CN111196093B

CN111196093B - Stamp with cover rotating mechanism

Info

Publication number: CN111196093B
Application number: CN201811377189.0A
Authority: CN
Inventors: 施文哲
Original assignee: Sun Same Enterprises Co Ltd
Current assignee: Sun Same Enterprises Co Ltd
Priority date: 2018-11-19
Filing date: 2018-11-19
Publication date: 2021-10-26
Anticipated expiration: 2038-11-19
Also published as: CN111196093A

Abstract

The invention relates to a seal with a cover screwing mechanism, which comprises a seal seat, wherein a resettable seal shell is sleeved on the seal seat, the seal shell is provided with a guide rail with a first guide surface, the seal seat is internally provided with a stamping device which moves synchronously with the seal shell, and a cap screwing mechanism is arranged on the side surface of the stamp seat, the cap screwing mechanism comprises a buckling piece and a cap screwing, the buckling piece is buckled and assembled on the stamp seat and is provided with a first resetting surface, the cap screwing is provided with a second resetting surface which faces and is abutted against the first resetting surface, and a second guide surface matched with the first guide surface, the screw cap is buckled and assembled on the buckling piece, and then the buckling piece is buckled and assembled on the seal shell, the assembling convenience can be improved, and the aim of smoothly opening and resetting the screw cap by the simplified structure can be achieved through the matching of the first guide surface and the second guide surface and the matching of the first resetting surface and the second resetting surface.

Description

Stamp with cover rotating mechanism

Technical Field

The invention relates to a seal with a cover screwing mechanism, in particular to an easily assembled seal with a cover screwing mechanism.

Background

The present seal that has a spiral cover mechanism contains a seal seat, a seal shell, an imprinting device and a spiral cover mechanism, form an accommodation space in this seal seat, and the bottom surface of this seal seat forms the under shed that communicates this accommodation space, and the side that this seal was made forms the side opening that communicates this accommodation space, this seal seat is located to this seal shell cover with reseting, this seal seat is located to this seal shell, this seal shell is connected to the accommodation space that this seal seat is located to this imprinting device and synchronous motion ground, this seal seat is rotationally located to this spiral cover mechanism and is located this side opening department, this spiral cover mechanism contains a spiral cover, a pivot and an elastic element, this spiral cover sets up in this seal seat and stretches into this accommodation space, this pivot all stretches into in this seal seat through the both ends of this spiral cover and this pivot, this elastic element locates this seal seat and both ends respectively this seal seat and this spiral cover.

When the cover turning mechanism is assembled, the pivot is inserted into the cover turning and the elastic element and then assembled on the stamp seat.

Disclosure of Invention

The invention aims to provide a seal with a capping mechanism, so that the problem that the existing capping mechanism of the seal with the capping mechanism is inconvenient to assemble is solved.

To achieve the above object, the stamp with a cover-rotating mechanism of the present invention comprises:

the stamp seat is internally provided with an accommodating space, the bottom surface of the stamp seat forms a lower opening communicated with the accommodating space, the side surface of the stamp seat forms a side opening and a first buckling part, the side opening is communicated with the accommodating space, and the first buckling part stretches into the side opening;

the seal shell can be sleeved on the seal seat in a resetting manner, a notch and two guide rails are formed on the side surface of the seal shell, the notch extends to the bottom edge of the seal shell, the notch can face the side opening of the seal seat, the two guide rails are formed on the seal shell at intervals, the two guide rails are adjacent to the notch, and the bottom end of each guide rail forms a first guide surface;

the stamping device is positioned in the accommodating space of the stamp seat and can be connected with the stamp shell in a synchronous motion manner;

a cap screwing mechanism, which is arranged in the stamp seat and positioned at the side opening, and comprises a fastener and a cap screwing, the fastener is fastened and assembled at the first fastening part of the stamp seat, two sides of the fastener respectively form an inclined first reset surface, the cap screwing can be rotatably fastened and assembled at the fastener, two linking columns are formed on the cap screwing, second reset surfaces are respectively formed on the inner sides of the two linking columns, the two second reset surfaces respectively face and abut against the corresponding first reset surfaces, the outer sides of the two linking columns respectively form a guide block, a second guide surface is respectively formed on the two guide blocks, the two second guide surfaces respectively face the corresponding first guide surfaces, when in stamping, the guide rail of the stamp shell respectively pushes the corresponding second guide surface of the guide block through the corresponding first guide surface to rotate the cap screwing, and through the first face that resets with the butt position change of second face that resets, can make two linking posts prop in order to provide this spiral cover a reset force outward.

