CN213138296U - Seal accuse appearance based on hot printing is stamped - Google Patents

Abstract

The utility model discloses a seal accuse appearance based on thermal printing is stamped, this seal accuse appearance includes the frame, the ink pad, seal module and drive module, the ink pad is established in the frame along Y direction slidable, the ink pad is used for bearing the stock, the seal module includes thermal printing head and thermal printing typewriter ribbon, the thermal printing head can imprint the thermal printing typewriter ribbon in order to realize stamping on the stock, drive module links to each other with the seal module, and drive module can drive the seal module and establish in the frame along X direction and Z direction slidable. This seal accuse appearance adopts the thermal print head to replace the entity seal, has replaced stamp-pad ink with the thermal print typewriter ribbon, has promoted the security of controlling with the seal, has enlarged the application scope of seal accuse appearance, has simplified the seal process of controlling with of seal accuse appearance, has promoted the efficiency of stamping of seal accuse appearance, has still simplified the structure of whole seal accuse appearance, has reduced the volume of seal accuse appearance, has simplified the maintenance flow of seal accuse appearance, has reduced the cost of seal accuse appearance, the consumptive material life cycle that has prolonged the seal accuse appearance has reduced use cost.

Description

Seal accuse appearance based on hot printing is stamped

Technical Field

The utility model relates to a seal safety management and control field and seal accuse appearance equipment field especially relate to a seal accuse appearance based on hot-stamping seals.

Background

The seal control instrument is an automatic stamping instrument, has the characteristics of scientification and normalization compared with the traditional manual stamping technology, realizes the effect of separating human seals, and ensures the scientificity, safety and high efficiency of the seal use.

The existing seal control instrument is used for placing a plurality of entity seals in a seal library of the seal control instrument through an installation mechanism so as to realize the closed management of the seals. The current common seals include copper seals, rubber seals, atom seals, photosensitive seals, name seals and the like, and the materials, the shapes and the dip-in stamp-pad ink of various seals are different. The existing seal control instrument is firstly provided with a seal mounting component, but because the variety of seals is various, various seal mounting components need to be designed; secondly, a seal library is arranged for placing a plurality of seal installation components (including seals); an oil printing pool (or an oil printing table) is secondarily arranged; setting a paper placing table again; and finally, arranging an integral frame and a multi-dimensional motion grabbing mechanism. The whole using process is as follows: the grabbing mechanism moves to a seal warehouse to grab an appointed seal assembly, then moves to the stamp-pad ink pool to dip in stamp-pad ink, then moves to the paper placing table to use the seal, and finally puts the seal assembly back to the seal warehouse.

The problems and disadvantages of the existing printing control instrument technology are as follows:

firstly, the method comprises the following steps: the entity seals are various in variety, various structural components are required to be designed for mounting the seals, and the complexity and the cost are high;

secondly, the method comprises the following steps: the existing printing control instrument can increase the volume and weight and has high cost due to more accommodated stamps; the requirement of banks or large enterprises with larger number of seals cannot be met due to less accommodated seals, the cost is increased due to more purchased equipment, and the seal safety is influenced due to the inconvenience of replacing the seals;

thirdly, the method comprises the following steps: the printing process of the existing printing control instrument comprises a plurality of movement steps of grabbing, dipping printing oil, using printing, putting back and the like, and is realized by designing a multi-dimensional movement mechanism, the movement mechanism is complex, the cost is higher, the single printing time is long, and the stamping efficiency is lower;

fourthly: stamp subassembly, stamp storehouse, the paper platform of putting etc. easily receive the pollution of stamp-pad ink with seal in-process, the stamp-pad ink that has polluted for a long time is dried out and solidifies, can influence the functional of whole mechanism, need regularly wash, has promoted the maintenance cost of seal accuse appearance.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a seal accuse appearance based on hot printing is stamped, this seal accuse appearance simple structure, manufacturing cost is lower, and the time of stamping is shorter, and the efficiency of stamping is higher, and the maintenance cost is lower, and can better satisfy multiple demand of stamping.

