, which may be connected to a rechargeable energy transmission device, which may be connected to a rechargeable transport tray, in which, may be connected to a charging station, or a charging station, may be connected to a rechargeable transport tray, may be connected to a charging station, in which may be connected to a wireless energy transmission device, may be connected to a charging station, may be connected.

has proven advantageous if at least readable data carriers, for example at least RFID transponders, at least SIM cards, which are also suitable for machine-to-machine communication (M2M), are arranged in and/or on the transport pallet, which may be permanently mounted or mountable data cards, which allow trouble-free and smooth communication of large amounts of data, or at least another data carriers, for storing the data of at least rechargeable energy storages of the transport pallet and/or data which enable at least rechargeable energy storages and/or transport pallets to be located and identified, by means of such readable data carriers, all data, in particular current data, of at least rechargeable energy storages of the transport pallet can be stored safely and at any time readable thereon.

Since the respective transport pallet can be discharged or recharged whenever it is not transported on the transport vehicle, or at least rechargeable energy storages arranged therein, the respective required charging time or discharging time is in principle insignificant, since a sufficient number of transport pallets with charged rechargeable energy storages can always be maintained in order to load the goods.

In order to be able to transport various goods to be transported on the transport pallet, the transport pallet can be used not only as a pallet, but also together with wall sections or -shaped parts , thus forming a box or container, the transport pallet advantageously has at least means for connection to or more wall sections and/or -shaped parts, in particular closed and/or provided with open and/or fence-like wall sections and/or -shaped parts can be connected to the transport pallet by at least means for connection, such means for connection can be, for example, recesses and/or shoulders on or on the transport pallet, in particular on its upper side, which can be interlocked with a correspondingly inversely identically configured shaping on the wall sections or on the -shaped parts and can be fixed thereto, the individual wall sections or -shaped parts can be connected to one another and/or to the transport pallet, in particular also hingedly or foldably, by corresponding connecting means, thus a fence structure can be formed, and a closed container with or without a box-like -shaped wall section can be connected to the transport pallet by means, at least as a closed container wall section, which can be provided as a closed container cover section, or as a container, which is at least , or as a container cover section, which is provided with at least four container-shaped cover section, which is provided with no box-shaped sections, or a container-shaped cover section, which is provided as a container-shaped.

In order to ensure that the refrigerated container has an adequate energy supply, for example, additional transport trays may be carried with it for support, so that additional energy is provided by at least rechargeable energy storages thereof.

In order to prevent relative movements of transport pallets stacked on top of each other, it is also possible to prevent relative movements of transport containers, transport boxes, transport pallets stacked on top of each other, by means of means, such as projections, recesses, locking means, in particular on the upper and/or lower sides and/or walls and/or -shaped parts and/or cover parts, in particular on the transport pallets.

By forming at least shipping trays made of at least composite materials, at least rechargeable energy storage units disposed therein can be protected from the weather, by providing a seal between at least upper portions and at least lower portions of the shipping trays, the interior can be sealed against moisture ingress.

In order to be able to easily replace rechargeable energy storage devices that may be aged and that are no longer optimally functioning or that are no longer optimally charged later, it is preferred that they are no longer cast into the material of the transport tray, but rather are arranged in particular in the receptacles provided therein, and at least charging electronic units of at least rechargeable energy storage devices.

The configuration of a transport pallet having the dimensions and basic shape of a standard pallet (so-called euro pallet) advantageously makes conventional machines, tools, loading areas, loading belts, etc. adapted to the dimensions of such a standard pallet (e.g. euro pallet), so that the transport pallet can be easily used with all existing systems, machines, tools, vehicles, etc. . also conventional freight safety devices, such as tension belts and strapping bands, suitably designed and dimensioned for absorbing the loads occurring, can be used.

