Certificate delivery apparatus
The design of the card transfer device enables safe and disinfected transfer of cards between the first and second parties, solving the problem of cross-infection caused by direct contact and improving the hygiene, safety, and ease of operation of the transfer process.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- AISINO CORPORATION
- Filing Date
- 2023-12-11
- Publication Date
- 2026-06-30
Smart Images

Figure CN117466019B_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of transmission equipment technology, and in particular to a card transmission device. Background Technology
[0002] When conducting business at a service window, identification cards need to be passed for verification. The first party directly hands the card to the second party for verification, and the second party, after verifying the information, then hands the card back to the first party. Therefore, the card is directly passed between the first and second parties, potentially leaving viruses or bacteria carried by both parties on the card. This direct contact between the parties could lead to cross-infection due to viruses or bacteria carried by either party. Summary of the Invention
[0003] In view of this, embodiments of this application provide a card transfer device to disinfect the card during the transfer process between a first party and a second party, thereby ensuring the hygiene and safety of both parties during the card transfer process.
[0004] According to an embodiment of this application, a card transfer device is provided. The card transfer device is suitable for bidirectional transfer of cards between a first party and a second party, comprising: a main housing, the main housing having an installation cavity inside, the main housing having a transfer port and a retrieval port, the transfer port being opened on a first side wall of the main housing to allow the card to be bidirectionally transferred between the first party and the second party through the transfer port, the retrieval port being opened on the top wall of the main housing and extending to a second side wall adjacent to the top wall to retrieve the card from the installation cavity through the retrieval port, the second side wall being opposite to the first side wall; and a disinfection assembly, the disinfection assembly including multiple disinfection units disposed in the installation cavity to disinfect the card located in the installation cavity.
[0005] Optionally, the card transfer device further includes a guide member, which is pivotally disposed within the mounting cavity to switch between a first state and a second state. The rotation axis of the guide member is parallel to the first sidewall. When the card is transferred from the first direction to the second direction, the guide member is in the first state to guide the card from the transfer port into the mounting cavity. When the card is transferred from the second direction to the first direction, the guide member is in the second state to guide the card from the mounting cavity to the transfer port.
[0006] Optionally, the guide includes: a base plate, the base plate having first flanges at both ends along the rotation axis of the guide, the guide being pivotally connected to the mounting cavity via the first flanges; and a guide plate disposed on the base plate, the guide plate having a first included angle with the base plate, the first included angle being less than 90°; when the guide is in the first state, the base plate is parallel to the first sidewall, the opening of the first included angle faces the top wall, and the upper end of the guide plate is higher than the height of the transfer port; when the guide is in the second state, the base plate is parallel to the bottom wall of the main housing, the opening of the first included angle faces the first sidewall, and the plane of the base plate is at the same height as the transfer port.
[0007] Optionally, a limiting portion is provided on the side of the first sidewall facing the mounting cavity, and a second flange portion is provided on the side of the substrate parallel to the first sidewall. When the guide is in the second state, the second flange portion abuts against the limiting portion.
[0008] Optionally, the card transfer device further includes: a cover plate, which is pivotally mounted to the main housing and rotatable between a first position and a second position to close and open the retrieval port; the cover plate includes a pressing portion disposed on the side of the cover plate facing the mounting cavity; when the cover plate moves from the second position to the first position, the pressing portion of the cover plate can press against the guide, so that the guide switches from the second state to the first state; when the cover plate moves from the first position to the second position, the pressing portion of the cover plate can disengage from the guide, so that the guide switches from the first state to the second state.
[0009] Optionally, the guide further includes a pressure-bearing portion disposed on the substrate and positioned corresponding to the top pressure portion. The pivot connection between the first flange portion and the mounting cavity is located between the substrate and the pressure-bearing portion. The mass of the pressure-bearing portion is less than that of the substrate and the guide plate. When the cover plate closes the retrieval port, the top pressure portion abuts against the pressure-bearing portion, thereby switching the guide from the second state to the first state.
[0010] Optionally, the cover plate further includes a first latching portion disposed on the side of the cover plate facing the mounting cavity. The card transfer device further includes a motor and a second latching portion disposed in the mounting cavity. The motor is disposed in the mounting cavity, and the second latching portion is disposed on the output shaft of the motor. The first latching portion and the second latching portion are latched together to allow the cover plate to rotate between the first position and the second position via the motor.
