阅读说明：本技术 修正液容器的防堵塞结构 (Anti-blocking structure of correction fluid container ) 是由 严明华 于 2018-05-28 设计创作，主要内容包括：本发明提供一种修正液容器的防堵塞结构,其中该修正液容器包括一本体及一瓶盖,组合后形成一储液空间以盛装一修正液体,该修正液体由一挥发性溶液及一不溶解遮蔽物质混合而成,本发明包括一内塞及一塞柱,该内塞成型于该瓶盖内而定义一出液空间,该塞柱封闭设置于该内塞内部以将该出液空间最小化,并在该内塞与该塞柱之间形成有至少一流道,该流道的开口位于该塞柱的一侧,利用该开口方向与该修正液体的出液方向互不平行,以及该出液空间最小化的设计,避免不溶解遮蔽物质进入该流道所形成的堵塞现象,以提升使用时的顺畅性。(The invention provides an anti-blocking structure of a correction fluid container, wherein the correction fluid container comprises a body and a bottle cap, a liquid storage space is formed after combination to contain correction fluid, the correction fluid is formed by mixing volatile solution and insoluble shielding substances, the anti-blocking structure comprises an inner plug and a plug column, the inner plug is formed in the bottle cap to define a liquid outlet space, the plug column is arranged in the inner plug in a sealing mode to minimize the liquid outlet space, at least one flow channel is formed between the inner plug and the plug column, an opening of the flow channel is located on one side of the plug column, and the opening direction and the liquid outlet direction of the correction fluid are not parallel to each other by virtue of the design of the minimized liquid outlet space, the blocking phenomenon caused by the fact that the insoluble shielding substances enter the flow channel is avoided, and the smoothness of the correction fluid when in use is improved.)

1. The utility model provides an anti-clogging structure of correction fluid container, wherein this correction fluid container includes a body and a bottle lid, and this body is inside to form a stock solution space with a splendid attire correction fluid to this stock solution space internalization is equipped with a stirring body, and for the volatile solution that this correction fluid contained and the insoluble shielding material of homogeneous mixing, this anti-clogging structure's characteristic includes:

An inner plug, which is formed in the bottle cap, and the bottle cap is assembled in the opening at the front end of the body to define a liquid outlet space, the liquid outlet space is communicated with the liquid storage space, the diameter of the circle of the inner plug is smaller than that of the stirring body, so that the stirring body can not enter the liquid outlet space for stirring; and a process for the preparation of a coating,

A plug post assembled on the inner plug to minimize the liquid outlet space, and at least one flow channel formed between the inner plug and the plug post, wherein the opening of the flow channel is formed on the inner plug, the plug post or both and located at one side of the plug post, so that the direction of the opening is not parallel to the liquid outlet direction of the correction liquid, thereby preventing the insoluble shielding material from directly flowing into the flow channel to form blockage when being deposited.

2. the structure of claim 1, wherein the plug comprises a plug cap and a cylinder, the diameter of the plug cap is greater than or equal to the opening of the inner plug to form a seal, and the opening of the flow passage is located around the plug cap.

3. The structure according to claim 2, wherein the plug has at least one first groove on its surface, the first groove covers the plug cap and the column, and the other end of the first groove extends to the liquid outlet space.

4. The clogging preventing structure for the correction fluid container according to claim 2, wherein the cylinder has a polygonal shape and a plurality of flow paths are formed.

5. The apparatus according to claim 2, wherein the diameter of the circle of the cylinder adjacent to the opening of the inner plug is larger than the size of the opening of the inner plug, so that the cylinder can be tightly fixed inside the inner plug.

6. The structure of claim 2, wherein the inner surface of the inner plug is provided with at least one second groove extending to the liquid outlet space.

7. the structure according to claim 2, wherein the plug has at least one first groove on its surface, the distribution area of the first groove covers the plug cap and the cylinder, and the inner surface of the inner plug has at least one second groove corresponding to the first groove, so that the first groove and the second groove are opposite to each other, and the other end of the first groove and the other end of the second groove extend to the liquid outlet space.

