CN212353397U - Correction tape capable of automatically guiding rotation - Google Patents

Abstract

The utility model discloses an automatic rotatory correction area of guide, including shell body and area core spare, the shell body has a barrel casing portion, it has a barrel shaft portion to take the core spare, but the barrel shaft portion with circumferential direction's mode install in the barrel casing portion, take the core spare for the focus skew the rotating member in the rotation axis center of barrel shaft portion, it is chewed to take the core spare to be equipped with out the area, the focus of taking the core spare is located go out the play area one side that the area was chewed. Compared with the prior art, the utility model discloses a tip is chewed in the effect messenger product ability automatic adjustment all the time of correction band-pass through gravity, and 360 degrees autogiration can be realized to the product, make chew the tip not receive use angle, hold the method and use the influence of gimmick, find horizontal position to come the laminating paper automatically all the time, bring better experience sense and enjoyment during the use, avoided the waste that the product misuse caused simultaneously.

Description

Correction tape capable of automatically guiding rotation

Technical Field

The utility model relates to a stationery, especially relate to an automatic rotatory correction tape of guide.

Background

The design of the traditional correction tape is influenced by the angle, the holding method and the using method when in use, and the tip of the mouth cannot be kept horizontally attached to paper all the time when in use, so that the scratched tape is incomplete and the tape is easy to deviate.

Accordingly, the present inventors have conducted extensive studies to produce the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ability autogiration adjustment throughout is chewed sharp to the laminating and is waited to repair positive automated guidance rotatory correction area.

In order to achieve the above object, the technical solution of the present invention is:

the utility model provides an automatic rotatory correction area of guide, includes shell body and takes core spare, the shell body has a barrel casing portion, take the core spare to have a barrel shaft portion, but the barrel shaft portion with circumferential direction's mode install in the barrel casing portion, take the core spare for the focus skew the rotating member in the rotation axis center of barrel shaft portion, it is chewed to take the core spare to be equipped with out the area, take the center of gravity of core spare to be located go out the area of taking one side of chewing.

Further, the core member has an eccentric design portion that is an eccentric structure designed to be offset from the rotation axis center of the bobbin portion.

Further, the barrel shaft part is rod-shaped, a correction tape core is arranged inside the eccentric design part, and the eccentric design part is located at one axial end of the barrel shaft part.

Further, the method is carried out. And the core piece is provided with a balancing weight which is positioned at a position deviating from the rotation axis of the bobbin part on the core piece.

Further, the core piece has an eccentric design portion, the eccentric design portion is an eccentric structure designed to deviate from the rotation axis of the bobbin portion, a weight is further arranged on the core piece, and the weight is located at a position, deviated from the rotation axis of the bobbin portion, on the core piece.

Further, the belt core piece comprises a core replacing piece, and the core replacing piece is detachably and rotatably connected with the outer shell.

Further, the refill member is an eccentric structure designed to be offset from the rotational axis of the bobbin shaft portion.

Further, the core piece taking component also comprises a movable sleeve, the core piece replacing component is detachably mounted on the movable sleeve, and the movable sleeve and the sleeve part are rotatably connected together in a detachable mode.

Further, the core-taking component comprises a core replacing component and a movable sleeve, the core replacing component is detachably mounted on the movable sleeve, the movable sleeve and the barrel sleeve part are rotatably connected together in a detachable mode, and the balancing weight is arranged on the movable sleeve.

Further, the barrel shaft part is provided with a first rotating matching part, the barrel sleeve part is provided with a second rotating matching part which is matched with the first rotating matching part in a circumferential rotating mode, the first rotating matching part is a guide protrusion or a guide groove, and the second rotating matching part is a guide protrusion or a guide groove.

After the technical scheme is adopted, the utility model relates to an automatic rotatory correction area of guide has following beneficial effect: the correction band makes the product can go out the area automatically regulated all the time and chew (specifically for chewing the point) through the effect of gravity, and 360 degrees autogiration can be realized to the product, makes to chew the point and do not receive use angle, and the influence of holding method and use gimmick finds horizontal position and comes the laminating paper automatically all the time, brings better experience sense and enjoyment during the use, has avoided the waste that the product misuse caused simultaneously.

