A transplanting device for the storage and management of car keys and certificates of conformity.

By designing a transplanting device for the storage and management of car keys and certificates, and utilizing transplanting robots and tag recognition technology, the automated management of keys and certificates has been achieved, solving the problems of high workload and poor accuracy in traditional methods and improving management efficiency.

CN224428782UActive Publication Date: 2026-06-30BAIC CCL CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BAIC CCL CO LTD
Filing Date
2025-07-24
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

In existing technologies, the storage and management of car keys and certificates of conformity involves a large workload and poor accuracy. Traditional methods require manual matching, resulting in low efficiency.

Method used

Design a transplanting device for the storage and management of car keys and certificates of conformity. Utilize a transplanting robot and label recognition technology to achieve automated management of keys and certificates through a window interface. Labels are set on the material box for identification and positioning, and the robot enables automated operation.

Benefits of technology

It has enabled automated warehouse management of car keys and certificates of conformity, reducing workload and improving the accuracy and efficiency of outbound and inbound operations.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model provides a transplanting device for the storage and management of car keys and certificates of conformity, relating to the technical field of storage and management equipment for car keys and certificates of conformity. It includes: a support frame, positioned near a wall inside a storage room; a transplanting rack, positioned on top of the support frame, the transplanting rack having a junction groove and at least one interactive groove, the top wall and side wall near the interior of the storage room of the junction groove being open, and a label recognition component being provided on the side wall near the wall of the junction groove; the interactive groove corresponding to a window, and its top wall and side wall near the window being open; a material box, cooperating with the junction groove and interactive groove of the box, for holding car keys and certificates of conformity, with a first label provided on one end of the material box near the wall; and a transplanting robot, including a two-axis moving mechanism positioned above the transplanting rack and a clamping mechanism connected to the two-axis moving mechanism, the clamping mechanism being capable of clamping the material box; This solves the problems of high workload and poor accuracy in the storage and management of car keys and certificates of conformity in the prior art.
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Description

Technical Field

[0001] This utility model belongs to the technical field of car key and certificate of conformity storage management equipment, and more specifically, relates to a transplanting device for car key and certificate of conformity storage management. Background Technology

[0002] In automotive warehousing, a large number of vehicles correspond to a large number of car keys and certificates of conformity. Each key and certificate is uniquely associated with a specific vehicle. Therefore, storing such a large quantity of keys and certificates requires significant manpower and is prone to errors. Traditionally, many car keys are stored in key storage cabinets, each bearing the corresponding vehicle's VIN code. Certificates are stored in separate cabinets. When a vehicle is taken out of the warehouse or borrowed, the warehousing staff must locate the key based on the driver's requested key information (VIN code), and sometimes also search for the corresponding certificate. This process is not only labor-intensive but also inaccurate. Utility Model Content

[0003] The purpose of this invention is to address the shortcomings of existing technologies by providing a transfer device for the storage and management of car keys and certificates of conformity, thereby solving the problems of high workload and poor accuracy in the storage and management of car keys and certificates of conformity in existing technologies.

[0004] To achieve the above objectives, this utility model provides a transfer device for the storage and management of car keys and certificates of conformity, which is installed inside a storage room, the walls of which are provided with windows, including:

[0005] A support frame is installed inside the storage room near a wall;

[0006] A transplanting rack is provided on the upper side of the support frame. The transplanting rack is provided with a junction groove and at least one interactive groove. The top wall and the side wall near the interior of the storage room of the junction groove are open. A label recognition component is provided on the side wall of the junction groove near the wall. The interactive groove corresponds to the window. The top wall and the side wall near the window of the interactive groove are open.

[0007] The material box cooperates with the interaction groove of the junction box. The material box is used to hold car keys and certificates of conformity. A first label is provided on the end face of the material box near the wall.

[0008] The transplanting robot includes a two-axis moving mechanism disposed above the transplanting frame and a clamping mechanism connected to the two-axis moving mechanism, the clamping mechanism being capable of clamping the material box.

[0009] Optionally, an infrared sensor is provided at the bottom of the junction slot and each of the interaction slots.

[0010] Optionally, an indicator light is provided on the side of the transplanter near the window, and each indicator light corresponds to one of the interaction slots.

[0011] Optionally, a set of through-beam sensors is provided on the side of the transplanter closest to the window and the side furthest from the window, and the optical path of the through-beam sensors is located outside the set position of the material box.

[0012] Optionally, it also includes an alarm connected to the wall and the beam sensor, and capable of emitting an alarm signal when the light path of the beam sensor is blocked.

