Bank card destroying device

Abstract

The application provides a bank card destroying device, relates to the field of financial technology or other related technical fields. The box body comprises a polishing box, a cutting box and a storage box, the polishing box and the cutting box are arranged side by side along the length direction, and the storage box is located below the polishing box and the cutting box. The support assembly is located in the cutting box, the clamping table fixes the bank card, and the bank card chip corresponds to the first opening of the storage box below. The longitudinal blade and the drill bit of the chip separation assembly correspond to the upper side of the chip, the first driving part drives the drill bit downward to punch a hole on the chip, and the first driving part drives the longitudinal blade downward to separate the chip. The second driving part of the account number elimination assembly drives the polishing plate to rub on the bank card. The card cutting assembly is located in the cutting box along the width direction, the card cutting assembly is arranged on one side of the support assembly, and the third driving part of the card cutting assembly can drive the transverse blade to cut the bank card into multiple card strips. The bank card destroying device can solve the problem of information leakage caused by discarded bank cards.

Description

Technical Field

[0001] This application relates to the field of financial technology or other related technical fields, specifically to a bank card destruction device. Background Technology

[0002] Most bank cards on the market are financial IC cards. The main information on a financial IC card generally includes three parts: the card number, the magnetic stripe, and the chip. When a bank card expires and needs to be replaced, when a bank card has been used for many years and needs to be replaced with a new one, or when a chip card replaces a magnetic stripe card, the old bank card needs to be destroyed to prevent the leakage of customer information.

[0003] Banks and other financial institutions are typically equipped with bank card destruction devices. These devices allow bank staff to assist customers in disposing of unwanted bank cards, saving customers time spent waiting in line and reducing pressure on counter service.

[0004] In related technologies, bank card destruction devices can only destroy the chip on discarded bank cards, but cannot destroy the card number or magnetic stripe, thus still posing a risk to information security. Summary of the Invention

[0005] This application provides a bank card destruction device that can solve the problem of information leakage caused by the abandonment of bank cards.

[0006] This application provides a bank card destruction device, which includes:

[0007] The box body includes a grinding box, a cutting box, and a storage box. Along the length of the box body, the grinding box and the cutting box are arranged side by side and are interconnected to form a receiving space. In the vertical direction, the storage box is located below the grinding box and the cutting box.

[0008] A support assembly is located inside the cutting box. The support assembly includes a clamping platform for fixing a bank card. The chip of the bank card corresponds to the first opening of the storage box below it.

[0009] A chip separation assembly includes a first driving member, a vertical blade, and a drill bit. The vertical blade and the drill bit are respectively disposed above the chip. The first driving member can drive the drill bit to move up and down, and the drill bit moves downward to drill a hole in the chip. The first driving member can drive the vertical blade to move up and down, and the vertical blade moves downward to separate the chip from the bank card.

[0010] An account erasure component is located in the accommodating space. The account erasure component includes a second driving member and a polishing plate. Along the length direction, the second driving member drives the polishing plate to move closer to or away from the bank card, and the polishing plate rubs against the bank card.

[0011] A card cutting assembly is located in the cutting box along the width direction of the box body. The card cutting assembly is disposed on one side of the support assembly. The card cutting assembly includes a third driving member and a transverse blade. The third driving member can drive the transverse blade to move closer to or away from the bank card to cut the bank card into multiple card strips.

[0012] The bank card destruction device provided in this application includes a chip separation component, an account deletion component, and a card cutting component. First, the chip separation component can destroy and separate the chip. The chip can detach from the bank card and fall into a storage box through a first opening for individual recycling. Second, the account deletion component can erase the card number on the bank card. Finally, the card cutting component can cut the remaining part of the bank card into multiple card strips, thereby destroying the magnetic stripe on the bank card. Therefore, the bank card destruction device of this application can destroy and recycle the chip on the bank card, erase the card number on the bank card, and destroy the magnetic stripe by cutting and recycling it. This allows for a more comprehensive removal of personal information from the bank card, improving information security and reducing the possibility of financial loss due to personal information leakage.

[0013] According to one embodiment of this application, the support component further includes a fixed platform, and the clamping platform is disposed on the fixed platform. Along the width direction, the clamping platform includes two clamping portions disposed opposite each other. Each clamping portion is provided with a card slot. The openings of the card slots of the two clamping portions are opposite to each other, and the card slots extend along the length direction.

[0014] According to one embodiment of this application, the upper surface of the clamping part is provided with a plurality of blade grooves, and the plurality of blade grooves penetrate the clamping part along the width direction. The transverse blades are correspondingly arranged with the blade grooves, and a portion of the transverse blades are located within the blade grooves.

[0015] According to one embodiment of this application, the support component further includes a chip collection tube, which passes through the fixed platform along the vertical direction to communicate with the first opening of the storage box. The chip collection tube is correspondingly disposed below the chip, and the storage box has a chip storage cavity, with the chip collection tube communicating with the chip storage cavity.

[0016] According to one embodiment of this application, a pushing component is further included. The pushing component includes a fourth driving member and a pushing plate. Along the width direction, both ends of the pushing plate are respectively located in the card slots of the two clamping portions. Along the length direction, the pushing plate is located on the side of the bank card facing away from the account elimination component. The fourth driving member can drive the pushing plate to slide along the card slots.