Drawings

FIG. 1 is a schematic structural diagram of a first correction tape according to the present invention;

FIG. 2 is a cross-sectional view of a first correction tape of the present invention;

FIG. 3 is a schematic structural view of a sleeve portion and a shaft portion of a first correction tape according to the present invention;

FIG. 4 is a schematic exploded view of a first correction tape according to the present invention;

FIG. 5 is a schematic structural diagram of an outer case and a tape core of a second correction tape according to the present invention;

FIG. 6 is a cross-sectional view of a second correction tape of the present invention;

FIG. 7 is a schematic view of a third belt core of the correction belt of the present invention;

FIG. 8 is a schematic structural diagram of a fourth correction tape according to the present invention;

FIG. 9 is a cross-sectional view of a fourth correction tape of the present invention;

FIG. 10 is a schematic structural view of an outer case and a tape core of a fourth correction tape according to the present invention;

FIG. 11 is a schematic structural diagram of a fifth correction tape according to the present invention;

FIG. 12 is a cross-sectional view of a fifth correction tape according to the present invention;

FIG. 13 is an exploded view of a fifth correction tape according to the present invention;

fig. 14 is a cross-sectional view of a sixth correction tape according to the present invention.

In the figure:

an outer shell-1; a sleeve portion-11;

a second rotating engagement portion-111; a tape outlet-112;

a mouth cap-12; a tail cover-13;

a limit cap-14; a belt core member-2;

a barrel shaft portion-21; a first rotating engagement portion-211;

a convex ring-212; a belt outlet nozzle-22;

mouth tip-221; an eccentric design-23;

a limiting part-24; a balancing weight-3;

a core replacement member-41; an elastic hook-411;

a movable sleeve-42; a clamping table-422;

a mounting recess-421; an elastic locking ring-5.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

Example 1

The utility model relates to an automatic rotatory correction area of guide, as shown in fig. 1-4, including shell body 1 and tape core spare 2, shell body 1 has barrel casing portion 11, and barrel casing portion 11 is cylindricly, and tape core spare 2 has a section of thick bamboo axle part 21, and tape core spare 2 is the rotating member of the rotation axis of focus offset section of thick bamboo axle part 21, but section of thick bamboo axle part 21 is installed in barrel casing portion 11 with circumferential direction's mode. The belt core member 2 is provided with a belt outlet mouth 22, the belt outlet mouth 22 has a mouth tip 221 acting on the surface to be repaired at the time of belt cutting, the belt core member 2 is provided with a belt outlet side and a belt take-up side on both sides of the mouth tip 221, respectively, and the center of gravity of the belt core member 2 is located on the belt outlet side.

The utility model relates to an automatic rotatory correction area of guide, area core 2 can make the product can automatic adjustment chew point 221 all the time through the effect of gravity, and the product can realize 360 degrees autogirations, makes to chew point 221 not receive use angle, holds the influence of factors such as law and use gimmick, finds horizontal position all the time automatically and comes the paper of laminating to wait for the correction face, brings better experience sense and enjoyment during the use, has avoided the waste that the product misuse caused simultaneously.

As a preferable embodiment, referring to fig. 2, the core member 2 is provided with a weight member 3, and the weight member 3 is located at a position deviated from the rotation axis of the bobbin portion 21 on the core member 2. The counterweight 3 can be an iron block.

Further, the belt core 2 comprises a core replacing component 41 and a movable sleeve 42, the core replacing component 41 is detachably mounted on the movable sleeve 42, the movable sleeve 42 is rotatably connected with the sleeve part 11 in a detachable mode, and the balancing weight 3 is arranged on the movable sleeve 42.

In this embodiment, the movable sleeve 42 is provided with an installation concave 421, the shape and size of the installation concave 421 are respectively matched with the core replacing component 41, and the core replacing component 41 and the movable sleeve 42 are tightly fitted and coaxially sleeved together to form the belt core component 2. The center of gravity of weight member 3 is offset from the axial center of core member 2, and the center of gravity of weight member 3 is located on the exit side of beak tip 221. The tape outlet nozzle 22 is arranged at one axial end of the bobbin shaft part 21 (namely the tape core piece 2), the end where the tape outlet nozzle 22 is located is taken as the front end, and the gravity center of the balancing weight 3 corresponds to the middle end and the rear end of the tape core piece 2, so that the tape core piece 2 can conveniently and rapidly rotate in a self-rotating manner.

The cross section (perpendicular to the axial center of the core replacement member 41) of the core replacement member 41 is square, and circumferential rotation of the core replacement member 41 after being mounted on the movable sleeve 42 is prevented.