In order to achieve the above technical effects, the technical solution of the print control instrument based on thermal printing and stamping of this embodiment is as follows:

the utility model discloses a seal accuse appearance based on thermal printing is stamped, include: a frame; the printing platform is arranged on the rack in a sliding manner along the Y direction and is used for bearing printing stocks; the seal module comprises a thermal printing head and a thermal printing ribbon, and the thermal printing head can stamp the thermal printing ribbon to stamp on the printing stock; the driving module is connected with the seal module and can drive the seal module to slide along the X direction and the Z direction.

In some embodiments, the stamp module further includes: the ribbon roller is used for bearing the hot printing ribbon in a roll shape; the ribbon recovery shaft is used for recovering the hot printing ribbon after hot printing, the ribbon recovery shaft and the ribbon rolling shaft are arranged at intervals, and the ribbon recovery shaft and the ribbon rolling shaft are respectively positioned on two sides of the thermal printing head; the ribbon driving part is matched with the ribbon rolling shaft and can drive the ribbon rolling shaft to rotate so as to output the hot printing ribbon.

In some embodiments, the stamp module further includes a thermal print support member, the thermal print support member is connected to the driving module, the ribbon recovery shaft and the ribbon roller are rotatably disposed on the thermal print support member, and the ribbon driving member is connected to the thermal print support member.

In some optional embodiments, the driving module comprises: the first driving component comprises a first driving piece and a first moving piece, the first driving piece is arranged on the rack, and the first driving piece is connected with the first moving piece to drive the first moving piece to move along the X direction; the second driving assembly comprises a second driving piece and a second moving piece, the second driving piece is connected with the first moving piece, the second driving piece is connected with the second moving piece to drive the second moving piece to move along the Z direction, and the second moving piece is connected with the stamp module

In some optional embodiments, the driving module further comprises: first backup pad, first backup pad is connected in the frame, first driving piece includes first motor, first band pulley group and first conveyer belt, first moving part is including the cooperation first sliding block on the first conveyer belt, first sliding block with second drive assembly links to each other.

In some optional embodiments, the driving module further comprises: the second support plate is connected with the first sliding block, the second driving piece comprises a second motor and a lead screw matched with the second motor, and the second moving piece comprises a nut matched with the lead screw; one end of the connecting rod is connected with the nut, and the other end of the connecting rod is connected with the stamp module through a flange; the guide block is connected to the second supporting plate, and the guide block is provided with a guide hole matched with the connecting rod.

In some embodiments, the thermal printing stamp-based printing control instrument further comprises a moving module, and the moving module is connected with the printing table to drive the printing table to move along the Y direction.

In some optional embodiments, the moving module includes a third motor, a second pulley set, a second conveyor belt, and a second sliding block, the third motor cooperates with the second pulley set to drive the second pulley set to rotate, the second conveyor belt cooperates with the second pulley set, and the second sliding block is connected to the second conveyor belt, and the second sliding block is used to connect to the printing pad.

In some alternative embodiments, the thermal print ribbon has a thickness of less than 0.2 mm.

In some alternative embodiments, the thermal print face of the thermal print head is square and the thermal array resolution of the thermal print head is between 150dpi and 200 dpi.

The seal accuse appearance based on thermal printing stamp of this embodiment, adopt thermal printing head to replace the entity seal, replaced stamp-pad ink with the thermal printing typewriter ribbon, the security of using seal has been promoted, the application scope of seal accuse appearance has been enlarged, the seal process of using of seal accuse appearance has been simplified, the stamp efficiency of seal accuse appearance has been promoted, the structure of whole seal accuse appearance has still been simplified, the volume of seal accuse appearance has been reduced, the maintenance flow of seal accuse appearance has been simplified, the cost of seal accuse appearance has been reduced, the consumptive material life cycle of seal accuse appearance has been prolonged and use cost has been reduced.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic structural diagram of a printing control instrument based on thermal printing stamping of the embodiment of the present invention.