[0017] According to one embodiment of this application, the fourth driving member includes a rod and a gripping part. Along the vertical direction, the lower end of the rod is connected to the pusher plate. The upper surface of the cutting box is provided with a first sliding groove extending along the length direction. The upper end of the rod passes through the first sliding groove. The upper end of the rod is provided with the gripping part, which is located outside the cutting box.

[0018] According to one embodiment of this application, the pusher assembly further includes an anti-detachment plate, which is disposed below the pusher plate and extends along the length direction toward the bank card.

[0019] According to one embodiment of this application, the storage box has a card strip storage cavity and an upward-facing second opening. The card strip storage cavity is connected to the receiving space through the second opening. Along the length direction, the second opening is close to the support component. The fourth driving member can drive the pusher plate to push a plurality of card strips toward the account elimination component. The plurality of card strips fall into the card strip storage cavity through the second opening.

[0020] According to one embodiment of this application, the account deletion component further includes a telescopic rod, a transmission plate, and a motion plate. The second driving member drives the telescopic rod to extend or retract along the length direction, so as to drive the motion plate to move through the transmission plate. The motion plate includes a first plate body and a second plate body arranged opposite to each other along the vertical direction. The surfaces of the first plate body and the second plate body that are opposite to each other are respectively provided with polishing plates. Along the length direction, the bank card is directly opposite the gap between the two polishing plates.

[0021] According to one embodiment of this application, the chip separation assembly further includes a pressure rod and a cutting seat, the longitudinal blade and the drill bit are disposed on the cutting seat, the first driving member includes a crank and a connecting rod connected to each other, the crank and the connecting rod are disposed on the upper surface of the cutting box, the connecting rod is provided with a second sliding groove, the upper end of the pressure rod is slidably connected to the second sliding groove, and the lower end of the pressure rod is provided with the cutting seat.

[0022] According to one embodiment of this application, the longitudinal blade is disposed on the side wall of the cutting seat, and the drill bit protrudes from the lower surface of the cutting seat, wherein the size of the drill bit protruding from the lower surface of the cutting seat is larger than the size of the longitudinal blade protruding from the lower surface of the cutting seat.

[0023] According to one embodiment of this application, along the length direction, the polishing box is slidably connected to the storage box, the polishing box is moved away from the cutting box to open the receiving space, and the polishing box is moved closer to and connected to the cutting box to close the receiving space.

[0024] In addition to the technical problems solved by the embodiments of the present invention, the technical features constituting the technical solutions, and the beneficial effects brought about by the technical features of these technical solutions described above, other technical problems that can be solved by the bank card destruction device provided by the embodiments of the present invention, other technical features included in the technical solutions, and the beneficial effects brought about by these technical features will be further described in detail in the specific embodiments. Attached Figure Description

[0025] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments consistent with this application and, together with the description, serve to explain the principles of this application.

[0026] Figure 1 This is a three-dimensional structural diagram of a bank card destruction device according to an embodiment of this application;

[0027] Figure 2 This is a cross-sectional view of a bank card destruction device according to an embodiment of this application along its length.

[0028] Figure 3 This is a partial cross-sectional view of the length of a bank card destruction device according to an embodiment of this application when the receiving space is in the open state.

[0029] Figure 4 for Figure 2 Enlarged view of point A in the middle;

[0030] Figure 5 This is a three-dimensional structural diagram of the material pushing component and the support component cooperating according to an embodiment of this application;

[0031] Figure 6 This is a partial cross-sectional view of the structure along the width direction when the account cancellation component of an embodiment of this application is applied to a bank card;

[0032] Figure 7 This is a partial top view of a chip separation component according to an embodiment of this application.

[0033] Explanation of reference numerals in the attached figures:

[0034] 100-Bank Card Destruction Device;

[0035] 110 - Box body; 110a - Accommodation space; 110b - First opening; 110c - Second opening;

[0036] 111-Grinding box;

[0037] 112-Cutting box; 112a-First slide groove;

[0038] 113 - Storage box; 113a - Chip storage cavity; 113b - Card strip storage cavity;

[0039] 120 - Support component;

[0040] 121-Clamping table; 1211-Clamping part; 1211a-Card slot; 1211b-Blade slot;

[0041] 122 - Fixed platform;

[0042] 123 - Chip collector tube;

[0043] 130 - Chip Decoupling Component;

[0044] 131-First driving component; 1311-Crank; 1312-Connecting rod; 1312a-Second slide;

[0045] 132 - Longitudinal blade;

[0046] 133 - Drill bit;

[0047] 134 - Compression bar;

[0048] 135 - Cutting seat;

[0049] 140 - Account Removal Component;

[0050] 141 - Second drive component;

[0051] 142 - Grinding plate;

[0052] 143 - Telescopic pole;

[0053] 144-Transmission plate; 1441-First connecting plate; 1442-Second connecting plate;

[0054] 145-Motion board; 1451-First board; 1452-Second board; 1453-Third board;

[0055] 150 - Card cutting assembly; 151 - Third drive unit; 152 - Cross blade; 153 - Push rod; 154 - Tool holder;

[0056] 160 - Pusher assembly;

[0057] 161-Fourth drive component; 1611-Bar body; 1612-Grip part;

[0058] 162 - Pusher plate;

[0059] 163 - Anti-detachment plate;

[0060] 170 - Locking knob;

[0061] 200 - Bank card; 210 - Chip; 220 - Card strip;

[0062] X - Length direction; Y - Width direction; Z - Vertical direction.