[0013] Optionally, the transplanting frame includes a base plate and a first upright plate and a second upright plate disposed on the base plate. The junction groove is formed between the two first upright plates. A limiting component is provided on the side of the junction groove near the wall. The interaction groove is formed between adjacent second upright plates. A baffle is provided on the side of the interaction groove near the interior of the storage room.

[0014] Optionally, each first upright plate includes two first sub-plates, with a first gap between the two first sub-plates, and a first bend forming a tendency to approach each other on the upper side and the side near the interior of the storage room of the two first sub-plates. Each second upright plate includes two second sub-plates, with a second gap between the two second sub-plates, and a second bend forming a tendency to approach each other on the upper side and the side near the window of the two second sub-plates.

[0015] Optionally, the first label is provided with a barcode, and the label recognition component is a first barcode scanning component.

[0016] Optionally, the material box is rectangular, with its upper surface open to form a certificate of conformity retrieval opening. One side of the material box and the end of the material box away from the wall are provided with a key retrieval opening. The end of the material box away from the wall is provided with a label slot for placing a second label attached to the key. The label slot is provided with a protrusion that protrudes outward from the material box.

[0017] Optionally, the two-axis moving mechanism includes a horizontal moving component and a vertical moving component. The vertical moving component is connected to the moving end of the horizontal moving component, and the clamping mechanism is connected to the moving end of the vertical moving component. The clamping mechanism includes a support beam connected to the moving end of the vertical moving component, and a pneumatic gripper is provided at each end of the support beam.

[0018] This utility model provides a transplanting device for the storage and management of car keys and certificates of conformity. Its advantages are as follows: the transplanting device can be installed near a window in the storage room, with the window serving as an interface between the storage room and the outside, facilitating the retrieval and return of storage boxes. The storage boxes can accommodate the car keys and certificates of a single vehicle, unifying storage and reducing management complexity. The storage boxes are used for storage within the storage room. When car keys and certificates of conformity are received, an empty storage box can be placed into the transfer slot of the transplanting rack. A label recognition component on one side of the transfer slot can identify the first label on the end face of the storage box, easily identifying the storage box used. This is facilitated by the gripping and moving operation of the transplanting robot. Once identified, the material box can be moved to an interaction slot. The warehouse keeper can retrieve the material box from the window and place the car key and certificate of conformity into it. Then, the transfer robot moves it to the transfer slot for storage. When the car key and certificate of conformity are to be shipped out, for example, when the car needs to be shipped out, the material box can be easily located based on the first label on it and placed into the transfer slot. The label recognition component ensures the accuracy of the outbound shipment. Then, the transfer robot moves the material box to the interaction slot so that the warehouse keeper can retrieve the car key and certificate of conformity. The empty material box can be returned to the interaction slot and moved to the transfer slot by the transfer robot for storage, ready for the next use.

[0019] Other features and advantages of this invention will be described in detail in the following detailed description section. Attached Figure Description

[0020] The above and other objects, features and advantages of the present invention will become more apparent from the accompanying drawings, in which like reference numerals generally represent like parts.

[0021] Figure 1 A schematic diagram of a transplanting device for the storage and management of car keys and certificates of conformity is shown according to an embodiment of the present invention.

[0022] Figure 2 A schematic diagram of the structure of a transplanting frame for a transplanting device for the storage and management of car keys and certificates of conformity, according to an embodiment of the present invention, is shown.

[0023] Figure 3 The diagram shows a top view of a transplanting frame for a transplanting device for the storage and management of car keys and certificates of conformity, according to an embodiment of the present invention.

[0024] Figure 4A schematic diagram of the structure of the first upright plate of a transplanting device for the storage and management of car keys and certificates of conformity, according to an embodiment of the present invention, is shown.

[0025] Figure 5 A schematic diagram of the structure of the second upright plate of a transplanting device for the storage and management of car keys and certificates of conformity, according to an embodiment of the present invention, is shown.

[0026] Figure 6 A schematic diagram of the material box of a transplanting device for the storage and management of car keys and certificates of conformity is shown according to an embodiment of the present invention.

