阅读说明：本技术 一种滚动式***组成结构及应用该结构的滚动式***机 (Rolling type seal forming structure and rolling type seal machine applying same ) 是由 俞烽 叶常青 王烽 于 2019-11-25 设计创作，主要内容包括：本发明涉及一种滚动式印章组成结构及应用该结构的滚动式印章机,所述滚动式印章组成结构包括滚筒、印座和原子印章组件,滚筒的轴向两端设有连接轴,滚筒的径向一侧开设有凹槽,凹槽底部固定连接有第一磁铁,印座的底部固定连接有第二磁铁,印座与凹槽匹配且通过第一磁铁、第二磁铁相互吸附连接；从而可以快捷的更换印座上的原子印章组件,从而同一滚筒可以适配多个原子印章组件；原子印台的上端作为印面并径向向外凸出于印座外,从而当滚筒滚动时,印面能够将其附属的章内容盖设于途径的纸面上。(The invention relates to a rolling type seal composition structure and a rolling type seal machine applying the structure, wherein the rolling type seal composition structure comprises a roller, a seal seat and an atom seal assembly, connecting shafts are arranged at two axial ends of the roller, a groove is formed in one radial side of the roller, a first magnet is fixedly connected to the bottom of the groove, a second magnet is fixedly connected to the bottom of the seal seat, and the seal seat is matched with the groove and is mutually adsorbed and connected through the first magnet and the second magnet; therefore, the atomic seal components on the seal seat can be quickly replaced, and the same roller can be adapted to a plurality of atomic seal components; the upper end of the atomic stamp pad is used as a stamp face and protrudes outwards from the stamp base in the radial direction, so that when the roller rolls, the stamp face can cover the attached stamp contents on the paper surface of the path.)

1. A rolling type seal composition structure is characterized by comprising a roller (1), a seal seat (2) and an atom seal assembly (3), wherein connecting shafts (11) are arranged at two axial ends of the roller (1), a groove (12) is formed in one radial side of the roller (1), a first magnet (4) is fixedly connected to the bottom of the groove (12), a second magnet (5) is fixedly connected to the bottom of the seal seat (2), and the seal seat (2) is matched with the groove (12) and is mutually connected in an adsorption manner through the first magnet (4) and the second magnet (5); an installation cavity (21) which is through up and down is arranged in the stamp pad (2), the atom stamp pad assembly (3) comprises an atom stamp pad (31), an ink sponge block (32) and a reset antirust spring (33), the atom stamp pad (31) is connected in the installation cavity (21) in a limiting manner, the lower end of the installation cavity (21) is connected with an end cover (22), the reset antirust spring (33) is arranged in a gap (23) between the end cover (22) and the atom stamp pad (31), an accommodating cavity (30) with a downward opening is arranged in the atom stamp pad (31), the ink sponge block (32) is arranged in the accommodating cavity (30), the lower end of the ink sponge block (32) is abutted against the end cover (22), and the upper end of the atom stamp pad (31) is used as a stamp face (300) and protrudes outwards from the stamp pad (2) in a radial direction; the second magnet (5) is fixedly connected to the lower end of the end cover (22).

2. The rolling stamp composition structure according to claim 1, wherein a first step (210) in a shape of a throat is disposed around the upper end of the mounting cavity (21), a second step (310) is disposed around the upper end of the atomic stamp pad (31), and the second step (310) abuts against the first step (210) to limit the atomic stamp pad (31) to be connected in the mounting cavity (21).

3. The rolling stamp composition structure according to claim 1, wherein the atomic stamp pad (31) has at least one ring of seal ring mounting groove formed on the outer wall thereof, and seal rings (6) are respectively disposed between the corresponding seal ring mounting groove and the mounting cavity (21).

4. The rolling stamp composition structure according to claim 1, wherein a boss (220) is disposed at one end of the end cap (22) facing the ink sponge block, the lower end of the ink sponge block (32) abuts against the boss (220), and the return rust-proof spring (33) is sleeved in the gap (23) between the peripheral end cap (22) of the boss (220) and the atomic stamp pad (31).

5. A rolling stamp assembly according to claim 1, characterised in that the stamp pad (2) is provided with an oil filling hole (24) at one side, the oil filling hole (24) communicating with the gap (23) between the end cap (22) and the atomic stamp pad (31), and the plunger bolt (25) being screwed into the outer end thereof.

6. The rolling stamp composition structure according to claim 1, wherein the bottom of the groove (12) is provided with a first embedded groove (13), and the first magnet (4) is connected in the first embedded groove (13) and is bonded and connected with each other by glue; or a first metal cover plate (120) is arranged at the bottom of the groove (12), and the first magnet (4) is packaged in the first embedded groove (13) through the first metal cover plate (120).