[0063] The accompanying drawings illustrate specific embodiments of this application, which will be described in more detail below. These drawings and descriptions are not intended to limit the scope of the concept in any way, but rather to illustrate the concept of this application to those skilled in the art through reference to particular embodiments. Detailed Implementation

[0064] Exemplary embodiments will now be described in detail, examples of which are illustrated in the accompanying drawings. When the following description relates to the drawings, unless otherwise indicated, the same numbers in different drawings represent the same or similar elements. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with this application. Rather, they are merely examples of apparatuses and methods consistent with some aspects of this application as detailed in the appended claims. Clearly, the described embodiments are only a portion, not all, of the embodiments of this application. All other embodiments obtained by those skilled in the art based on the embodiments of this application without inventive effort are within the scope of protection of this application.

[0065] The bank card destruction device of this application can be applied in the field of financial technology. For example, the bank card destruction device of this application can be applied to financial institutions such as banks.

[0066] Most bank cards commonly found on the market today are financial IC cards. A financial IC card is a bank card that uses a chip as its medium and has a large capacity. It can store information such as keys, digital certificates, and fingerprints. The working principle of a financial IC card is similar to that of a microcomputer; both can process multiple functions simultaneously, thus providing cardholders with the convenience of using a single card for multiple purposes.

[0067] The main information on a financial IC card generally includes three parts: the card number, the magnetic stripe, and the chip. When a bank card expires and needs to be replaced, when a bank card has been used for many years and needs to be replaced with a new one, or when a chip card replaces a magnetic stripe card, the old bank card needs to be destroyed to prevent the leakage of customer information.

[0068] Banks and other financial institutions typically have card destruction devices. These devices allow bank staff to assist customers in disposing of unwanted bank cards, saving customers waiting time and reducing pressure on counter services. However, some card destruction devices can only damage the chip on the card, failing to destroy the card number or magnetic stripe, thus posing a security risk.

[0069] Based on the aforementioned technical problems, the applicant has improved the structure of existing bank card destruction devices. The bank card destruction device of this application embodiment includes a chip separation component, an account deletion component, and a card cutting component. First, the chip can be destroyed and separated by the chip separation component. The chip can detach from the bank card and fall into a storage box through a first opening for individual recycling. Second, the card number on the bank card can be cleared by the account deletion component. Finally, the remaining part of the bank card can be cut by the card cutting component to form multiple card strips, thereby destroying the magnetic stripe on the bank card. Therefore, the bank card destruction device of this application embodiment can destroy and recycle the chip on the bank card, clear the card number on the bank card, and destroy and recycle the magnetic stripe by cutting, thus more comprehensively clearing personal information on the bank card, which helps improve information security and reduces the possibility of financial loss due to personal information leakage.

[0070] The bank card destruction device provided in this application is described below with reference to the accompanying drawings and specific embodiments.

[0071] See Figures 1 to 4 As shown, the bank card destruction device 100 of this application embodiment may include a box 110, a support component 120, a chip separation component 130, an account deletion component 140, and a card cutting component 150.

[0072] The box body 110 may include a polishing box 111, a cutting box 112, and a storage box 113. Along the length direction X of the box body 110, the polishing box 111 and the cutting box 112 may be arranged side-by-side. The polishing box 111 and the cutting box 112 are interconnected to form a receiving space 110a. Along the vertical direction Z, the storage box 113 may be located below the polishing box 111 and the cutting box 112. A support assembly 120 may be located inside the cutting box 112. The support assembly 120 includes a clamping table 121. The clamping table 121 can be used to fix a bank card 200. The lower part of the chip 210 of the bank card 200 may correspond to the first opening 110b of the storage box 113.

[0073] The chip separation assembly 130 may include a first drive unit 131, a vertical blade 132, and a drill bit 133. The vertical blade 132 and the drill bit 133 are respectively disposed above the chip 210. The first drive unit 131 can drive the drill bit 133 to move up and down. The drill bit 133 moves downward to drill a hole in the chip 210. The first drive unit 131 can also drive the vertical blade 132 to move up and down. The vertical blade 132 moves downward to separate the chip 210 from the bank card 200.

[0074] The account erasure component 140 may be located in the receiving space 110a. The account erasure component 140 includes a second drive member 141 and a polishing plate 142. Along the length direction X, the second drive member 141 drives the polishing plate 142 to move closer to or further away from the bank card 200. The polishing plate 142 rubs against the bank card 200.

