Correction tape case structure

Abstract

A kind of correction tape shell structure, including front shell, rear shell, tape head cover, front shell, rear shell are spliced to form shell body, shell body front end has the smearing opening of allowing tape head to extend, it is characterized by: first guide slot is set on the outer side wall of front shell, second guide slot is set on the outer side wall of rear shell, first guide insertion rod, second guide insertion rod are respectively arranged in the middle part of the rear end of tape head cover, first guide insertion rod is inserted and moves along first guide slot, second guide insertion rod is inserted and moves along second guide slot.The beneficial effects of the present application compared with prior art are that two kinds of structure design cooperate with each other, so that the tape head cover can be quickly converted between covering the smearing opening state and being sleeved on the top edge of the shell body state;And push-pull action piece not only enables the user to complete the operation of tape head cover with one hand, but also can play the role of stabilizing the state of tape head cover and avoiding the state of tape head cover being easily changed.

Description

Technical Field

[0001] This utility model relates to a correction tape housing structure. Background Technology

[0002] Correction tape is a white, opaque pigment similar to correction fluid that is applied to paper to cover up mistakes. After correction, the writing can be immediately rewritten on the correction layer, which provides convenience for study and work.

[0003] For example, a correction tape disclosed in Chinese patent document CN222004844U, entitled "Correction Tape", includes: a detachably connected insert and a housing, the housing including a front housing, a rear housing, and a head cap, the front housing and the rear housing being rotatably connected by a movable pivot; the front housing and the rear housing are separated from each other around the movable pivot to open the housing, and the front housing and the rear housing are brought closer together around the movable pivot to close the housing; the head cap is rotatably connected to the front housing to protect the tape head when the correction tape is not in use; the insert is used to extend into the front housing from the end of the front housing near the rear housing.

[0004] However, the applicant discovered that the outer shell structure of the aforementioned correction tape is poorly designed. In order to prevent the tape end cap from being lost, the tape end cap is rotatably connected to the front shell. However, when in use, the tape end cap will cover the area in front of the correction area, making it difficult for the user to accurately complete the correction work. To solve this problem, the user needs to operate with both hands, using one hand to lift the tape end cap, which is very inconvenient. Moreover, when not in use, the tape end cap is prone to rotating, causing the tape end to lose its protection. Utility Model Content

[0005] The purpose of this invention is to provide a correction tape housing structure that allows the tape cap to quickly switch between covering the application opening and fitting around the top edge of the housing body. The technical solution adopted is as follows:

[0006] A correction tape housing structure includes a front housing, a rear housing, and a tape head cover. The front housing and the rear housing are spliced ​​together to form a housing body. The front end of the housing body has an application opening for the tape head to extend out. The structure is characterized in that: a first guide groove is formed on the outer wall of the front housing located in front of the application opening, and a second guide groove is formed on the outer wall of the rear housing located behind the application opening. The first guide groove and the second guide groove are parallel to each other. A first guide rod and a second guide rod are respectively provided in the middle of the rear end of the tape head cover. The first guide rod is inserted and moves along the first guide groove, and the second guide rod is inserted and moves along the second guide groove.

[0007] In a preferred embodiment, the first guide groove includes a first left vertical extension segment and a first right horizontal extension segment connected in sequence, and the second guide groove includes a second left vertical extension segment and a second right horizontal extension segment connected in sequence.

[0008] A better solution is that the connection between the first left vertical extension segment and the first right horizontal extension segment is smoothly transitioned; the connection between the second left vertical extension segment and the second right horizontal extension segment is also smoothly transitioned.

[0009] A better solution is that a first cover edge guide groove is provided on the outer wall of the front housing outside the first guide groove, and a second cover edge guide groove is provided on the outer wall of the rear housing outside the second guide groove. The first cover edge guide groove and the second cover edge guide groove are parallel to each other. The front side of the cover edge with the head cover moves along the first cover edge guide groove, and the rear side of the cover edge with the head cover moves along the second cover edge guide groove.

[0010] A better solution is that the first cover edge guide groove is provided with a first flip slope at the position corresponding to the smooth transition of the first guide groove, the second cover edge guide groove is provided with a second flip slope at the position corresponding to the smooth transition of the second guide groove, the front side of the rear end of the cover is provided with a first flip protrusion that can cooperate with the first flip slope, and the rear side of the rear end of the cover is provided with a second flip protrusion that can cooperate with the second flip slope.

