CN115880833A - Display module, module and integrated module of goods access terminal - Google Patents

Abstract

The invention provides a display module, which is applied to a goods access terminal, wherein the goods access terminal comprises a plurality of modules which can be spliced and installed from bottom to top, the modules are used for carrying and/or storing goods, adjacent modules after installation can be electrically connected, the display module can be arranged on the modules which are not installed in advance to be installed together with the modules, after the modules are installed, the display surfaces of the display modules on the adjacent modules can be spliced up and down to increase the splicing display size in the vertical direction, and meanwhile, the display module can be electrically connected with the corresponding module to realize the power supply and/or the receiving of display signals of the display module.

Description

Display module, module and integrated module at goods access terminal

Technical Field

The invention belongs to the technical field of logistics, and particularly relates to a display module, a module of a goods access terminal and an integrated module.

Background

Along with the rapid development of technique, unmanned aerial vehicle and unmanned vehicle (autopilot vehicle) have been applied to the express delivery trade and carry out the delivery of goods, and goods access terminal is the automation equipment that the last kilometer of cooperation unmanned aerial vehicle or unmanned vehicle sent and got goods, the goods passes through goods access terminal and is being received the user of posting the goods and transport between the unmanned aerial vehicle or the unmanned vehicle of goods, this goods access terminal comprises a plurality of modules, including the module that is used for carrying and/or storage goods, wherein a plurality of modules can splice the installation from bottom to top, in order to realize that goods access terminal can save more goods or can transport the goods in bigger height range, for example, unmanned aerial vehicle can descend the top at goods access terminal and uninstall the goods, goods access terminal transports the goods from goods access terminal's top to being close to ground for the user to collect. These goods access terminal can set up the stream of people hot spot region in urban area, in order to make things convenient for the user to deposit and get goods nearby, simultaneously also can be at the outer wall installation outdoor advertising display screen of goods access terminal in order to create more economic value, if adopt conventional outdoor advertising display screen, then need be fixed to support the main part with a plurality of display module one by one, for example after the installation of a plurality of module concatenations at goods access terminal is accomplished, again at the outer wall installation adapter rack and a plurality of display module of goods access terminal, later still need be connected a plurality of display module electricity to power and total controller, need additionally consume a large amount of outdoor installation man-hours and cost of labor from this.

Disclosure of Invention

The invention aims to provide a display module, a module of a goods access terminal and an integrated module, which comprises but is not limited to solving the technical problems that a large amount of outdoor installation working hours and labor cost are additionally consumed when an outdoor advertisement display screen is installed on the goods access terminal.

In order to achieve the purpose, the invention adopts the technical scheme that:

on the one hand, the display module is applied to a goods access terminal, the goods access terminal comprises a plurality of modules which can be spliced and installed from bottom to top, the modules are used for carrying and/or storing goods and are adjacent after installation, the modules can be electrically connected, the display module can be arranged on the modules which are not installed in advance so as to follow the modules to be installed together, in addition, after the modules are installed, the display surfaces of the display modules on the modules which are adjacent can be spliced up and down to increase the splicing display size in the vertical direction, and meanwhile, the display modules can be corresponding to the display modules at the positions and are electrically connected with the modules to achieve power supply of the display modules and/or receiving of display signals of the display modules.

In another aspect, a module of a cargo access terminal is provided, the module being used for transporting and/or storing cargo and being capable of being assembled from bottom to top to enable the cargo access terminal to store more cargo and/or transport cargo within a larger height range, and being capable of achieving electrical connection between adjacent modules after being assembled, an interface being provided for electrically connecting with the display module of claim 1, and being capable of supplying power to the display module and/or sending the display signal after being electrically connected with the display module, and after the module is assembled, the adjacent modules achieving transmission of power and/or the display signal through electrical connection between each other.

