CN112319072B - Stamp device and stamp method - Google Patents

Abstract

The invention discloses a seal device and a seal method, belonging to the seal technical field, wherein the seal device comprises a shell component, a driving component, a sliding component, a control component and a seal main body, wherein the driving component is fixedly arranged in the shell component; the sliding assembly is arranged in the shell assembly in a sliding mode and driven by the driving assembly to move; the control assembly is connected with the driving assembly and used for receiving a confirmation signal and controlling the start and stop of the driving assembly according to the confirmation signal; the seal body is connected to the sliding assembly. The seal device and the seal method provided by the invention have higher efficiency, save manpower, and the drive assembly is not started when the confirmation signal of an approver is not received, so that the remote control of the approver is facilitated, the risk of sealing due to unauthorized is reduced, and the safety of the seal device is improved.

Description

Stamp device and stamp method

Technical Field

The invention relates to the technical field of seals, in particular to a seal device and a seal method.

Background

In the prior art, manual stamping is mainly used during stamping, and once the problem of huge stamping workload is solved during working, office staff have great trouble. The manual stamping is not only low in efficiency, but also has the phenomena of misprinting, missing printing and dislocation due to working errors. In addition, for the mobile office scene, the traditional seal can have the risk of sealing without authorization in the using process, and the safety is low. Therefore, a seal device with high seal efficiency is urgently needed.

Disclosure of Invention

The invention aims to provide a seal device and a seal method, which have higher efficiency and safety, save manpower and facilitate the remote control of an approver.

As the conception, the technical scheme adopted by the invention is as follows:

a stamp device, comprising:

a housing assembly;

the driving assembly is fixedly arranged in the shell assembly;

the sliding assembly is arranged in the shell assembly in a sliding mode and driven to move by the driving assembly;

the control assembly is connected with the driving assembly and used for receiving a confirmation signal and controlling the start and stop of the driving assembly according to the confirmation signal;

the seal main body is connected to the sliding component.

Optionally, the pressing device further comprises a pressing component, the pressing component is slidably disposed on the housing component and fixedly connected with the sliding component, and the sliding component can be driven to move when the pressing component is operated to move relative to the housing component.

Optionally, be equipped with the slip through-hole of bar on the casing subassembly, press the subassembly including press the splenium and connect in press the sliding part of splenium, the sliding part with the sliding subassembly is connected, just the sliding part wears to locate the slip through-hole and can make a round trip to slide in the slip through-hole, press the splenium to be located the outside of casing subassembly.

Optionally, the pressing portion covers the slide through hole from the outside.

Optionally, the sliding portion is disposed on an inner wall of the pressing portion.

Optionally, the sliding part is provided in plurality, and the plurality of sliding parts are arranged at even intervals.

Optionally, the number of the sliding portions is 4, and each sliding portion is correspondingly disposed on one inner wall of the pressing portion.

Optionally, the seal device further includes a ball, a first accommodating groove is formed in an outer wall of the housing assembly, a second accommodating groove corresponding to the first accommodating groove is formed in an inner wall of the pressing portion, the first accommodating groove and the second accommodating groove form an accommodating cavity, and the ball rolls in the accommodating cavity.

Optionally, a profiling protrusion structure is arranged on the outer wall of the pressing portion, and the upper surface of the profiling protrusion structure is an arc-shaped surface so as to be adapted to the palm of a user.

Optionally, the outer side of the pressing portion is sleeved with an anti-slip sleeve, the outer surface of the anti-slip sleeve is provided with a plurality of anti-slip protrusions, and the anti-slip sleeve is made of rubber and/or silica gel.

Optionally, the pressing portion is annular and is sleeved outside the housing assembly.

Optionally, the seal device further includes a ball, a first accommodating groove is formed in an outer wall of the housing assembly, a second accommodating groove corresponding to the first accommodating groove is formed in an inner wall of the pressing portion, the first accommodating groove and the second accommodating groove form an accommodating cavity, and the ball rolls in the accommodating cavity.

Optionally, a profiling convex structure is arranged on the outer wall of the pressing portion, and the shape of the profiling convex structure is adapted to the palm of the user.

Optionally, an anti-slip sleeve is sleeved on the outer side of the pressing portion, and a plurality of anti-slip protrusions are arranged on the outer surface of the anti-slip sleeve.

Optionally, the locking mechanism is fixed in the housing assembly and connected with the control assembly, and the locking mechanism can selectively interfere with the sliding assembly;

when the control assembly does not receive the confirmation signal, the locking mechanism keeps locking the sliding assembly and prevents the sliding assembly from moving;

when the control assembly receives the confirmation signal, the locking mechanism unlocks the sliding assembly and avoids the sliding assembly, so that the sliding assembly can move freely.

Optionally, a telescopic rod is arranged on the locking mechanism, a through hole is formed in the sliding assembly, and the telescopic rod can extend into or retract out of the through hole under the control of the control assembly.

Optionally, still include the fingerprint module, the fingerprint module with the control module is connected, the fingerprint module is used for receiving the fingerprint signal, and is confirming receipt the fingerprint signal is the same with the fingerprint signal of predetermineeing of prestoring, to the control module sends confirm the signal.

Optionally, the housing assembly includes a housing portion and a support portion fixed in the housing portion, and the driving assembly is located in the housing portion and fixed to the support portion.

Optionally, the mobile phone further comprises a reset assembly, the reset assembly comprises a fixing column and an elastic reset piece sleeved outside the fixing column, one end of the fixing column is connected to the supporting portion, one end of the elastic reset piece abuts against the sliding assembly, and the other end of the elastic reset piece abuts against the other end of the fixing column.