The barrel shaft part 21 is provided with a first rotating matching part 211, the barrel sleeve part 11 is provided with a second rotating matching part 111 which forms circumferential rotating matching with the first rotating matching part 211, the first rotating matching part 211 is a ball, the second rotating matching part 111 is a circular guide step, and the ball rolls on the circular guide step to realize the rotating matching of the barrel shaft part 21 and the barrel sleeve part 11.

Outer housing 1 includes a barrel portion 11, a mouth cap 12 and a tail cap 13. A tape outlet 112 is formed at one axial end of the sleeve part 11, and the tape outlet nozzle 22 extends out of the tape outlet 112, so that the tape scratching operation is facilitated. The tail cap 13 is screwed to the sleeve portion 11, and the tail cap 13 limits the belt-core member 2 in the sleeve portion 11, thereby preventing the belt-core member 2 (particularly, the core replacement member 41) from moving in the axial direction. The mouth cover 12 and the cylinder sleeve part 11 are assembled together through the matching of a clamping ring and a clamping groove, and the belt outlet mouth 22 is protected. When the replacement core member 41 is to be replaced, the replacement core member 41 is forcibly pulled out from the movable sleeve 42 in the axial direction thereof.

It should be noted that, in the present invention, the core member 41 is replaced by a conventional correction tape, and includes a correction tape body, a tape outlet wheel, a tape take-up wheel, and the like, so as to realize corresponding tape outlet and take-up functions. The tape outlet 22 is a conventional correction tape outlet to realize a tape-cutting function, and is not described in detail herein. The rotation fitting structure between the sleeve portion 11 and the sleeve shaft portion 21 is not limited to the fitting manner of the guide protrusions and the guide protrusions (i.e., the balls and the circular guide steps), and may also be a fitting manner of the guide protrusions and the guide grooves, so as to realize circumferential rotation between the sleeve portion 11 and the sleeve shaft portion 21.

When the tape is used, the tape is held in the sleeve part 11 by hand, the tape core piece 2 can automatically guide the tape core piece 2 (namely the tape outlet nozzle 22) to rotate under the action of the counterweight block 3 so as to realize the gravity rebalancing of the tape core piece 2, and finally, the horizontal position is automatically found to be attached to a paper surface to wait for correction.

Example 2

The utility model relates to an automatic rotatory correction area of guide, as shown in fig. 5 and 6, including shell body 1 and tape core spare 2, shell body 1 has barrel casing portion 11, and barrel casing portion 11 is cylindricly. The core material 2 has a spool portion 21, the core material 2 is a rotary member having a center of gravity shifted from a rotation axis of the spool portion 21, and the spool portion 21 is mounted in the jacket portion 11 so as to be rotatable in the circumferential direction. The belt core member 2 is provided with a belt outlet mouth 22, the belt outlet mouth 22 has a mouth tip 221 acting on the surface to be repaired at the time of belt cutting, the belt core member 2 is provided with a belt outlet side and a belt take-up side on both sides of the mouth tip 221, respectively, and the center of gravity of the belt core member 2 is located on the belt outlet side.

As a preferable embodiment, the cored member 2 includes a core member 41, the core member 41 has an eccentric design portion 23, and the eccentric design portion 23 is an eccentric structure designed to be offset from the rotation axis of the bobbin shaft portion 21. The barrel shaft portion 21 is rod-shaped, the correction tape core is provided inside the eccentric design portion 23, and the eccentric design portion 23 is located at one axial end of the barrel shaft portion 21.

The barrel shaft part 21 is provided with a first rotating matching part 211, the barrel sleeve part 11 is provided with a second rotating matching part 111 which forms circumferential rotating matching with the first rotating matching part 211, the first rotating matching part 211 is a boss (one type of guide protrusion) arranged along the circumferential direction of the inner side wall of the barrel shaft part 21, the second matching part 111 is an elastic hook (one type of guide protrusion), the elastic hook is limited on the boss, and the barrel shaft part 21 can be rotationally matched along the barrel sleeve part 11.

The outer housing 1 includes a sleeve portion 11 and a stopper cap (not shown in the drawings). A tape outlet 112 is formed at one axial end of the sleeve part 11, and the tape outlet 22 extends from the tape outlet 112. The limiting cap is assembled at the front end part of the barrel sleeve part 11 through the matching of the convex strip and the groove, and the rear end edge of the limiting cap corresponds to the elastic clamping hook, so that the elastic clamping hook is limited to be dislocated at will, and the belt core piece 2 (particularly the belt core piece 41) is prevented from moving axially. When the core piece 2 is to be replaced, the core piece 41 is forcibly pulled out from the front end to the rear end along the sleeve part 11 by loosening the limiting cap (usually a plastic part with certain elasticity), the elastic hook is disengaged, and the replacement operation can be realized for the core piece 41.