In another aspect, an integrated module of a cargo access terminal is provided, which includes a module main body and a display module disposed on the module main body, the module main body is used for carrying and/or storing cargo and can be assembled and mounted from bottom to top to enable the cargo access terminal to store more cargo and/or transport cargo within a larger height range, the display module is disposed on the non-mounted module main body in advance to be mounted together with the module main body, after the integrated modules are mounted, display surfaces of the display modules of adjacent integrated modules can be assembled and mounted from top to bottom to increase a display size in a vertical direction, and the adjacent integrated modules can be electrically connected to supply power to the display module and/or receive display signals from the display module.

In one embodiment, the integrated module comprises at least two groups of the display modules, the two groups of the display modules are divided into a first display module and a second display module, and the integrated module has a first state and a second state; when the integrated module is in the first state, the two groups of display modules are opposite to and close to the module main body, and the orientation of the display surface of the first display module is significantly different from the orientation of the display surface of the second display module; the first display module can also move relative to the module main body until the display surface of the first display module is spliced with the display surface of the second display module to increase the spliced display size in the horizontal direction, so that the integrated module is switched from the first state to the second state, and in the process of switching the integrated module from the first state to the second state, the orientation of the display surface of the first display module is turned to be the same as or close to the orientation of the display surface of the second display module.

In one embodiment, the module main body is further provided with a mounting structure, when the integrated module is in the first state, a part of the outer surface of the module main body is located between the first display module and the second display module and exposed, the mounting structure is at least partially located on the part of the outer surface of the module main body and exposed, so that a person or an automation device can access the mounting structure and can realize or release the fixed connection between the integrated module where the mounting structure is located and another adjacent integrated module through the mounting structure, and when the integrated module is in the second state, the part of the outer surface of the module main body is covered by the first display module to protect the mounting structure and prevent the person or the automation device from contacting the mounting structure.

In one embodiment, the mounting structure is a quick-mounting mechanism, and includes an action portion and a locking portion in transmission connection with the action portion, where at least a portion of the action portion is located on the outer surface of the module main body and exposed to be movable under an action force applied by the person or the automation equipment, so as to drive the locking portion to realize or release the fastening connection between the module main body where the locking portion is located and the module main body of another adjacent integrated module.

In one embodiment, the module main body is further provided with a supporting portion, a lifting portion, or a fixing portion, when the integrated module is in the first state, a part of an outer surface of the module main body is located between the first display module and the second display module and exposed, the supporting portion, the lifting portion, or the fixing portion is located on the part of the outer surface of the module main body and exposed, so that a person or an automated device can support the integrated module through the supporting portion, lift the integrated module through the lifting portion, or fix the integrated module through the fixing portion when carrying the integrated module, and when the integrated module is in the second state, the part of the outer surface of the module main body is covered by the first display module, so as to protect the supporting portion, the lifting portion, or the fixing portion and prevent the person or the automated device from contacting the supporting portion, the lifting portion, or the fixing portion.

In one embodiment, the acting portion of the mounting structure is further configured to serve as a supporting portion, a lifting portion, or a fixing portion, so that the person or the automated equipment can support, lift, or fix the integrated module through the acting portion when carrying the integrated module.

In one embodiment, the display surface of the first display module and the display surface of the second display module can separately display images facing different sides of the integrated module when the integrated module is in the first state; the integrated module is in under the second state, the display surface of first display module with the display surface of second display module can face towards the same one side of integrated module shows the concatenation image of bigger horizontal dimension jointly.

In one embodiment, the integrated module further includes a driving mechanism, and the driving mechanism is configured to drive the first display module to move relative to the module body so that the integrated module can be automatically switched between the first state and the second state, so that the display surface of the first display module and the display surface of the second display module can be in a state of separately displaying images on different sides facing the integrated module at a time period according to needs after the cargo access terminal is installed, and can be automatically switched to a state of jointly displaying a spliced image with a larger horizontal size facing the same side of the integrated module at another time period.