7. The rolling stamp composition structure according to claim 1, wherein the lower end of the end cap (22) is provided with an embedded groove (221), and the second magnet (5) is connected in the second embedded groove (221) and is bonded with each other by glue; or a second metal cover plate (222) is arranged at the lower end of the end cover (22), and the second magnet (5) is packaged in the second embedded groove (221) through the second metal cover plate (222).

8. A rolling type stamp machine applying the rolling type stamp composition structure according to any one of claims 1 to 7, characterized in that the rolling type stamp machine comprises a frame (10), a driving roller (20), a driven roller (30), a paper conveying belt (40) and a transmission motor (50), wherein the driving roller (20) and the driven roller (30) are connected to two lateral sides of the frame (10), the paper conveying belt (40) is sleeved between the driving roller (20) and the driven roller (30), one axial end of the driving roller (20) is connected with a first belt wheel (60), a power output end of the transmission motor (50) is connected to the first belt wheel (60) through the first belt (70), connecting shafts (11) at two ends of a roller (1) are erected above the paper conveying belt (40) through a support (7) connected with the frame (10), and a second belt wheel (80) is connected to the connecting shaft (11) at one end of the same side as the first belt wheel (60), the first belt wheel (70) is connected to the second belt wheel (80) through a second belt (90) in a transmission mode and enables the roller (1) to rotate, the roller (1) rotates and simultaneously drives the seal seat (2) and the atom seal assembly (3) to rotate, and the rotation track of the seal face (300) of the atom seal assembly (3) is abutted to the paper conveying belt (40).

9. The rolling type stamping machine according to claim 8, wherein a rubber roller (8) is disposed between the driving roller (20) and the driven roller (30), the paper conveyer belt (40) is routed through the rubber roller (8), one end of the rubber roller (8) on the same side as the first belt wheel (60) is connected to a third belt wheel (9), and a power output end of the transmission motor (50) is connected to the third belt wheel (9) through a third belt (91) in a transmission manner, so that the rubber roller (8) and the roller (1) clamp the paper conveyer belt (40) tensioned and transmitted by the driving roller (20) and the driven roller (30).

Technical Field

The invention belongs to the field of seal manufacturing, and particularly relates to a rolling seal composition structure and a rolling seal machine with the structure.

Background

Disclosure of Invention

The invention aims to solve the technical problem of providing a rolling type seal composition structure and a rolling type seal machine with the structure.

The invention is realized in this way, provide a rolling seal to form the structure, including cylinder, seal seat and atom seal assembly, the axial both ends of the cylinder have connecting shafts, the radial one side of the cylinder offers the groove, the bottom of the groove connects with the first magnet fixedly, the bottom of the seal seat connects with the second magnet fixedly, the seal seat matches with groove and connects through the first magnet, the second magnet is mutual adsorption; the atomic stamp pad is internally provided with a containing cavity with a downward opening, the lower end of the containing cavity is connected with an end cover, the resetting antirust spring is arranged in a gap between the end cover and the atomic stamp pad, the ink sponge block is arranged in the containing cavity, the lower end of the ink sponge block is abutted against the end cover, and the upper end of the atomic stamp pad is used as a stamp face and radially protrudes outwards out of the stamp pad; the second magnet is fixedly connected to the lower end of the end cover.

Furthermore, a first step in a necking shape is arranged on the periphery of the upper end of the installation cavity, a second step is arranged on the periphery of the upper end of the atom ink pad, and the second step is abutted against the first step to enable the atom ink pad to be in limit connection in the installation cavity.

Furthermore, at least one circle of sealing ring mounting groove is formed in the outer wall of the atom ink pad, and sealing rings are arranged in the corresponding sealing ring mounting grooves and between the corresponding sealing ring mounting grooves and the mounting cavity respectively.

Furthermore, a boss is arranged at one end, facing the ink sponge block, of the end cover, and the lower end of the ink sponge block abuts against the boss.

Furthermore, one side of the seal seat is provided with an oil filling hole, the oil filling hole is communicated to a gap between the end cover and the atom ink pad, and one end of the outer side of the oil filling hole is screwed with a plunger bolt.

Furthermore, a first embedded groove is formed in the bottom of the groove, and the first magnet is connected in the first embedded groove and is connected with the first embedded groove in an adhesive mode through glue; or a first metal cover plate is arranged at the bottom of the groove, and the first magnet is packaged in the first embedded groove through the first metal cover plate.

Furthermore, an embedded groove is formed in the lower end of the end cover, and the second magnet is connected in the second embedded groove and is connected with the second embedded groove in an adhesive mode through glue; or a second metal cover plate is arranged at the lower end of the end cover, and the second magnet is packaged in the second embedded groove through the second metal cover plate.