Optionally, the driving assembly includes a driving portion and a gear driven by the driving portion to rotate, and the sliding assembly includes a rack, and the rack is in meshed connection with the gear.

Optionally, the drive part comprises a motor or a cylinder.

Optionally, the seal device further comprises a display screen fixed on the housing assembly and electrically connected with the control assembly, wherein the display screen is used for displaying the working state information of the seal device.

Optionally, the camera module is fixed on the shell assembly and electrically connected with the control assembly.

A stamping method is applied to the stamping device and is characterized by comprising the following steps:

s1, the control component receives a confirmation signal;

s2, the control assembly controls the driving assembly to act according to the confirmation signal;

and S3, the driving assembly drives the stamp main body to extend out of or retract back from one end of the shell assembly through the sliding assembly.

Optionally, the stamp device further includes a cloud server and an approval terminal, and before step S1, the stamp method further includes:

s10, initiating a stamping process;

s20, shooting a file needing to be sealed by the camera module, generating picture information and sending the picture information to the control assembly;

s30, the control component encrypts the picture information and transmits the picture information to a cloud server;

s40, the cloud server sends the picture information to an approval terminal;

s50, judging whether the picture information is approved at the approval terminal, if so, executing a step S60, and if not, executing a step S70;

s60, sending a confirmation signal to the control assembly;

and S70, sending a refute signal to the control assembly.

Optionally, during stamping, the stamping method further comprises:

s4, shooting the files and the seal people which are sealed by the camera module, acquiring the sealing time and the sealing place, generating sealing information and sending the sealing information to the control assembly;

and S5, the control component encrypts the seal information and transmits the seal information to the cloud server.

The seal device and the seal method provided by the invention at least have the following beneficial effects:

the seal device comprises a driving assembly and a sliding assembly, the driving assembly can drive the sliding assembly to move, the sliding assembly is fixedly connected with the seal main body, the driving assembly can indirectly drive the seal main body to move, when the seal main body moves to a seal position, automatic sealing can be carried out, compared with manual sealing, manpower is saved, and the seal device has higher efficiency, through the arrangement of the control assembly, the driving assembly can be controlled to start and stop, therefore, the driving assembly can be controlled to start after receiving a confirmation signal, sealing is carried out, when the confirmation signal is not received, namely, when the confirmation of an approver is not obtained, the driving assembly does not start, the remote control of the approver is convenient, the risk of sealing due to unauthorized is reduced, and the safety of the seal device is improved.

Drawings

Fig. 1 is a schematic structural diagram of a stamping device according to an embodiment of the present invention;

FIG. 2 is a top view of a stamping device according to an embodiment of the present invention;

FIG. 3 isbase:Sub>A cross-sectional view A-A of FIG. 2 according to one embodiment of the present invention;

FIG. 4 is a cross-sectional view B-B of FIG. 2 according to one embodiment of the present invention;

fig. 5 is an exploded view of a stamp device according to an embodiment of the present invention;

FIG. 6 is a schematic partial structure diagram of a stamping apparatus according to an embodiment of the present invention;

FIG. 7 is a schematic exploded view of a portion of a stamping apparatus according to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a portion of a stamping apparatus according to an embodiment of the present invention;

FIG. 9 is a first schematic diagram of a stamp device showing a stamp locking mechanism according to an embodiment of the present invention;

FIG. 10 is a schematic cross-sectional view of a stamp device according to an embodiment of the present invention;

FIG. 11 is a second schematic diagram of a stamp device showing a stamp locking mechanism according to a first embodiment of the present invention;

FIG. 12 is a schematic view of a connection structure provided in accordance with an embodiment of the present invention;

FIG. 13 is a schematic view of a seal locking mechanism according to an embodiment of the present invention;

FIG. 14 is a schematic view of a stamp holder provided in accordance with one embodiment of the present invention;

FIG. 15 is a schematic structural diagram of a stamp body according to an embodiment of the present invention;

FIG. 16 is an exploded view of a stamp body according to an embodiment of the present invention;

fig. 17 is a flowchart of a stamping method according to a second embodiment of the present invention.

In the figure:

1. a housing assembly; 11. a housing portion; 110. a slide through hole; 111. an upper housing; 112. a lower housing; 1121. a guide projection; 12. a support portion; 13. a supporting block; 14. clamping the edges;

2. a drive assembly; 21. a drive section; 22. a gear;

3. a sliding assembly; 31. a through hole; 32. a rack; 33. a scaffold structure; 331. a first bracket; 332. a second bracket; 34. a connecting structure; 341. a base plate; 342. inserting a cylinder; 3421. a socket; 3422. a slide hole; 3423. a guide convex strip;

4. a stamp body; 41. a guide groove; 42. a stamp clamp; 421. a second positioning portion; 422. a guide chute; 423. a pore structure; 43. an elastic clamping block; 44. a fixed part; 441. a card slot; 45. a gasket structure; 46. a fastening structure;

5. a locking mechanism; 51. a telescopic rod;

6. a pressing assembly; 61. a pressing part; 62. a sliding part;

7. a reset assembly; 71. fixing a column; 72. an elastic reset member;

8. a display screen; 9. a fingerprint module; 10. a camera module; 20. a switch; 30. a glass panel; 100. a control component; 102. a cloud server; 103. an approval terminal;

40. a seal locking mechanism 401 and a locking member; 4011. a body portion; 4012. a first positioning portion; 401a, pressing the inclined plane; 401b, a card slot part; 402. a drive member.