8. The structure according to claim 2, wherein the plug has at least one first groove on its surface, the distribution area of the first groove covers the plug cap and the cylinder, and the inner surface of the inner plug has at least one second groove, the first groove and the second groove are not opposite to each other, and the other ends of the first groove and the second groove extend to the liquid outlet space.

Technical Field

The invention relates to the field of word repairing tools, in particular to an anti-blocking structure of a correction fluid container, which uses a plug column to be assembled in a fluid outlet space inside an inner plug to minimize the volume, and forms at least one completely new fluid outlet channel between the inner plug and the inner plug, the plug column or the inner plug and the inner plug are provided with an opening, the opening of the fluid outlet channel is formed on the inner plug, the plug column or the inner plug and is positioned on one side of the plug column, and sediment substances in correction fluid are not accumulated and blocked in the fluid outlet space, so that the smoothness of the correction fluid container in use is improved.

Background

Writing utensils in general, such as: the most used correction tools such as correction tape or correction fluid, etc. use white correction fluid to cover the wrong writing, leave white insoluble masking substance film to cover the wrong writing after the volatile solution dries, and can rewrite the correct writing on the film to correct the wrong writing.

Currently, the current correction fluid products are prepared by filling a container with correction fluid, which is prepared by mixing a volatile solution (solution) and an insoluble shielding material (solute) with a proper ratio, wherein the insoluble shielding material is usually selected from titanium oxide materials and has a specific gravity greater than that of the volatile solution, so that the insoluble shielding material needs to be stirred to be uniformly mixed and dispersed in the volatile solution when in use, and the solute can generate precipitation when not in use, therefore, most of the correction fluid is placed in the container as follows: a stirring body such as a metal bar or a metal sphere is used for stirring before use, and a solute is uniformly distributed in a solution to be coated.

In view of the problem of deposition of insoluble shielding material in correction fluid, manufacturers have designed various stirring bodies with different shapes for stirring, but the manufacturers are limited by the shape of the container, and the fluid outlet space after the combination of the bottle cap and the container, because the size of the fluid outlet of the bottle cap is usually smaller than the size of the opening of the container, except for the step difference generated at the opening of the container, these stirring bodies cannot stir the insoluble shielding material deposited at the step difference, the problem of deposition in the fluid outlet cannot be effectively solved, so that the insoluble shielding material is deposited in the fluid outlet space, the fluid outlet smoothness is affected after a long time, and the fluid outlet is difficult due to blockage, so the improvement is needed.

Disclosure of Invention

in view of the above, an objective of the present invention is to provide an anti-blocking structure for a correction fluid container, so that an inner plug formed by a plug pillar sealed in a bottle cap minimizes the original fluid outlet space, and a flow channel is formed in the sealed area, and an opening of the flow channel is located at one side of the plug pillar, so that an insoluble shielding material cannot be deposited in the fluid outlet space or the flow channel, thereby avoiding the subsequent blocking problem and improving the effect of smoothness during use.

In order to achieve the above object, the present invention provides an anti-clogging structure for a correction fluid container, wherein the correction fluid container comprises a body and a bottle cap, a fluid storage space is formed in the body for containing a correction fluid, and a stirring body is movably disposed in the fluid storage space for uniformly mixing a volatile solution and an insoluble shielding material contained in the correction fluid, the anti-clogging structure is characterized by comprising:

An inner plug, which is formed in the bottle cap, and the bottle cap is assembled in the opening at the front end of the body to define a liquid outlet space, the liquid outlet space is communicated with the liquid storage space, the diameter of the circle of the inner plug is smaller than that of the stirring body, so that the stirring body can not enter the liquid outlet space for stirring; and a process for the preparation of a coating,

a plug post assembled on the inner plug to minimize the liquid outlet space, and at least one flow channel formed between the inner plug and the plug post, wherein the opening of the flow channel is formed on the inner plug, the plug post or both and located at one side of the plug post, so that the direction of the opening is not parallel to the liquid outlet direction of the correction liquid, thereby preventing the insoluble shielding material from directly flowing into the flow channel to form blockage when being deposited.