One or more technical solutions of the present invention have at least one of the following technical effects:

the installation of goods access terminal and display screen can be accomplished simultaneously to the in-process at outdoor installation goods access terminal only need from ground to the installation of upwards splicing of a plurality of modules of this display module of pre-installation, need not additionally to consume the outdoor installation man-hour and the cost of labor of display screen again. And due to the simplification of the outdoor installation process, the automatic installation of the goods access terminal and the display module by automatic equipment such as a robot is facilitated, so that the outdoor integral installation working hour and the installation cost are further reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of a cargo access terminal formed by splicing and mounting modules of a pre-installed display module from bottom to top according to an embodiment of the present invention;

FIG. 2 is a schematic view of the display module and module shown in FIG. 1 separated;

fig. 3 is a schematic perspective view of a cargo access terminal formed by splicing and mounting a plurality of integrated modules from bottom to top according to an embodiment of the present invention, where the integrated modules are in a second state;

fig. 4 is a schematic perspective view of a single integrated module according to an embodiment of the present invention, wherein the integrated module is in a second state;

fig. 5 is a schematic perspective view of a single integrated module according to an embodiment of the present invention, wherein the integrated module is in a first state;

fig. 6 is a schematic perspective view of a cargo access terminal formed by splicing and mounting a plurality of integrated modules from bottom to top according to an embodiment of the present invention, where the integrated modules are in a first state;

fig. 7 is a schematic diagram of a plurality of integrated modules assembled and installed by an automation device from bottom to top according to an embodiment of the present invention;

fig. 8 is a schematic diagram of a single integrated module being handled or installed by an automated apparatus according to an embodiment of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.

It should be noted that: when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly connected to the other element. When an element is referred to as being "connected" to another element, it can be directly or indirectly connected to the other element. When a component is referred to as being "electrically connected" to another component, it can be electrically connected by conductors, or can be electrically connected by radios, or can be connected by various other means capable of carrying electrical signals. The terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience of description only and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated in a particular orientation, and therefore are not to be construed as limiting the patent, the particular meaning of which terms will be understood by those skilled in the art as appropriate. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Now, the display module 1 provided by the present invention is described, please refer to fig. 1 and fig. 2, the display module 1 is disposed on the cargo access terminal 2, the cargo access terminal 2 includes a plurality of modules 22 that can be assembled from bottom to top, the modules 22 are used for transporting and/or storing cargo, wherein the plurality of modules 22 can be assembled from bottom to top to enable the cargo access terminal 2 to store more cargo or transport cargo within a larger height range, and the adjacent modules 22 after being installed can be electrically connected. The display module 1 can be preset on the module 22 that does not install in order to be installed along with the module 22 jointly to after the module 22 installation, the display surface of the display module 1 on the adjacent module 22 can splice from top to bottom in order to increase the concatenation display size on the vertical direction, and display module 1 can be connected with the module 22 that corresponds at the same time and is in order to realize the power supply of display module 1 and/or the receipt of display module 1 display signal. Correspondingly, the modules 22 are provided with an interface 220 for electrically connecting with the display module 1, and can supply power to the display module 1 and/or send display signals after being electrically connected with the display module 1, and after the modules 22 are installed, the adjacent modules 22 realize the transmission of power and/or the display signals through the electrical connection between each other. From this in-process at outdoor installation goods access terminal 2 only needs can accomplish the installation of goods access terminal 2 and display screen simultaneously with the installation of the module 22 of this display module 1 of a plurality of preassemblies from top to bottom concatenation, need not additionally to consume the outdoor man-hour of installation and the cost of labor of display screen again. And due to the simplification of the outdoor installation process, the automatic installation of the goods access terminal 2 and the display module 1 by an automatic device such as a robot is facilitated, thereby further reducing the outdoor overall installation man-hour and the installation cost.