Detailed Description

In order to make the technical problems solved, the technical solutions adopted and the technical effects achieved by the present invention clearer, the technical solutions of the present invention are further described below by way of specific embodiments with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention. It should be further noted that, for the convenience of description, only some but not all of the elements associated with the present invention are shown in the drawings.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that the terms "mounted," "connected," and "connected" are to be construed broadly and encompass, for example, both fixed and removable connections unless otherwise explicitly stated or limited; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

Example one

The embodiment provides a seal device, which can improve the sealing efficiency and improve the sealing safety.

As shown in fig. 1 to 8, the stamp device includes a housing assembly 1, a driving assembly 2, a sliding assembly 3, a control assembly 100, and a stamp body 4 for fixing a stamp, and the stamp body 4 in this embodiment is preferably a jig for fixing a stamp.

Wherein, the housing assembly 1 has the accommodation space therein, and the drive assembly 2 sets firmly in the housing assembly 1 for drive sliding assembly 3 removes for the housing assembly 1, and sliding assembly 3 slides and sets up in the housing assembly 1. The control assembly 100 is connected to the driving assembly 2, and is configured to receive the confirmation signal and control start and stop of the driving assembly 2 according to the confirmation signal, when the driving assembly 2 is started, the sliding assembly 3 can be driven to move, and when the driving assembly 2 is in a stop state, the sliding assembly 3 can be limited to continue moving. The seal body 4 is connected to the sliding component 3 and moves relative to the housing component 1 along with the sliding component 3, that is, the seal body 4 in the embodiment can be indirectly controlled by the control component 100 to seal, and automatic sealing of the seal device is realized.

In the seal device that this embodiment provided, drive assembly 2 can drive sliding assembly 3 and remove, sliding assembly 3 and seal main part 4 fixed connection, make drive assembly 2 can indirectly drive seal main part 4 and remove, when seal main part 4 moves the seal position, can carry out automatic seal, compare in manual stamping, the manpower has been saved, and higher efficiency has, through setting up control assembly 100, can control opening and stopping of drive assembly 2, therefore can control drive assembly 2 and start after receiving the affirmation signal, and stamp, when not receiving the affirmation signal, that is, when not obtaining approver's affirmation, drive assembly 2 does not start, the remote control of the approver of being convenient for, the risk of stamping because of not authorizing has been reduced, the security of seal device has been improved.

The seal device provided by the embodiment not only has the function of automatic sealing, but also has the function of manual sealing. Specifically, as shown in fig. 1, the stamp device further includes a pressing assembly 6. Pressing component 6 and sliding setting on casing subassembly 1 and with sliding component 3 fixed connection, operation pressing component 6 can drive sliding component 3 and remove when removing for casing subassembly 1, also can reach the function that drive seal main part 4 removed for casing subassembly 1 for when the automatic seal function of seal device can't use, can press component 6 through the operation and realize manual stamping, make the function of seal device abundanter, it is more to use the scene.

Further, as shown in fig. 5, a strip-shaped sliding through hole 110 is provided on the housing assembly 1, and the sliding through hole 110 may extend along the length direction of the housing assembly 1. As shown in fig. 3, the pressing unit 6 includes a pressing portion 61 and a sliding portion 62 fixedly connected to the pressing portion 61. Wherein, sliding part 62 and sliding component 3 fixed connection, and sliding part 62 wears to locate sliding through hole 110 and can make a round trip to slide in sliding through hole 110, if slide along the length direction of casing subassembly 1, presses the portion 61 to be located the outside of casing subassembly 1, and the user of being convenient for applys external force to pressing the portion 61. When the pressing portion 61 moves, the sliding portion 62 is driven to move, and further the sliding component 3 is driven to move relative to the housing component 1, so as to realize the function of manual stamping.

Alternatively, with continued reference to fig. 3, the pressing portion 61 covers the sliding through hole 110 from the outside of the housing assembly 1, so as to prevent foreign matters such as dust from entering the housing assembly 1 through the sliding through hole 110. The pressing portion 61 may be annular and may be fitted outside the housing assembly 1, one or more sliding portions 62 may be provided, and when a plurality of sliding portions 6 are provided, the plurality of sliding portions 6 may be fixedly connected to different positions of the sliding assembly 3, so that reliability of the pressing assembly 6 may be improved.

Further, in order to reduce the friction force when pressing the portion 61 to slide on the housing assembly 1, a first accommodating groove is formed in the outer wall of the housing assembly 1, a second accommodating groove corresponding to the first accommodating groove is formed in the inner wall of the pressing portion 61, an accommodating cavity is formed by the first accommodating groove and the second accommodating groove, the stamp device further comprises a ball arranged in the accommodating cavity in a rolling manner, when the pressing portion 61 slides relative to the housing assembly 1, the ball rolls in the accommodating cavity, so that the sliding friction between the pressing portion 61 and the housing assembly 1 becomes rolling friction, the force required to be applied when the pressing portion 61 is pressed is reduced, and the stamp device is more labor-saving. The first receiving groove and the second receiving groove extend along the sliding direction of the pressing portion 61.

In this embodiment, in order to facilitate the grasping of the pressing portion 61, a profiling convex structure may be disposed on an outer wall of the pressing portion 61, and the shape of the profiling convex structure is adapted to the palm of the user, for example, the upper surface of the profiling convex structure is an arc surface, which is convenient for the grasping of the user.

Furthermore, the outer side of the pressing part 61 can be sleeved with an anti-slip sleeve, the anti-slip sleeve can be made of rubber, silica gel and the like, the outer surface of the anti-slip sleeve can be provided with a plurality of anti-slip protrusions, so that the situation that a user slips when pressing the pressing part 61 is prevented, and the use of the stamp device is facilitated.