[0011] Optionally, the card transfer device further includes: a delivery component, which is disposed on the side of the first sidewall opposite to the mounting cavity. The delivery component includes a delivery compartment and a delivery section. The opposite side walls of the delivery compartment are respectively provided with a first passage and a second passage. The second passage corresponds to the transfer port. The delivery section is disposed between the first passage and the second passage to transfer the card bidirectionally through the first passage and the second passage. Both the first passage and the second passage extend a guide channel toward the delivery section.
[0012] Optionally, the feeding part includes two rollers arranged parallel to each other in the vertical direction, and the rotation axes of the two rollers are parallel to the first sidewall.
[0013] Optionally, the card transfer device further includes: two partition frames, which are spaced apart within the mounting cavity to divide the mounting cavity into an assembly area and a disinfection area. The assembly area is located between the two partition frames and the side wall of the mounting cavity, and the disinfection area is located between the two partition frames. The disinfection area corresponds to the transfer port. A disinfection component is disposed on the partition frames to disinfect the cards in the disinfection area. The two ends of the guide are pivotally connected to the two partition frames, and the motor is disposed in the assembly area.
[0014] According to an embodiment of the present invention, a card transfer device is provided for bidirectional transfer of cards between a first party and a second party. The card is disinfected by a disinfection component disposed within the mounting cavity of the main housing. Specifically, when a card is transferred from the first party to the second party, the card first enters the mounting cavity through a transfer port, where it is disinfected by the disinfection component. The second party then retrieves the disinfected card through a retrieval port for verification. When a card is transferred from the second party to the first party, the second party first places the card in the mounting cavity, disinfects it using the disinfection component, and then transfers it to the first party through the transfer port. This ensures the safety and hygiene of the card during both bidirectional transfers between the first and second parties through disinfection. Attached Figure Description
[0015] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments recorded in the embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings.
[0016] Figure 1 This is a three-dimensional structural diagram of a card transfer device according to an embodiment of this application;
[0017] Figure 2This is a three-dimensional structural diagram of the cover plate of the card transfer device according to an embodiment of the present application at the second position, where the card is transferred from the first party to the mounting cavity;
[0018] Figure 3 This is a cross-sectional view of the cover plate of the card transfer device according to an embodiment of this application at a first position;
[0019] Figure 4 for Figure 3 Enlarged view of point A in the image;
[0020] Figure 5 This is a three-dimensional structural diagram of the card transfer device with the cover plate removed according to an embodiment of this application;
[0021] Figure 6 for Figure 5 Enlarged view of point B in the image;
[0022] Figure 7 This is a cross-sectional view of the cover plate of the card transfer device according to an embodiment of this application at a second position;
[0023] Figure 8 for Figure 7 Enlarged view of point C in the image;
[0024] Figure 9 This is a three-dimensional structural diagram of the cover plate of the card transfer device according to an embodiment of the present application at the second position, where the card is transferred from the second party to the first party;
[0025] Figure 10 This is a three-dimensional structural diagram of the guide component of the card transfer device according to an embodiment of this application;
[0026] Figure 11 This is a cross-sectional view of the delivery component of a card delivery device according to an embodiment of this application;
[0027] Figure 12 This is a three-dimensional structural diagram of the card delivery device according to an embodiment of this application, with the main housing removed.
[0028] Figure 13 for Figure 12 Enlarged view of point D in the image.
[0029] Explanation of reference numerals in the attached figures:
[0030] 1000 ID card transfer devices; 2000 ID cards;
[0031] Main box 100;
[0032] Installation cavity 110; Assembly area 111; Disinfection area 112;
[0033] Transfer port 120; retrieval port 130; first side wall 140; limiting part 141; second side wall 150;
[0034] Disinfection component 200; Disinfection unit 210;
[0035] Guide member 300; substrate 310; first flange 311; second flange 312;
[0036] Guide plate 320; pressure bearing part 330; first included angle 340;
[0037] Cover plate 400; pressing part 410; rotating part 411; first snap-fit part 420;
[0038] Motor 500; Second snap-fit part 510;
[0039] Delivery assembly 600; delivery compartment 610; delivery section 620; rollers 621; first passageway 630; second passageway 640; guide channel 650;
[0040] 700 divider; 800 controller. Detailed Implementation
[0041] To enable those skilled in the art to better understand the technical solutions in the embodiments of this application, the technical solutions in the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art should fall within the protection scope of the embodiments of this application.
