Technical Field:

This invention relates to an automatic stamping machine that can be used for sealing, stamping, caching in offices, business environments, official institutions and similar places.

State of the Art:

Today, dozens of files are sealed, stamped, cached etc. , in workplaces every day. Although it does not seem like a very difficult job when done separately, when it is calculated collectively, the person spends a part of his working time for this work. This leads to both loss of time, physical fatigue, and psychological negativities. Currently, it is completely done manually, or it is done by taking back the paper placed manually in a semi-automatic device after it has been sealed.

The patent application EP1741561A1 describes the” Stamp". In a fixed print portion, a cylindrical holding member holds a fixed print member and an ink storage body from the side of the ink storage body and a frame member having an L-shaped section is set from the side of the fixed print member so that it is fitted to the outer periphery of the holding member, thereby a print face is held and exposed outside. A portion of the fixed print member near the outer periphery is nipped between the frame member and the holding member in a compressed state because the frame member is fitted to the holding member and an exposed portion of the fixed print member has a difference of height H between the end face of the frame member and the print face. A damper member is disposed between the frame member and a flange provided on a supporting case of the movable print portion.

The patent application JP2015054427A describes ’’Continuous Seal and Stamp". To solve problems, for example, conventionally a stamp or a seal has one seal impression on its body, therefore different stamp or seal must be used for each sealing of seal impressions, and therefore when a place for stamping is narrow, or one wants to change a layout for stamping, two stamps and seals must be prepared, so that such troubles of sealing need to be solved. SOLUTION: In the invention of the claim 1 for solving the problem, the seal body has at least two parts for sealing seal impression at a lower part and a side part, and at two side parts thereon. At the lower part and the side part, a seal impression seal part is provided respectively, and on an opposite side part, a seal impression printing surface is provided. All vertical directions of continuous images of the seal impression seal part are unified. The seal impression seal part is provided on the seal. The invention relates to the seal and stamp having above constitution.

The utility model application CN204432015U describes the” Accounting Stamp Seal Device". The utility model provides an accounting stamp seal device. The accounting stamp seal device comprises an upper support, a support pillar, and a lower support table, wherein the support pillar is arranged on the lower support table; the upper support is arranged on the support pillar; the lower end of the support pillar is arranged at the middle position of the support table. An infrared ray is blocked through a file, a host machine is started so that a hydraulic column is descended, a stamp is arranged in a stamp fixing groove in the hydraulic column, a fixed cover is closed at ordinary times, and red ink paste used for seals is arranged in the fixed cover; when the fixed cover is disassembled, the file is placed in the stamp, the infrared ray is blocked, an infrared receiver receives constant infrared rays, the host machine in the support pillar is driven, the hydraulic column is driven to be descended, and the stamp is sealed on the file; the operation is not manual operation, so that uniform stress of each sealed stamp is guaranteed, the stamps are clearly visible, the physical output of an accountant is reduced, the work efficiency is improved, a cushion rubber is arranged on the lower support table, the stamp is well protected, and the service life of the stamp is prolonged.

The above describes devices for manual and semi-automatic sealing, stamping, caching. Some of these devices are completely manual and the process is completed by manually striking the stamp on the paper. That is why both physical and mental fatigue occurs. In another device, the paper is placed on the device manually and the stamp is automatically struck. Then the paper is taken back by hand. A single sheet of paper is placed each time, and there are no labor savings. There is no difference with manual stamping.

As a result, a new technology is needed that can overcome the disadvantages mentioned above.

Description of the Invention:

The present invention is an automatic seal striking machine capable of overcoming the above-mentioned disadvantages, the feature of which is; It can stamp more than one paper automatically, it has a structure compatible with different sizes of paper, it can be stamped on the desired part of the paper, it can renew ink itself, it has laser sensors, it has a cylinder that transmits the sealed paper to the output body, its cost is low, it reduces labor and time loss to a minimum.

With the invention, the papers to be stamped are deposited in the input body, and the stamping process starts and becomes fully automatic. The dimensions of the input body and the output body are suitable for paper of different sizes. Due to the fact that the stamp block can move in the horizontal and vertical axis, different sizes of paper and the desired parts of the papers can be stamped. In case of low ink on the stamp, the ink can be refreshed thanks to the ink tray connected to the block clamp. The laser sensors in the stamp block show the projection of the laser and the stamp on the paper. In this way, it is known exactly where the stamp will be struck. In addition, the laser sensor can detect whether there is paper on the inlet body and stop the process when there is no paper. A rotating shaft and the cylinder on it provide the passage of the stamped papers to the output body. The surface of the roller is covered with rubber so that it can hold the papers. Stamped papers accumulate in the output body. There is a small depression on the surface of the output body where the papers are collected so that the stamped papers, which are transmitted sequentially by the roller, do not push each other out of the output body. Papers accumulate by falling into this depression. In addition, the upper part of the depression becomes the angled edge. In this way, papers can be taken easily when requested. By minimizing the time spent for the stamping process, the person's time loss and physical-mental fatigue are prevented. Efficiency from the employee will increase and there will be no loss of time.

It is easy to install due to the easy fixing of the parts that make up the invention, and the costs are low due to the short assembly time. Moreover, the invention has a solid construction.

Description of the Figures:

The invention will be described with reference to the accompanying figures, so that the features of the invention will be more clearly understood and appreciated, but the purpose of this is not to limit the invention to these certain regulations. On the contrary, it is intended to cover all alternatives, changes and equivalences that can be included in the area of the invention defined by the accompanying claims. The details shown should be understood that they are shown only for the purpose of describing the preferred embodiments of the present invention and are presented in order to provide the most convenient and easily understandable description of both the shaping of methods and the rules and conceptual features of the invention. In these drawings;

Figure 1 Front view of the system.