Optionally, as shown in fig. 5, the stamp device may further include a locking mechanism 5. The locking mechanism 5 is fixed in the housing assembly 1 and connected with the control assembly 100, the control assembly 100 controls the action of the locking mechanism 5, and the locking mechanism 5 can selectively interfere with the sliding assembly 3. Specifically, when the control assembly 100 does not receive the confirmation signal, the locking mechanism 5 keeps locking the sliding assembly 3 to prevent the sliding assembly 3 from moving, that is, the locking mechanism 5 locks the sliding assembly 3, so that neither the driving assembly 2 nor the pressing assembly 6 can drive the sliding assembly 3 to move; when the control unit 100 receives the confirmation signal, the locking mechanism 5 can be controlled to operate, so that the locking mechanism 5 unlocks the slide unit 3 and retreats from the slide unit 3, and the slide unit 3 can move freely, and at this time, the driving unit 2 or the pressing unit 6 can drive the slide unit 3 to move relative to the housing unit 1, so as to seal. The locking mechanism 5 is arranged, so that the locking mechanism 5 and the driving assembly 2 can move only when receiving the control signal of the control assembly 100, and the stamping safety is further improved. In order to enable the stamp device to be manually stamped even when the control unit 100, the drive unit 2, or the battery in the stamp device is damaged, the lock mechanism 5 is in a state of releasing the lock of the slide unit 3 and allowing the slide unit 3 to escape. In the present embodiment, the control unit 100 can control the operation of both the driving unit 2 and the lock mechanism 5 based on the confirmation signal.

Further, with reference to fig. 5, the locking mechanism 5 is provided with a telescopic rod 51, and as shown in fig. 7, the sliding component 3 is provided with a through hole 31, and the telescopic rod 51 can extend into or retract out of the through hole 31 under the control of the control component 100. When the telescopic rod 51 is extended into the through hole 31, the telescopic rod can interfere with the sliding component 3, so that the sliding component 3 is locked and prevented from moving, and when the telescopic rod 51 is retracted out of the through hole 31, the sliding component 3 can move freely. Illustratively, the locking mechanism 5 in this embodiment includes an electromagnet that can have an energized and de-energized state, and when the electromagnet is in one state, the telescopic rod 51 can extend into the through hole 31, and when the electromagnet is in the other state, the telescopic rod 51 can retract out of the through hole 31. For example, when the electromagnet is in the energized state, it can drive the telescopic rod 51 to be inserted into the through hole 31, and when the electromagnet is in the de-energized state, it can drive the telescopic rod 51 to be retracted out of the through hole 31. It is understood that the locking mechanism 5 may also be other linear driving structures, such as a cylinder, a micro motor, etc.

In this embodiment, the locking mechanism 5 may be provided in plural, the sliding assembly 3 is provided with a plurality of through holes 31, the telescopic rods 51 on the plurality of locking mechanisms 5 correspond to the plurality of through holes 31 one by one, and each telescopic rod 51 can be inserted into its corresponding through hole 31. The plurality of locking mechanisms 5 are electrically connected to the control assembly 100, so that the control assembly 100 can control the plurality of locking mechanisms 5 to act simultaneously.

Alternatively, with continued reference to fig. 5, the sliding assembly 3 may include a rack 32, a bracket structure 33, and a connecting structure 34. Wherein, supporting structure 33 fixed connection is around connection structure 34, and through-hole 31 sets up on supporting structure 33, and rack 32 fixed connection is in the middle part of connection structure 34 top, and seal main part 4 fixed connection is in connection structure 34 below.

Further, the driving assembly 2 can be driven by the driving portion 21 and the gear 22 driven by the driving portion 21 to rotate, the rack 32 is meshed with the gear 22 and connected, when the driving portion 21 drives the gear 22 to rotate, the gear 22 drives the rack 32 to move, and then the rack 32 drives the support structure 33 and the connecting structure 34 to move, so that the connecting structure 34 drives the stamp main body 4 to move relative to the housing assembly 1, thereby realizing automatic stamping, after stamping, the driving portion 21 can be controlled to rotate reversely, so that the connecting structure 34 and the stamp main body 4 can be driven to reset through the gear 22 and the rack 32. Illustratively, the driving part 21 may include a motor or a cylinder, etc. In addition, in the present embodiment, the connecting structure 34 and the supporting structure 33 may be an integrally formed structure.

Alternatively, referring to fig. 2 and 7, the housing assembly 1 includes a housing portion 11 and a supporting portion 12 fixed in the housing portion 11, wherein the supporting portion 12 is fixedly connected to the housing portion 11. The drive portion 21 and the locking mechanism 5 of the drive assembly 2 are located within the housing portion 11 and are fixed to the support portion 12. The middle part of the supporting part 12 is provided with a via hole for the rack 32 to movably penetrate through, the connecting structure 34 is located on one side of the supporting part 12 where the driving part 21 is not arranged, namely, the bottom side of the supporting part 12, a gap exists between the supporting part 12 and the outer shell part 11, and the supporting structure 33 is slidably arranged in the gap in a penetrating manner, so that the telescopic rod 51 can conveniently extend into the through hole 31 on the supporting structure 33.

Optionally, as shown in fig. 7, the support structure 33 includes a first support 331 and a second support 332, a thickness of the first support 331 is greater than a thickness of the second support 332, and the through hole 31 is disposed on the first support 331, so that the overall strength of the first support 331 is not affected by the disposition of the through hole 31.