[0042] The following is in conjunction with the instruction manual appendix. Figures 1-13 The card transfer device 1000 of this application embodiment is described in detail.
[0043] According to an embodiment of the present invention, a card transfer device 1000 is suitable for bidirectional transfer of cards 2000 between a first party and a second party. It should be noted that, in this document, "card 2000" is a general term for various documents, cards, certificates, and tickets. For example, card 2000 can be an ID card, ticket, or passport. The first party in this document can be the owner of the card 2000, such as the owner of an ID card or passport. The second party can be the party verifying the card 2000, such as personnel checking tickets at a station or customs personnel inspecting visas and passports.
[0044] The card transfer device 1000 of this invention can be used as a device for transferring cards 2000 between a first party and a second party. In other words, it can be applied to environments that require bidirectional transfer of cards 2000.
[0045] like Figure 1 and Figure 2 As shown, a card transfer device 1000 according to an embodiment of the present invention includes a main housing 100 and a disinfection component 200. The main housing 100 has an internal mounting cavity 110 for housing other structures within it, thereby protecting the internal structures. The disinfection component 200 includes multiple disinfection units 210 disposed within the mounting cavity 110 to disinfect cards 2000 located within it. Therefore, the main housing 100 effectively improves the disinfection effect on the cards 2000.
[0046] Specifically, such as Figure 2 and Figure 5 As shown, the main housing 100 has a transfer port 120 and a retrieval port 130. The transfer port 120 is located on the first side wall 140 of the main housing 100, allowing the ID card 2000 to be transferred bidirectionally between the first and second parties. In other words, when the ID card 2000 is transferred from the first party to the second party, it enters the mounting cavity 110 through the transfer port 120. Correspondingly, when the ID card 2000 is transferred from the second party to the first party, it is transferred to the first party through the transfer port 120.
[0047] Therefore, the circulation of the ID card 2000 between the first party and the second party is through the transfer port 120, avoiding direct transfer between the first party and the second party. The disinfection of the ID card 2000 by the disinfection component 200 prevents cross-infection of viruses that may be carried by either party during the transfer of the ID card 2000 between the first party and the second party.
[0048] like Figure 2 and Figure 5 As shown, the retrieval port 130 is located on the top wall of the main housing 100 and extends to the second side wall 150 adjacent to the top wall, so as to retrieve the card 2000 in the mounting cavity 110 through the retrieval port 130.
[0049] The second sidewall 150 is opposite to the first sidewall 140. That is, the second sidewall 150 corresponds to the first sidewall 140.
[0050] In some embodiments of the present invention, the second sidewall 150 and the first sidewall 140 may be arranged parallel in the front-to-back direction. For example... Figure 2 and Figure 5 The front-back direction is shown in the diagram. The top wall is the wall above the main box 100, which is adjacent to the second side wall 150, and the retrieval opening 130 is opened on both the top wall and the second side wall 150.
[0051] It should be noted that, as well as in the appendix to the instruction manual, Figures 1-13In this context, the directions "front and back", "left and right", and "up and down" are all consistent and correspond.
[0052] According to an embodiment of the present invention, a card transfer device 1000 is provided for bidirectional transfer of a card 2000 between a first party and a second party. The card 2000 is disinfected by a disinfection component 200 disposed in an mounting cavity 110 of the main housing 100. Specifically, when the card 2000 is transferred from the first party to the second party, the card 2000 first enters the mounting cavity 110 through a transfer port 120, whereby the disinfection component 2000 disinfects the card 2000 within the mounting cavity 110. The second party then retrieves the disinfected card 2000 through a retrieval port 130 for verification. When the card 2000 is transferred from the second party to the first party, the second party first places the card 2000 in the mounting cavity 110, disinfects it using the disinfection component 2000, and then transfers the card 2000 to the first party through the transfer port 120. This ensures the safety and hygiene of the ID card 2000 during both the first and second parties' two-way transfer process by disinfecting the ID card 2000.