The modular design of the transport pallet allows flexible response to the logistics requirements of the transport goods to be transported and each matching design of the transport pallet or stack of transport pallets, depending on, for example, whether the weight of the load or the volume of the load is concerned or not, furthermore, due to the modular design of the transport pallet, it is very flexible to react to the requirements of the continuous driving of the vehicle, which may be loaded with correspondingly sized transport pallets or with a suitable number of transport pallets, which may be used as a standard for the easy replacement of the transport pallets, particularly the modular design of the transport pallet, which may be used as a standard for the easy replacement of the transport pallets, which may be used in the field of the modular electrical discharge of the transport pallets, which may be used in the field of the production of electrical storage containers, which may be used as a standard for the replacement of the transport pallets, which may be used in the field of electrical storage containers, which may be used as a special replacement of the transport pallets, which may be used as a replacement of the individual storage containers, and which may be used as a replacement of the transport pallets, may be used in the modular electrical storage containers, which may be used in the case of the modular transport pallets, may be used in the modular transport pallets, may be used as a modular electrical storage containers, may be used in the field of the modular design of the modular transport pallets, which may be used as a special replacement of transport pallets, may be used as a modular transport pallet, may be used in the modular design of transport pallet, may be used in the modular transport containers, may be used as a special, may be used in the modular design of a modular transport pallet or as a special, may be used in the modular design of a modular transport pallet or of a modular transport pallet, may be used in the modular transport pallet or as a modular transport pallet, may be used in the modular design of a special, may be used in the modular transport case of a special, may be used in the modular design of a special, may be used in the modular transport pallet or of a special, may be used in the field of a special, may be used in the modular transport pallet, may be used in the field of a special, may be used in the field of a.

The invention relates to a transport pallet, in particular a transport pallet, comprising at least energy stores, charging technical equipment or at least charging electronic units, components of safety technical equipment and electrical connections, for example plug connectors, which are accommodated in a housing of the transport pallet, the housing of the transport pallet also having sufficient stability to meet the high requirements of such housings, which are sometimes directed to transport pallets with different or modular availability.

Drawings

In order to explain the present invention in more detail, embodiments thereof will be described in more detail below with reference to the accompanying drawings. This is shown in the following figures:

figure 1 shows a perspective top view of an th embodiment of a shipping tray according to the invention,

figure 2 shows an exploded perspective view of the transport tray according to figure 1,

figure 3 shows a longitudinal section through the transport tray according to figure 1,

figure 4 shows a bottom view of the transport tray according to figure 1,

figure 5 shows a perspective view of a stack of trays with four transport trays according to figure 1,

figure 6 shows a perspective view of a stack of trays with three differently sized transport trays stacked on top of each other according to the invention,

fig. 7 shows a perspective view of a fence box according to the invention, with four fence-like wall parts and a transport tray according to fig. 1 as a base,

figure 7a shows an exploded view of the fence box according to figure 7,

fig. 8 shows a perspective view of a transport box according to the invention, with four transport trays according to fig. 1 provided with slot-shaped open wall sections and as base sections,

figure 8a shows an exploded perspective view of the transport box according to figure 8,

fig. 9 shows a perspective view of a transport container according to the invention, with four wall parts, cover parts and a transport tray according to fig. 1 as a base part,

figure 9a shows an exploded perspective view of the transport container according to figure 9,

fig. 10 shows a perspective view of a transport container according to the invention, with three wall parts, two -shaped parts, cover parts and a transport tray according to fig. 1 as a base part,

fig. 10a shows a perspective view of the transport container according to fig. 10, with an -shaped part provided with openings,

fig. 11 shows a side view of an th embodiment of a transport vehicle according to the invention as a schematic illustration, on which a transport container according to the invention with a transport tray according to the invention is accommodated,

fig. 12 shows a side view of the transport vehicle according to fig. 11 as a schematic illustration, with a stack of nine transport trays stacked on top of one another according to the invention,

fig. 13 shows a side view of another embodiment of a transport vehicle as a schematic illustration, with a transport face having a stack formed by a transport tray according to the invention applied thereto,

fig. 14 shows a side view of the transport vehicle according to fig. 13 as a schematic illustration, with further transport containers according to the invention placed on its transport face in addition to the stack of transport trays,

fig. 15 shows a side view of the transport vehicle according to fig. 13 as a schematic illustration, with a transport container according to the invention arranged in two levels on its transport face,

fig. 16 shows a side view of another embodiment of a transport vehicle with a tractor and a trailer as a schematic illustration, wherein on its transport face, in addition to the stacks formed by the transport pallets according to the invention, further transport containers are provided,

fig. 17 shows a perspective view of a pallet stack with stacked transport pallets according to the invention, each with at least wireless energy transmission devices, placed on a charging station for wireless charging of the energy stores of the transport pallets,

fig. 18 shows an exploded perspective view of a transport tray with an energy transmission device in the form of two sockets, of which are connected by cables to a charging station,

figure 18a shows a perspective side view of the device according to figure 18,

figure 18b shows a further perspective view of the device according to figure 18,

fig. 19 shows a perspective view of a pallet stack with four transport pallets according to fig. 18 stacked on top of one another, wherein the transport pallets stacked on top of one another are connected to one another in the respective socket regions by means of cables,

fig. 19a shows a detail of the transport tray arranged uppermost and therebelow of the stack according to fig. 19 within the confines of the sockets and the cables inserted therein.