Further, as shown in fig. 5, the housing part 11 may include an upper housing 111 and a lower housing 112 connected, one end of the upper housing 111 near the lower housing 112 having an opening, and a sliding through hole 110 formed between the opening and the lower housing 112. Alternatively, as shown in fig. 7, the lower housing 112 may be provided with a clamping edge 14, and the clamping edge 14 can be clamped in the upper housing 111 to connect the upper housing 111 and the lower housing 112. In order to allow the stamp body 4 to slide smoothly, a guide protrusion 1121 is further provided in the lower case 112, a guide groove 41 is further provided in a side wall of the stamp body 4, and when the stamp body 4 slides with respect to the case assembly 1, the guide protrusion 1121 can slide in the guide groove 41 to guide the sliding of the stamp body 4, thereby preventing the stamp body 4 from shifting.

Still further, as shown in fig. 7, a supporting block 13 is further disposed at a corner of the inner wall of the lower casing 112, and an avoiding groove corresponding to the supporting block 13 is disposed at a corner position of the connecting structure 34, so that the supporting block 13 does not affect the movement of the connecting structure 34, and the supporting portion 12 is fixedly connected to the supporting block 13, so as to fix the supporting portion 12 on the lower casing 112.

In order to enable the stamp device to reset automatically after stamping, a reset component 7 can be arranged in the stamp device. Specifically, referring to fig. 3 and 5, the reset assembly 7 includes a fixed column 71 and an elastic reset element 72 sleeved outside the fixed column 71. Wherein, the fixed column 71 is located below the supporting portion 12, and one end of the fixed column 71 passes through the connecting structure 34 and then is connected to the bottom of the supporting portion 12, one end of the elastic resetting piece 72 abuts against the connecting structure 34 in the sliding assembly 3, the other end of the elastic resetting piece 72 abuts against the other end of the fixed column 71, when the connecting structure 34 moves away from the supporting portion 12, the elastic resetting piece 72 is squeezed, so that when the stamp is executed, the elastic resetting piece 72 is in a compression state, after the stamp is finished, when the sliding assembly 3 does not receive driving force any more, under the elastic force of the elastic resetting piece 72, the connecting structure 34 moves close to the supporting portion 12 until the connecting structure 34 resets. Alternatively, the other end of the fixed column 71 has a stop protrusion, and the other end of the elastic reset piece 72 can abut against the stop protrusion. For example, the elastic restoring member 72 in the present embodiment may be a telescopic spring. Through setting up reset assembly 7, can save the electric energy of seal device, and then improved seal device's duration.

Optionally, with continued reference to fig. 5, the stamp device may further include a display screen 8 fixed on the housing assembly 1 and electrically connected to the control assembly 100, where the display screen 8 is used to display the working status information of the stamp device, such as whether the stamp device is in an automatic stamping state or a manual stamping state. The end of the other end of the housing assembly 1 is a glass panel 30, one end of the housing assembly 1 is provided with an opening so that the stamp body 4 or the stamp on the stamp body 4 can extend out, and the display screen 8 is located below the glass panel 30.

Further, the seal device is still including being located the fingerprint module 9 of glass panel 30 below, fingerprint module 9 and 100 electric connection of control assembly, fingerprint module 9 is used for receiving the fingerprint signal, and is confirming that received fingerprint signal is the same with the fingerprint signal of predetermineeing of prestoring, sends the affirmation signal to control assembly 100, remove locking sliding assembly 3 and dodge sliding assembly 3 and make sliding assembly 3 can freely remove with control locking mechanism 5, make the user can obtain the authorization through the fingerprint. That is, the confirmation signal in this embodiment can be sent by the fingerprint module 9. Optionally, the specific structure and identification of the fingerprint module 9 in this embodiment are kept away from the prior art, and only the requirement of being able to identify the fingerprint information is needed, and the identified fingerprint information can be compared with the preset stored fingerprint information, which is not described in this embodiment.

In this embodiment, please refer to fig. 5, the stamp device further includes one or more camera modules 10, the camera modules 10 are fixed on the housing assembly 1 and electrically connected to the control assembly 100, and the camera modules 10 are used for capturing surrounding environments during and before the stamping process, so that an approver can determine whether to send a confirmation signal according to the environments.

Optionally, as shown in fig. 8, the stamp device further includes a cloud server 102 and an approval terminal 103. The control unit 100 is connected to the driving unit 2 and the locking mechanism 5 by wire or wirelessly. The control component 100 can perform information interaction with the cloud server 102, and the cloud server 102 can perform information interaction with the approval terminal 103. In order to further improve the security of the stamp device, the control component 100, the cloud server 102 and the approval terminal 103 all have a data encryption function. In this case, the confirmation signal in this embodiment may also be sent by the approval terminal 103, so that the stamp device can obtain the confirmation signal through multiple paths. Optionally, the specific structure and identification of the fingerprint module 9 in this embodiment are far away from the prior art, and only the requirement for identifying the fingerprint information needs to be satisfied, and the identified fingerprint information can be compared with the preset stored fingerprint information, which is not repeated in this embodiment.

Further, the stamp device further comprises a battery assembly located in the housing assembly 1, the battery assembly is electrically connected with the control assembly 100 and the electromagnet respectively, and the control assembly 100 is used for controlling connection and disconnection between the battery assembly and the electromagnet. In this embodiment, the battery module is further electrically connected to the driving module 2 to provide electric energy to the driving portion 21 in the driving module 2, and the control module 100 is further configured to control on/off of connection between the battery module and the driving portion 21 to control on/off of the driving portion 21.

Alternatively, as shown in fig. 9 to 14, the stamp device may further include a stamp attaching mechanism 40 for attaching the stamp body 4.

