Mobile device carrier apparatus for a vehicle
By designing a mobile device carrier for vehicles, and utilizing the combination of slide rails and tilting rods, the automatic storage and charging of micro-mobile devices are achieved. This solves the problems of space occupation and charging of micro-mobile devices in vehicles, and improves the convenience of vehicles and the ease of use of mobile devices.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- HYUNDAI MOTOR CO LTD
- Filing Date
- 2021-03-19
- Publication Date
- 2026-06-26
AI Technical Summary
In the prior art, micro-mobile devices require space when loaded in vehicles and are difficult to charge effectively, affecting the utilization and convenience of vehicle loading space.
Design a mobile device carrier device, including a housing, a slide rail, a guide rail, and a tilting rod. Through the sliding of the slide rail and the cooperation of the tilting rod, the mobile device can be automatically stored and extracted, and charged in the carrier.
It improves the utilization of vehicle loading space and the convenience of mobile devices, while ensuring the vehicle's exterior design and realizing the automatic storage and charging of mobile devices.
Smart Images

Figure CN114249013B_ABST
Abstract
Description
Technical Field
[0001] This disclosure relates to a mobility carrier apparatus for vehicles, which is configured to house a carrier for retrieving or storing a mobile device in or out of the vehicle. Background Technology
[0002] The statements in this section provide only background information in connection with this disclosure and may not constitute prior art.
[0003] In recent years, mobile devices that provide services or transportation to improve people's mobility have been used. Examples of mobile devices include autonomous vehicles, drones, and micromobile devices.
[0004] In particular, micromobility devices are small vehicles capable of traveling short and medium distances using environmentally friendly power sources such as electricity. Examples of micromobility devices include electric kickboards and electric wheels.
[0005] The micromobility device has been optimized for short and medium-distance travel and is mounted in vehicles for use where needed. However, when mounting the micromobility device in a vehicle, sufficient space within the vehicle must be ensured.
[0006] In addition, the vehicle is not equipped with a tool configured to charge the micro-mobility device, making it difficult to effectively use the micro-mobility device with its small-capacity battery.
[0007] The matters disclosed in this section are provided only to enhance the understanding of the general background of this disclosure and should not be construed as an admission or any form of implied prior art known to those skilled in the art. Summary of the Invention
[0008] This disclosure provides a mobile device carrier device for a vehicle, which is configured to house a carrier of a mobile device that is not exposed under normal circumstances and is pulled out when the mobile device is needed, thereby improving the convenience of the vehicle while maintaining the vehicle's appearance design. Furthermore, the carrier is automatically pulled out of or stored in the vehicle and can charge the mobile device within the carrier, thereby improving the ease of use of the mobile device.
[0009] In one form of this disclosure, a mobile device carrier device for a vehicle includes: a housing having a front-opening interior space, the housing being provided with a pair of slide rails extending in a longitudinal direction; a carrier configured to slide along the pair of slide rails to be extracted from or stored within the interior space of the housing, the carrier having a storage unit for loading the mobile device formed therein; a guide rail disposed on the housing and spaced apart from the pair of slide rails, the guide rail extending in a longitudinal direction, wherein the front portion of the guide rail extends at an upward angle; and a tilting rod mounted on the lower portion of the storage unit of the carrier to support the mobile device, the tilting rod moving along the guide rails when the carrier slides, wherein the tilting rod tilts upward from the front portion of the guide rails when the carrier is extracted to lift the mobile device upward.
[0010] The slide rail groove can be formed on one side of each of a pair of slide rails and extends in the front-rear direction, and the sliding part configured to be disposed in the slide rail groove to slide along the slide rail groove can be formed on the carrier.
[0011] In another form, the mobile device carrier device further includes: a rack formed at the upper end of each of a pair of slide rails and extending in a front-rear direction; and a drive unit mounted at the rear end of the carrier. Specifically, the drive unit includes: a motor configured to generate rotational power; and a linkage unit having a pinion configured to rotate by the rotational power of the motor, the pinion meshing with the rack.
[0012] The carrier's storage unit can be recessed to match the shape of the mobile device, and the opening can be formed in the vertical direction in the portion of the storage unit facing the tilting rod, so that the tilting rod and the mobile device come into contact with each other.
[0013] The guide rail can be set on one side of the internal space of the housing, and the tilting rod can be set on one side of the carrier storage unit to be mounted on the guide rail, so that when the tilting rod is tilted due to the carrier being pulled out, one end of the moving device is lifted upward.