[0011] A preferred embodiment includes a force-bearing seat at the top rear end of the head cover. The user can move the head cover by applying a force to the force-bearing seat in the direction of right or left.

[0012] In a more preferred embodiment, the correction strip housing structure further includes a push-pull actuating component. The push-pull actuating component includes a main slide plate that can slide along the top of the housing body, a hinge end that can be hinged to the force-bearing seat, a front positioning slide plate that can slide along the front side of the housing body, a rear positioning slide plate that can slide along the rear side of the housing body, a first guide slider that can be inserted into a first guide groove, and a second guide slider that can be inserted into a second guide groove. The hinge end is located at the left end of the main slide plate and is hinged to the force-bearing seat. The top edge of the front positioning slide plate is connected to the front end of the main slide plate, and the top edge of the rear positioning slide plate is connected to the rear end of the main slide plate. The first guide slider is located on the inner wall of the front positioning slide plate and is inserted into the first guide groove. The second guide slider is located on the inner wall of the rear positioning slide plate and is inserted into the second guide groove.

[0013] The advantages of this utility model compared to the prior art are that, due to the cooperation between the first guide rod and the first guide groove, and the cooperation between the second guide rod and the second guide groove, the cap can be guided to move along the shell body; and the corresponding structural design of the first guide groove, the first cap guide groove, and the cap, and the corresponding structural design of the second guide groove, the second cap guide groove, and the cap allows the cap to be flipped; the cooperation of the above two structural designs allows the cap to quickly switch between the state of covering the application opening and the state of being fitted on the top edge of the shell body; and the push-pull action not only allows the user to complete the operation of putting on the cap with one hand, but also plays a role in stabilizing the state of the cap and preventing the state of the cap from easily changing. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the structure of one embodiment of the present invention;

[0015] Figure 2 yes Figure 1 The diagram shows a structural schematic from another angle of the embodiment shown;

[0016] Figure 3 yes Figure 1 Exploded view of the parts in the embodiment shown;

[0017] Figure 4 yes Figure 1 Rear perspective view of the front housing in the illustrated embodiment;

[0018] Figure 5 yes Figure 1 Right perspective view of the embodiment with head cover shown;

[0019] Figure 6 yes Figure 1 The right perspective view of the push-pull action component in the embodiment shown;

[0020] Figure 7 yes Figure 1 A schematic diagram of the embodiment with the push-pull mechanism removed;

[0021] Figure 8 yes Figure 7 Another perspective illustration;

[0022] Figure 9 yes Figure 1 A schematic diagram of the embodiment with the head cover removed;

[0023] Figure 10 yes Figure 9 A diagram from another angle. Detailed Implementation

[0024] like Figure 1-10As shown, in one embodiment of this application, the modified belt housing structure includes a front housing 101, a rear housing 102, and a belt head cover 2. The front housing 101 and the rear housing 102 are spliced ​​together to form a housing body 1. The front end of the housing body 1 has an application opening 103 that allows the belt head to extend. A first guide groove 1011 is provided on the outer wall of the front housing 101 located in front of the application opening 103, and a second guide groove 1021 is provided on the outer wall of the rear housing 102 located behind the application opening 103. The first guide groove 1011 and the second guide groove 1021 are parallel to each other. A first guide rod 201 and a second guide rod 202 are respectively provided in the middle of the rear end of the belt head cover 2. The first guide rod 201 is inserted and moves along the first guide groove 1011, and the second guide rod 202 is inserted and moves along the second guide groove 1021. The first guide rod 201 cooperates with the first guide groove 1011, and the second guide rod 202 and the second guide groove 1021 cooperate with each other, so that the cap 2 can switch between the state of covering the application opening 103 and the state of being fitted on the top edge of the housing body 1.

[0025] like Figure 3 , 9 As shown, in one alternative embodiment of this application, the first guide groove 1011 includes a first left vertical extension 10111 and a first right horizontal extension 10112 connected in sequence, and the second guide groove 1021 includes a second left vertical extension 10211 and a second right horizontal extension 10212 connected in sequence.