The connecting structure 34 includes a bottom plate 341 and an inserting cylinder 342 fixed at the bottom of the bottom plate 341, the supporting structure 33 is fixed at the edge of one side of the bottom plate 341, the supporting portion 12 is located at one side of the bottom plate 341, and the inserting cylinder 342 is fixed at the other side of the bottom plate 341, as shown in fig. 11 and 12, an inserting opening 3421 is formed at one end of the inserting cylinder 342 far from the bottom plate 341, and a sliding hole 3422 is formed in a side wall of the inserting cylinder 342. The stamp body 4 includes a stamp holder 42 inserted into the insertion opening 3421, the stamp holder 42 is cylindrical, a second positioning portion 421 is disposed at an end of one end of the stamp holder 42, and a slot for inserting a stamp is disposed on the stamp holder 42.

The stamp locking mechanism 40 comprises a locking member 401 movably arranged on the inserting cylinder 342 and a driving member 402 which is fixed on the bottom plate 341 and can drive the locking member 401 to move, the driving member 402 can drive the locking member 401 to move between an unlocking position and a locking position, and when the locking member 401 is positioned at the unlocking position, the stamp clamp 42 can be unlocked and separated from the inserting hole 3421; when lock 401 is in the locked position, stamp holder 42 is locked in socket 3421.

Further, as shown in fig. 13, the locking member 401 includes a main body 4011 and a first blocking portion 4012. The main body 4011 is slidably inserted into a sliding hole 3422 formed in a side wall of the insertion tube 342, and the driving member 402 is connected to the main body 4011 to drive the main body to move between the unlocking position and the locking position. The first locking portion 4012 is fixed on the main body 4011, and when the main body 4011 is located at the locking position, the first locking portion 4012 can be locked and engaged with the second locking portion 421 at one end of the stamp holder 42.

Optionally, the first detent 4012 is located in the socket 3421, and one of the first detent 4012 and the second detent 421 is a hook structure, and the other is a bayonet structure. The hook structure can elastically deform, and as shown in fig. 13, the hook structure includes a slot portion 401b, and an abutting inclined surface 401a that can abut against and contact with a side wall of the bayonet structure is provided at an end of the hook structure facing the bayonet structure. When the main body 4011 is located at the lock position, the stamp holder 42 is inserted into the socket 3421, and the side wall of the bayonet structure can slide along the pressing slope 401a to the slot portion 401b, so that the bayonet structure and the hook structure are locked and matched.

Further, as shown in fig. 12 and 14, the stamp holder 42 is inserted into both the outer side wall of one end of the insertion opening 3421 and the inner side wall of the insertion opening 3421, one is provided with a guide sliding groove 422, and the other is provided with a guide protruding strip 3423, and the guide protruding strip 3423 is slidably inserted into the guide sliding groove 422.

In this embodiment, the driving member 402 is an electromagnet, and the driving member 402 is electrically connected to the control assembly 100, when the control assembly 100 receives a seal replacing command or the seal device logs in through a fingerprint, the driving member 402 receives a power signal, and pushes the main body 4011 to move away from the driving member 402, the main body 4011 drives the first clamping portion 4012 to move, and the first clamping portion 4012 and the second clamping portion 421 are unlocked, at this time, the seal fixture 42 can automatically fall off from the socket 3421.

Optionally, the stamp body 4 in this embodiment can be adapted to stamps of different sizes. Specifically, as shown in fig. 15 and 16, the stamp body 4 may further include two elastic clamping blocks 43, a fixing portion 44, a pad structure 45, and a fastening structure 46. Wherein, two hole structures 423 have been seted up on seal anchor clamps 42's the lateral wall, two hole structures 423 set up relatively, fixed part 44 cover is established outside seal anchor clamps 42, and be equipped with two draw-in grooves 441 on the fixed part 44, two draw-in grooves 441 correspond to two hole structures 423 respectively, two elasticity clamp splice 43 are arranged in two draw-in grooves 441 respectively, and the hole structure 423 that the draw-in groove 441 that its place corresponds is passed to the one end of every elasticity clamp splice 43, and be arranged in seal anchor clamps 42's slot, the tip that is arranged in two elasticity clamp splice 43 of slot mutually supports with the centre gripping seal. The pad structure 45 is sleeved on the stamp clamp 42 and located above the fixing portion 44, and the pad structure 45 presses the top of the elastic clamping block 43, so that the elastic clamping block 43 can be prevented from sliding in the clamping groove 441. The fastening structure 46 is sleeved on the stamp holder 42 and located above the pad structure 45, and one end of the fastening structure 46 is fixed on the fixing portion 44 by a screw, so as to clamp the pad structure 45 and the elastic clamping block 43 between the fastening structure 46 and the fixing portion 44.

In this embodiment, the elastic clamping block 43 is in interference fit with the slot 441, that is, the elastic clamping block 43 is elastically deformed when being located in the slot 441, so that the elastic clamping block 43 is clamped in the slot 441 through elasticity of the elastic clamping block.

When the seal needs to be replaced, the seal locking mechanism 40 is controlled by the control assembly 100 to unlock the seal body 4, so that the seal body 4 is detached from the sliding assembly 3, then the screw on the fastening structure 46 is rotated to release the fastening of the fastening structure 46 to the gasket structure 45 and the elastic clamping block 43, and then the elastic clamping block 43 is pulled outwards, so that the two elastic clamping blocks 43 move backwards, the seal falls down from the slot of the seal clamp 42, the replaced seal is inserted into the slot, and then the elastic clamping block 43 is pushed inwards until the two elastic clamping blocks 43 clamp the seal in the slot. Because the distance between the two elastic clamping blocks 43 is variable, the stamp main body 4 can clamp stamps with various sizes, and the stamp main body 4 and the stamp device have wide application range and strong universality.

The seal device in this embodiment is an intelligent terminal device of management is monitored to the seal based on internet of things, can realize manually or automatically pressing and seal, can seal automatically when the electric quantity is sufficient, and inside motor drive can select the manual form of pressing when the electric quantity is little, is fit for multiple sight and seals and use.