[0053] In some embodiments of the present invention, the disinfection unit 210 may be multiple ultraviolet lamps, which disinfect the ID card 2000. After disinfection, the cover plate 400 is opened, and the ID card 2000 is removed for verification by a second party.
[0054] In some embodiments of the present invention, the disinfection unit 210 may be a plurality of disinfectant sprayers, which can spray disinfectant onto the ID card 2000 to disinfect the ID card 2000.
[0055] like Figures 2-8 As shown, the card transfer device 1000 also includes a guide 300. The guide 300 is pivotally mounted within the mounting cavity 110 to switch between a first state and a second state. The axis of rotation of the guide 300 is parallel to the first side wall 140, which, as mentioned earlier, can be the wall surface at the rear of the main housing 100. Therefore, the axis of rotation is parallel to the first side wall 140, meaning the guide 300 is positioned within the mounting cavity 110 along a left-right direction. Figure 3 and Figure 4 The diagram shown is a schematic representation of the guide 300 in its first state. Figure 7 and Figure 8 The diagram shown illustrates the guide 300 in its second state.
[0056] When the ID card 2000 is transferred from the first direction to the second direction, the guide 300 is in the first state to guide the ID card 2000 from the transfer port 120 into the mounting cavity 110. When the ID card 2000 is transferred from the second direction to the first direction, the guide 300 is in the second state to guide the ID card 2000 from the mounting cavity 110 into the transfer port 120.
[0057] Thus, the guide 300 can guide the movement direction of the card 2000.
[0058] Furthermore, such as Figure 10 The detailed structure of the guide 300 is shown. The guide 300 includes a base plate 310 and a guide plate 320. The base plate 310 has first flanges 311 at both ends along the rotation axis of the guide 300. As mentioned earlier, the rotation axis of the guide 300 is parallel to the first sidewall 140, and the base plate 310 is disposed within the mounting cavity 110 in a left-right direction. The two ends of the base plate 310 along the rotation axis of the guide 300 are the left and right ends of the base plate 310. The first flanges 311 at the left and right ends of the base plate 310 allow the guide 300 to be pivotally connected to the mounting cavity 110 via the first flanges 311; that is, the rotation of the guide 300 is achieved through the pivotal connection between the first flanges 311 at the left and right ends of the base plate 310 and the inner wall of the mounting cavity 110.
[0059] like Figure 10 As shown, the guide plate 320 is disposed on the substrate 310, and a first included angle 340 is formed between the guide plate 320 and the substrate 310, the first included angle 340 being less than 90°. (Refer to the attached specification.) Figure 4 It can be understood that the guide plate 320 is also disposed in the mounting cavity 110 in the left and right direction. One long side of the guide plate 320 is connected to one long side of the substrate 310, and the guide plate 320 and the substrate 310 form a certain angle, namely a first angle 340 less than 90°.
[0060] like Figure 3 and Figure 4 As shown, when the guide 300 is in the first state, the substrate 310 is parallel to the first sidewall 140, the opening of the first included angle 340 faces the top wall, and the upper end of the guide plate 320 is higher than the height of the transfer port 120. Figure 7 and Figure 8 As shown, when the guide 300 is in the second state, the substrate 310 is parallel to the bottom wall of the main housing 100, the opening of the first included angle 340 faces the first side wall 140, and the plane where the substrate 310 is located is at the same height as the transfer port 120.
[0061] Specifically, such as Figure 3 and Figure 4As shown. When the ID card 2000 is transferred from the first party to the second party, the guide 300 is in the first state, at which time the substrate 310 is parallel to the first sidewall 140, i.e., in a vertical state. Because there is a first angle 340 between the guide plate 320 and the substrate 310, the guide plate 320 extends obliquely upward from the substrate 310 as its base surface, gradually approaching the first sidewall 140, with the opening of the first angle 340 facing the top wall. Furthermore, the upper edge of the guide plate 320 is higher than the height of the passage opening. Thus, when the ID card 2000 passes through the transfer opening 120, it is guided by the inclined surface formed by the guide plate 320 and falls into the mounting cavity 110. The disinfection component 200 in the mounting cavity 110 then disinfects and sterilizes the ID card 2000.