Fig. 2 is a schematic view of a local structure of a printing control instrument based on thermal printing and stamping of the embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a seal module of a seal control instrument based on thermal printing and stamping according to an embodiment of the present invention.

Reference numerals:

1. a frame;

2. a printing pad;

3. a stamp module; 31. a thermal print head; 32. a thermal print ribbon; 33. a ribbon roll; 34. a ribbon recovery spool; 35. a ribbon drive member; 36. a hot stamp support;

4. a driving module; 41. a first drive assembly; 42. a second drive assembly; 43. a first support plate; 44. a second support plate; 45. a connecting rod; 46. a flange; 47. a guide block;

5. a moving module; 51. a third motor; 52. a second pulley set; 53. a second conveyor belt; 54. a second slider;

6. a main control board;

7. a power module.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solution adopted by the present invention and the technical effect achieved by the present invention clearer, the technical solution of the present invention will be further explained by combining the drawings and by means of the specific implementation manner.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, features defined as "first" and "second" may explicitly or implicitly include one or more of the features for distinguishing between descriptive features, non-sequential, non-trivial and non-trivial. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; 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 meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The structure of the printing control instrument based on thermal printing stamping according to the embodiment of the present invention is described with reference to fig. 1-3.

As shown in fig. 1-3, the utility model discloses seal accuse appearance based on thermal printing is stamped includes frame 1, ink pad 2, seal module 3 and drive module 4, ink pad 2 is established in frame 1 along Y direction slidable, ink pad 2 is used for bearing the stock, seal module 3 includes thermal head 31 and thermal printing typewriter ribbon 32, thermal head 31 can imprint thermal printing typewriter ribbon 32 in order to realize stamping on the stock, drive module 4 links to each other with seal module 3, and drive module 4 can drive seal module 3 and slide along X direction and Z direction.

It should be noted that the hot spots of the thermal head 31 are arranged in a matrix form, and the area of the heating dot matrix of the thermal head 31 can cover the graphic areas of all office stamps through design calculation. All entity seals of a user enterprise generate graphic files through scanning, and the graphic files are stored in the control circuit board of the thermal printing head 31 in an encrypted mode, so that the compatible number and the safety of the seals of the seal control instrument are greatly superior to those of the prior art. When in printing, the program of the thermal printing head 31 controls part of hot spots of the thermal printing head 31 to generate heat to form a required seal pattern, the non-heating area is blank, the ink ribbon is pressed under the thermal printing head 31 to melt the resin pigment corresponding to the seal pattern and transfer the resin pigment onto a printing stock, and the printing process is completed.

It can be understood that, in the actual printing process, only the printing stock needs to be placed on the ink pad 2, and the ink pad 2 is slid along the Y direction so that the printing stock moves to the lower part of the stamp module 3, then the drive module 4 drives the stamp module 3 to move along the X direction so that the stamp moves to the right above the area needing to be printed, then the drive module 4 drives the stamp module 3 to descend along the Z direction so that the thermal printing ribbon 32 is stopped against the printing stock by the thermal printing head 31, at this time, the thermal printing head 31 generates heat to melt the resin pigment corresponding to the stamp figure and transfers the resin pigment onto the printing stock, and the printing process can be completed. Compare and take out the seal, dip in and get stamp-pad ink, with the motion process of seal at the current seal accuse appearance of putting back the seal, the seal of seal accuse appearance of this embodiment is comparatively simple with the seal process, and the efficiency of stamping is higher.

Meanwhile, as the thermal printing head 31 is adopted to replace an entity seal and the thermal printing ribbon 32 is adopted to replace stamp-pad ink, the structure of the whole printing control instrument is simplified, the volume of the whole printing control instrument is reduced, the phenomenon that the stamp-pad ink pollutes internal components of the printing control instrument is avoided, the printing control instrument is not required to be cleaned regularly, the maintenance flow of the printing control instrument is simplified, and the cost of the printing control instrument is reduced. In addition, compare with stamp-pad ink, the live time of the hot stamp-pad ink ribbon 32 of this embodiment is longer, has prolonged the consumptive material life cycle of seal accuse appearance to use cost has been reduced to a certain extent.