The stamp with the cap screwing mechanism is characterized in that the distance between the upper ends of the two first resetting surfaces is greater than the distance between the lower ends of the two first resetting surfaces, the distance between the front ends of the two first resetting surfaces is greater than the distance between the rear ends of the two first resetting surfaces, and the distance between the upper ends of the two second resetting surfaces is greater than the distance between the lower ends of the two second resetting surfaces.

The stamp with the cover screwing mechanism is characterized in that two first resetting surfaces of the buckling piece are respectively provided with a pivot hole, and the second resetting surfaces of the two connecting columns are respectively provided with a pivot column which can extend into the corresponding pivot hole.

The stamp with the cover screwing mechanism is characterized in that the front side surfaces of the two pivot columns respectively form a first guide part.

The stamp with the cover screwing mechanism, wherein two sides of the fastening member respectively form a second guiding portion, the two second guiding portions respectively extend to the corresponding pivot holes, and the two first guiding portions respectively extend into the corresponding pivot holes along the corresponding second guiding portions.

The seal with the cover screwing mechanism comprises a seal seat, a seal piece and a cover plate, wherein the seal seat is provided with a seal cover, the seal cover is provided with a cover plate, a slot is formed on the top surface of the seal cover plate, second buckling parts are respectively formed on two opposite inner side surfaces of the adjacent slots, the seal cover plate, the seal seat is provided with a seal cover plate, the seal cover plate is provided with a second buckling parts, the first buckling parts are inserted into the second buckling parts, the first buckling parts, the second buckling parts are inserted into the slots, and the second buckling parts, the first buckling parts are inserted into the second buckling parts, and the second buckling parts, which are inserted into the second buckling parts, and the second buckling parts of the seal cover parts, and the seal seat, and the second buckling parts of the seal seat, and the seal seat, and the first buckling parts, and the second buckling parts, and the second buckling parts, are buckled parts, and the second buckling parts of the second buckling parts, and the second buckling parts, which are buckled parts of the second buckling parts, and are inserted into the seal seat, and the second buckling parts, and the seal seat, and the second buckling parts.

The stamp with the cap screwing mechanism as described above, wherein a fastening hole is formed on the first fastening portion, a slot is formed on the top surface of the fastening member, and a second fastening portion extending into the fastening hole is formed on the inner side surface of the fastening member.

Compared with the prior art, the invention has the following advantages:

in the invention, after the rotary cover is clamped and assembled on the buckling piece, the buckling piece can be buckled and assembled on a first buckling part of the seal seat, so that the rotary cover mechanism is quickly assembled on the seal seat to achieve the purpose of convenient assembly, and the seal can be smoothly stamped by the stamping device moving downwards with the seal shell through the matching of the first guide surface and the second guide surface, in addition, the first reset surface and the second reset surface are in an inclined shape, so when the rotary cover is lifted outwards, the second reset surface rotates along with the rotary cover to change the abutting position between the first reset surface and the second reset surface, and the two linking columns are externally supported to provide the reset force of the rotary cover, so when the seal shell moves upwards, the rotary cover can be reset by the reset force, and the rotary cover mechanism can be reset without arranging an elastic element, effectively simplify the structure and improve the assembly convenience.

Drawings

The drawings are only for purposes of illustrating and explaining the present invention and are not to be construed as limiting the scope of the present invention. Wherein:

FIG. 1 is a perspective assembly view of a preferred embodiment of a stamp with a capping mechanism according to the present invention.

FIG. 2 is an exploded perspective view of a preferred embodiment of a stamp with a capping mechanism according to the present invention.

FIG. 3 is an exploded perspective view of a preferred embodiment of a stamp with a capping mechanism according to the present invention.

FIG. 4 is a perspective assembly view of a preferred embodiment of a stamp with a capping mechanism according to the present invention.

FIG. 5 is a schematic rear plan view of a capping mechanism of a preferred embodiment of a stamp with a capping mechanism according to the present invention.