[0075] The card cutting assembly 150 can be located within the cutting box 112. Along the width direction Y of the box 110, the card cutting assembly 150 is disposed on one side of the support assembly 120. The card cutting assembly 150 includes a third drive member 151 and a transverse blade 152. The third drive member 151 can drive the transverse blade 152 to move closer to or further away from the bank card 200 to cut the bank card 200 into multiple card strips 220.

[0076] The support component 120 in this embodiment can be used to fix the bank card 200, thereby improving the stability of the bank card 200 when the chip separation component 130, the account deletion component 140, and the card cutting component 150 apply force to the bank card 200.

[0077] First, the first driving element 131 can drive the drill bit 133 and the longitudinal blade 132 to move downwards synchronously. The drill bit 133 can first contact the chip 210. After being subjected to the force of the drill bit 133, a through hole can be formed on the chip 210 to damage the chip 210, thereby reducing the possibility of information leakage caused by the chip 210. The downward movement of the longitudinal blade 132 can cut along the edge of the chip 210, so that the drilled chip 210 can be detached from the bank card 200. After the chip 210 is separated from the bank card 200, it can fall into the storage box 113 through the first opening 110b below under its own gravity.

[0078] Secondly, the second driving member 141 can drive the polishing plate 142 to move closer to the bank card 200. The polishing plate 142 can generate friction with the upper and lower surfaces of the bank card 200 to damage the card number and magnetic stripe on the bank card 200, thereby reducing the possibility of information leakage due to the card number and magnetic stripe. The polishing box 111 can be used to house the account erasure component 140. During the operation of the account erasure component 140, the polishing plate 142 can be located inside the cutting box 112. When the account erasure component 140 is not in operation, the polishing plate 142 can be located inside the polishing box 111.

[0079] Finally, the third driving unit 151 can drive the transverse blade 152 to cut the bank card 200 along the width direction Y, thereby destroying the magnetic stripe on the bank card 200 and reducing the possibility of information leakage from the magnetic stripe. It should be noted that the bank card 200 does not contain the chip 210 at this time. Therefore, the multiple card strips 220 formed by the transverse blade 152 cutting the bank card 200 also do not contain the chip 210. The multiple card strips 220 can be stored separately for classified recycling with the chip 210.

[0080] In summary, the bank card destruction device 100 of this application embodiment can destroy the chip 210, card number, and magnetic stripe on the bank card 200, thereby more effectively reducing the possibility of financial loss due to personal information leakage. Furthermore, the chip 210 and card stripe 220 can be collected separately, which helps improve the efficiency of sorting and recycling.

[0081] In some examples, the support component 120, the account deletion component 140, the card cutting component 150, and part of the chip separation component 130 can all be located within the receiving space 110a. After the bank card 200 is disassembled and destroyed within the receiving space 110a, it can fall into the storage box 113 below.

[0082] In some examples, the length direction of the bank card 200 can be the same as the length direction X of the box 110. The width direction of the bank card 200 can be the same as the width direction Y of the box 110. The thickness of the bank card 200 can be the same as the vertical direction Z. The bank card 200 can be placed horizontally.

[0083] See also some of the possible implementation methods. Figure 2 and Figure 5 As shown, the support component 120 in this embodiment may further include a fixed platform 122. A clamping table 121 may be disposed on the fixed platform 122. Along the width direction Y, the clamping table 121 may include two opposing clamping portions 1211. Each clamping portion 1211 has a card slot 1211a. The openings of the card slots 1211a of the two clamping portions 1211 are opposite to each other. The card slots 1211a extend along the length direction X. For example, the card slots 1211a may extend through the clamping portion 1211 along the length direction X.

[0084] Along the length direction X, the bank card 200 can be inserted into the card slot 1211a from the side of the clamping table 121 near the polishing box 111. Both ends of the bank card 200 along the width direction Y can be located within the card slot 1211a.

[0085] In some examples, the dimension of the card slot 1211a along the vertical direction Z can be less than or equal to the thickness of the bank card 200, so that the bank card 200 is less likely to slide along the length direction X within the card slot 1211a, thereby improving the stability of the bank card 200 on the support component 120.

[0086] See also some of the possible implementation methods. Figure 4 and Figure 5 As shown, the upper surface of the clamping part 1211 in this embodiment of the application is provided with a plurality of blade grooves 1211b. The plurality of blade grooves 1211b penetrate the clamping part 1211 along the width direction Y. Transverse blades 152 are correspondingly disposed in the blade grooves 1211b. Part of the transverse blades 152 are located within the blade grooves 1211b.

[0087] In some examples, multiple blade slots 1211b can be spaced apart along the length direction X. The number of transverse blades 152 can be equal to the number of blade slots 1211b. The transverse blades 152 and blade slots 1211b can be arranged in a one-to-one correspondence.

[0088] The number of card cutting components 150 can be one. Along the width direction Y, the transverse blade 152 can cut from one side of the bank card 200 until the bank card 200 is completely broken into multiple card strips 220. Alternatively, the number of card cutting components 150 can also be two. Along the width direction Y, the two card cutting components 150 can be located on opposite sides of the support component 120. The transverse blades 152 of one card cutting component 150 and the transverse blades 152 of the other card cutting component 150 can move towards each other to cut the bank card 200 from both sides along the width direction Y. After cutting, the transverse blades 152 of one card cutting component 150 and the transverse blades 152 of the other card cutting component 150 can be reset to their original positions away from each other.