Example 3

The present embodiment is different from embodiment 2 mainly in that: the eccentric design of example 2 was replaced with a counterweight.

As shown in fig. 7, the core member 2 includes a core member 41, a weight member 3 is provided on the core member 41, and the weight member 3 is located on the core member 2 at a position deviated from the rotation axis of the bobbin shaft portion 21.

The tape discharge nozzle 22 is provided at one axial end of the bobbin shaft portion 21 (i.e., the tape core 2), with the end where the tape discharge nozzle 22 is located being the front end, and the weight block 3 is provided at the rear end of the bobbin shaft portion 21.

Example 4

The present embodiment is different from embodiment 2 mainly in that: as shown in fig. 8 to 10, the refill member 41 is provided with the weight member 3 in addition to the eccentric design portion 23. Further, there is a difference in the rotation fitting structure of the sleeve portion 11 and the cylindrical shaft portion 21.

The core member 2 is further provided with a weight member 3, and the weight member 3 is located at a position deviated from the rotation axis of the bobbin shaft portion 21 on the core member 2.

The tape discharge nozzle 22 is provided at one axial end of the bobbin shaft portion 21 (i.e., the tape core 2), with the end where the tape discharge nozzle 22 is located being the front end, and the weight block 3 is provided at the rear end of the bobbin shaft portion 21.

The cylinder sleeve part 11 is provided with a second rotation matching part 111 along the circumferential direction, the second rotation matching part 111 is a groove (a kind of guide groove), the cylinder shaft part 21 is provided with a first rotation matching part 211 corresponding to the groove, the first rotation matching part 211 is the guide groove, the correction tape is further provided with an elastic locking ring 5, the elastic locking ring 5 is limited on the groove, and then the elastic locking ring 5 (or part of the elastic locking ring) is further limited on the guide groove, therefore, the elastic locking ring 5 can play a role of guiding a protrusion, and the elastic locking ring 5 is matched with the guide groove to realize circumferential rotation between the cylinder sleeve part 11 and the cylinder shaft part 21. When the core member 41 needs to be replaced, the elastic locking ring 5 is separated from the guide groove.

Example 5

The present embodiment is different from embodiment 2 mainly in that:

as shown in fig. 11 to 13, the cored member 2 includes a core member 41 and a movable sleeve 42, the core member 41 has an eccentric design portion 23, and the eccentric design portion 23 is an eccentric structure designed to be offset from the rotational axis of the bobbin portion 21. The core member 41 is detachably mounted on the movable sleeve 42, and the movable sleeve 42 and the sleeve part 11 are detachably connected together in a rotating manner. Further, the core member 2 is provided with a weight 3, and the weight 3 is located at a position deviated from the rotation axis of the bobbin shaft portion 21 on the core member 2. The balancing weight 3 is arranged on the movable sleeve 42.

In this embodiment, the movable sleeve 42 is provided with an installation concave, the shape and size of the installation concave are respectively matched with those of the core replacing component 41, the core replacing component 41 is provided with an elastic hook 411, the movable sleeve 42 is provided with a clamping table 422 corresponding to the elastic hook 411, the elastic hook 411 is hooked and buckled on the clamping table 422, and the core replacing component 41 and the movable sleeve 42 are sleeved together to form the belt core component 2. The center of gravity of the weight member 3 is deviated from the axial center of the core member 2, and the center of gravity of the eccentric design portion 23 is located on the tape exit side of the beak 221. The tape discharge nozzle 22 is provided at one axial end of the bobbin shaft portion 21 (i.e., the tape core 2), with the end of the tape discharge nozzle 22 being the front end, and the eccentric design portion 23 is provided at the rear end of the bobbin shaft portion 21.

The cross section (perpendicular to the axis of the core replacing member 41) of the core replacing member 41 is in an I shape, so that the core replacing member 41 is prevented from rotating in the circumferential direction after being arranged in the movable sleeve 42.

The movable sleeve 42 has a first rotating matching part 211, the sleeve part 11 has a second rotating matching part 111 which forms a circumferential rotating matching with the first rotating matching part 211, the first rotating matching part 211 is a guide groove, the second rotating matching part 111 is a guide projection, the first rotating matching part 211 and the second rotating matching part 111 are respectively arranged along the circumferential direction of the sleeve shaft part 21, the guide projection slides in the guide groove in a limiting manner, and the circumferential rotating matching of the sleeve shaft part 21 and the sleeve part 11 is realized.