The seal accuse appearance based on thermal printing stamp of this embodiment, adopt thermal printing head 31 to replace the entity seal, replaced stamp-pad ink with thermal printing typewriter ribbon 32, the seal safety has been promoted, the application scope of seal accuse appearance has been enlarged, the seal process of using of seal accuse appearance has been simplified, the stamp efficiency of seal accuse appearance has been promoted, the structure of whole seal accuse appearance has still been simplified, the volume of seal accuse appearance has been reduced, the maintenance flow of seal accuse appearance has been simplified, the cost of seal accuse appearance has been reduced, the consumptive material life cycle of seal accuse appearance has been prolonged, and use cost is reduced.

In some embodiments, as shown in fig. 2-3, the stamp module 3 further includes a ribbon roller 33, a ribbon recycling shaft 34, and a ribbon driving member 35, the ribbon roller 33 is used for carrying the rolled thermal printing ribbon 32, the ribbon recycling shaft 34 is used for recycling the thermal printing ribbon 32 after thermal printing, the ribbon recycling shaft 34 and the ribbon roller 33 are disposed at intervals, the ribbon recycling shaft 34 and the ribbon roller 33 are respectively located at two sides of the thermal print head 31, the ribbon driving member 35 is engaged with the ribbon roller 33, and the ribbon driving member 35 can drive the ribbon roller 33 to rotate to output the thermal printing ribbon 32.

It can be understood that the ribbon of this embodiment is made of PVC high-density film, one side of the substrate is coated with resin ink, the two ends of the ribbon are respectively wound on the ribbon recovery shaft 34 and the ribbon roller 33, the thermal printing driving member drives the ribbon roller 33 to rotate to output the ribbon during the actual printing process, and the used ribbon is wound on the ribbon recovery shaft 34. This kind of adopt rolled hot seal typewriter ribbon 32 to make seal accuse appearance hold hot seal typewriter ribbon 32 length and small in size that reaches several hundred meters, can easily support for ten thousand times to use the seal, not only is superior to the seal ink paste one or two thousand times of the life-span of using the seal of current seal accuse appearance, has prolonged the consumptive material life cycle of seal accuse appearance, has reduced with the seal degree, still has the miniaturized design that does benefit to whole seal accuse appearance for the volume of seal accuse appearance is less, the aspect transportation and transport.

In some embodiments, as shown in fig. 3, the stamp module 3 further includes a thermal print support 36, the thermal print support 36 is connected to the driving module 4, the ribbon recovery shaft 34 and the ribbon roller 33 are rotatably disposed on the thermal print support 36, and the ribbon driving member 35 is connected to the thermal print support 36. It can be understood that the thermal print support 36 is used as a support for the thermal print head 31, the ribbon recovery shaft 34 and the ribbon roller 33, on one hand, it is ensured that the thermal print head 31, the ribbon recovery shaft 34 and the ribbon roller 33 can be stably supported, and on the other hand, it is ensured that the driving module 4 can stably drive the whole stamp module 3 to move along the X direction and the Z direction, so as to ensure the reliability of printing.

Of course, it should be additionally noted that the shape, size and material of the hot stamp support 36 may be selected according to actual needs, and no specific limitation is made on the shape, size and material of the hot stamp support 36.

In some optional embodiments, as shown in fig. 2, the driving module 4 includes a first driving element 41 and a second driving element 42, the first driving element 41 includes a first driving element and a first moving element, the first driving element is disposed on the frame 1, the first driving element is connected to the first moving element to drive the first moving element to move along the X direction, the second driving element 42 includes a second driving element and a second moving element, the second driving element is connected to the first moving element, the second driving element is connected to the second moving element to drive the second moving element to move along the Z direction, and the second moving element is connected to the stamp module 3.

It can be understood that, in the present embodiment, the first driving assembly 41 and the second driving assembly 42 are respectively adopted to realize the movement of the stamp module 3 along the X direction and the Z direction, so as to ensure the movement stability of the stamp module 3, and thus ensure the printing reliability of the printing control instrument of the present embodiment.