List of reference numerals

1-transport trays

2-rechargeable energy storage device

3-charging electronic unit

4-energy transmission device

5-cable

6-Power supply/charging station

7-Wireless charging station

8-transport vehicle

9-electric drive

10-upper side part

11-lower side part

12-side/flank

13-side/flank

14-side plate/side face

15-side plate/side face

16-lower part of the housing

17-cover part

18-load-bearing part

19-16 internal cavity

20-RFID transponder/readable data carrier

40-socket

41-socket

50-plug

80-connecting device

81-transport surface

82-air conditioning device

100-transport container

101-wall part

102-wall part

103-wall part

104-wall part

105-cover part

106- shaped member

107- shaped component

110-groove

111-groove

112-groove

113-groove

160-longitudinal Ribs

161-longitudinal Rib

162-longitudinal rib

163-transverse groove

164-transverse groove

165-transverse groove

166-transverse groove

167-transverse groove

168-transverse groove

180-carrier bar

181-load beam

182-load beam

Detailed Description

Fig. 1 to 4 show an th embodiment of a transport tray 1, comprising an upper side 10, a lower side 11 and four sides 12, 13, 14, 15 arranged between or adjacent to them, it can be seen in particular from the exploded view in fig. 2 that the transport tray 1 is of multipart or modular construction and has a housing lower part 16 with a cavity, a cover part 17 fitted on it and closing it to the outside, and a carrier part 18 insertable into the housing lower part 16, carrying the rechargeable energy reservoir 2 and the charging electronics unit 3, the housing lower part 16 comprises the lower side 11 of the transport tray 1 and its four sides or sides 12, 13, 14, 15, the cover part 17 presents the upper side 10 of the transport tray 1 when the cover part 17 is placed on or connected to the housing lower part 16.

The charging electronic unit 3 is connected to the rechargeable energy storage device 2, without this being shown in detail in the embodiment of the transport tray 1 shown in fig. 1 to 4, as shown in fig. 2 and 3, the charging electronic unit 3 is arranged on the carrier 18 directly adjacent to the rechargeable energy storage device 2, and the carrier 18 with the rechargeable energy storage device 2 arranged thereon, and the charging electronic unit 3 are accommodated in the inner cavity 19 of the housing lower part 16, and the transport tray 1 is closed to the outside by applying the cover 17 on the housing lower part 16, the components of the energy storage device 2 and of the charging electronic unit 3 arranged inside the transport tray 1 can thus be sealed to the outside and encapsulated, in particular, the housing lower part 16, the cover 17, and possibly the carrier 18 inside the transport tray 1 are made of at least synthetic materials, at least the statically and/or dynamically loaded region of the transport tray can be made of reinforced synthetic materials, for example of fiber-reinforced synthetic materials, the construction 182 of the housing lower part 16 of the transport tray 1 is formed so as to be suitable for longitudinal engagement with the longitudinal ribs 161, 162, 161, 162, 160, 161, 160, and 180, 160, a longitudinal extension of the transport tray comprising the longitudinal extension of the transport tray being arranged in a fork-of the longitudinal extension of the transport tray, 160, and of the longitudinal extension of.

As can be seen in particular from fig. 17 to 19a, each transport tray 1 has at least energy transmission means 4 for the charging and energy transmission involving the energy storage 2, which in the design of fig. 17 are configured to be wireless, for example electrically inductive, while in the designs of fig. 18, 18a and 18b and 19, 19a are provided by providing corresponding sockets 40, 41 on the respective outer sides of the sides 15 of the transport tray 1, of course, the sockets 40, 41 can also or additionally be arranged on of the other sides of the transport tray 1, a cable 5 with a plug 50 can be inserted into the sockets 40, 41 of the energy transmission means 4, which enables a connection, for example, with a power source or a charging station 6, a plurality of transport trays 1 can be connected to one another by such a cable 5 inserted into corresponding sockets 40, 41 of transport trays arranged one above the other, which in fig. 19, 19a are shown by way of example in fig. 17, a wireless, for example to a charging station 7, a rechargeable transport tray 1 can be connected to one another by wire inductively and then be discharged wirelessly, such a rechargeable transport tray being able to be connected to one another, for example, a rechargeable charging station 7, which is connected to one another wirelessly.