[0062] Accordingly, such as Figure 7 and Figure 8 As shown. When the ID card 2000 is transferred from the second party to the first party, the guide 300 is in the second state. At this time, the base plate 310 is parallel to the bottom wall of the main housing 100, that is, the base plate 310 is in a horizontal state, and the opening of the first included angle 340 faces the first side wall 140. Since there is a first included angle 340 between the guide plate 320 and the base plate 310, the guide plate 320 extends downward at an incline from the base plate 310 and gradually approaches the first side wall 140. At this time, the base plate 310 is at the same height as the transfer port 120, that is, the base plate 310 can form a platform connected to the transfer port 120. Therefore, the second party can send the ID card into the transfer port 120 through the guide of the base plate 310, thereby allowing the ID card 2000 to be transferred to the first party through the transfer port 120. The overall structure is simple, convenient for the transfer of the ID card 2000, and has a transfer function for the ID card 2000, effectively guiding the movement of the ID card 2000.
[0063] like Figure 8 As shown, a limiting portion 141 is provided on the side of the first sidewall facing the mounting cavity 110, and a second flange portion 312 is provided on the side of the substrate 310 parallel to the sidewall 140. When the guide 300 is in the second state, the second flange portion 312 abuts against the limiting portion 141.
[0064] Specifically, such as Figure 8 As shown, the side of the substrate 310 parallel to the first sidewall 140 can be the side of the substrate 310 in the front-rear direction. A second flange portion 312 is provided on this side, which can serve as an abutment structure. In conjunction with the limiting portion 141, when the guide 300 changes from the first state to the second state, the abutment between the limiting portion 141 and the second flange portion 312 prevents the guide 300 from rotating excessively, which would cause the substrate 310 to fail to be at the same height as the transfer port 120 in the second state.
[0065] like Figure 1 and Figure 2As shown, the card transfer device 1000 also includes a cover plate 400. The cover plate 400 is pivotally mounted to the main housing 100 and is rotatable between a first position and a second position to close and open the retrieval port 130.
[0066] Specifically, when the cover plate 400 is in the first position, such as Figure 1 As shown. The cover plate 400 closes the access port 130, thereby protecting the internal structure. When in the second position, the cover plate 400, as... Figure 2 As shown. The cover plate 400 opens the retrieval port 130, allowing a second party to easily retrieve the ID card 2000 from the mounting cavity 110 through the retrieval port 130.
[0067] like Figure 2 and Figure 9 As shown, the cover plate 400 includes a pressing portion 410, which is disposed on the side of the cover plate 400 facing the mounting cavity 110. The pressing portion 410 can be a structure such as a push rod protruding from the surface of the cover plate 400.
[0068] like Figure 3 and Figure 4 As shown, when the cover plate 400 moves from the second position to the first position, the pressing portion 410 of the cover plate 400 can press against the guide 300, so that the guide 300 switches from the second state to the first state. Figure 7 and Figure 8 As shown, when the cover plate 400 moves from the first position to the second position, the pressing part 410 of the cover plate 400 can disengage from the guide 300, so that the guide 300 switches from the first state to the second state.
[0069] Therefore, by moving the cover plate 400, the guide 300 can be moved in conjunction with it, that is, switching between the first state and the second state, thereby guiding the card 2000, which is convenient, quick, simple in structure and easy to operate.
[0070] Furthermore, such as Figure 10 As shown, the guide 300 also includes a pressure-bearing portion 330 disposed on the substrate 310, and the pressure-bearing portion 330 corresponds to the position of the top pressure portion 410. Therefore, the guide 300 can be rotated by the contact between the pressure-bearing portion 330 and the top pressure portion 410, so that the guide 300 can switch between the first state and the second state.
[0071] Specifically, such as Figure 10As shown, the substrate 310 can be used as a reference plate. Both ends of the substrate 310 along its length are provided with first flanges 311. One long side of the substrate 310 is provided with a second flange 312. The long side of the substrate 310 without the second flange 312 is connected to the guide plate 320, and the two form a first included angle 340. At the end of the substrate 310 along its length, near the guide plate 320, a pressure-bearing portion 330 is provided. The plane of the pressure-bearing portion 330 is parallel to the plane of the substrate 310. That is, the pressure-bearing portion 330 is a plate parallel to the substrate 310. The position on the first flange 311 corresponding to the position between the substrate 310 and the pressure-bearing portion 330 is the pivotal connection point between the guide member 300 and the mounting cavity 110. Therefore, it can be understood that the masses on both sides of the pivot point of the guide member 300, i.e., the side of the substrate 310 and the side of the pressure-bearing portion 330, are not the same.