In some optional embodiments, as shown in fig. 2, the driving module 4 further includes a first supporting plate 43, the first supporting plate 43 is connected to the frame 1, the first driving member includes a first motor, a first pulley set and a first belt, the first movable member includes a first sliding block engaged with the first belt, and the first sliding block is connected to the second driving assembly 42.

It can be understood that the structure of the first belt pulley set and the first conveyor belt can well ensure the motion stability of the stamp module 3 along the X direction, so that the stamp using reliability of the stamp control instrument is ensured, the cost of the driving module 4 can be reduced to a certain extent, and the manufacturing cost of the whole stamp control instrument is reduced. In addition, the first sliding block connected to the first conveying belt is used as a connecting piece for the first conveying belt and the second driving assembly 42, so that the second driving assembly 42 can be well guaranteed to move along the X direction stably, connecting structures such as connecting holes can be prevented from being machined in the first conveying belt, the strength of the first conveying belt is guaranteed, and the reliability of the first driving assembly 41 is improved.

Preferably, the first motor is a stepping motor, the stepping precision and the repeated positioning precision of the stepping motor are smaller than 0.5mm, and thus the positioning precision of the stamp module 3 can be ensured, the stamping precision is ensured, and the use satisfaction of a user is improved.

Of course, it should be noted here that in other embodiments of the present invention, the first driving member may also be other structures such as a linear motor and a motor screw, and is not limited to the structure of the first belt pulley set of the present embodiment.

In some optional embodiments, as shown in fig. 2, the driving module 4 further includes a second supporting plate 44, a connecting rod 45 and a guiding block 47, the second supporting plate 44 is connected to the first sliding block, the second driving member includes a second motor and a lead screw engaged with the second motor, the second movable member includes a nut engaged with the lead screw, one end of the connecting rod 45 is connected to the nut, the other end of the connecting rod 45 is connected to the stamp module 3 through a flange 46, the guiding block 47 is connected to the second supporting plate 44, and the guiding block 47 is provided with a guiding hole engaged with the connecting rod 45.

It can be understood that, the structure of lead screw and nut can enough guarantee seal module 3 better along the motion stability of Z direction to guaranteed seal control appearance with seal reliability, can also guarantee when not using seal module 3 better guarantee on the lead screw, avoided seal module 3 the collision emergence that the whereabouts leads to under the effect of gravity, avoided the damage of thermal head 31.

Meanwhile, the connecting rod 45 and the guide block 47 are matched, so that the phenomenon that the stamping precision is low due to the fact that the stamp module 3 is inclined in the ascending or descending process can be avoided. In addition, one end of the connecting rod 45 is connected with the stamp module 3 by the flange 46, so that the connection stability of the second driving assembly 42 and the stamp module 3 is ensured, and the stamp module 3 can stably move along the Z direction.

Of course, it should be noted here that in other embodiments of the present invention, the first driving member may also be a linear motor, a motor-driven conveyor belt assembly, and other structures, and is not limited to the structure of the first conveyor belt matched with the first pulley set in this embodiment.

Preferably, the second motor is a stepping motor, the stepping precision and the repeated positioning precision of the stepping motor are smaller than 0.5mm, and thus the positioning precision of the stamp module 3 can be ensured, the stamping precision is ensured, and the use satisfaction of a user is improved.

It should be noted that, in this embodiment, the driving module 4 may be directly formed as a mechanical arm, and the mechanical arm can simultaneously realize the movement of the stamp module 3 in the X direction and the Z direction. That is to say, the driving module 4 of the present embodiment is not limited to the structure of the present embodiment that two driving assemblies are adopted to respectively realize the movement along the X direction and the Z direction, and may also be other space driving structures, which may be specifically selected according to actual needs.