[0089] See in some examples Figure 5 and Figure 6 As shown, the card cutting assembly 150 may further include a push rod 153 and a blade holder 154. Along the length direction X, multiple transverse blades 152 are spaced apart on the blade holder 154. The first drive member 131 can drive the push rod 153 to extend towards the bank card 200, thereby causing the transverse blades 152 to pass through the blade groove 1211b and cut the bank card 200 within the card slot 1211a. After the transverse blades 152 cut the bank card 200 into multiple card strips 220, the first drive member 131 can drive the push rod 153 to retract and reset. The push rod 153 can then cause the transverse blades 152 to pass through the blade groove 1211b and reset.

[0090] See also some of the possible implementation methods. Figure 2 and Figure 5 As shown, the support component 120 in this embodiment may further include a chip collection tube 123. Along the vertical direction Z, the chip collection tube 123 penetrates the fixing platform 122 to communicate with the first opening 110b of the storage box 113. The chip collection tube 123 is correspondingly disposed below the chip 210. The storage box 113 has a chip storage cavity 113a. The chip collection tube 123 communicates with the chip storage cavity 113a.

[0091] The bank card 200 is relatively thin. If the bottom of the area corresponding to the chip 210 of the bank card 200 is not supported, when the area corresponding to the chip 210 is subjected to the downward force of the longitudinal blade 132 and the drill bit 133, the area around the chip 210 on the bank card 200 is prone to breakage, which can easily lead to poor separation between the chip 210 and the bank card 200. For example, part of the bank card 200 may remain around the chip 210 that falls into the chip receiving cavity 113a, or the chip 210 may break, but part of the chip 210 may still remain on the bank card 200. Therefore, the upper end face of the chip collecting tube 123 in this embodiment can be used to support the bank card 200 to provide support when the longitudinal blade 132 and the drill bit 133 apply force to the chip 210.

[0092] After the damaged chip 210 is separated from the bank card 200, the chip 210 can fall into the chip storage cavity 113a of the storage box 113 under its own gravity through the chip collection tube 123 and the first opening 110b.

[0093] See also some of the possible implementation methods. Figure 2 and Figure 5 As shown, the bank card 200 destruction device 100 of this application embodiment may further include a pushing assembly 160. The pushing assembly 160 may include a fourth driving member 161 and a pushing plate 162. Along the width direction Y, the two ends of the pushing plate 162 may be located in the card slots 1211a of the two clamping portions 1211, respectively. Along the length direction X, the pushing plate 162 may be located on the side of the bank card 200 facing away from the account cancellation assembly 140. The fourth driving member 161 may drive the pushing plate 162 to slide along the card slots 1211a.

[0094] After the card cutting component 150 cuts the bank card 200 into multiple card strips 220, the multiple card strips 220 remain within the card slot 1211a. The pusher component 160 of this embodiment can be used to push the multiple card strips 220 sequentially along the card slot 1211a to the end of the support component 120 to facilitate the collection of the multiple card strips 220.

[0095] See also some of the possible implementation methods. Figure 2 As shown, the fourth driving member 161 in this embodiment may include a rod 1611 and a gripping part 1612. The lower end of the rod 1611 is connected to the pusher plate 162 along the vertical direction Z. The upper surface of the cutting box 112 is provided with a first groove 112a extending along the length direction X. The upper end of the rod 1611 passes through the first groove 112a. The upper end of the rod 1611 is provided with the gripping part 1612. The gripping part 1612 is located outside the cutting box 112.

[0096] The grip portion 1612 of this embodiment can be exposed outside the cutting box 112, so the user can hold the grip portion 1612 and slide it along the length direction X. The rod 1611 can slide along the first slide groove 112a, and the pusher plate 162 at the lower end of the rod 1611 can push the multiple clips 220 to the end of the support assembly 120.

[0097] See also some of the possible implementation methods. Figure 2 and Figure 5 As shown, the pusher assembly 160 may further include an anti-detachment plate 163. The anti-detachment plate 163 is disposed below the pusher plate 162. Along the length direction X, the pusher plate 162 extends toward the bank card 200.

[0098] The pusher plate 162 can slide along the card slot 1211a to push the card strip 220 towards the grinding box 111. The anti-detachment plate 163 can support the card strip 220 to reduce the possibility that the card strip 220 will fall off the fixed platform 122 and affect the operation of the pusher assembly 160.

[0099] See also some of the possible implementation methods. Figure 2 and Figure 3 As shown, the storage box 113 of this embodiment may have a card strip storage cavity 113b and an upward-facing second opening 110c. The card strip storage cavity 113b is connected to the receiving space 110a through the second opening 110c. Along the length direction X, the second opening 110c is close to the support assembly 120. The fourth drive member 161 can drive the pusher plate 162 to push the plurality of card strips 220 toward the account elimination assembly 140. The plurality of card strips 220 fall into the card strip storage cavity 113b through the second opening 110c.