The outer housing 1 includes a barrel portion 11 and a stopper cap 14. A tape outlet 112 is formed at one axial end of the sleeve part 11, and the tape outlet 22 extends from the tape outlet 112. The limiting cap 14 is assembled at the front end part of the sleeve part 11 through the matching of the convex strip and the concave groove, and the belt core part 2 is prevented from moving axially. When the core piece 2 is to be replaced, the limiting cap 14 (usually a plastic piece with certain elasticity) needs to be loosened, then the core piece 41 is forcibly pulled out from the front end to the rear end along the sleeve part 11, the elastic hook is disengaged, and the replacement operation can be realized for the core piece 41.

Example 6

This example differs from example 2 in that: the core component is a core component which cannot replace a core, and the rotation matching structure of the sleeve part and the bobbin part.

As shown in fig. 14, the barrel shaft portion 21 is provided with a protruding ring 212 protruding along the circumferential direction, the inner circumferential wall of the barrel sleeve portion 11 is a circumferential wall, and the protruding ring 212 can rotate relative to the circumferential wall.

The outer housing 1 includes a sleeve portion 11. A tape outlet 112 is formed at one axial end of the sleeve part 11, and the tape outlet 22 extends from the tape outlet 112. The belt core member 2 is provided with a stopper 24 protruding from a position corresponding to the belt exit 112, and the stopper 24 is hooked on the periphery of the belt exit 112 to prevent the belt core member 2 from moving in the axial direction.

The above embodiments and drawings do not limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be considered as departing from the scope of the present invention.

Claims (10)

1. An automatic guiding rotation correction tape, characterized in that: including shell body and area core spare, the shell body has a barrel casing portion, take the core spare to have a barrel shaft portion, but the barrel shaft portion with circumferential direction's mode install in the barrel casing portion, take the core spare for the focus skew the rotating member of the rotation axis of barrel shaft portion, it is equipped with out the area and chews to take the core spare, take the center of gravity of core spare to be located go out the area one side of taking that the area was chewed.

2. An automated guided rotation correction tape according to claim 1, wherein: the band core member has an eccentric design portion that is an eccentric structure designed to deviate from the rotation axis center of the bobbin shaft portion.

3. An automated guided rotation correction tape according to claim 2, wherein: the barrel shaft part is rod-shaped, a correction tape core is arranged in the eccentric design part, and the eccentric design part is located at one axial end of the barrel shaft part.

4. An automated guided rotation correction tape according to claim 1, wherein: and the core piece is provided with a balancing weight which is positioned at a position deviating from the rotation axis of the bobbin part on the core piece.

5. An automated guided rotation correction tape according to claim 1, wherein: the belt core piece is provided with an eccentric design part, the eccentric design part is an eccentric structure deviating from the rotation axis design of the bobbin part, a balancing weight is further arranged on the belt core piece, and the balancing weight is located at the position deviating from the rotation axis of the bobbin part on the belt core piece.

6. An automated guided rotation correction tape according to any of claims 2-5, wherein: the belt core piece comprises a core replacing piece, and the core replacing piece is detachably and rotatably connected with the outer shell.

7. An automated guided rotation correction tape according to claim 6, wherein: the core replacement piece is an eccentric structure designed to deviate from the rotation axis of the bobbin shaft part.

8. An automated guided rotation correction tape according to claim 6, wherein: the core piece replacing device comprises a core piece replacing part and a sleeve part, wherein the core piece replacing part is detachably arranged on the sleeve part, and the sleeve part are detachably and rotatably connected together.

9. An automated guided rotation correction tape according to claim 4, wherein: the belt core piece comprises a core piece replacing part and a movable sleeve, the core piece replacing part is detachably mounted on the movable sleeve, the movable sleeve and the barrel sleeve part are rotatably connected together in a detachable mode, and the balancing weight is arranged on the movable sleeve.

10. An automated guided rotation correction tape according to claim 1, wherein: the barrel shaft part is provided with a first rotation matching part, the barrel sleeve part is provided with a second rotation matching part which is matched with the first rotation matching part in a circumferential rotation mode, the first rotation matching part is a guide protrusion or a guide groove, and the second rotation matching part is a guide protrusion or a guide groove.

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