In some embodiments, as shown in fig. 1, the thermal printing stamp-based printing control apparatus further includes a moving module 5, and the moving module 5 is connected to the printing pad 2 to drive the printing pad 2 to move along the Y direction. From this, the automatic motion can all be realized to ink pad 2 and seal module 3, has promoted the automation level of whole seal accuse appearance for with seal in-process, only need the user put the stock on ink pad 2 can, promoted user's use satisfaction.

In some alternative embodiments, as shown in fig. 2, the moving module 5 includes a third motor 51, a second pulley set 52, a second transmission belt 53 and a second sliding block 54, the third motor 51 cooperates with the second pulley set 52 to drive the second pulley set 52 to rotate, the second transmission belt 53 cooperates with the second pulley set 52, and the second sliding block 54 is connected to the second transmission belt 53, and the second sliding block 54 is used for connecting to the printing pad 2.

It can be understood that the second belt pulley set 52 and the second belt pulley 53 can not only better ensure the motion stability of the cause head along the Y direction, thereby ensuring the printing reliability of the printing control instrument, but also reduce the manufacturing cost of the whole printing control instrument to a certain extent. In addition, the second sliding block 54 connected to the second conveying belt 53 is used for connecting the second conveying belt 53 and the printing pad 2, so that the movable module 5 can be well ensured to stably drive the printing pad 2 to move along the X direction, connection structures such as connecting holes can be prevented from being processed on the second conveying belt 53, the strength of the second conveying belt 53 is ensured, and the reliability of the movable module 5 is improved.

Preferably, the third motor 51 is a stepper motor, the stepper motor having a step accuracy and a repeat positioning accuracy of less than 0.5 mm. Therefore, the positioning precision of the seal module 3 can be ensured, the sealing precision is ensured, and the use satisfaction of a user is improved.

In some alternative embodiments, the thermal print ribbon 32 has a thickness of less than 0.2 mm. Thus, more thermal print ribbon 32 can be wound on the ribbon roller 33 during actual use, thereby extending the consumable replacement cycle of the print controller of the present embodiment.

In some alternative embodiments, the thermal print face of thermal print head 31 is square, and the thermal array resolution of thermal print head 31 is between 150dpi and 200 dpi. Therefore, the dot matrix of the thermal printing head 31 is fine, the definition of thermal printing imaging is improved, and the stamping precision is improved. Of course, the dot matrix resolution of the thermal head 31 may be changed according to actual needs, and is not limited to the scope of the present embodiment.

Example (b):

the structure of a thermal printing stamp-based print control apparatus according to an embodiment of the present invention is described below with reference to fig. 1 to 3.

As shown in fig. 1-3, the printing control apparatus includes a frame 1, a pad 2, a stamp module 3, a driving module 4, a moving module 5, a main control board 6, and a power module 7, wherein the pad 2 is slidably disposed on the frame 1 along a Y direction, and the pad 2 is used for bearing a printing material.

The stamp module 3 includes a thermal head 31, a thermal print ribbon 32, a ribbon roller 33, a ribbon recovery shaft 34, a ribbon driving member 35, and a thermal print supporting member 36, wherein the thermal print supporting member 36 is connected to the driving module 4, and the ribbon driving member 35 is connected to the thermal print supporting member 36. The ribbon recovery shaft 34 and the ribbon roller 33 are rotatably disposed on the thermal print support 36, and the ribbon recovery shaft 34 and the ribbon roller 33 are disposed on two sides of the thermal print head 31, the ribbon roller 33 is used for carrying the thermal print ribbon 32 in a roll shape, and the ribbon recovery shaft 34 is used for recovering the thermal print ribbon 32 after thermal printing. The ribbon driving member 35 is engaged with the ribbon roller 33, the ribbon driving member 35 can drive the ribbon roller 33 to rotate to output the thermal printing ribbon 32, the thermal printing head 31 can stamp the thermal printing ribbon 32 to realize stamping on the printing material,

the driving module 4 includes a first driving assembly 41, a second driving assembly 42, a first supporting plate 43, a second supporting plate 44, a connecting rod 45 and a guiding block 47, the first driving assembly 41 includes a first driving member and a first moving member, the first supporting plate 43 is connected to the frame 1, the first driving member includes a first motor, a first pulley set and a first conveyor belt, the first moving member includes a first sliding block matched to the first conveyor belt, and the first sliding block is connected to the second supporting plate 44. The second driving piece comprises a second motor and a lead screw matched with the second motor, the second movable piece comprises a nut matched with the lead screw, one end of a connecting rod 45 is connected with the nut, the other end of the connecting rod is connected with the hot stamp supporting piece 36 through a flange 46, a guide block 47 is connected onto the second supporting plate 44, and a guide hole matched with the connecting rod 45 is formed in the guide block 47.