The anti-blocking structure of the correction fluid container comprises a plug cap and a column body, wherein the circular diameter of the plug cap is larger than or equal to the opening of the inner plug to form sealing, and the opening of the flow passage is positioned around the plug cap.

The anti-blocking structure of the correction fluid container is characterized in that the surface of the plug is provided with at least one first groove, the distribution area of the first groove covers the plug cover and the column, and the other end of the first groove extends to the fluid outlet space.

The anti-blocking structure of the correction fluid container is characterized in that the column body is polygonal and is provided with a plurality of flow passages.

The anti-blocking structure of the correction fluid container is characterized in that the diameter of the circle, adjacent to the opening of the inner plug, of the column body is larger than the size of the opening of the inner plug, so that the column body can be fixed inside the inner plug in a pressing mode.

The anti-blocking structure of the correction fluid container is characterized in that at least one second groove is formed in the inner surface of the inner plug, and the second groove extends to the fluid outlet space.

The anti-blocking structure of the correction fluid container is characterized in that the surface of the plug is provided with at least one first groove, the distribution area of the first groove covers the plug cover and the cylinder, the inner surface of the inner plug is provided with at least one second groove corresponding to the first groove, the first groove and the second groove are opposite to each other, and the other ends of the first groove and the second groove extend to the fluid outlet space.

The anti-blocking structure of the correction fluid container is characterized in that the surface of the plug is provided with at least one first groove, the distribution area of the first groove covers the plug cover and the cylinder, the inner surface of the inner plug is provided with at least one second groove, the first groove and the second groove are not opposite to each other, and the other ends of the first groove and the second groove respectively extend to the fluid outlet space.

Compared with the prior art, the invention has the beneficial effects that: because the direction of the opening is not parallel to the liquid outlet direction of the correction liquid, the blockage caused by the direct flow of the insoluble shielding substance into the flow passage when the insoluble shielding substance is deposited can be avoided.

Drawings

Fig. 1 is a schematic structural diagram of a first preferred embodiment of the present invention.

Fig. 2 is an assembled cross-sectional view of the first preferred embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a second preferred embodiment of the present invention.

Fig. 4 is an assembled cross-sectional view of the second preferred embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a third preferred embodiment of the invention.

Fig. 6 is an assembled cross-sectional view of the third preferred embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a fourth preferred embodiment of the invention.

Fig. 8 is an assembled cross-sectional view of the fourth preferred embodiment of the present invention.

Fig. 9 is a schematic structural diagram of a fifth preferred embodiment of the invention.

Fig. 10 is an assembled cross-sectional view of the fifth preferred embodiment of the present invention.

Description of reference numerals: 1-correction fluid container; 11-a body; 111-reservoir space; 12-a bottle cap; 2-anti-clogging structure; 21-inner plug; 211-liquid outlet space; 212-a second trench; 22-plug; 221-a plug cover; 222-a column; 223-a first trench; 224-a flow channel; 3-a correction fluid; 31-volatile solution; 32-insoluble masking substance; 4-stirring body.

Detailed Description

For the clear understanding of the present invention, reference is made to the following description only, taken in conjunction with the accompanying drawings.

Please refer to fig. 1 and fig. 2, which are schematic structural diagrams and assembled sectional views of a first preferred embodiment of the present invention. As shown in the drawings, the anti-clogging structure 2 of the correction fluid container 1 of the present invention comprises a body 11 and a bottle cap 12, wherein a liquid storage space 111 is formed inside the body 11 for containing a correction fluid 3, and a stirring body 4 is movably disposed inside the liquid storage space 111 for uniformly mixing the correction fluid 3 with a volatile solution 31 and an insoluble masking material 32, and the anti-clogging structure 2 comprises an inner plug 21 and a plug 22.