[0014] The guide rail can be formed to extend in the front-back direction. A guide hole is provided on one side of the guide rail, which is formed to extend straight in the front-back direction. The front part of the guide hole extends upward at an angle. A guide protrusion can be provided at the rear end of the tilting rod. The guide protrusion is configured to be disposed in the guide hole so as to move along the guide hole when the carrier slides.
[0015] Multiple guide protrusions can be positioned at the rear end of the tilting rod along its length.
[0016] A support unit that protrudes upward to contact the moving device can be provided at the front end of the tilting rod.
[0017] The support unit may include a first support member and a second support member, which are disposed at the front end of the inclined rod and spaced apart from each other in the length direction. The first support member may be disposed at the foremost part of the inclined rod, and the second support member may be disposed behind the first support member and spaced apart from the first support member. The protruding length of the first support member may be less than the protruding length of the second support member.
[0018] The second support member can protrude and contact the moving device when the tilting rod is not tilted, and the first support member can protrude and contact the moving device together with the second support member when the tilting rod is tilted.
[0019] The carrier may be equipped with a charger configured to charge the mobile device using electrical energy, and a protective sheath may be provided at the bottom of the carrier to protect the extension wire connected to the charger.
[0020] An indicator may be provided at the front end of the carrier, which is configured to indicate whether a charger or the charging status of the mobile device is being used.
[0021] Further areas of application will become apparent from the description provided herein. It should be understood that the descriptions and specific examples are for illustrative purposes only and are not intended to limit the scope of this disclosure. Attached Figure Description
[0022] To better understand this disclosure, various forms of the disclosure, given by way of example, will now be described with reference to the accompanying drawings, in which:
[0023] Figure 1 This is a view illustrating a mobile device carrier device for a vehicle in one form of this disclosure;
[0024] Figure 2 It is shown Figure 1 A view of the housing of a mobile device carrier for a vehicle, shown.
[0025] Figure 3 It is shown Figure 1 The image shows a view of the carrier of a mobile device carrier equipment for a vehicle.
[0026] Figure 4 It is shown Figure 1 A view of the drive unit for a vehicle's mobile carrier equipment.
[0027] Figure 5 It is shown Figure 1 A view showing the withdrawn state of the mobile device carrier equipment for a vehicle.
[0028] Figures 6 to 8 It is shown Figure 1 A view showing the guide rails and tilting rods of the mobile device carrier equipment for a vehicle; and
[0029] Figure 9 It is shown Figure 1 The image shows a lower view of the mobile carrier equipment used in vehicles.
[0030] The accompanying drawings described herein are for illustrative purposes only and are not intended to limit the scope of this disclosure in any way. Detailed Implementation
[0031] The following description is exemplary in nature only and is not intended to limit this disclosure, its application, or its uses. It should be understood that throughout the drawings, corresponding reference numerals denote the same or corresponding parts and features.
[0032] In the following description, a mobile device carrier device for a vehicle according to an exemplary form of the present disclosure will be described with reference to the accompanying drawings.
[0033] Figure 1 This is a view illustrating a form of mobile device carrier equipment for a vehicle according to the present disclosure. Figure 2 It is shown Figure 1 The view shown is of the housing of a mobile device carrier equipment for a vehicle. Figure 3 It is shown Figure 1 The image shows a view of the carrier of a mobile device carrier equipment for a vehicle. Figure 4 It is shown Figure 1 The view shown is of the drive unit for a vehicle's mobile carrier equipment. Figure 5 It is shown Figure 1 The view shown depicts the withdrawn state of the mobile device carrier equipment for a vehicle. Figures 6 to 8 It is shown Figure 1 The view shown is of the guide rails and tilting rods for a vehicle's moving device carrier equipment. Figure 9 It is shown Figure 1 The image shows a lower view of the mobile carrier equipment used in vehicles.
[0034] like Figures 1 to 3As shown, the mobile device carrier device for a vehicle includes: a housing 100 having an open interior space at the front, the housing 100 being provided with a pair of slide rails 110 extending in the longitudinal direction; a carrier 200 configured to slide along the pair of slide rails 110 to be extracted from or stored in the interior space of the housing 100, the carrier 200 having a storage unit 210 for loading a mobile device M formed therein; a guide rail 300 disposed on the housing 100 and spaced apart from the slide rails 110, the guide rail 300 extending in the longitudinal direction, the front portion of the guide rail 300 extending upwardly; and a tilting rod 400 mounted on the lower part of the storage unit 210 of the carrier 200 to support the mobile device M, the tilting rod 400 being configured to move along the guide rail 300 when the carrier 200 slides, the tilting rod 400 being configured to tilt upwardly from the front portion of the guide rail 300 when the carrier 200 is extracted to lift the mobile device M upwardly.