[0072] like Figure 4 As shown, when the cover plate 400 closes the access port 130, the pressing part 410 abuts against the pressure-bearing part 330. The pressure-bearing part 330 is pressed downwards, causing the guide 300 to rotate, thus switching the guide 300 from the second state to the first state. Figure 10 As shown, since the pivot connection between the first flange 311 and the mounting cavity 110 is located between the base plate 310 and the pressure-bearing part 330, the mass of the pressure-bearing part 330 is less than that of the base plate 310 and the guide plate 320. Therefore, it can be understood that the weights on both sides of the rotation axis of the guide member 300 are different. Thus, when the cover plate 400 is opened, since the pressing part 410 is disengaged from the pressure-bearing part 330, the mass of the pressure-bearing part 330 is less than that of the base plate 310 and the guide plate 320. The guide member 300 will rotate under the action of gravity, that is, rotate from the first state to the second state, and the base plate 310 will rotate from the vertical direction to the horizontal direction.
[0073] Therefore, it can be seen that the card transfer device 1000 of this embodiment realizes the coordinated movement of the guide 300 through the movement of the cover plate 400, thereby conveniently and quickly guiding the movement of the card 2000, and the operation is simple.
[0074] In other words, as the cover plate 400 opens, the guide 300 flips to its second state under gravity, where the substrate 310 is at the same height as the transfer port 120 and parallel to the bottom wall. After the ID card 2000 is verified, the second party lays the ID card 2000 flat along this plane and sends it to the first party. At the same time, the cover plate 400 closes. During the closing process, the pressing part 410 of the cover plate 400 presses against the guide 300 and causes the guide 300 to rotate to its first state.
[0075] Therefore, it can be understood that the guide 300 can automatically rotate synchronously during the opening or closing of the cover plate 400 without the need for additional power, which facilitates the second party to pick up and put away the card 2000, improves the user experience and efficiency, and also ensures hygiene and safety during the transfer of the card 2000.
[0076] In some embodiments of the present invention, such as Figure 4 As shown, the end of the pressing part 410 used to press against the bearing part 330 may be provided with a rotating member 411, such as a bearing or a pulley. Thus, when the pressing part 410 abuts against the bearing part 330, the rotating member 411 can smoothly press the bearing part 330 and prevent jamming.
[0077] like Figure 12 and Figure 13 As shown, the cover plate 400 also includes a first engaging portion 420, which is disposed on the side of the cover plate 400 facing the mounting cavity 110. The first engaging portion 420 can be an arc-shaped structure with a certain curvature, and its arc surface has locking teeth on its outer periphery. The card transfer device 1000 also includes a motor 500 and a second engaging portion 510. The motor 500 is disposed in the mounting cavity 110, and the second engaging portion 510 is disposed on the output shaft of the motor 500. The second engaging portion 510 can be a structure such as a gear. Therefore, the first engaging portion 420 and the second engaging portion 510 engage, that is, they can be engaged by gear meshing. The rotation of the motor 500 is synchronously transmitted to the first engaging portion 420, so that when the first engaging portion 420 rotates, it drives the cover plate 400 to rotate. Thus, the cover plate 400 rotates between a first position and a second position.
[0078] This allows for automatic opening and closing of the cover plate 400. Of course, the cover plate 400 can also be opened manually. Using a motor 500 to open and close the cover plate 400 makes it more intelligent, automated, convenient, and faster.
[0079] like Figure 11 As shown, the card delivery device 1000 also includes a delivery assembly 600. The delivery assembly 600 is disposed on the side of the first sidewall 140 opposite to the mounting cavity 110. Thus, it can be understood that one side of the first sidewall 140 is the mounting cavity 110, and the other side of the first sidewall 140 is the delivery assembly 600.
[0080] like Figure 12 As shown, the delivery assembly 600 includes a delivery compartment 610 and a delivery section 620. The delivery compartment 610 has a first passage 630 and a second passage 640 on its opposite side walls. The second passage 640 corresponds to the transfer port 120. The delivery section 620 is disposed between the first passage 630 and the second passage 640 to transfer the ID card 2000 bidirectionally through the first passage 630 and the second passage 640.