Wherein the inner plug 21 is integrally formed in the bottle cap 12 to extend into the body 11, the bottle cap 12 is assembled to the opening at the front end of the body 11 to define a liquid outlet space 211, the liquid outlet space 211 is communicated with the liquid storage space 111, and the diameter of the inner plug 21 is smaller than that of the stirring body 4, so that the stirring body 4 cannot enter the liquid outlet space 211 for stirring.

The plug 22 includes a plug 221 and a cylinder 222, the diameter of the plug 221 is greater than or equal to the opening of the inner plug 21 to form a closed state, the surface of the plug 22 is provided with a first groove 223, the distribution area of the first groove covers the plug 221 and the cylinder 222, the plug 22 is disposed inside the inner plug 21 to minimize the liquid outlet space 211, a flow channel 224 is formed between the inner plug 21 and the plug 22 by the first groove 223, the other end of the first groove 223 extends to the liquid outlet space 221, the opening of the flow channel 224 is located around the plug 221, that is, the opening of the flow channel 224 is located on the side surface of the plug 22, the direction of the opening is not parallel to the direction of the flow channel 224, so as to prevent the insoluble shielding material 32 from directly flowing into the flow channel 224 to form a blockage when settling. It should be noted that the diameter of the cylinder 222 adjacent to the opening of the inner plug 21 is slightly larger than the opening of the inner plug 21, so that the cylinder 222 and the inner plug 21 form interference to be tightly fixed inside the inner plug 21, thereby preventing the stirring body 4 from falling off due to impact during stirring, but this embodiment is only one of the interference fixing methods, or a protruding portion with a diameter slightly larger than the opening of the inner plug 21 can be formed at other positions of the cylinder 222, which can also achieve the effect of interference fixing, and therefore should not be limited thereto.

Please refer to fig. 3 and 4, which are a schematic structural diagram and an assembled cross-sectional view of a second preferred embodiment of the present invention. As shown in the figure, a second groove 212 is formed on the inner surface of the inner plug 21, the flow channel 224 is formed when the assembly is completed, and the second groove 212 extends to the liquid outlet space 211.

Please refer to fig. 5 and 6, which are schematic structural diagrams and assembled sectional views of a third preferred embodiment of the present invention. As shown in the figure, the first groove 223 is disposed on the surface of the plug 22, the distribution area thereof covers the plug cover 221 and the column 222, and the inner surface of the inner plug 21 is disposed with the second groove 212 corresponding to the first groove 223, after assembly, the first groove 223 and the second groove 212 are opposite to each other, and the other end of the first groove 223 and the second groove 212 extends to the liquid outlet space 211.

Please refer to fig. 7 and 8, which are a schematic structural diagram and an assembled cross-sectional view of a fourth preferred embodiment of the present invention. As shown in the figure, the first groove 223 is disposed on the surface of the plug 22, the distribution area thereof covers the plug cover 221 and the column 222, and the second groove 212 is disposed on the inner surface of the inner plug 21, after the assembly, the first groove 223 and the second groove 212 are not opposite to each other, and the other ends of the first groove 223 and the second groove 212 respectively extend to the liquid outlet space 211.

Please refer to fig. 9 and 10, which are a schematic structural diagram and an assembled cross-sectional view of a fifth preferred embodiment of the present invention. As shown in the drawings, the column 222 is polygonal, so that a plurality of flow channels 224 are formed when the plug 22 is assembled to the inner plug 21.

In summary, in the above embodiments, after the plug 22 is sealed in the inner plug, the liquid outlet space 211 is minimized to reduce the amount or chance of deposition, and the flow channel 224 is formed at the same time, because the opening of the flow channel 224 is located at the side of the plug 22, the insoluble shielding material 32 will not directly deposit and enter the liquid outlet space 211 or the flow channel 224, thereby avoiding the problem of subsequent blocking, and achieving the effect of improving the smoothness during use.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.