[0100] The clip 220 near the grinding box 111 can detach from the clamping part 1211 under the action of the pusher plate 162, and fall into the clip storage cavity 113b of the storage box 113 through the second opening 110c under its own gravity. After the clip 220 near the grinding box 111 falls into the clip storage cavity 113b, the pusher plate 162 continues to push the remaining clips 220 to continue sliding, so as to push multiple clips 220 into the second opening 110c in sequence.

[0101] Understandably, when the pusher plate 162 is pushed toward the grinding box 111, the retaining strip 220 furthest from the pusher plate 162 falls into the second opening 110c first. In this manner, the pusher plate 162 continues to push to push multiple retaining strips 220 into the second opening 110c in sequence.

[0102] The first opening 110b can collect damaged chips 210, which can fall into the chip storage cavity 113a. The second opening 110c can collect damaged bank cards 200, which can fall into the card strip storage cavity 113b. The chip storage cavity 113a and the card strip storage cavity 113b can be unconnected to achieve separate collection of chips 210 and bank cards 200.

[0103] See also some of the possible implementation methods. Figure 2 and Figure 6 As shown, the account deletion assembly 140 may further include a telescopic rod 143, a transmission plate 144, and a moving plate 145. A second driving member 141 drives the telescopic rod 143 to extend or retract along the length direction X, thereby driving the moving plate 145 to move via the transmission plate 144. The moving plate 145 may include a first plate body 1451 and a second plate body 1452 arranged opposite each other along the vertical direction Z. The surfaces of the first plate body 1451 and the second plate body 1452 facing each other are respectively provided with polishing plates 142. Along the length direction X, the bank card 200 is positioned directly opposite the gap between the two polishing plates 142.

[0104] The transmission plate 144 can connect the telescopic plate and the moving plate 145. In this embodiment, the second driving member 141 can drive the telescopic rod 143 to extend along the length direction X, so that the moving plate 145 is moved closer to the bank card 200 via the transmission plate 144. The polishing plate 142 on the first plate 1451 can remove information from the upper surface of the bank card 200. The polishing plate 142 on the second plate 1452 can remove information from the lower surface of the bank card 200. After the polishing plate 142 removes the card number and magnetic stripe information from the bank card 200, the second driving member 141 can drive the telescopic rod 143 to retract, so that the moving plate 145 is reset via the transmission plate 144.

[0105] In some examples, the thickness of a common bank card 200 is 0.76 mm. Therefore, the distance between the polishing plate 142 on the first plate 1451 and the polishing plate 142 on the second plate 1452 in this embodiment can be 0.5 mm, so that the polishing plate 142 can apply force to the bank card 200, and the polishing plate 142 rubs against the upper and lower surfaces of the bank card 200 to destroy the information on the bank card 200.

[0106] In some examples, multiple protrusions may be provided on the surfaces of the polishing plate 142 on the first plate 1451 and the polishing plate 142 on the second plate 1452 that are opposite to each other, in order to increase the friction between the polishing plate 142 and the bank card 200, thereby enabling the card number information on the bank card 200 to be cleared.

[0107] In some examples, the motion plate 145 may also include a third plate 1453. The first plate 1451 and the second plate 1452 can be connected by the third plate 1453. The first plate 1451, the second plate 1452, and the third plate 1453 can form a "U" shaped structure. The motion plate 145 can be made of a rigid material with elasticity, thereby facilitating the smooth insertion of the bank card 200 between the polishing plate 142 on the first plate 1451 and the polishing plate 142 on the second plate 1452.

[0108] In some examples, the grinding plate 142 can be fixed to the first plate 1451 and the second plate 1452 by a grinding base.

[0109] In some examples, the transmission plate 144 may include a first connecting plate 1441 and a second connecting plate 1442. The first connecting plate 1441 may be connected to the telescopic rod 143. The second connecting plate 1442 has an included angle with the first connecting plate 1441. The lower surface of the second connecting plate 1442 may be in contact with the upper surface of the first plate body 1451, that is, the first plate body 1451 and the second plate body 1452 may be located below the second driving member 141. Therefore, space along the length direction X inside the grinding box 111 can be saved, and the space utilization rate inside the grinding box 111 can be improved.

[0110] For example, the second driving member 141 can be a linear reciprocating mechanism. For example, an electromagnet-to-linear mechanism, a stepper motor reciprocating mechanism, a lever-assisted reciprocating mechanism, or a cylinder-assisted reciprocating mechanism, etc., are not limited in this application.

[0111] See also some of the possible implementation methods. Figure 1 and Figure 2 As shown, the chip separation assembly 130 may further include a pressure rod 134 and a cutting seat 135. A longitudinal blade 132 and a drill bit 133 are disposed on the cutting seat 135. The first drive member 131 includes a crank 1311 and a connecting rod 1312 connected together. The crank 1311 and the connecting rod 1312 are disposed on the upper surface of the cutting box 112. A second groove 1312a is provided on the connecting rod 1312. The upper end of the pressure rod 134 is slidably connected to the second groove 1312a. The lower end of the pressure rod 134 is provided with the cutting seat 135.

[0112] In some examples, there may be an angle between crank 1311 and connecting rod 1312. And the angle between crank 1311 and connecting rod 1312 may remain constant.