FIG. 6 is a schematic front plan view of a stamp with a capping mechanism according to a preferred embodiment of the present invention.

Fig. 7 is a cross-sectional view of the a-a cut line of fig. 6.

FIG. 8 is a schematic plan view of a preferred embodiment of a stamp with a cover-rotating mechanism according to the present invention, showing the seal in an unopened state of use.

FIG. 9 is a perspective view of the stamp with the cover-rotating mechanism according to the preferred embodiment of the present invention, showing the use state of the opened cover.

FIG. 10 is a schematic side plan view of a stamp with a cover-rotating mechanism according to a preferred embodiment of the present invention, showing the use state of the stamp with the cover-rotating mechanism opened.

FIG. 11 is a schematic front plan view of a stamp with a cover-rotating mechanism according to a preferred embodiment of the present invention, showing the use state of the stamp with the cover-rotating mechanism opened.

FIG. 12 is a perspective assembly view of another preferred embodiment of a stamp with a capping mechanism according to the present invention.

FIG. 13 is a schematic front plan view of a stamp with a capping mechanism according to another preferred embodiment of the present invention.

FIG. 14 is an exploded perspective view of a stamp with a capping mechanism according to another preferred embodiment of the present invention.

FIG. 15 is a rear plan view of a capping mechanism of another preferred embodiment of a stamp with a capping mechanism according to the present invention.

Detailed Description

In order to clearly understand the technical solution, the purpose and the effect of the present invention, a detailed description of the present invention will be described with reference to the accompanying drawings.

Referring to fig. 1, 7 and 12, there are shown preferred embodiments of a stamp with a cover-rotating mechanism according to the present invention, which includes a stamp seat 10A (or stamp seat 10B), a stamp shell 20A (or stamp shell 20B), a printing device 30 and a cover-rotating mechanism 40A (or cover-rotating mechanism 40B).

As shown in fig. 1 and 2, an accommodating space is formed inside the stamp seat 10A, a lower opening 11 communicating with the accommodating space is formed on the bottom surface of the stamp seat 10A, a side opening 12 and a first buckling portion 13A are formed on the side surface of the stamp seat 10A, the side opening 12 communicates with the accommodating space, the first buckling portion 13A extends into the side opening 12, as shown in fig. 2, the first buckling portion 13A has two buckling arms 14 disposed at intervals, as shown in fig. 14, a buckling hole 15 is formed on the first buckling portion 13B, as shown in fig. 1, the stamp seat 10A is rectangular in a top view, or as shown in fig. 12 and 13, the stamp seat 10B is circular in a top view.

As shown in fig. 1 and 2, the stamp shell 20A is repositionably sleeved on the stamp seat 10A, a notch 21 and two guide rails 22 are formed on a side surface of the stamp shell 20A, the notch 21 extends to a bottom edge of the stamp shell 20A and selectively faces the side opening 12 of the stamp seat 10A, the two guide rails 22 are formed at the stamp shell 20A at intervals and are adjacent to the notch 21, and a first guide surface 23 is formed at a bottom end of each guide rail 22, as shown in fig. 1, the stamp shell 20A is rectangular in a top view, or as shown in fig. 12 and 13, the stamp shell 20B is circular in a top view.

As shown in fig. 2, 6 and 7, the stamping device 30 is located in the accommodating space of the stamp seat 10A and is connected to the stamp shell 20A in a synchronous motion manner, wherein the stamping device 30 is a rotary stamping device 30.

As shown in fig. 2 and 12, the cap screwing mechanism 40A and the cap screwing mechanism 40B are disposed on the stamp seat 10A and the stamp seat 10B and located at the side opening 12, the cap screwing mechanism 40A and the cap screwing mechanism 40B include a fastening member 41A, a fastening member 41B, a cap screwing 42A and a cap screwing 42B, as shown in fig. 2 to 5, the fastening member 41A is fastened and assembled on the first fastening portion 13A of the stamp seat 10A, two sides of the fastening member 41A respectively form an inclined first resetting surface 43, the cap screwing 42A is rotatably fastened and assembled on the fastening member 41A, the cap screwing 42A forms two engaging posts 44, inner side surfaces of the two engaging posts 44 respectively form a second resetting surface 45, the second resetting surface 45 faces and abuts against the corresponding first resetting surface 43, outer side surfaces of the two engaging posts 44 respectively form a guiding block 46, as shown in fig. 6 and 7, a second guiding surface 47 is formed on the two engaging posts 44, the second guiding surface 47 faces the corresponding first guiding surface 23, and when stamping, the guide rail 22 of the stamp shell 20A pushes the second guiding surface 47 of the corresponding guiding block 46 through the first guiding surface 23 to rotate the rotary cap 42A, and through the change of the abutting position of the first resetting surface 43 and the second resetting surface 45, the two engaging columns 44 are outwards supported to provide a resetting force for the rotary cap 42A, so as to drive the rotary cap 42A to rotate downwards and reset.