Specifically, the display module 1 preferably employs an LED (light emitting diode) display panel, so that the splicing traces of the display surfaces of the display modules 1 on the upper and lower adjacent modules 22 are not easily perceived by human eyes beyond a normal distance, and of course, the display module 1 may also employ other display materials, such as an LCD liquid crystal display panel, and the like, which is not limited herein. After the display modules 1 on the plurality of modules 22 are spliced to form a large-sized display screen, the display modules 1 can be controlled to jointly display a static or dynamic spliced picture so as to be used for displaying advertisement content, announcement content, traffic information content, guideboard indication content or light show content, and the like, and additionally, the display modules 1 are preferably of a flat plate structure, or the display modules 1 may also be of other structures, for example, the display surface of the display module 1 has a certain curvature, which is not limited herein. The display module 1 can be only arranged on the outer surface of one side of the module 22, so that the display module 1 of each module 22 is arranged on one side of the goods access terminal 2 and displays related contents after the goods access terminal 2 is installed, or the display module 1 can be arranged on the outer surface of multiple sides of the module 22, so that after the goods access terminal 2 is installed, the display modules 1 with vertically spliced display surfaces are arranged on the multiple sides of the goods access terminal 2 to display static or dynamic pictures facing different directions. The one or more interfaces 220 of each module 22 for electrically connecting with the display module 1 may be disposed on the outer surface or outside of the module 22, so as to facilitate the operation of electrically connecting the display module 1 and the module 22 by personnel or automation equipment, or may be disposed inside the module 22, and electrically connected with the display module 1 by a cable penetrating through the surface of the module 22. Optionally, the module 22 is further provided with a sensor or a driver which needs to be powered on to operate, so as to serve the needs of the module 22 for carrying and/or storing goods, for example, the module 22 is further provided with an electric driving mechanism for fixing goods and/or a camera for viewing the goods storage state, or the top end of the goods access terminal 2 may be provided with a take-off and landing platform 23 which is used for taking off and landing the unmanned aerial vehicle 3 for transporting goods and can be electrically connected with the module 22, the take-off and landing platform 23 is provided with a sensor or a driver which needs to be powered on, so as to serve the needs of the take-off and landing platform 23 for assisting the unmanned aerial vehicle 3 to take off and land, for example, the take-off and landing platform 23 is provided with a light for illuminating a take-off and landing area at night and/or an electric driving mechanism for automatically deploying a wind-proof curtain for reducing interference of strong wind on the take-off and landing process of the unmanned aerial vehicle 3, and the like, so that after the module 22 is installed, the adjacent modules 22 can not only achieve transmission of electric power and/or display signals needed by the sensor or the driver of the module 22. It should be noted that the module 22 located at the bottom of the cargo access terminal 2 may be provided with a display control unit and a power management unit, or other functional modules are provided at the bottom of the cargo access terminal 2, for example, an access module with an access port for a person to access the cargo is provided at the bottom of the cargo access terminal 2, and the display control unit and the power management unit are provided in the functional module, so that the functional module provides power and/or display signals to the display module 1 through the electrical connection with the module 22, the electrical connection between adjacent modules 22, and the electrical connection between the module 22 and the display module 1.

Further, the present invention also provides an integrated module 21, including a display module 221 and a module main body 222, wherein the display module 221 and the module main body 222 are substantially the same as the display module 1 and the module 22, respectively, that is, the display module 221 is pre-disposed on the module main body 222 that is not disposed so as to be mounted together with the module main body 222, after the integrated module 21 is mounted, the display surfaces of the display modules 221 of adjacent integrated modules 21 can be vertically spliced to increase the splicing display size in the vertical direction, and the adjacent integrated modules 21 can be electrically connected to achieve power supply of the display modules 221 and/or receiving of display signals of the display modules 221, optionally, compared with the module 22, the module main body 222 of the integrated module 21 and the display module 221 can have a higher integration degree, for example, the module main body 222 can be directly electrically connected to the display module 221 without providing an electrically connecting interface 220 that can be connected and separated, or the display module 221 can be directly used as a sidewall structure of the integrated module 21, that the internal space and the external space of the integrated module 21 are separated by the display module 221 in at least a part of the direction, so that the display module main body 221 is not disposed on one side of the display module 221. It should be noted that the adjacent integrated modules 21 may also be directly electrically connected through the display modules 221 of the two integrated modules to implement power supply of the display modules 221 and/or receiving of display signals, and may even implement transmission of electric power and/or related signals required by the sensors or drivers of the module main body 222 or the lifting platform 23, that is, the electrical connection interface between the adjacent integrated modules 21 may be disposed on the module main body 222 or the display modules 221.