[0035] Here, although the housing 100 is shown mounted on the bumper side of the vehicle, the housing 100 can be mounted on any of the various outer parts of the vehicle. The housing 100 has an open interior space at the front. In this disclosure, the forward direction is the direction in which the carrier 200 is pulled out, and the rearward direction is the direction in which the carrier 200 is stored. As described above, with the housing 100 having an open interior space at the front, the carrier 200 can be stored in this interior space. The housing is provided with slide rails 110 configured for pulling out or storing the carrier 200. Here, a pair of slide rails 110 is provided, but a single slide rail 110 or three or more slide rails 110 can be provided. With a single slide rail 110, the movement of the carrier 200 is unstable. With three or more slide rails 110, the manufacturing cost and weight increase. For these reasons, a pair of slide rails 110 are provided.
[0036] Simultaneously, the carrier 200 slides along a pair of slide rails 110 to be extracted from or stored within the interior space of the housing 100. That is, the carrier 200 can move in the forward and backward direction along the slide rails 110 to be extracted from or stored within the interior space of the housing 100. A storage unit 210 for mounting the mobile device M is formed within the carrier 200. When the carrier 200 is extracted from the housing 100, the mobile device M can be exposed to the outside. When the carrier 200 is stored within the housing 100, the mobile device M can be protected inside the vehicle.
[0037] In one embodiment, the carrier 200 is extracted from or stored in the housing 100, and the mobile device M disposed in the carrier 200 is easily removed for use.
[0038] For this purpose, the housing 100 is provided with a guide rail 300 extending in the front-rear direction, the front of which extends upward at an angle, and the carrier 200 is provided with an inclined rod 400, which is configured to move along the guide rail 300 so as to lift the moving device M upward from the carrier 200 according to the moving position of the carrier 200.
[0039] In other words, when the carrier 200 moves forward and is thus pulled out of the housing 100, the tilting rod 400 moves forward along the guide rail 300 together with the carrier 200. The front of the guide rail 300 extends at an upward angle. Therefore, the tilting rod 400 moves upward along the tilt of the guide rail 300. With the tilting rod 400 tilting upward from the front of the guide rail 300, the movable device housed in the storage unit 210 of the carrier 200 is lifted upward. Therefore, the user can easily remove the movable device M that has been lifted upward from the carrier 200, thereby improving ease of use.
[0040] The aforementioned mobile device carrier equipment for vehicles, in some forms according to this disclosure, will be described in more detail. For example... Figures 2 to 4 As shown, a slide rail groove 111 is formed on one side of each of the slide rails 110 and extends in the front-back direction, and a sliding portion 220 configured to slide along the slide rail groove 111 is formed on the carrier 200.
[0041] In other words, a slide rail groove 111 is formed on one side of each of the slide rails 110 and extends in the front-rear direction, and a sliding portion 220 disposed in the slide rail groove 111 is formed on the carrier 200. When the carrier 200 is pulled out or put in, the sliding portion 220 moves along the slide rail groove 111 in the front-rear direction, so that the carrier 200 can move stably along the slide rail 110. In addition, the left-right movement of the carrier 200 is restricted by a pair of slide rails 110, thereby stabilizing the behavior of the carrier 200. Here, rolling bearings are applied to each of the sliding portions 220 so that the sliding portion 220 can move smoothly along the slide rail groove 111. Each of the sliding portions 220 can also be formed to extend in the shape of a straight rod, thereby ensuring the engagement between each of the sliding portions 220 and the corresponding one in the slide rail groove 111.
[0042] Racks 112 are formed at the upper end of each of the slide rails 110 and extend in the front-rear direction. The mobile carrier device for the vehicle may further include a drive unit 500 mounted at the rear end of the carrier 200, the drive unit 500 including: a motor 510 configured to generate rotational power; and a linkage unit 520 having a pinion 521 configured to rotate by the rotational power of the motor 510, the pinion 521 meshing with the rack 112.