[0027] Explanation of reference numerals in the attached figures:

[0028] 1. Wall; 2. Window; 3. Bracket; 4. Transplant rack; 5. Transfer groove; 6. Interaction groove; 7. Material box; 8. Transplanting robot; 9. Clamping mechanism; 10. Infrared sensor; 11. Indicator light; 12. Through-beam sensor; 13. Limiting component; 14. Baffle; 15. First sub-plate; 16. First bending part; 17. Second sub-plate; 18. Second bending part; 19. First support cylinder; 20. Second support cylinder; 21. First scanning component; 22. Certificate of conformity retrieval port; 23. Key retrieval port; 24. Label slot; 25. Protrusion. Detailed Implementation

[0029] Preferred embodiments of the present invention will now be described in more detail. While preferred embodiments of the present invention are described below, it should be understood that the present invention can be implemented in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided to make the present invention more thorough and complete, and to fully convey the scope of the present invention to those skilled in the art.

[0030] like Figures 1 to 3 As shown, this utility model provides a transfer device for the storage and management of car keys and certificates of conformity, which is installed inside a storage room. A window 2 is provided on the wall 1 of the storage room. The device includes:

[0031] Support 3 is installed inside the storage room near wall 1;

[0032] Transplanter 4 is located on the upper side of support 3. Transplanter 4 is provided with a junction groove 5 and at least one interactive groove 6. The top wall and the side wall near the interior of the storage room of junction groove 5 are open. A label recognition component is provided on the side wall of junction groove 5 near wall 1. Interactive groove 6 corresponds to window 2. The top wall and the side wall near window 2 of interactive groove 6 are open.

[0033] Material box 7, material box 7 cooperates with the junction groove 5 and the interaction groove 6. Material box 7 is used to hold car keys and certificates of conformity. A first label is provided on the end face of material box 7 near the wall 1.

[0034] The transplanting robot 8 includes a two-axis moving mechanism disposed above the transplanting frame 4 and a clamping mechanism 9 connected to the two-axis moving mechanism. The clamping mechanism 9 is capable of clamping the material box 7.

[0035] Specifically, to address the problems of high workload and poor accuracy in the storage and management of car keys and certificates of conformity in existing technologies, this utility model provides a transplanting device for the storage and management of car keys and certificates of conformity. This device can be installed near window 2 in the storage room. Window 2 serves as an interface between the storage room and the outside, facilitating the retrieval and return of the material box 7. The material box 7 can accommodate the car keys and certificates of conformity for one car, unifying the storage of car keys and certificates of conformity and reducing management difficulty. The material box 7 is used for storage inside the storage room. When car keys and certificates of conformity are received, an empty material box 7 can be placed into the transfer slot 5 of the transplanting rack 4. The label recognition component on one side of the transfer slot 5 can recognize the first label on the end face of the material box 7, easily identifying the material box 7 used. During the gripping and movement of the transplanting robot 8... After identification, the material box 7 can be moved to an interaction slot 6. The warehouse keeper can take out the material box 7 from the window 2 and put the car key and certificate of conformity into the material box 7. Then, the transfer robot 8 moves it to the transfer slot 5 so that the material box 7 can be stored. When the car key and certificate of conformity are to be shipped out, for example, when the car needs to be shipped out, the material box 7 can be easily found according to the first label on the material box 7 and put into the transfer slot 5. The identification of the first label by the label identification component can ensure the accuracy of the outbound shipment. Then, the material box 7 can be moved to the interaction slot 6 by the transfer robot 8 so that the warehouse keeper can take away and take out the car key and certificate of conformity. The empty material box 7 can be put back into the interaction slot 6 and moved to the transfer slot 5 by the transfer robot 8 so that the empty material box 7 can be stored and wait for the next use.

[0036] Optionally, multiple interaction slots 6 are provided.

[0037] Specifically, the arrangement of multiple interactive slots 6 can improve the processing capacity of the transplanting device and increase its work efficiency.

[0038] In this embodiment, five interactive slots 6 are provided on both sides of the junction slot 5, and correspondingly, two windows 2 are provided, with the two windows 2 respectively located on both sides of the corresponding position of the junction slot 5.

[0039] Furthermore, each storage room can be equipped with two or more transplanting devices for the storage and management of car keys and certificates of conformity, and when arranged side by side, they can share the same transplanting robot arm 8.

[0040] Optionally, an infrared sensor 10 is provided at the bottom of the junction slot 5 and each interaction slot 6.

[0041] Specifically, the infrared sensor 10 can detect the position of the material box 7 in the transfer groove 5 and the interaction groove 6, thus achieving the effect of position detection.

[0042] Optionally, an indicator light 11 is provided on the side of the transplanter 4 near the window 2, and each indicator light 11 corresponds to an interaction slot 6.