[0026] like Figure 3 , 9 As shown, in one alternative embodiment of this application, the connection between the first left vertical extension 10111 and the first right horizontal extension 10112 is smoothly transitioned; the connection between the second left vertical extension 10211 and the second right horizontal extension 10212 is also smoothly transitioned.

[0027] like Figure 3 , 9 As shown, in one optional embodiment of this application, a first cover edge guide groove 1012 is provided on the outer wall of the front housing 101 located outside the first guide groove 1011, and a second cover edge guide groove 1022 is provided on the outer wall of the rear housing 102 located outside the second guide groove 1021. The first cover edge guide groove 1012 and the second cover edge guide groove 1022 are parallel to each other. The front side of the cover edge of the cover 2 moves along the first cover edge guide groove 1012, and the rear side of the cover edge of the cover 2 moves along the second cover edge guide groove 1022.

[0028] like Figure 3 , 9As shown, in one alternative embodiment of this application, the first cover edge guide groove 1012 is provided with a first flip slope 10121 at a position corresponding to the smooth transition with the first guide groove 1011, the second cover edge guide groove 1022 is provided with a second flip slope 10221 at a position corresponding to the smooth transition with the second guide groove 1021, the front side of the rear end of the cover 2 is provided with a first flip protrusion 203 that can cooperate with the first flip slope 10121, and the rear side of the rear end of the cover 2 is provided with a second flip protrusion 204 that can cooperate with the second flip slope 10221.

[0029] like Figure 1 , 3 As shown in Figure 5, in an alternative embodiment of this application, the head cover 2 has a force-bearing seat 205 at its rear end. The user can move the head cover 2 by applying a force to the force-bearing seat 205 in a direction toward the right or in a direction toward the left.

[0030] like Figure 1 , 3 As shown in Figure 6, in an optional embodiment of this application, the correction tape housing structure further includes a push-pull actuating component 3. The push-pull actuating component 3 includes a main slide plate 301 that can slide along the top of the housing body 1, a hinge end 302 that can hinge with the force-bearing seat 205, a front positioning slide plate 303 that can slide along the front side of the housing body 1, a rear positioning slide plate 304 that can slide along the rear side of the housing body 1, a first guide slider 305 that can be inserted into the first guide groove 1011, and a second guide slider 306 that can be inserted into the second guide groove 1021. The connecting end 302 is located at the left end of the main slide plate 301, and the hinge end 302 is hinged to the force receiving seat 205; the top edge of the front positioning slide plate 303 is connected to the front end of the main slide plate 301, and the top edge of the rear positioning slide plate 304 is connected to the rear end of the main slide plate 301. The first guide slider 305 is located on the inner wall of the front positioning slide plate 303 and is inserted into the first guide groove 1011. The second guide slider 306 is located on the inner wall of the rear positioning slide plate 304 and is inserted into the second guide groove 1021.

[0031] like Figure 1 , 3 As shown in Figures 6 and 7, in one optional embodiment of this application, the right end of the top surface of the main slide 301 is provided with an upwardly protruding finger push-pull piece 3011.

[0032] Once all the components inside the housing body 1 (which are known technologies and will not be described in detail here) are installed, a complete correction tape product is obtained.

[0033] The following is combined with Figure 1-10 The following describes the working process of the correction tape finished product manufactured using the correction tape housing structure of this embodiment:

[0034] In the initial state, the head cover 2 is located at the left end of the housing body 1 and covers the application opening 103, and the head cover 2 is in the state of covering the application opening 103.

[0035] When a user needs to use correction tape, the user grasps the housing body 1 and presses the finger push-pull tab with their finger (usually the thumb) and pushes it to the right, causing the push-pull action 3 to move to the right along the top edge of the housing body 1. The push-pull action 3 drives the tape head cover 2 to move. The first flip slope 10121 and the first flip protrusion 203 interact with each other, while the second flip slope 10221 and the second flip protrusion 204 interact with each other, causing the tape head cover 2 to flip onto the top edge of the housing body 1 and move to the right along the top edge of the housing body 1 with the push-pull action 3. The tape head cover 2 is in the state of being fitted onto the top edge of the housing body 1, and then the user can use the correction tape to make corrections.