[0113] The user can operate the crank 1311 to rotate counterclockwise so that the pressure rod 134 can move vertically downward, thereby driving the longitudinal blade 132 and drill bit 133 on the cutting seat 135 to act on the chip 210. After the chip 210 is removed from the bank card 200, the user can operate the crank 1311 to rotate clockwise so that the pressure rod 134 can move upward and reset.

[0114] See also some of the possible implementation methods. Figure 4 As shown, the longitudinal blade 132 can be disposed on the side wall of the cutting seat 135. The drill bit 133 can protrude from the lower surface of the cutting seat 135. The dimension by which the drill bit 133 protrudes from the lower surface of the cutting seat 135 is greater than the dimension by which the longitudinal blade 132 protrudes from the lower surface of the cutting seat 135.

[0115] In this embodiment of the chip separation component 130, the drill bit 133 first destroys the chip 210, and then the longitudinal blade 132 separates the chip 210. Thus, the chip 210 can be destroyed and separated in one downward stroke of the cutting seat 135, which can reduce secondary operations and improve the destruction efficiency.

[0116] See in some examples Figure 7 As shown, the number of longitudinal blades 132 can be four. The four longitudinal blades 132 are disposed on the side wall of the cutting seat 135. The drill bit 133 can be located in the central region of the bottom of the cutting seat 135. The number of drill bits 133 can be one or more, and is not limited in this application.

[0117] See also some of the possible implementation methods. Figure 3 As shown, along the length direction X, the polishing box 111 is slidably connected to the storage box 113. The polishing box 111 moves away from the cutting box 112 to open the receiving space 110a, and the polishing box 111 moves closer to and connects with the cutting box 112 to close the receiving space 110a.

[0118] In some examples, the top cover of the polishing box 111 can be made of a transparent material, and the top cover of the cutting box 112 can also be made of a transparent material, so that users can easily observe the destruction process of the bank card 200 and perform timely maintenance when there is jamming or malfunction inside.

[0119] In this embodiment, the user can move the polishing box 111 away from the cutting box 112 to open the receiving space 110a, thereby facilitating the insertion of the bank card 200 into the card slot 1211a of the clamping part 1211 from one side of the polishing box 111. After the bank card 200 is placed in the card slot 1211a, the user can push the polishing box 111 closer to the cutting box 112. When the polishing box 111 and the cutting box 112 are in contact, the receiving space 110a can be closed.

[0120] In some examples, the bank card 200 destruction device 100 may also include a locking knob 170. The locking knob 170 may be located on the outer wall of the polishing box 111 or the storage box 113 away from the cutting box 112. When the locking knob 170 is engaged, it may restrain the polishing box 111 from moving away from the cutting box 112, thereby keeping the receiving space 110a in a closed state.

[0121] It should be noted that the numerical values ​​and ranges involved in this application are approximate values. Due to the influence of the manufacturing process, there may be a certain range of errors, which can be considered negligible by those skilled in the art.

[0122] In the description of the embodiments of this application, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, an indirect connection through an intermediate medium, or the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in the embodiments of this application according to the specific circumstances.

[0123] In the description of this application, it should be understood that the terms “center,” “length,” “width,” “thickness,” “top,” “bottom,” “upper,” “lower,” “left,” “right,” “front,” “rear,” “vertical,” “horizontal,” “inner,” “outer,” “axial,” and “circumferential,” etc., used to indicate orientation or positional relationships are based on the orientation or positional relationships shown in the accompanying drawings and are only for the convenience of describing the present invention and simplifying the description, and are not intended to indicate or imply that the indicated position or component must have a specific orientation, or a specific structure and operation, and therefore should not be construed as a limitation of the present invention.

[0124] The devices or elements referred to in the embodiments of this application or implied herein must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the embodiments of this application. In the description of the embodiments of this application, "a plurality of" means two or more, unless otherwise precisely specified.

[0125] The terms "first," "second," "third," "fourth," etc. (if present) in the specification, claims, and accompanying drawings of this application are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence. It should be understood that such data can be interchanged where appropriate so that the embodiments of this application described herein can be implemented, for example, in a sequence other than those illustrated or described herein.

[0126] Furthermore, the terms “comprising” and “having”, and any variations thereof, are intended to cover non-exclusive inclusion, such that a process, method, system, product, or apparatus that includes a series of steps or units is not necessarily limited to those steps or units that are explicitly listed, but may include other steps or units that are not explicitly listed or that are inherent to such process, method, product, or apparatus.

[0127] The term "multiple" in this article refers to two or more. The term "and / or" in this article is merely a description of the relationship between related objects, indicating that three relationships can exist. For example, A and / or B can represent: A alone, A and B simultaneously, or B alone. Furthermore, the character " / " in this article generally indicates an "or" relationship between the preceding and following related objects; in formulas, the character " / " indicates a "division" relationship between the preceding and following related objects.

[0128] It is understood that the various numerical designations used in the embodiments of this application are merely for descriptive convenience and are not intended to limit the scope of the embodiments of this application.

[0129] It is understood that, in the embodiments of this application, the order of the above-mentioned process numbers does not imply the order of execution. The execution order of each process should be determined by its function and internal logic, and should not constitute any limitation on the implementation process of the embodiments of this application.