[0043] Specifically, the indicator light 11 is configured to provide an indicator signal facing outward from the window 2 for each interactive slot 6. For example, when the interactive slot 6 is empty, the indicator light 11 provides one indicator signal, and when there is a material box 7 in the interactive slot 6, it provides another indicator signal. The change of the indicator signal can be the opening and closing of the indicator light 11, or the change of the light color of the indicator light 11.

[0044] Optionally, a set of through-beam sensors 12 are respectively provided on the side of the transplanter 4 near the window 2 and the side away from the window 2, and the optical path of the through-beam sensors 12 is located outside the set position of the material box 7.

[0045] Specifically, the through-beam sensor 12 is used to detect the position of the material box 7 in the interaction groove 6. The material box 7 is set between the two parallel optical paths of the two sets of through-beam sensors 12. If the material box 7 blocks the optical path of one set of through-beam sensors 12, it is determined that the position of the material box 7 is incorrect.

[0046] Optionally, it also includes an alarm, which is connected to the wall 1 and the beam sensor 12, and is able to emit an alarm signal when the light path of the beam sensor 12 is blocked.

[0047] Specifically, the alarm can issue an alarm signal when the material is in the wrong position, reminding the warehouse keeper that there is a problem with the operation and that timely manual intervention is required.

[0048] In this embodiment, the alarm is an audible and visual alarm, which is installed on the outside of wall 1.

[0049] Furthermore, the alarm can also be connected to the infrared sensor 10 to issue an alarm signal when the material box 7 is not in place, reminding the warehouse keeper that there is a problem with the operation and that timely manual intervention is required; the alarm can issue different types of alarm signals, such as different lights and / or different sounds.

[0050] Optionally, the transplanter 4 includes a base plate and a first upright plate and a second upright plate disposed on the base plate. A junction groove 5 is formed between the two first upright plates. A limiting component 13 is provided on the side of the junction groove 5 near the wall 1. An interactive groove 6 is formed between adjacent second upright plates. A baffle 14 is provided on the side of the interactive groove 6 near the interior of the storage room.

[0051] Specifically, there are two first uprights, forming an interchange groove 5 between the two first uprights. The limiting component 13 is used to limit the material box 7 placed in the interchange groove 5, improving the convenience of placing the material box 7. The number of second uprights is set according to the number of interaction grooves 6, ensuring that an interaction groove 6 is formed between two adjacent second uprights. The baffle 14 has a similar function to the limiting component 13, which facilitates the limiting of the material box 7 when the warehouse keeper puts it into the interaction groove 6 from outside the window 2.

[0052] In this embodiment, the limiting component 13 includes a cylinder and a limiting block connected to the telescopic end of the cylinder. It can not only limit the material box 7, but also push the material box 7 through the operation of the cylinder to make fine adjustments to the position of the material box 7, so as to ensure that the position of the material box 7 after being translated by the transfer robot 8 and placed into the interactive groove 6 is adjustable and improves accuracy.

[0053] Optionally, each first upright panel includes two first sub-panels 15, with a first gap between the two first sub-panels 15, and a first bend 16 forming a tendency to approach each other on the upper side and the side near the interior of the storage room of the two first sub-panels 15. Each second upright panel includes two second sub-panels 17, with a second gap between the two second sub-panels 17, and a second bend 18 forming a tendency to approach each other on the upper side and the side near the window 2 of the two second sub-panels 17.

[0054] Specifically, such as Figure 4 and Figure 5 As shown, two first sub-plates 15 are connected to form a first vertical plate. The first bending portion 16 bends towards each other, forming an outwardly tapering structure on the top of the first vertical plate and on the side near the interior of the storage chamber. This makes the open part of the junction groove 5 form a flared guide structure, which facilitates the insertion of the material box 7. Similarly, the setting of the second bending portion 18 also forms a flared guide structure on the open part of the junction groove 6, which facilitates the insertion of the material box 7.

[0055] In this embodiment, a first support cylinder 19 is provided between the two first sub-plates 15, and the two first sub-plates 15 are respectively connected to the first support cylinder 19 by screws to form a first upright plate. A second support cylinder 20 is provided between the two second sub-plates 17, and the two second sub-plates 17 are respectively connected to the second support cylinder 20 by screws to form a second upright plate.

[0056] Optionally, the first label is provided with a barcode, and the label recognition component is the first barcode scanning component.

[0057] Specifically, a barcode is affixed to the material box 7. When the material box 7 is placed in the transfer slot 5, the first scanning component can identify the material box 7 by scanning the barcode.