Figure 2 Back view of the system

Figure 3 Perspective view of the system.

Figure 4 Detailed view of the stamp block

Figure 5 Detailed view of the stamp block.

Figure 6 Detailed perspective view of the system.

Figure 7 Perspective view of the system. The figures to help understand the present invention are numbered as indicated in the attached image and are given below along with their names.

Description of References:

10. Inlet Body

11. Channel

20. Outlet Body

30. Stamp Block

31. Profile

32. Block Clamp

33. Stamp

34. Laser Sensor

35. Ink Tray

40. Cylinder

41. Shaft

50. Power Chamber

Description of the Invention:

The invention consists of an inlet body (10) where the papers to be processed are placed, 2 channels (11) located on both sides at the top and bottom of the inlet body (10), an outlet body (20) from which the processed papers are received, a stamp block (30) that seals the papers, a profile (31) on which the stamp block (30) is positioned in order to move vertically, a block clamp (32) on which the stamp block (30) is attached to the profile (31), the stamp at the end of the stamp block (30) that performs the stamp (33) process by moving up and down at least 4 laser sensors (34) positioned at the end of the stamp block (30) so that they can see the inlet body (10), ink tray (35) that can be attached and removed with the help of a nail on the side of the block clamp (32) a cylinder (40) that transmits the stamped papers to the output body (20) by rotating around itself, a shaft (41) that provides rotational movement to the cylinder (40), and a battery, motor, etc. inside. It has a power chamber (50) which is located in the middle of the inlet body (10) and the outlet body (20) and can be removed and installed from the bottom. The invention has an outlet body (20), which has a small space on which the papers conveyed by the cylinder (40) fall, and an angled edge on the top that provides easy removal of the papers.

The invention has a stamp block (30) mounted on the block clamp (32) with a cylinder block and can be rotated around this cylinder block.

The invention has a profile (31) that can move on the horizontal axis by passing the channels (11) on the upper and lower sides of the inlet body (10) at the end.

The invention has at least 4 laser sensors (34) located in a square shape, which indicates the point where the stamp (33) will be struck by marking the paper in the inlet body (10) with a laser, terminates the stamp process when there is no paper left in the inlet body (10).

The invention has a cylinder (40) whose surface is covered with rubber so that it can easily hold the papers sealed in the inlet body (10) during rotation.

The invention has a shaft (41) rotated by a motor located in the power chamber (50).

The invention has a stamp (33) that stamps the papers by moving up and down with the help of a motor in the stamps block (30) with the energy it receives from the power chamber (50).

Detailed Description of the Invention:

The parts constituting the invention are basically; inlet body (10), channel (11), outlet body (20), stamp block (30), profile (31), block clamp (32), stamp (33), laser sensor (34), ink tray (35) cylinder (40), shaft (41) and power chamber (50). The inlet body (10) is the section where the papers to be stamped are placed. The size of the inlet body (10) is suitable for paper of different sizes. There are two channels (11) extending horizontally on the upper and lower sides of the inlet body (10). The wheels located at the 2 ends of the profile (31) pass into these channels (11). In this way, the profile (31) can be moved on the horizontal axis. There is a stamp block (30) mounted on the profile (31) with a block clamp (32) on the profile (31). The stamp block (30) can move back and forth in the vertical direction on the profile (31). Due to the horizontal movement of the profile (31) and the vertical movement of the stamp block (30), the sealing process can be performed by placing the stamp (33) on papers of different sizes and the desired location of the papers. The movement of the stamping block (30) on the vertical axis and the movement of the profile (31) on the horizontal axis are provided manually, manually or with a motor. The stamp (33) performs the stamping process by moving up and down with the help of a motor inside the stamp block (30). The stamp (33) is easily removable and replaceable with a seal or stamp. At the end of the stamp block (30), there are at least 4 laser sensors (34) positioned to see the inlet body (10). The laser sensors (34) are positioned in a square shape and the point at which the stamp (33) will be struck can be adjusted by the user by marking the paper on the inlet body (10) with a laser. In addition, the laser sensor (34) can detect whether there is paper and terminate the sealing process. There is an ink tray (35) on the side of the block clamp (32) that can be attached and removed with the help of a nail. The stamp block (30) can rotate around the cylinder thanks to the cylindrical structure on the block clamp (32). In this way, the stamp block (30) comes over the ink tray (35), and the ink can be refreshed by the stamp (33) coming down. The stamped paper is conveyed to the outlet body (20) by means of the cylinder (40) located on the left side of the inlet body (10). The surface of the cylinder (40) is covered with rubber so that it can easily hold the papers. A shaft (41) passes through the inner part of the cylinder (40). This shaft (41) provides rotational movement to the cylinder (40). The shaft (41) gets its rotational motion from a motor located in the power chamber (50). The cylinder (40) conveys the stamped paper to the outlet body (20). There is a small depression on the surface of the outlet body (20) where the papers are collected. Papers fall into this depression. In this way, it is prevented that the stamped papers, which are transmitted in sequence, push each other and come out of the outlet body (20). In order for the papers to be easily taken from the outlet body (20), the upper edge of the depression becomes the angled edge.

Alternatively, the outlet body (20) can be positioned above the inlet body (10). The cylinder (40) and shaft (41) mechanism can be positioned on the upper edge of the inlet body (10). Thus, after the papers are sealed, they can be pushed up and accumulate in the outlet body (20).

Alternatively, a pneumatic system can be used instead of the cylinder (40) and shaft (41) mechanism. An arm with a vacuum at its tip vacuums the sealed paper from its upper surface, takes it to the outlet body (20) and leaves it from above.