Further, referring to fig. 3 to 6, the integrated module 21 includes at least two groups of display modules 221, the two groups of display modules 221 are divided into a first display module 221a and a second display module 221b, wherein each group of display modules 221 may include one or more display modules 221 with spliced display surfaces, and the integrated module 21 has a first state and a second state. When the integrated module 21 is in the first state, the two groups of display modules 221 are both opposite to and close to the module main body 222, and the orientation of the display surface of the first display module 221a is significantly different from the orientation of the display surface of the second display module 221b, wherein the display surface of each group of display modules 221 is located on one side, away from the module main body 222, of the group of display modules 221, in the illustrated embodiment, the module main body 222 includes a plurality of side walls, the plurality of side walls are circumferentially distributed and enclose to form a space for storing goods and/or a channel for transporting goods, the two side walls of the two groups of display modules 221 and the module main body 222 are respectively opposite and close to each other, and the two side walls are divided into a first side wall opposite to the first display module 221a and a second side wall opposite to the second display module 221 b. The first display module 221a can also move relative to the module main body 222 until the display surface thereof is spliced with the display surface of the second display module 221b to increase the spliced display size in the horizontal direction, so that the integration module 21 is switched from the first state to the second state, and in the process that the integration module 21 is switched from the first state to the second state, the orientation of the display surface of the first display module 221a is turned to be the same as or close to the orientation of the display surface of the second display module 22. When the integrated module 21 is in the second state, the display surface of the first display module 221a and the display surface of the second display module 221b may be located on the same side of the module body 222. If the display module 221 is a flat-plate structure, when the integrated module 21 is in the first state, the display surface of the first display module 221a and the display surface of the second display module 221 form a certain angle, preferably, the display surface of the first display module 221a is perpendicular or approximately perpendicular to the display surface of the second display module 221, and when the integrated module 21 is in the second state, the display surface of the first display module 221a and the display surface of the second display module 221 are in or approximately in the same plane, and at this time, if the display module 221 employs an LED display panel, human eyes cannot easily perceive a splicing trace of the display surface of the first display module 221a and the display surface of the second display module 221 outside a normal distance.

It should be noted that the height of the first display module 221a protruding out of the outer surface of the module main body 222 is smaller when the integration module 21 is in the first state than when the integration module 21 is in the second state, which is favorable for reducing the occupied size of the integration module 21 during storage, transportation and installation, and is also favorable for reducing the risk of damage of the first display module 221 due to external impact during the movement and installation of the integration module 21, and if the integration module 21 is installed by using the automation device 4, as shown in fig. 7 and 8, the automation device 4 is also favorable for fixing, transporting, and installing the integration module 21 when the integration module 21 is in the first state, so as to avoid the interference of the operation of the automation device 4 caused by the excessive height of the first display module 221a protruding out of the outer surface of the module main body 222.

Optionally, referring to fig. 3 to fig. 6 again, the integrated module 21 is provided with at least two sets of first display modules 221a, and when the integrated module 21 is in the first state, the two sets of first display modules 221a are respectively located at two opposite sides of the module main body 222; when the integrated module 21 is in the second state, two sets of the first display modules 221a are respectively located at two opposite sides of the second display module 221, and the display surfaces of the two sets of the first display modules 221a and the second display modules 221b are spliced to increase the splicing display size in the horizontal direction, and the display surfaces of the three display modules can be located at the same side of the module main body 222.