[0043] As described above, the drive unit 500 includes a motor 510 and a linkage unit 520. Since the drive unit 500 is mounted at the rear end of the carrier 200, the linkage unit 520 remains connected to the slide rail 110 even when the carrier 200 is fully withdrawn, allowing for smooth subsequent storage operations. The motor 510 can be configured to rotate in alternating directions. The linkage unit 520, configured to rotate by the rotational power of the motor 510, meshes with the rack 112 of the slide rail 110 via a pinion 521. The linkage unit 520 includes a pair of pinions 521 that mesh with a pair of slide rails 110. The pinions 521 rotate simultaneously with the same rotational force by the rotational power of the motor 510. Therefore, when the motor 510 of the drive unit 500 operates, the pinions 521 rotate and move along the rack 112, allowing the carrier 200 to move along the slide rail 110 together with the drive unit 500.
[0044] At the same time, such as Figure 5 As shown, the storage unit 210 of the carrier 200 can be recessed to match the appearance shape of the mobile device M, and the opening 211 can be formed in the vertical direction in the portion of the storage unit 210 facing the tilting rod 400, so that the tilting rod 400 and the mobile device M come into contact with each other.
[0045] The storage unit 210 for housing the mobile device M is recessed to match the external shape of the mobile device M, minimizing the movement of the mobile device M due to vibration while housed in the storage unit 210. An opening 211 is formed in the portion of the storage unit 210 facing the tilting rod 400, allowing the tilting rod 400, located at the lower part of the carrier 200, to contact the mobile device M. Therefore, when the mobile device M is housed in the storage unit 210, it can be supported by the tilting rod 400. When the carrier 200 is removed, the mobile device M can be lifted upwards by tilting the tilting rod 400. In one embodiment, the length of the storage unit 210 in the front-rear direction is sufficiently ensured to allow the tilting operation of the tilting rod 400 to be performed smoothly.
[0046] The guide rail 300 is disposed on one side of the internal space of the housing 100, and the tilting rod 400 is disposed on one side of the storage unit 210 of the carrier 200 for mounting on the guide rail 300. Therefore, when the tilting rod 400 is tilted due to the removal of the carrier 200, one end of the moving device M is lifted upwards. As described above, with the guide rail 300 disposed on one side of the housing 100 and the tilting rod 400 disposed on one side of the carrier 200, interference with other components including the slide rail 110 is avoided. In particular, when the tilting rod 400 is tilted due to the removal of the carrier 200, one end of the moving device M is lifted upwards, thereby making it easier for the user to remove the moving device M from the carrier 200. That is, as from... Figure 5 As can be seen, the tilt bar 400 is located at the handle of the mobile device M. Therefore, when the mobile device M is lifted upward by tilting the bar 400, the handle of the mobile device M is exposed upward, so that the user can easily remove the mobile device M from the carrier 200 by holding the handle of the mobile device M.
[0047] The following text will describe in detail the movement and tilting operation of the tilting rod 400 on the guide rail 300. For example... Figures 6 to 8 As shown, the guide rail 300 is formed to extend in the front-rear direction, and a guide hole 310 is formed on one side of the guide rail 300 and extends straight in the front-rear direction, with the front portion of the guide hole 310 extending upward at an angle. A guide protrusion 410 is provided at the rear end of the tilting rod 400, which is configured to be disposed in the guide hole 310 so as to move along the guide hole 310 when the carrier 200 slides.
[0048] As described above, the guide hole 310 is formed in the guide rail 300 and extends straight in the front-rear direction, with the front portion of the guide hole 310 extending upward at an angle. When a guide protrusion 410, configured to be disposed in the guide hole 310, is provided at the rear end of the tilting rod 400, the guide protrusion 410 moves along the guide hole 310 when the carrier 200 is withdrawn or received. That is, when the carrier 200 is withdrawn, the guide protrusion 410 moves from the rear portion to the front portion of the guide hole 310 and moves upward at an angle along the inclined portion of the front portion of the guide hole 310, thereby enabling the tilting operation of the tilting rod 400.
[0049] Multiple guide protrusions 410 can be arranged at the rear end of the tilting rod 400 along its length. As described above, with multiple guide protrusions 410, the tilting rod 400 can be stably mounted on the guide rail 300, and the tilting operation of the tilting rod 400 can be accurately performed when the guide protrusions 410 are located at the front of the guide rail 300. As an example, two guide protrusions 410 can be provided. When the carrier 200 is withdrawn, one of the guide protrusions 410 can move to the foremost part of the guide rail 300 to be located at the end of the tilted portion, and the other guide protrusion 410 can be located between the horizontal portion and the tilted portion. Therefore, when the angle of the two guide protrusions 410 in the tilted portion of the guide hole 310 changes, the tilting operation of the tilting rod 400 can be performed, and the tilting state of the tilting rod 400 can be maintained due to the support of the guide protrusions 410.