The moving module 5 is connected with the pad 2 to drive the pad 2 to move along the Y direction, the moving module 5 includes a third motor 51, a second pulley group 52, a second conveyor belt 53 and a second slide block 54, the third motor 51 is matched with the second pulley group 52 to drive the second pulley group 52 to rotate, the second conveyor belt 53 is matched with the second pulley group 52, the second slide block 54 is connected on the second conveyor belt 53, and the second slide block 54 is used for being connected with the pad 2.

The main control board 6 is composed of a main control circuit board and a mounting board, the function realization process of each functional module (the seal module 3, the drive module 4 and the mobile module 5) is controlled by the program of the main control circuit board, the scanning images and other various information of all entity seals of user enterprises are stored, analyzed, encrypted, uploaded and downloaded by the main control circuit board, the main control circuit board is mounted on the mounting board, and the main control board 6 is integrally fixed on the top of the rack 1.

The power module 7 consists of a switching power supply and a UPS (uninterrupted power supply), supplies power to the whole printing control instrument, and is arranged at the bottom of the rack 1.

The printing process of the printing control instrument based on the thermal printing stamping of the embodiment is as follows:

the first step is as follows: the moving module 5 drives the printing platform 2 to extend out of the rack 1;

the second step is that: placing the printing stock on the standard line on the printing pad 2;

the third step: the moving module 5 drives the printing platform 2 to retract into the frame 1;

the fourth step: the driving module 4 drives the seal module 3 to move, so that the thermal printing head 31 presses the thermal tape on the printing stock;

the fifth step: the thermal printing head 31 is heated to realize the thermal printing and stamping;

and a sixth step: the moving module 5 drives the printing pad 2 to extend out of the machine frame 1 to take out the printing stock.

The advantages of the print control instrument based on the thermal printing stamp of the embodiment are as follows:

firstly, the method comprises the following steps: the scheme that the solid seal is abandoned and the thermal printing head 31 is adopted for stamping and stamping is adopted, the digital encryption management of the seal graph is realized, the safety is improved, the seal management and change by a client are more convenient, and the management cost and the labor cost are saved;

secondly, the method comprises the following steps: the thermal printing head 31 replaces an entity seal, can be compatible with all seals of all customers without being limited by the containing quantity of the entity seals, and realizes various sealing requirements of users;

thirdly, the method comprises the following steps: the hot stamp-pad ink ribbon 32 replaces stamp-pad ink, the consumption of consumables is small, the cost is low, the unit volume of the ribbon is small, large-capacity loading is facilitated, and the consumable service cycle of the print control instrument of the embodiment greatly exceeds that of the existing inkpad;

fourthly: the adhesive force and the wear resistance of the pigment after thermal printing are better, the stamping effect of the printing control instrument of the embodiment is improved, and the user satisfaction is improved;

fifth, the method comprises the following steps: the printing process has the advantages of simple steps, easy control of motion precision, high printing efficiency and low mechanism cost, and the maintenance of the whole printing control instrument is simpler and the maintenance cost of the printing control instrument is reduced because no stamp-pad ink is polluted.

In the description herein, references to the description of "some embodiments," "other embodiments," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (10)

1. The utility model provides a seal accuse appearance based on thermal printing is stamped which characterized in that includes:

a frame (1);

the printing platform (2) is arranged on the rack (1) in a sliding manner along the Y direction, and the printing platform (2) is used for bearing printing stocks;

the seal module (3) comprises a thermal printing head (31) and a thermal printing ribbon (32), and the thermal printing head (31) can stamp the thermal printing ribbon (32) to stamp on the printing stock;

drive module (4), drive module (4) with seal module (3) link to each other, just drive module (4) can drive seal module (3) slide along X direction and Z direction.