As shown in fig. 3 to 5, a distance between upper ends of the two first reset surfaces 43 is greater than a distance between lower ends of the two first reset surfaces 43, a distance between front ends of the two first reset surfaces 43 is greater than a distance between rear ends of the two first reset surfaces 43, the front ends of the two first reset surfaces 43 are far away from the accommodating space, the rear ends of the two first reset surfaces 43 are close to the accommodating space, a distance between upper ends of the two second reset surfaces 45 is greater than a distance between lower ends of the two second reset surfaces 45, in addition, front side surfaces of the two pivot posts 49 respectively form a first guide 491, two sides of the fastener 41A respectively form a second guide 481, the second guide 481 extends to the corresponding pivot hole 48, and the first guide 491 extends into the corresponding pivot hole 48 along the corresponding second guide 481.

As shown in fig. 2 and 3, the top surface of the fastening member 41A forms a slot 411A, the fastening member 41A forms a second fastening portion 412A on two opposite inner side surfaces adjacent to the slot 411A, the first fastening portion 13A of the stamp seat 10A is inserted into the slot 411A of the fastening member 41A, and the fastening arms 14 of the first fastening portion 13A are fastened to the corresponding second fastening portions 412A to assemble the fastening member 41A and the stamp seat 10A, as shown in fig. 14 and 15, the first fastening portion 13B forms a fastening hole 15, the top surface of the fastening member 41B forms a slot 411B, and the inner side surface of the fastening member 41B forms a second fastening portion 412B extending into the fastening hole 15, and as shown in fig. 3 and 7, the rotary cover 42A includes a front baffle portion 421 and a rear baffle portion 422, the front baffle portion 421 is located at the position 12, the rear baffle portion 422 is laterally formed at the top edge of the front baffle portion 421 and extends into the accommodating space and is located below the stamping device 30, and the two engagement posts 44 are located at the top edge of the front baffle portion 421 and extend upward.

As shown in fig. 7 to 11, when the stamp housing 20A drives the stamping device 30 to move downward, the guide rail 22 of the stamp housing 20A moves downward, the first guide surface 23 abuts against the corresponding second guide surface 47, and the guide rail 22 extends into between the corresponding guide block 46 and the stamp housing 20A to push the screw cap 42A to rotate, so that the rear baffle portion 422 of the screw cap 42A rotates out of the side opening 12 without facing the lower opening 11, and the stamping device 30 can extend out of the lower opening 11 to stamp.

In the cover screwing mechanism 40A, the distance between the upper ends of the two first resetting surfaces 43 is greater than the distance between the lower ends of the two first resetting surfaces 43, the distance between the front ends of the two first resetting surfaces 43 is greater than the distance between the rear ends of the two first resetting surfaces 43, and the distance between the upper ends of the two second resetting surfaces 45 is greater than the distance between the lower ends of the two second resetting surfaces 45, so when the cover screwing mechanism 42A is lifted, the abutting orientation of the second resetting surfaces 45 abutting against the first resetting surfaces 43 changes, the two abutting columns 44 are slightly outwards supported to provide a resetting force, and when the stamp shell 20A moves upwards, the resetting force can enable the cover screwing mechanism 42A to automatically reset without an elastic element.

As shown in fig. 2 to 5, during assembly, the rotary cover 42A is laterally pushed in and assembled to the fastening member 41A, the pivot column 49 of the rotary cover smoothly slides into the corresponding pivot hole 48 along the corresponding second guide portion 481 through the first guide portion 491, the fastening member 41A is fastened and assembled to the first fastening portion 13A of the stamp seat 10A from bottom to top, the fastening arm 14 of the first fastening portion 13A extends into the slot 411A of the fastening member 41A, and the two fastening arms 14 are respectively fastened to the two second fastening portions 412A to position the fastening member 41A.