When the method is applied to a mobile office scene, outgoing personnel can conveniently carry and use the method, the seal is authorized remotely, enterprises are helped to master the use condition of each seal, and the business risk is controlled; the camera module 10 records the content of the user and the user printing file in the whole process, and the stamping content is automatically uploaded to the cloud server 102 for filing, so that the stamping content can be traced.

The specific work flow of the seal device is as follows: the seal process is initiated when a user has a printing requirement, the seal device is synchronously placed on a shot file, the control assembly 100 utilizes an Arm Pelion technology to encrypt data, the shot file, the user and the printing position are uploaded to a cloud platform, an approver carries out approval confirmation of the printing process at an approval terminal, a confirmation signal is sent to the control assembly 100 after confirmation, the user can obtain the confirmation signal to carry out manual or automatic seal, if the approver sends a refute signal, the process is returned, and the user needs to confirm to reinitiate the process or terminate the sealing requirement.

Drive assembly 2 in this implementation can drive sliding assembly 3 and remove, sliding assembly 3 and seal main part 4 fixed connection, make drive assembly 2 can indirectly drive seal main part 4 and remove, when seal main part 4 moves the seal position, can carry out automatic seal, compare in artifical stamping, the manpower has been saved, and higher efficiency has, through setting up control assembly 100, can control opening and stopping of drive assembly 2, therefore can control drive assembly 2 and start after receiving the affirmation signal, and stamp, when not receiving the affirmation signal, also be, when not obtaining approver's affirmation, drive assembly 2 does not start, the remote control of the person of being convenient for approver, the risk of stamping because of not authorizing has been reduced, the security of seal device has been improved.

Example two

The embodiment provides a stamping method, which is applied to the stamping device according to the embodiment, and as shown in fig. 17, the stamping method includes the following steps:

s1, the control component receives the confirmation signal.

And S2, the control component controls the driving component to act according to the confirmation signal.

After receiving the confirmation signal, the control unit 100 controls the driving unit 2 to operate according to the content of the confirmation signal, so that the driving unit 2 can drive the sliding unit 3 to slide.

And S3, the driving assembly drives the stamp main body to extend out of or retract back from one end of the shell assembly through the sliding assembly.

When the sliding assembly 3 moves relative to the housing assembly 1, the stamp body 4 can be driven to extend out or retract from one end of the housing assembly 1.

In the seal method provided by the embodiment, the driving assembly 2 can drive the sliding assembly 3 to move, the sliding assembly 3 is fixedly connected with the seal main body 4, so that the driving assembly 2 can indirectly drive the seal main body 4 to move, when the seal main body 4 moves to a seal position, an automatic seal can be carried out, compared with manual sealing, manpower is saved, and higher efficiency is achieved, through the arrangement of the control assembly 100, the start and stop of the driving assembly 2 can be controlled, further the driving assembly 2 can be controlled to start after receiving a confirmation signal, sealing is carried out, when the confirmation signal is not received, namely, when the confirmation of an approver is not obtained, the driving assembly 2 is not started, the remote control of the approver is facilitated, the risk of sealing due to unauthorized use is reduced, and the safety of the seal device is improved.

Optionally, the stamp device further includes a cloud server 102 and an approval terminal 103, as shown in fig. 17, before step S1, the stamp method further includes:

and S10, initiating a stamping process.

Alternatively, the stamping process may be initiated by a signer, who may initiate the stamping process on the terminal. For example, the user and the approver may download the same software, and in this case, the cloud server 102 is a server of the software, and the software can be connected to the camera module 10.

And S20, shooting the file needing to be stamped by the camera module, generating picture information and sending the picture information to the control assembly.

After the user initiates a process on the software, the camera module 10 shoots the document to be sealed, generates the picture information and sends the picture information to the control component 100. Optionally, the print position information, the print time information, and the like may also be carried in the picture information.

And S30, the control component encrypts the picture information and transmits the picture information to the cloud server.

The picture information is encrypted by the control component 100, so that the important files are prevented from leaking.

And S40, the cloud server sends the picture information to the approval terminal.

And S50, judging whether the picture information is approved at the approval terminal, if so, executing the step S60, and if not, executing the step S70.

And S60, sending a confirmation signal to the control assembly, and executing the step S1.

Optionally, the approval terminal 103 may transmit the result to the cloud server 102 first, and then the cloud server 102 sends a confirmation signal to the control component 100, or the approval terminal 103 may directly send the confirmation signal to the control component 100, which is not limited in this embodiment.

And S70, sending a refute signal to the control assembly.

If the picture information does not pass through the approval terminal 103, a reject signal is transmitted to the control unit 100.

Optionally, during the stamping, the stamping method may further include:

and S4, shooting the files and the seal people which are being sealed by the camera module, acquiring the sealing time and the sealing place, generating the sealing information and sending the sealing information to the control assembly.

And S5, the control component encrypts the seal information and transmits the seal information to the cloud server.

The camera module 10 is used for recording the contents of the user and the user printing files in a whole process, and the stamping contents are automatically uploaded to the cloud server 102 for filing, so that the stamping contents can be traced.