2. The thermal printing stamp-based print control instrument according to claim 1, wherein the stamp module (3) further comprises:

a ribbon roll (33), the ribbon roll (33) being configured to carry the thermal print ribbon (32) in a roll;

the ribbon recovery shaft (34) is used for recovering the hot printing ribbon (32) after hot printing, the ribbon recovery shaft (34) and the ribbon rolling shaft (33) are arranged at intervals, and the ribbon recovery shaft (34) and the ribbon rolling shaft (33) are respectively positioned on two sides of the thermal printing head (31);

ribbon driving member (35), ribbon driving member (35) with ribbon roller (33) cooperate, ribbon driving member (35) can drive ribbon roller (33) rotate in order to export hot seal ribbon (32).

3. The print control apparatus based on thermal printing stamping according to claim 2, wherein the stamp module (3) further comprises a thermal printing support member (36), the thermal printing support member (36) is connected with the driving module (4), the ribbon recovery shaft (34) and the ribbon roller (33) are rotatably arranged on the thermal printing support member (36), and the ribbon driving member (35) is connected on the thermal printing support member (36).

4. Print control unit based on thermal printing stamps according to claim 1, characterized in that said driving module (4) comprises:

the first driving assembly (41), the first driving assembly (41) includes a first driving element and a first movable element, the first driving element is arranged on the rack (1), and the first driving element is connected with the first movable element to drive the first movable element to move along the X direction;

the second driving assembly (42), the second driving assembly (42) includes second driving piece and second moving part, the second driving piece with first moving part links to each other, the second driving piece with the second moving part links to each other in order to drive the second moving part moves along the Z direction, the second moving part with seal module (3) link to each other.

5. Print control instrument based on thermal printing stamping according to claim 4, characterized in that the driving module (4) further comprises:

first backup pad (43), first backup pad (43) are connected in frame (1), first driving piece includes first motor, first pulley group and first conveyer belt, first moving part is including the cooperation first sliding block on the first conveyer belt, first sliding block with second drive assembly (42) link to each other.

6. Print control instrument based on thermal printing stamping according to claim 5, characterized in that the driving module (4) further comprises:

the second supporting plate (44) is connected with the first sliding block, the second driving piece comprises a second motor and a lead screw matched with the second motor, and the second movable piece comprises a nut matched with the lead screw;

one end of the connecting rod (45) is connected with the nut, and the other end of the connecting rod (45) is connected with the stamp module (3) through a flange (46);

the guide block (47), the guide block (47) is connected on the second supporting plate (44), be equipped with on the guide block (47) with connecting rod (45) cooperation is in the guiding hole.

7. The printing control instrument based on thermal printing stamping according to claim 1, characterized in that the printing control instrument based on thermal printing stamping further comprises a moving module (5), and the moving module (5) is connected with the printing pad (2) to drive the printing pad (2) to move along the Y direction.

8. The printing control instrument based on thermal printing stamping according to claim 7, wherein the moving module (5) comprises a third motor (51), a second belt wheel set (52), a second conveyor belt (53) and a second sliding block (54), the third motor (51) is matched with the second belt wheel set (52) to drive the second belt wheel set (52) to rotate, the second conveyor belt (53) is matched with the second belt wheel set (52) and the second sliding block (54) is connected to the second conveyor belt (53), and the second sliding block (54) is used for being connected with the printing table (2).

9. Print control unit based on thermal printing stamps according to any of the claims 1-8 characterized in that the thickness of the thermal printing ribbon (32) is less than 0.2 mm.

10. Print control unit based on thermal printing stamping according to any of claims 1-8, characterized in that the hot stamping surface of the thermal print head (31) is square and the thermal matrix resolution of the thermal print head (31) is between 150dpi and 200 dpi.

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