In summary, the seal with the cover turning mechanism is configured such that the cover turning 42A and the cover turning 42B can be automatically turned up and closed along with the movement of the seal shell 20A and the seal shell 20B by the cooperation of the first guide surface 23 and the second guide surface 47 and the cooperation of the first reset surface 43 and the second reset surface 45 without using an elastic element, so as to achieve the purpose of simplifying the structure and improving the assembly convenience, and the cover turning mechanism 40A and the cover turning mechanism 40B can be quickly assembled to the seal holder 10A and the seal holder 10B by the cooperation of the cover turning 42A and the cover turning 42B which are fastened and assembled to the fastening member 41A and the fastening member 41B, and the first fastening portion 13A and the first fastening portion 13B and the second fastening portion 412A and the second fastening portion 412B, so as to achieve the purpose of improving the assembly convenience.

The above description is only an exemplary embodiment of the present invention, and is not intended to limit the scope of the present invention. Any equivalent changes and modifications that can be made by one skilled in the art without departing from the spirit and principles of the invention should fall within the protection scope of the invention.

Claims

1. A stamp with a capping mechanism, the stamp comprising:

the stamp seat is internally provided with an accommodating space, the bottom surface of the stamp seat is provided with a lower opening communicated with the accommodating space, the side surface of the stamp seat is provided with a side opening and a first buckling part, the side opening is communicated with the accommodating space, and the first buckling part extends into the side opening;

the seal shell is sleeved on the seal seat, a notch and two guide rails are formed on the side surface of the seal shell, the notch extends to the bottom edge of the seal shell, the notch can face the side opening of the seal seat, the two guide rails are formed on the seal shell at intervals, the two guide rails are adjacent to the notch, and the bottom end of each guide rail forms a first guide surface;

a spiral cover mechanism, spiral cover mechanism locates in the stamp seat and be located the side opening part, spiral cover mechanism contains a fastener and a spiral cover, fastener buckle establish the group connect in the first buckling part of stamp seat, the both sides of fastener form a first face that resets of slope respectively, the spiral cover can rotationally block establish the group connect in the fastener, form two linking posts on the spiral cover, form a second face that resets respectively in two linking posts's medial surface, two the second face that resets respectively towards and the butt corresponds first face that resets, two linking posts's lateral surface forms a guide block respectively, two form a second guide face respectively on the guide block, two the second guide face respectively towards corresponding first guide face, two the distance between the upper end of first face that resets is greater than two the distance between the lower extreme of first face that resets, the distance between the front ends of the two first reset surfaces is greater than the distance between the rear ends of the two first reset surfaces, and the distance between the upper ends of the two second reset surfaces is greater than the distance between the lower ends of the two second reset surfaces.

2. The stamp with cap screwing mechanism according to claim 1, wherein a pivot hole is formed on each of the first restoring surfaces of the fastening member, and a pivot post capable of extending into the corresponding pivot hole is formed on each of the second restoring surfaces of the two joining posts.

3. The stamp having a capping mechanism of claim 2, wherein the front sides of the two pivot posts form a first guide portion respectively.

4. The stamp with a cap screwing mechanism according to claim 3, wherein two sides of the fastening member are respectively formed with a second guiding portion, two of the second guiding portions respectively extend to the corresponding pivot holes, and two of the first guiding portions respectively extend into the corresponding pivot holes along the corresponding second guiding portions.

5. The stamp with a cover rotating mechanism according to any one of claims 1 to 4, wherein a slot is formed on a top surface of the fastening member, and a second fastening portion is respectively formed on two opposite inner side surfaces of the fastening member adjacent to the slot, the first fastening portion of the stamp holder is inserted into the slot of the fastening member, and the first fastening portion fastens the second fastening portion to assemble the fastening member and the stamp holder.

6. The stamp having a capping mechanism according to any one of claims 1 to 4, wherein the first latch portion has a latching hole formed thereon, the top surface of the latch member has a slot formed thereon, and the inner side surface of the latch member has a second latch portion extending into the latching hole.