Alternatively, the second display module 221 is fixed relative to the module main body 222, the first display module 221 is rotatably connected to the module main body 222, the first display module 221 is divided into a first portion and a second portion, and the rotation axis is located between the first portion and the second portion. In the illustrated embodiment, the first portion is capable of covering at least a portion of the first sidewall when the integration module 21 is in the first state, and the second portion is capable of covering a portion of the second sidewall when the integration module 21 is in the second state. Of course, the first display module 221a and the second display module 221b may also be connected to the module main body 222 in other manners, for example, the first display module 221a and the second display module 221b are both mounted on the adapter frame and then connected to the module main body 222 through the adapter frame, or the first display module 221a is rotatably connected to the module main body 222 through the adapter mechanism, and the first display module 221a may also slide relative to the adapter mechanism, so that the first display module 221a can slide relative to the second sidewall after rotating relative to the module main body 222 and finally realize the display surface splicing with the second display module 221b, so the connection manner of the first display module 221a and the module main body 222 is not limited. Additionally, in some embodiments, the first display module 221a and/or the module main body 222 are further provided with a locking device (not shown) for locking the position relationship between the first display module 221a and the module main body 222 when the integrated module 21 is in the first state and the second state, respectively, for example, the sidewall of the module main body 222 is made of an iron sheet metal material, the side of the first display module 221a opposite to the module main body 222 is provided with a magnetic member capable of being adsorbed on the sidewall of the module main body 222, so that a person or the automation equipment 4 needs to apply a certain force to the first display module 221a to move the first display module 221a relative to the module main body 222 when the integrated module 21 is in the first state or the second state, of course, the locking device may have other structures, for example, the locking device includes a slot provided on the sidewall of the module main body 222 and a latch correspondingly provided on the back surface of the first display module 221a opposite to the first sidewall or the second sidewall, or the locking device may be omitted, for example, the first display module 221a is connected to the module main body 222 or the adapter rack by a hinge with a large damper.

Further, the module main body 222 is further provided with a mounting structure 2220, when the integrated module 21 is in the first state, a part of the outer surface of the module main body 222 is located between the first display module 221a and the second display module 221b and is exposed, the mounting structure 2220 is at least partially located on the part of the outer surface of the module main body 222 and is exposed, so that a person or an automation device 4 can reach the mounting structure 2220 and realize or release the fixed connection between the integrated module 21 where the mounting structure 2220 is located and another adjacent integrated module 21 through the mounting structure 2220, and when the integrated module 21 is in the second state, the part of the outer surface of the module main body 222 is covered by the first display module 221a to protect the mounting structure 2220 and prevent the person or the automation device 4 from contacting the mounting structure 2220. The mounting structure 2220 is a quick-mounting mechanism, or the mounting structure 2220 may also adopt other structures, such as a bolt hole or a screw hole, which is not limited herein.

In one embodiment, the mounting structure 2220 is a quick-mounting mechanism, and includes an action portion and a locking portion (not shown) in transmission connection with the action portion, wherein the action portion is at least partially located on a partial outer surface of the module main body 222 and exposed to be movable under an action force applied by a person or an automation device 4, so as to drive the locking portion to realize or release the fastening connection between the module main body 222 where the locking portion is located and the module main body 222 of another adjacent integrated module 21, and thus, the person or the automation device 4 can quickly mount or dismount the integrated module 21 of the cargo access terminal without using an additional mounting tool. The locking portion is, but not limited to, a hook, a bolt, and the like to achieve fastening connection between the adjacent module main bodies 222 of the goods access terminal, the acting portion is, but not limited to, a movable handle, a rotating disk, a locking hole, and the like, and the locking portion and the acting portion can be in transmission connection through transmission members such as a connecting rod, a gear set, a steel cable, and the like, or can be in direct transmission connection. Optionally, a groove is formed in an outer surface of the module main body 222, the acting portion can be accommodated in the groove or can move to protrude out of the outer surface of the module main body 222, and a person or the automation device 4 can break the acting portion upwards and downwards to move the acting portion so as to drive the locking portion to realize or release the fastening connection between the module main body 222 where the locking portion is located and the module main body 222 of another adjacent integrated module 21.

Further, the module main body 222 is further provided with a supporting portion, a lifting portion, or a fixing portion, when the integrated module 21 is in the first state, a part of an outer surface of the module main body 222 is located between the first display module 221a and the second display module 221b and exposed, and the supporting portion, the lifting portion, or the fixing portion is located on the part of the outer surface of the module main body 222 and exposed, so that a person or the automation equipment 4 can support the integrated module 21 through the supporting portion, or lift the integrated module 21 through the lifting portion, or fix the integrated module 21 through the fixing portion when carrying the integrated module 21, and when the integrated module 21 is in the second state, the part of the outer surface of the module main body 222 is covered by the first display module 221a to protect the supporting portion, the lifting portion, or the fixing portion, and prevent the person or the automation equipment 4 from contacting the supporting portion, the lifting portion, or the fixing portion. Alternatively, the action portion of the mounting structure 2220 may also be used as a supporting portion, a lifting portion or a fixing portion, for example, the action portion may be used for supporting, lifting or fixing by a person or the automation device 4 when the outer surface of the module main body 222 is protruded.