[0081] In other words, the main body of the delivery assembly 600 is the delivery compartment 610, with a first passage 630 and a second passage 640 corresponding to its two opposite side walls. A delivery section 620 is provided between the first passage 630 and the second passage 640, and the second passage 640 corresponds to the transfer port 120. Therefore, when the ID card 2000 enters the delivery compartment 610 through the first passage 630, it can be transferred to the second passage 640 through the delivery section 620, and then enters the mounting cavity 110 for disinfection through the transfer port 120.
[0082] Accordingly, after the ID card 2000 is transferred from the transfer port 120 to the second passage port 640, the delivery unit 620 will transfer the ID card 2000 from the second passage port 640 to the first passage port 630, and then deliver it to the first party. Thus, the delivery component 600 realizes the automatic bidirectional transfer of the ID card 2000.
[0083] Furthermore, both the first passageway 630 and the second passageway 640 extend a guide channel 650 towards the delivery section 620. For example... Figure 11 As shown, both guide channels 650 have a certain height, and the exits of both guide channels 650 point to the delivery section 620. Therefore, the movement trajectory of the card 2000 can be restricted to ensure that the card 2000 can be delivered to the delivery section 620 for automated transfer.
[0084] In some embodiments of the present invention, the delivery unit 620 includes two rollers 621 arranged parallel to each other in the vertical direction, and the rotation axes of the two rollers 621 are both parallel to the first side wall 140. Therefore, the card 2000 can be transferred between the two rollers 621 by relative rolling.
[0085] In some embodiments of the present invention, the card transfer device 1000 further includes two partition frames 700, which are spaced apart within the mounting cavity 110 to divide the mounting cavity 110 into an assembly area 111 and a disinfection area 112. The two partition frames 700 are arranged parallel to each other within the mounting cavity 110 and are perpendicular to the plane of the first sidewall 140. Figure 12 As shown, the assembly area 111 is located between the partition frame 700 and the side wall of the mounting cavity 110, and the disinfection area 112 is located between the two partition frames 700. The disinfection area 112 corresponds to the transfer port 120. Thus, the ID card 2000 can directly enter the disinfection area 112 for disinfection through the transfer port 120.
[0086] The disinfection component 200 is mounted on the partition frame 700 to disinfect the ID cards 2000 within the disinfection area 112. The guide 300 is pivotally connected to both ends of the partition frames 700, and the motor 500 is mounted on the assembly area 111. The partition frames 700 separate the space within the mounting cavity 110, allowing for a more rational structural layout within the mounting cavity 110.
[0087] Furthermore, in some embodiments of the present invention, such as Figure 1 and Figure 2 As shown. A controller 800 can be installed on the main housing 100. The output of the controller 800 can be electrically connected to the electrical components of the card transfer device 1000, and the input of the controller 800 can be electrically connected to an external power supply. Thus, the operation of the card transfer device 1000 can be controlled by the controller 800. For example, the controller 800 can control the opening and closing of the cover plate 400. Simultaneously, when the cover plate 400 is open, even if the card transfer device 1000 is currently disinfecting the card 2000 in the disinfection area 112, the disinfection operation will stop to prevent injury to the second party handling the card 2000. Correspondingly, when the card 2000 is placed in the disinfection area 112, the cover plate 400 can be closed, automatically starting the disinfection of the card 2000.
[0088] Of course, as mentioned above, the cover plate 400 can also be opened manually. At this time, even if the card transfer device 1000 is disinfecting the card 2000 in the disinfection area 112, its internal operation and processing method is the same as when the controller 800 controls the cover plate 400 to open, which will not be described again here.
[0089] The above embodiments are only used to illustrate the embodiments of this application, and are not intended to limit the embodiments of this application. Those skilled in the art can make various changes and modifications without departing from the spirit and scope of the embodiments of this application. Therefore, all equivalent technical solutions also fall within the scope of the embodiments of this application, and the patent protection scope of the embodiments of this application should be defined by the claims.