As is shown by way of example in fig. 11 to 16, by means of the respective energy transmission means 4 of the transport pallet 1 it is not only possible to charge the rechargeable energy storage devices 2 arranged in the transport pallet, but also to transmit their energy from them to, for example, the electric drive 9 or other electrical or electronic components of the transport vehicle 8, in particular as is shown in fig. 11, by means of the energy transmission means 4 of the transport pallet 1, the transport pallet 1 or at least rechargeable energy storage devices 2 located therein are electrically connected to this transport vehicle 8 by means of the connecting means 80 of the transport vehicle 8, in particular in this region a mechanical connection is provided, in particular, to avoid unnecessary slipping of the transport pallet 1 on the transport surface 81 of the transport vehicle 8, in particular in the region of the connecting means 80, which transport pallet 1 is arranged on the transport surface 81, in order for the rechargeable energy storage devices 2 to carry out an electric drive, the connecting means 80 on the transport vehicle 8 are, for example, connected to the transport vehicle 8, in order to provide a further supply of energy to the transport vehicle, in particular to provide an additional cooling of the transport vehicle, which the transport vehicle can be used for example for the internal cooling of the transport vehicle .

In addition to the stacking of transport pallets 1, transport containers 100 comprising transport pallets 1 as a base can also be stacked on one another, as can also be seen from fig. 14 to 16, the energy transmission means 4 of the individual transport pallets 1 can be connected to one another via transport containers 100 or their covers 105, walls 101, 102, 103, 104 and/or -shaped parts 106 via integrated lines, separate cables or even wirelessly, in a transport vehicle according to fig. 11, such transport containers 100 are provided only on their transport face 81, as exemplarily shown in fig. 7 to 10a, such transport containers 100 can be constructed by placing walls 101, 102, 103, 104 and possibly at least covers 105 on transport pallets 1 which constitute the base of transport containers 100, as here, walls 101, 102, 103, 104 can be constructed as shown in fig. 7 and 7a in a manner such that the transport containers are constructed according to the form of a fence box, or, as shown in fig. 8, 8a, comprising walls 101, 102, 103, 104 provided with openings, as shown in fig. 7 and 7a, as a wall 104, or as shown in fig. 10a, as a closed wall parts 100, as a closed, as a.

The transport container 100, which is provided in particular with -shaped parts 106, 107, can in particular also be configured as a refrigerated container for accommodating refrigerated goods which can be transported refrigerated therein the electrical energy required for operating the refrigeration unit can be supplied by at least rechargeable energy stores 2 of the transport tray 1, so that the refrigerated container can be supplied not only independently of the power supply of the transport vehicle 8, but also continuously even during intermediate storage thereof by means of the rechargeable energy stores of the transport tray 1 of the transport container 100 in the form of a refrigerated container.

It is also possible that the transport trays 1 can be easily stacked on each other, wherein, as shown in fig. 5 and 6, they are the case of transport trays 1 of the same size and transport trays 1 having different sizes. In order to prevent slipping of transport trays 1 stacked on top of each other, in particular on the upper side 10, it is also possible to provide projections, recesses or other anti-slip means on the lower side 11 of the transport tray 1, for example, possibly only partially provided with a surface roughness.

As can be seen from the step in fig. 1, the transport tray 1 can be provided with a readable data carrier, here in the form of an RFID transponder 20, for storing data of the rechargeable energy storage 2, such as the year, the charging cycle, etc., the RFID transponder 20 can be provided to read out wirelessly, so that the state of storing the rechargeable energy storage 2 can be checked at any time and it can be exchanged for a new one in time if necessary, the readable data carrier or the RFID transponder 20 can be arranged inside the transport tray 1, integrated in its material or provided on the outside of the transport tray 1, it is also possible to use another type of readable data carrier instead of an RFID transponder, such as a mobile or fixedly mounted or mountable SIM card, wherein the latter is particularly suitable for machine-to-machine communication and, in particular, allows even larger amounts of data to be transmitted or exchanged.

Thus, any desired combination of a transport tray 1 and a transport container 100 produced based thereon may be provided. This amount of energy for the transport vehicle 8 can be determined by the number of rechargeable energy stores in the respective transport tray 1 and can therefore also be determined by the transport tray 1 carried or the transport container 100 formed therefrom.

In addition to the embodiment variants of transport pallet, transport container and transport vehicle with these described and shown in the figures, many other combinations can be constructed, including any combination of the features described above, wherein at least rechargeable energy stores are arranged in or on the transport pallet, which are constructed as or for powering at least electric drives or electric or electronic components of the transport vehicle, and wherein the transport pallet is provided with at least energy transfer means for transferring energy from at least rechargeable energy stores to the electric drives or at least electric or electronic components of the transport vehicle.