The utility model provides an use roll formula seal machine of roll formula seal component structure, which comprises a frame, the drive roll, the driven voller, the paper conveyer belt, driving motor, the drive roll, the driven voller is connected in horizontal both sides in the frame, the paper conveyer belt is established to the cover between drive roll and the driven voller, the axial one end of drive roll is connected with first band pulley, driving motor's power take off end is connected in first band pulley through first belt drive, the connecting axle at cylinder both ends is located paper conveyer belt top through the support frame of being connected with the frame, it is connected with the second band pulley on the connecting axle of first band pulley homonymy one end, first band pulley passes through second belt drive and connects in the second band pulley and makes the cylinder rotate, the cylinder rotates and takes seal seat and atom seal subassembly to rotate simultaneously, the seal face of atom seal subassembly.

Further, a rubber roller is arranged between the driving roller and the driven roller, the paper conveying belt is in a path of the rubber roller, one end of the rubber roller, which is on the same side as the first belt wheel, is connected with a third belt wheel through a third belt, and a power output end of a transmission motor is connected with the third belt wheel through a third belt in a transmission manner, so that the rubber roller and the roller clamp the paper conveying belt tensioned and transmitted by the driving roller and the driven roller, the printing surface of the atomic stamp assembly synchronously rotates, and the content on the printing surface is stamped on the paper in the path of the paper conveying belt.

Compared with the prior art, the rolling type seal forming structure and the rolling type seal machine adopting the structure are characterized in that the first magnet is arranged at the bottom of the groove on one side of the roller in the radial direction, the second magnet is arranged at the bottom of the seal seat, the seal seat is matched with the groove and is mutually adsorbed and connected through the first magnet and the second magnet, so that the atom seal components on the seal seat can be quickly replaced, and the same roller can be matched with a plurality of atom seal components; the upper end of the atomic stamp pad is used as a stamp face and protrudes outwards from the stamp base in the radial direction, so that when the roller rolls, the stamp face can cover the attached stamp contents on the paper surface of the path.

Atom ink pad is spacing to be connected in the installation intracavity, the installation cavity lower extreme is connected with the end cover, be provided with rust-resistant spring that resets in the clearance between end cover and the atom ink pad, the stamp-pad ink sponge piece is arranged in and is held the intracavity, and stamp-pad ink sponge piece lower extreme offsets with the end cover, thereby the upper end seal face of atom ink pad is when conflicting the way workstation upper paper face, the atom ink pad is extruded simultaneously to the stamp-pad, make the atom ink pad radially indent inwards in the installation intracavity of seal seat, by the rust-resistant spring effect that resets after the roll stamp-pad is accomplished, atom ink pad is rebounded to former position, this indentation in-process, extrude the stamp-pad ink sponge piece a little through the atom ink pad, thereby permeate the stamp-pad ink in the ink pad to the interior of seal of atom.

The second step is abutted against the first step to enable the atomic ink pad to be in limited connection in the installation cavity, so that the atomic ink pad is prevented from falling out of the installation cavity; the sealing ring is arranged in the sealing ring mounting groove on the outer wall of the atom ink pad and between the sealing ring mounting groove and the mounting cavity, so that the ink is effectively prevented from seeping through the connecting gap.

The lower end of the stamp-pad ink sponge block is abutted against the boss in the end cover, so that the positioning and installation of the reset antirust spring are facilitated, and the extrusion space and the extrusion effect of the stamp-pad ink sponge block are ensured.

The setting of oil filler point, its aim at can be through the oil filler point to through adding the stamp-pad ink and through the clearance infiltration stamp-pad ink sponge piece between end cover and the atom stamp-pad ink stick to when the stamp-pad ink is not enough in the stamp-pad ink sponge piece, block up the oil filler point through the plunger bolt after adding enough stamp-pad ink.

The rolling type seal machine can drive the roller to rotate while the paper conveyer belt conveys the paper, so that the seal seat on the roller and the atomic seal component synchronously rotate, and the seal content attached to the seal face at the upper end of the atomic seal platform in the atomic seal component is covered on the paper surface of the path when the paper conveyed by the paper conveyer belt approaches the roller; in order to ensure the quality of seal, the rubber roller and the roller clamp the paper conveyer belt tensioned and driven by the driving roller and the driven roller, and the contents on the printing surface of the atomic seal assembly are stamped on the paper passing through the paper conveyer belt while the printing surface synchronously rotates.

Drawings

FIG. 1 is a schematic front view of a rolling stamp according to a preferred embodiment of the present invention;

FIG. 2 is a schematic top view of the structure of FIG. 1;

FIG. 3 is a schematic cross-sectional view of A-A of FIG. 1;

fig. 4 is a schematic structural diagram of the exploded state of fig. 3.

FIG. 5 is a schematic plan view of a rolling stamp machine according to a preferred embodiment of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.