Further, the display module 221 of the integrated module 21 can be used to display a static or dynamic image when the integrated module 21 is in the first state, specifically, the display surface of the first display module 221a and the display surface of the second display module 221b can separately display images facing different sides of the integrated module 21 when the integrated module 21 is in the first state, and suitable scenes include, but are not limited to, displaying light show contents or displaying different contents in different directions, for example, in an application scene, the cargo access terminal is disposed on a sidewalk at a roadside, the first display module 221 and the second display module 221 face directions of a street and a pedestrian respectively, and display advertising contents facing people on a vehicle and bulletin contents facing pedestrians on the sidewalk respectively. When the integration module 21 is in the second state, the display surface of the first display module 221a and the display surface of the second display module 221b can jointly display a stitched image with a larger horizontal size facing the same side of the integration module 21, and a suitable scene includes, but is not limited to, displaying advertisement content requiring large-size display. In practical applications, the integrated module 21 can be flexibly set to the first state or the second state according to the installation environment of the cargo access terminal and the content that needs to be displayed by the display module 221, that is, the integrated module 21 is stored, transported and installed in the first state, and after the cargo access terminal is installed, the integrated module 21 can be kept in the first state or set to the second state, so as to facilitate the expansion of the application range of the display module 221 of the cargo access terminal.

Optionally, the integrated module 21 further includes a driving mechanism (not shown) for driving the first display module 221a to move relative to the module main body 222 so as to enable the integrated module 21 to automatically switch between the first state and the second state, so that the display surface of the first display module 221a and the display surface of the second display module 221b can be separated to display images at different sides facing the integrated module 21 at a time period according to requirements after the cargo access terminal is installed, and automatically switch to a state of jointly displaying a stitched image with a larger horizontal size facing the same side of the integrated module 21 at another time period, where suitable scenes include, but are not limited to: in the daytime, the display surface of the first display module 221a and the display surface of the second display module 221b may display the stitched image of a larger horizontal size together toward the same side of the integration module 21, and at night, the display surface of the first display module 221a and the display surface of the second display module 221b may display the image separately toward different sides of the integration module 21 for displaying the light show content, thereby being beneficial to expanding the application range of the display module 221 of the same cargo access terminal. Additionally, when extreme weather such as typhoon is encountered, the integrated module 21 can be automatically switched to the first state under the driving of the driving mechanism, so as to reduce the risk of damage to the display module 221. Specifically, the driving mechanism may be an electric, pneumatic or hydraulic telescopic rod having two ends connected to the first display module 221a and the module main body 222, respectively, but the driving mechanism may also be other structures, such as a movable link mechanism driven by a motor, or a driving motor installed at a rotation shaft of the first display module 221a, and the driving mechanism is not limited herein.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a display module, is applied to on the goods access terminal, goods access terminal includes a plurality of modules that can splice the installation from bottom to top, the module is used for carrying and/or storage goods to adjacent after the installation can the electricity be connected between the module, display module's characterized in that, display module can locate in advance not install in order along with the module is installed jointly, and after the module installation, adjacent on the module the display surface of display module can splice from top to bottom in order to increase the ascending concatenation display size in vertical direction, simultaneously display module can correspond with the place the module electricity is connected in order to realize display module's power supply and/or display module display signal's receipt.

2. A module of a cargo access terminal, the module being used for transporting and/or storing cargo and being capable of being installed in a splicing manner from bottom to top to enable the cargo access terminal to store more cargo and/or to transport cargo over a larger height range, and being capable of achieving electrical connection between adjacent modules after installation, the module being characterized in that an interface is provided for electrically connecting with the display module of claim 1, and being capable of supplying power to the display module and/or transmitting the display signal after being electrically connected with the display module, and that after the module is installed, the adjacent modules achieve transmission of power and/or the display signal through electrical connection between each other.