[0058] Optionally, the material box 7 is rectangular, with the upper surface of the material box 7 open to form a certificate retrieval opening 22. One side of the material box 7 and the end of the material box 7 away from the wall 1 are provided with a key retrieval opening 23. The end of the material box 7 away from the wall 1 is provided with a label slot 24 for placing a second label for key attachment. The label slot 24 is provided with a protrusion 25 that protrudes outward from the material box 7.

[0059] Specifically, such as Figure 6 As shown, the material box 7 adopts a rectangular box-shaped structure, similar in shape to a document box. To facilitate the retrieval and placement of the certificate, the entire upper surface of the material box 7 is open, forming a certificate retrieval and placement opening 22. A first through groove is provided in the middle of the short side end face of the material box 7, and a second through groove is provided on the large surface of the material box 7. The first through groove and the second through groove are connected to form a key retrieval and placement opening 23, which facilitates the retrieval and placement of the car key into the material box 7. At the same time, a label slot 24 is provided near the first through groove, and the second label hanging on the car key can be easily inserted into the label slot 24, exposing the identification information on the second label. The protrusion 25 is designed to contact the baffle 14 to further limit and position the material box 7. If the material box 7 is correctly placed into the interaction slot 6 from the window 2, the protrusion 25 contacts the baffle 14, and the material box 7 will not block the light path of the through-beam sensor 12. If the material box 7 is placed in reverse when it is placed into the interaction slot 6 from the window 2, the end face of the material box 7 contacts the baffle 14, which will block the light path of the through-beam sensor 12.

[0060] In this embodiment, the label slot 24 has an opening at one end near the key slot 23, and a transparent wall panel is provided on the outside of the label slot 24 to facilitate the second label being exposed after insertion; in this embodiment, the protrusion 25 is two protruding strip-shaped components, and an installation groove is provided on the side of the strip-shaped components close to each other, and the transparent wall panel is placed in the installation groove; in this embodiment, the second label is provided with a QR code to reflect the VIN code of the corresponding vehicle.

[0061] Optionally, the two-axis moving mechanism includes a horizontal moving component and a vertical moving component. The vertical moving component is connected to the moving end of the horizontal moving component, and the clamping mechanism 9 is connected to the moving end of the vertical moving component. The clamping mechanism 9 includes a support beam connected to the moving end of the vertical moving component, and a pneumatic gripper is provided at each end of the support beam.

[0062] Specifically, the lateral movement component includes a lateral guide rail and a lateral slider. The lateral slider slides along the lateral guide rail and is driven to move along the lateral guide rail by a first drive mechanism. The vertical movement component includes a vertical guide rail and a vertical slider. The vertical guide rail is connected to the lateral slider and slides along the vertical guide rail. The vertical slider is driven to move along the vertical guide rail by a second drive mechanism. The support beam is connected to the vertical slider and can move together with the vertical slider. The pneumatic gripper includes a gripper cylinder and a pair of grippers. The gripper cylinder drives the pair of grippers to open and close, thereby clamping and releasing the material box 7.

[0063] In this embodiment, a first synchronous belt is embedded inside the horizontal guide rail, a first motor is connected to the horizontal guide rail, the first motor is connected to the first synchronous pulley of the first synchronous belt, and the horizontal slider is connected to the first synchronous belt. A second synchronous belt is embedded inside the vertical guide rail, a second motor is connected to the vertical guide rail, the second motor is connected to the second synchronous pulley of the second synchronous belt, and the vertical slider is connected to the second synchronous belt.

[0064] In summary, when using the transplanting device for the storage management of car keys and certificates of conformity provided by this utility model, taking the entry of car keys and certificates of conformity into the warehouse as an example: the storage room is equipped with a shelf for placing material boxes 7 and a storage robot arm capable of grabbing and moving the material boxes 7. The storage robot arm can grab an empty material box 7 and transfer it to the transfer slot 5 of the transplanting rack 4. Of course, this process can also be manually completed by the warehouse keeper inside the storage room. The first barcode scanning component on one side of the transfer slot 5 scans the barcode on the end face of the material box 7 to identify the material box 7 used this time. Then, under the gripping and moving action of the transplanting robot arm 8, the material box 7 is moved into an interaction slot 6. The warehouse keeper outside the storage room takes out the material box 7 through the window 2 and puts the car keys and certificates of conformity in the storage room. The empty box 7 is placed into the warehouse, and then the transfer robot 8 moves it to the transfer slot 5. After that, the warehouse robot or a person moves the box 7 to the shelf, completing the storage of the box 7. Taking the release of a car key and certificate of conformity as an example: After the warehouse keeper receives the release information, the person or the warehouse robot takes out the corresponding box 7 and puts it into the transfer slot 5. The barcode is identified by the first barcode scanning component to avoid taking the wrong box 7. Then, under the action of the transfer robot 8, the box 7 is moved to the interaction slot 6 so that the warehouse keeper outside the warehouse can take the box 7 and take out the car key and certificate of conformity. After that, the empty box 7 is put back into the interaction slot 6, and the transfer robot 8 moves it to the transfer slot 5. Then, the warehouse robot or a person moves the empty box 7 to the shelf, waiting for the next use.