[0050] Simultaneously, a support unit 420 protruding upwards to contact the moving device M can be provided at the front end of the tilting rod 400. That is, since the tilting rod 400 is located at the lower part of the carrier 200, the support unit 420 is formed to support the moving device M, which is placed on the upper part of the carrier 200. A damping material such as rubber can be applied to the support unit 420 to minimize contact damage to the moving device M when the support unit 420 contacts it. Alternatively, a roller can be applied to the support unit 420 so that even when the support unit 420 contacts the carrier 200 or the moving device M during movement, the rotation of the roller reduces friction, thereby preventing contact damage to the moving device.
[0051] The support unit 420 may include a first support member 421 and a second support member 422, which are disposed at the front end of the inclined rod 400 and spaced apart from each other in the longitudinal direction. The first support member 421 may be disposed at the foremost part of the inclined rod 400, and the second support member 422 may be disposed behind the first support member 421 and spaced apart from it. The protruding length of the first support member 421 may be less than the protruding length of the second support member 422.
[0052] In other words, the second support member 422 can protrude and contact the moving device M when the tilting rod 400 is not tilted, and the first support member 421 can protrude and contact the moving device M together with the second support member 422 when the tilting rod 400 is tilted.
[0053] As described above, the tilting rod 400 supports the mobile device M, which is placed in the carrier 200, via a support unit. The support unit includes a first support member 421 and a second support member 422 to stably support the mobile device M depending on whether the carrier 200 is extended or retracted. The first support member 421 is located at the foremost part of the tilting rod 400 and protrudes relatively shorter than the second support member 422. The second support member 422 is located behind and spaced apart from the first support member 421 and protrudes relatively longer than the first support member 421. Therefore, in the retracted state of the carrier 200, the second support member 422 of the tilting rod 400 provides single-point support for the mobile device M placed in the carrier 200. That is, in the retracted state of the carrier 200, the mobile device M is stably placed in the storage unit 210. Therefore, the mobile device M is supported at a single point by the second support member 422 of the tilting rod 400, thereby preventing the mobile device M from falling into the opening 211 formed in the storage unit 210, or preventing the mobile device M from shaking due to the opening 211. Simultaneously, when the carrier 200 is withdrawn, the tilting rod 400 tilts after moving along the guide rail 300. Therefore, the first support member 421 and the second support member 422 of the tilting rod 400 support the mobile device M at two points. That is, when the carrier 200 is withdrawn, the mobile device M is lifted upwards by the tilting rod 400, so that the first support member 421 and the second support member 422 simultaneously contact the mobile device M, thus ensuring the stability of the support for the mobile device M lifted upwards by the tilting rod 400.
[0054] At the same time, such as Figure 5 and Figure 9 As shown, the carrier 200 may be provided with a charger 230, which is configured to charge the mobile device using electrical energy, and a protective sheath 240 configured to protect the extension cable connected to the charger 230 may be provided at the lower part of the carrier 200.
[0055] Therefore, with the mobile device M housed in the carrier 200, it can be charged while the vehicle is in motion or when the vehicle is stationary, thereby improving the ease of use of the mobile device M. Specifically, for aesthetic and safety reasons, the extension cable for charging the charger 230 is located at the lower part of the carrier 200, and a protective sheath 240 is configured to protect the extension cable at the lower part of the carrier 200, thereby preventing contamination and damage to the extension cable. That is, in one embodiment of this disclosure, the drive unit 500 is located at the rear end of the carrier 200, and the charger 230 is mounted at the front end of the carrier 200, thereby minimizing structural interference between the drive unit 500 and the charger 230. Furthermore, the extension cable for charging the charger 230 is covered by the protective sheath 240 located at the lower part of the carrier 200, thereby preventing short circuits caused by contamination and damage to the extension cable.
[0056] Meanwhile, an indicator 250 may be provided at the front end of the carrier 200. The indicator 250 is configured to indicate whether the charger 230 or the mobile device M is being charged. The indicator 250 may be configured to change its color to indicate whether the charger 230 or the mobile device M is being charged.