3. The utility model provides an integrated module of goods access terminal, its characterized in that includes the module main part and locates display module in the module main part, the module main part is used for the transport and/or stores the goods and can splice the installation from bottom to top in order to realize goods access terminal can save more goods and/or can transport the goods in bigger height range, display module locates in advance not installed in order to be installed jointly with the module main part in the module main part, after the integrated module is installed, adjacent the display surface of display module of integrated module can splice from top to bottom in order to increase the concatenation display dimension in the vertical direction, and adjacent can connect electrically between the integrated module in order to realize display module's power supply and/or display module display signal's receipt.

4. The integrated module of claim 3, wherein the integrated module comprises at least two groups of the display modules, the two groups of display modules being divided into a first display module and a second display module, the integrated module having a first state and a second state; when the integrated module is in the first state, the two groups of display modules are opposite to and close to the module main body, and the orientation of the display surface of the first display module is significantly different from the orientation of the display surface of the second display module; the first display module can also move relative to the module main body until the display surface of the first display module is spliced with the display surface of the second display module to increase the spliced display size in the horizontal direction, so that the integrated module is switched from the first state to the second state, and in the process of switching the integrated module from the first state to the second state, the orientation of the display surface of the first display module is turned to be the same as or close to the orientation of the display surface of the second display module.

5. The module of claim 4, wherein the module body is further provided with a mounting structure, wherein when the integration module is in the first state, a portion of an outer surface of the module body is positioned between and exposed from the first display module and the second display module, wherein the mounting structure is at least partially positioned on and exposed from the portion of the outer surface of the module body such that a person or an automated device can access the mounting structure and fixedly connect or disconnect the integration module in which the mounting structure is positioned to another adjacent integration module through the mounting structure, and wherein when the integration module is in the second state, the portion of the outer surface of the module body is covered by the first display module to protect the mounting structure and prevent the person or the automated device from contacting the mounting structure.

6. A module as claimed in claim 5, wherein the mounting structure is a quick-mount mechanism comprising an action portion and a locking portion in driving connection with the action portion, wherein the action portion is at least partially located on the partial outer surface of the module body and exposed to be movable under the action of the personnel or the automated equipment to drive the locking portion to achieve or release the fastening connection between the module body where the locking portion is located and the module body of another adjacent integrated module.

7. The module of claim 4, wherein the module body further comprises a supporting portion, a lifting portion, or a fixing portion, when the integrated module is in the first state, a part of an outer surface of the module body is located between the first display module and the second display module and exposed, the supporting portion, the lifting portion, or the fixing portion is located on the part of the outer surface of the module body and exposed, so that a person or an automated device can support the integrated module through the supporting portion when carrying the integrated module, or lift the integrated module through the lifting portion, or fix the integrated module through the fixing portion, and when the integrated module is in the second state, the part of the outer surface of the module body is covered by the first display module to protect the supporting portion, the lifting portion, or the fixing portion and prevent the person or the automated device from contacting the supporting portion, the lifting portion, or the fixing portion.

8. The module of claim 6, wherein the active portion of the mounting structure is further configured to act as a support or lifting or securing portion to enable the person or the automated equipment to support or lift or secure the integrated module via the active portion when transporting the integrated module.

9. A module according to any one of claims 4 to 8, wherein the display surface of the first display module and the display surface of the second display module are capable of separately displaying images facing different sides of the integration module when the integration module is in the first state; the integrated module is in under the second state, the display surface of first display module with the display surface of second display module can face towards the same one side of integrated module shows the concatenation image of bigger horizontal dimension jointly.

10. The module of claim 9, wherein the integration module further comprises a driving mechanism for driving the first display module to move relative to the module body so that the integration module can be automatically switched between the first state and the second state, such that the display surface of the first display module and the display surface of the second display module can be separated to display images on different sides facing the integration module at one time period and automatically switched to display a spliced image with a larger horizontal size facing the same side of the integration module at another time period after the cargo access terminal is installed.

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