Claims

1. A bank card destruction device, characterized in that, include: The box body includes a grinding box, a cutting box, and a storage box. Along the length of the box body, the grinding box and the cutting box are arranged side by side and are interconnected to form a receiving space. In the vertical direction, the storage box is located below the grinding box and the cutting box. A support assembly is located inside the cutting box. The support assembly includes a clamping platform for fixing a bank card. The chip of the bank card corresponds to the first opening of the storage box below it. A chip separation assembly includes a first driving member, a longitudinal blade, and a drill bit. The longitudinal blade and the drill bit are respectively disposed above the chip. The first driving member can drive the drill bit to move up and down, and the drill bit moves downward to drill a hole in the chip. The first driving member can also drive the longitudinal blade to move up and down, and the longitudinal blade moves downward to separate the chip from the bank card. The chip separation assembly further includes a pressure rod and a cutting seat. The longitudinal blade and the drill bit are disposed on the cutting seat. The first driving member includes a crank and a connecting rod connected together. The crank and the connecting rod are disposed on the upper surface of the cutting box. The connecting rod is provided with a second sliding groove. The upper end of the pressure rod is slidably connected to the second sliding groove, and the lower end of the pressure rod is provided with the cutting seat. An account erasure component is located in the receiving space. The account erasure component includes a second driving member and a polishing plate. Along the length direction, the second driving member drives the polishing plate to move closer to or away from the bank card, and the polishing plate rubs against the bank card. The account erasure component also includes a telescopic rod, a transmission plate, and a moving plate. The second driving member drives the telescopic rod to extend or retract along the length direction, so as to drive the moving plate to move through the transmission plate. The moving plate includes a first plate body and a second plate body arranged opposite each other along the vertical direction. The surfaces of the first plate body and the second plate body that face each other are respectively provided with polishing plates. Along the length direction, the bank card is directly opposite the gap between the two polishing plates. A card cutting assembly is located in the cutting box along the width direction of the box body. The card cutting assembly is disposed on one side of the support assembly. The card cutting assembly includes a third driving member and a transverse blade. The third driving member can drive the transverse blade to move closer to or away from the bank card to cut the bank card into multiple card strips.

2. The bank card destruction device according to claim 1, characterized in that, The support assembly further includes a fixed platform, and the clamping platform is disposed on the fixed platform. Along the width direction, the clamping platform includes two clamping parts arranged opposite each other. Each clamping part is provided with a card slot. The openings of the card slots of the two clamping parts are opposite to each other, and the card slots extend along the length direction.

3. The bank card destruction device according to claim 2, characterized in that, The upper surface of the clamping part is provided with a plurality of blade grooves. Along the width direction, the plurality of blade grooves penetrate the clamping part. The transverse blades are arranged corresponding to the blade grooves, and some of the transverse blades are located in the blade grooves.

4. The bank card destruction device according to claim 2, characterized in that, The support assembly also includes a chip collection tube, which passes through the fixed platform along the vertical direction to communicate with the first opening of the storage box. The chip collection tube is correspondingly disposed below the chip. The storage box has a chip storage cavity, and the chip collection tube is connected to the chip storage cavity.

5. The bank card destruction device according to claim 2, characterized in that, It also includes a pusher assembly, which includes a fourth drive member and a pusher plate. Along the width direction, the two ends of the pusher plate are respectively located in the card slots of the two clamping parts. Along the length direction, the pusher plate is located on the side of the bank card facing away from the account elimination component. The fourth drive member can drive the pusher plate to slide along the card slot.

6. The bank card destruction device according to claim 5, characterized in that, The fourth driving component includes a rod and a gripping part. Along the vertical direction, the lower end of the rod is connected to the pusher plate. The upper surface of the cutting box is provided with a first sliding groove extending along the length direction. The upper end of the rod passes through the first sliding groove. The upper end of the rod is provided with the gripping part, which is located outside the cutting box.

7. The bank card destruction device according to claim 5, characterized in that, The pusher assembly also includes an anti-detachment plate, which is disposed below the pusher plate and extends along the length direction of the pusher plate toward the bank card.

8. The bank card destruction device according to claim 5, characterized in that, The storage box has a card strip storage cavity and an upward-facing second opening. The card strip storage cavity is connected to the receiving space through the second opening. Along the length direction, the second opening is close to the support component. The fourth driving member can drive the pusher plate to push multiple card strips toward the account elimination component. The multiple card strips fall into the card strip storage cavity through the second opening.

9. The bank card destruction device according to claim 1, characterized in that, The longitudinal blade is disposed on the side wall of the cutting seat, and the drill bit protrudes from the lower surface of the cutting seat. The size of the drill bit protruding from the lower surface of the cutting seat is larger than the size of the longitudinal blade protruding from the lower surface of the cutting seat.

10. The bank card destruction device according to claim 1, characterized in that, Along the length direction, the polishing box is slidably connected to the storage box. When the polishing box moves away from the cutting box, it opens the receiving space. When the polishing box moves closer to and connects with the cutting box, it closes the receiving space.

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