[0057] In the vehicle-mounted mobile device carrier device with the above-described structure, the carrier 200, which houses the mobile device M, is not exposed under normal circumstances and is pulled out when the mobile device M is needed. Therefore, the convenience of the vehicle is improved while maintaining its aesthetic design. Furthermore, the carrier 200 is automatically pulled out of or stored in the vehicle, and when the carrier 200 is pulled out, the mobile device M is lifted upwards, making it easier for the user to remove the mobile device M from the carrier 200. In addition, the mobile device M can be charged within the carrier 200, further enhancing the ease of use of the mobile device M.
[0058] It is evident from the above description that the mobile device carrier equipment for a vehicle with the above structure has the following effects: the carrier for storing the mobile device is not exposed under normal circumstances and is pulled out when the mobile device is needed, thereby improving the convenience of the vehicle while maintaining the vehicle's appearance design; the carrier is automatically pulled out of or stored in the vehicle, and when the carrier is pulled out, the mobile device is lifted upwards, making it easier for the user to remove the mobile device from the carrier; and the carrier is automatically pulled out of or stored in the vehicle and can charge the mobile device in the carrier, thereby improving the ease of use of the mobile device.
[0059] Although exemplary forms of this disclosure have been described above with reference to the accompanying drawings, those skilled in the art will understand that this disclosure may be implemented in various other forms without altering the technical concept or features of this disclosure.
Claims
1. A mobile device carrier device for a vehicle, the mobile device carrier device comprising: The housing has an open interior space at the front, and the housing is provided with a pair of slide rails extending in the front-rear direction; The carrier slides along the pair of slide rails to be extracted from or stored in the interior space of the housing, wherein a storage unit for loading a moving device is formed in the carrier; A guide rail is disposed on the housing and spaced apart from the pair of slide rails, the guide rail extending along the front-rear direction, wherein the front portion of the guide rail extends at an upward angle. as well as A tilting rod, installed at the lower part of the storage unit of the carrier to support the moving device, moves along the guide rail when the carrier slides, and tilts upward from the front of the guide rail to lift the moving device upward when the carrier is pulled out. The storage unit of the carrier is recessed to match the external shape of the mobile device. An opening is formed in the vertical direction in the portion of the storage unit that faces the tilting rod, such that the tilting rod and the moving device are in contact with each other. The guide rail is formed to extend in the front-rear direction and is provided with a guide hole that extends straight in the front-rear direction. The front part of the guide hole is inclined upward. A guide protrusion is provided at the rear end of the tilting rod, and the guide protrusion is disposed in the guide hole so as to move along the guide hole when the carrier slides. Multiple guide protrusions are arranged at the rear end of the tilting rod along its length. A support unit protruding upwards to contact the moving device is provided at the front end of the tilting rod. The support unit includes a first support member and a second support member, which are disposed at the front end of the inclined rod and spaced apart from each other in the longitudinal direction. The first support member is located at the foremost part of the inclined rod, and the second support member is located behind the first support member and spaced apart from it. The protruding length of the first support member is less than the protruding length of the second support member. The second support protrudes and contacts the moving device when the tilting rod is not tilted, and The first support protrudes and contacts the moving device together with the second support when the tilting rod is tilted.
2. The mobile device carrier equipment according to claim 1, wherein, The slide rail groove is formed on one side of each of the pair of slide rails and extends in the front-rear direction, and A sliding portion, disposed in the slide rail groove for sliding along the slide rail groove, is formed on the carrier.
3. The mobile device carrier device according to claim 2, further comprising: A rack is formed at the upper end of each of the pair of slide rails and extends in the front-rear direction; as well as A drive unit is mounted at the rear end of the carrier, and the drive unit includes: A motor generates rotational power; as well as The linkage unit has a pinion that rotates due to the rotational power of the motor and meshes with the rack.
4. The mobile device carrier equipment according to claim 1, wherein, The guide rail is disposed on one side of the internal space of the housing, and The tilting rod is disposed on one side of the carrier's storage unit and mounted on the guide rail, such that when the tilting rod tilts due to the carrier being pulled out, one end of the moving device is lifted upward.
5. The mobile device carrier device according to claim 1, wherein, The carrier is equipped with a charger, which uses electrical energy to charge the mobile device. A protective sheath is provided at the bottom of the carrier, which protects the extension cable connected to the charger.
6. The mobile device carrier equipment according to claim 5, wherein, An indicator is provided at the front end of the carrier to indicate whether the charger or the charging status of the mobile device is being used.