The foregoing embodiments are merely illustrative of the principles and features of this invention, which is not limited to the above-described embodiments, but rather is susceptible to various changes and modifications without departing from the spirit and scope of the invention, which changes and modifications are within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (15)

1. A stamp device, comprising:

a housing assembly (1);

the driving component (2) is fixedly arranged in the shell component (1);

the sliding assembly (3) is arranged in the shell assembly (1) in a sliding mode and driven to move by the driving assembly (2);

the control assembly is connected to the driving assembly (2) and used for receiving a confirmation signal and controlling the starting and stopping of the driving assembly (2) according to the confirmation signal;

a stamp body (4) connected to the slide assembly (3);

pressing component (6), pressing component (6) including pressing portion (61) and connect in press sliding part (62) of portion (61) of pressing, be equipped with the slip through-hole (110) of bar on casing subassembly (1), sliding part (62) with sliding component (3) are connected, just sliding part (62) wear to locate slip through-hole (110) can make a round trip to slide in slip through-hole (110), press portion (61) to be located the outside of casing subassembly (1), just press portion (61) to be cyclic annular, and the cover is in outside casing subassembly (1), the operation press component (6) for can drive when casing subassembly (1) removes sliding component (3) removes.

2. The stamp device according to claim 1, wherein the pressing portion (61) covers the slide through hole (110) from the outside, the slide through hole (110) extending in a length direction of the housing assembly (1).

3. The stamp device according to claim 1, wherein the sliding portion (62) is provided on an inner wall of the pressing portion (61).

4. The stamp device according to claim 3, wherein the sliding portion (62) is provided in plurality, and the plurality of sliding portions (62) are provided at regular intervals.

5. The stamping device according to claim 4, wherein there are 4 sliding portions (62), each sliding portion (62) being disposed on an inner wall of the pressing portion (61).

6. The stamp device according to claim 1, further comprising a ball, wherein a first receiving groove is formed on an outer wall of the housing assembly (1), a second receiving groove corresponding to the first receiving groove is formed on an inner wall of the pressing portion (61), the first receiving groove and the second receiving groove form a receiving cavity, and the ball rolls in the receiving cavity.

7. The stamp device according to claim 1, wherein the outer wall of the pressing portion (61) is provided with a profiling convex structure, and the upper surface of the profiling convex structure is an arc-shaped surface so as to be adapted to the palm of a user.

8. The stamp device according to claim 1, wherein an anti-slip sleeve is sleeved outside the pressing portion (61), the outer surface of the anti-slip sleeve is provided with a plurality of anti-slip protrusions, and the anti-slip sleeve is made of rubber and/or silica gel.

9. The stamp device according to claim 1, further comprising a locking mechanism (5), wherein the locking mechanism (5) is fixed in the housing assembly (1) and connected with the control assembly, and the locking mechanism (5) can selectively interfere with the sliding assembly (3);

when the control component does not receive the confirmation signal, the locking mechanism (5) keeps locking the sliding component (3) and prevents the sliding component (3) from moving;

when the control assembly receives the confirmation signal, the locking mechanism (5) unlocks the sliding assembly (3) and avoids the sliding assembly (3) so that the sliding assembly (3) can move freely;

be equipped with telescopic link (51) on locking mechanism (5), be equipped with through-hole (31) on slip subassembly (3), telescopic link (51) can stretch into or retract out under control assembly's control through-hole (31).

10. The stamp device according to claim 1, wherein the housing assembly (1) comprises a housing portion (11) and a supporting portion (12) fixed in the housing portion (11), the driving assembly (2) is located in the housing portion (11) and fixed on the supporting portion (12), the driving assembly (2) comprises a driving portion (21) and a gear (22) driven by the driving portion (21) to rotate, the sliding assembly (3) comprises a rack (32), the rack (32) is engaged with the gear (22), and the driving portion (21) comprises a motor or a cylinder.

11. The stamp device according to claim 10, further comprising a reset component (7), wherein the reset component (7) comprises an fixed pillar (71) and an elastic reset element (72) sleeved outside the fixed pillar (71), one end of the fixed pillar (71) is connected to the supporting portion (12), one end of the elastic reset element (72) abuts against the sliding component (3), and the other end of the elastic reset element (72) abuts against the other end of the fixed pillar (71).

12. The stamp device according to claim 1, further comprising

The fingerprint module (9), the fingerprint module (9) with the control assembly is connected, the fingerprint module (9) is used for receiving fingerprint signals, and when confirming that the received fingerprint signals are the same with the pre-stored preset fingerprint signals, the confirmation signals are sent to the control assembly;

the camera module (10), the camera module (10) is fixed on the shell component (1) and is electrically connected with the control component;

display screen (8), display screen (8) are fixed in on casing subassembly (1) and with control assembly electric connection, display screen (8) are used for showing seal device's operating condition information.

13. A stamping method applied to the stamping device according to any one of claims 1 to 12, comprising the steps of:

s1, the control component receives a confirmation signal;

s2, the control assembly controls the driving assembly to act according to the confirmation signal;

and S3, the driving assembly drives the stamp main body to extend out of or retract back from one end of the shell assembly through the sliding assembly.

14. The stamping method according to claim 13, wherein the stamping device further comprises a cloud server and an approval terminal, and before step S1, the stamping method further comprises:

s10, initiating a stamping process;

s20, shooting a file needing to be stamped by the camera module, generating picture information and sending the picture information to the control assembly;

s30, the control component encrypts the picture information and transmits the picture information to a cloud server;

s40, the cloud server sends the picture information to an approval terminal;

s50, judging whether the picture information is approved at the approval terminal, if so, executing a step S60, otherwise, executing a step S70;

s60, sending a confirmation signal to the control assembly;

and S70, sending a refute signal to the control assembly.

15. The stamping method according to claim 14, wherein during stamping, the stamping method further comprises:

s4, shooting the files and the seal people which are sealed by the camera module, acquiring the sealing time and the sealing place, generating sealing information and sending the sealing information to the control assembly;

and S5, the control component encrypts the stamping information and transmits the information to the cloud server.

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