Claims
1. An identification card transfer apparatus adapted for bi-directional transfer of an identification card between a first party and a second party, characterised in that, include: The main housing has an internal mounting cavity, a transfer port and a retrieval port. The transfer port is located on the first side wall of the main housing to allow the card to be transferred bidirectionally between the first and second sides. The retrieval port is located on the top wall of the main housing and extends to the second side wall adjacent to the top wall to retrieve the card from the mounting cavity. The second side wall is opposite to the first side wall. A disinfection assembly, comprising multiple disinfection units disposed within the mounting cavity, for disinfecting the identification card located within the mounting cavity; It also includes: a guide, which is pivotally disposed within the mounting cavity to switch between a first state and a second state. The rotation axis of the guide is parallel to the first sidewall. When the card is transferred from the first direction to the second direction, the guide is in the first state to guide the card from the transfer port into the mounting cavity. When the card is transferred from the second direction to the first direction, the guide is in the second state to guide the card from the mounting cavity to the transfer port.
2. The card delivery apparatus according to claim 1, wherein The guide includes: The substrate has a first flange at both ends along the rotation axis of the guide, and the guide is pivotally connected to the mounting cavity through the first flange. A guide plate is disposed on the substrate, and a first included angle is formed between the guide plate and the substrate, wherein the first included angle is less than 90°. When the guide is in the first state, the substrate is parallel to the first side wall, the opening of the first included angle faces the top wall, and the upper end of the guide plate is higher than the height of the transfer port; when the guide is in the second state, the substrate is parallel to the bottom wall of the main housing, the opening of the first included angle faces the first side wall, and the plane on which the substrate is located is at the same height as the transfer port.
3. The card transfer apparatus according to claim 2, wherein The first sidewall is provided with a limiting portion on the side facing the mounting cavity, and the substrate is provided with a second flange portion on the side parallel to the first sidewall. When the guide is in the second state, the second flange portion abuts against the limiting portion.
4. The card transfer apparatus according to claim 2, wherein Also includes: A cover plate is pivotally mounted to the main housing and is rotatable between a first position and a second position to close and open the retrieval port. The cover plate includes a pressing portion disposed on the side of the cover plate facing the mounting cavity. When the cover plate moves from the second position to the first position, the pressing portion of the cover plate can press against the guide, so that the guide switches from the second state to the first state; when the cover plate moves from the first position to the second position, the pressing portion of the cover plate can disengage from the guide, so that the guide switches from the first state to the second state.
5. The card transfer apparatus according to claim 4, wherein The guide also includes a pressure-bearing part, which is disposed on the substrate and corresponds to the position of the top pressure part. The pivot connection between the first flange and the mounting cavity is located between the substrate and the pressure-bearing part. The mass of the pressure-bearing part is less than that of the substrate and the guide plate. When the cover plate closes the retrieval port, the top pressure part abuts against the pressure-bearing part, so that the guide switches from the second state to the first state.
6. The card transfer apparatus according to claim 4, wherein The cover plate also includes a first latching part, which is disposed on the side of the cover plate facing the mounting cavity. The card transfer device also includes a motor and a second latching part, which is disposed in the mounting cavity and the second latching part is disposed on the output shaft of the motor. The first latching part and the second latching part are latched together so that the cover plate can be rotated between the first position and the second position by the motor.
7. The card transfer apparatus according to claim 1, wherein Also includes: A delivery assembly is disposed on the side of the first sidewall opposite to the mounting cavity. The delivery assembly includes a delivery compartment and a delivery section. The opposite side walls of the delivery compartment are respectively provided with a first passage and a second passage. The second passage corresponds to the transfer port. The delivery section is disposed between the first passage and the second passage to bidirectionally transfer the card through the first passage and the second passage. Both the first passage and the second passage extend a guide channel toward the delivery section.
8. The card transfer apparatus according to claim 7, wherein The feeding section includes two rollers arranged parallel to each other in the vertical direction, and the rotation axes of the two rollers are parallel to the first sidewall.
9. The card transfer apparatus according to claim 6, wherein Also includes: Two partitions are spaced apart within the mounting cavity to divide it into an assembly area and a disinfection area. The assembly area is located between the two partitions and the side wall of the mounting cavity, while the disinfection area is located between the two partitions. The disinfection area corresponds to the transfer port. A disinfection component is disposed on the partitions to disinfect the cards within the disinfection area. The two ends of the guide are pivotally connected to the two partitions. The motor is disposed in the assembly area.