[0065] The various embodiments of the present invention have been described above. These descriptions are exemplary and not exhaustive, nor are they limited to the disclosed embodiments. Many modifications and variations will be apparent to those skilled in the art without departing from the scope and spirit of the described embodiments.

Claims

1. A transfer device for the storage and management of car keys and certificates of conformity, for installation inside a storage room, wherein windows are provided on the walls of the storage room, characterized in that, include: A support frame is installed inside the storage room near a wall; A transplanting rack is provided on the upper side of the support frame. The transplanting rack is provided with a junction groove and at least one interactive groove. The top wall and the side wall near the interior of the storage room of the junction groove are open. A label recognition component is provided on the side wall of the junction groove near the wall. The interactive groove corresponds to the window. The top wall and the side wall near the window of the interactive groove are open. The material box cooperates with the interaction groove of the junction box. The material box is used to hold car keys and certificates of conformity. A first label is provided on the end face of the material box near the wall. The transplanting robot includes a two-axis moving mechanism disposed above the transplanting frame and a clamping mechanism connected to the two-axis moving mechanism, the clamping mechanism being capable of clamping the material box.

2. The transplanting device for the storage and management of car keys and certificates of conformity according to claim 1, characterized in that, An infrared sensor is installed at the bottom of each of the transfer slots and each of the interaction slots.

3. The transplanting device for the storage and management of car keys and certificates of conformity according to claim 1, characterized in that, The transplanter is equipped with an indicator light on the side near the window, and each indicator light corresponds to one of the interaction slots.

4. The transplanting device for the storage and management of car keys and certificates of conformity according to claim 1, characterized in that, A set of through-beam sensors is provided on the side of the transplanter closest to the window and the side furthest from the window, respectively, and the optical path of the through-beam sensors is located outside the set position of the material box.

5. The transplanting device for the storage and management of car keys and certificates of conformity according to claim 4, characterized in that, It also includes an alarm that is connected to the wall and the beam sensor, and is capable of emitting an alarm signal when the light path of the beam sensor is blocked.

6. The transplanting device for the storage and management of car keys and certificates of conformity according to claim 1, characterized in that, The transplanting frame includes a base plate and a first upright plate and a second upright plate disposed on the base plate. The junction groove is formed between the two first upright plates. A limiting component is provided on the side of the junction groove near the wall. The interaction groove is formed between adjacent second upright plates. A baffle is provided on the side of the interaction groove near the interior of the storage room.

7. The transplanting device for the storage and management of car keys and certificates of conformity according to claim 6, characterized in that, Each first upright plate includes two first sub-plates, with a first gap between the two first sub-plates. The upper side and the side of the two first sub-plates near the interior of the storage room are provided with a first bend that tends to move closer to each other. Each second upright plate includes two second sub-plates, with a second gap between the two second sub-plates. The upper side and the side of the two second sub-plates near the window are provided with a second bend that tends to move closer to each other.

8. The transplanting device for the storage and management of car keys and certificates of conformity according to claim 1, characterized in that, The first label is provided with a barcode, and the label recognition component is a first barcode scanning component.

9. The transplanting device for the storage and management of car keys and certificates of conformity according to claim 1, characterized in that, The material box is rectangular in shape, with an open top surface forming a certificate of conformity retrieval opening. One side of the material box and the end of the material box away from the wall are provided with a key retrieval opening. The end of the material box away from the wall is provided with a label slot for placing a second label attached to the key. The label slot is provided with a protrusion that protrudes outward from the material box.

10. The transplanting device for the storage and management of car keys and certificates of conformity according to claim 1, characterized in that, The two-axis moving mechanism includes a horizontal moving component and a vertical moving component. The vertical moving component is connected to the moving end of the horizontal moving component. The clamping mechanism is connected to the moving end of the vertical moving component. The clamping mechanism includes a support beam connected to the moving end of the vertical moving component. A pneumatic gripper is provided at each end of the support beam.