[0036] After completing the correction work, the user presses the finger push-pull tab and moves it to the left, causing the push-pull action 3 to move to the left along the top edge of the housing body 1. The push-pull action 3 drives the head cover 2 to move until the head cover 2 flips to the left end of the housing body 1 and covers the application opening 103. The head cover 2 is in the state of covering the application opening 103.

[0037] Because the first guide rod 201 and the first guide groove 1011 cooperate with each other, and the second guide rod 202 and the second guide groove 1021 cooperate with each other, the cap 2 can be guided to move along the shell body 1; and the corresponding structural design of the first guide groove 1011, the first cover edge guide groove 1012, and the cap 2 (the first flip protrusion 203, the smooth transition of the first guide groove 1011 and the first flip slope 10121), and the corresponding structural design of the second guide groove 1021, the second cover edge guide groove 1022, and the cap 2 (the second flip protrusion 204, the smooth transition of the second guide groove 1021 and the second flip slope 10221) allows the cap 2 to flip; the two structural designs cooperate to allow the cap 2 to switch between the state of covering the application opening 103 and the state of being fitted on the top edge of the shell body 1. The push-pull action component 3 not only allows the user to complete the operation of putting on the head cover 2 with one hand, but it also stabilizes the state of the head cover 2 and prevents the state of the head cover 2 from easily changing.

[0038] Furthermore, it should be noted that the names of the various parts of the specific embodiments described in this specification may differ. All equivalent or simple variations made to the structure, features, and principles described in this utility model patent concept are included within the protection scope of this utility model patent. Those skilled in the art to which this utility model pertains may make various modifications or additions to the described specific embodiments or use similar methods to replace them, as long as they do not deviate from the structure of this utility model or exceed the scope defined in these claims, they should all fall within the protection scope of this utility model.

Claims

1. A correction tape housing structure, comprising a front housing, a rear housing, and a tape head cover, wherein the front housing and the rear housing are spliced ​​together to form a housing body, and the front end of the housing body has an application opening for the tape head to extend out, characterized in that: A first guide groove is provided on the outer wall of the front housing located in front of the application opening, and a second guide groove is provided on the outer wall of the rear housing located behind the application opening. The first guide groove and the second guide groove are parallel to each other. A first guide rod and a second guide rod are respectively provided in the middle of the rear end of the head cover. The first guide rod is inserted and moves along the first guide groove, and the second guide rod is inserted and moves along the second guide groove.

2. The correction tape housing structure as described in claim 1, characterized in that: The first guide groove includes a first left vertical extension section and a first right horizontal extension section connected in sequence, and the second guide groove includes a second left vertical extension section and a second right horizontal extension section connected in sequence.

3. The correction tape housing structure as described in claim 2, characterized in that: The first left vertical extension segment and the first right horizontal extension segment have a smooth transition at their connection; the second left vertical extension segment and the second right horizontal extension segment have a smooth transition at their connection.

4. The correction tape housing structure as described in claim 1, characterized in that: A first cover edge guide groove is provided on the outer wall of the front housing located outside the first guide groove, and a second cover edge guide groove is provided on the outer wall of the rear housing located outside the second guide groove. The first cover edge guide groove and the second cover edge guide groove are parallel to each other. The front side of the cover edge with the head cover moves along the first cover edge guide groove, and the rear side of the cover edge with the head cover moves along the second cover edge guide groove.

5. The correction tape housing structure as described in claim 4, characterized in that: The first cover edge guide groove is provided with a first flip slope at the position corresponding to the smooth transition of the first guide groove, the second cover edge guide groove is provided with a second flip slope at the position corresponding to the smooth transition of the second guide groove, the front side of the rear end of the cover is provided with a first flip protrusion that can cooperate with the first flip slope, and the rear side of the rear end of the cover is provided with a second flip protrusion that can cooperate with the second flip slope.

6. The correction tape housing structure as described in any one of claims 1-5, characterized in that: The top of the rear end of the head cover has a force-bearing seat.

7. The correction tape housing structure as described in claim 6, characterized in that: The correction tape housing structure also includes a push-pull mechanism, which includes a main slide plate that can slide along the top of the housing body, a hinge end that can be hinged to the force-bearing seat, a front positioning slide plate that can slide along the front side of the housing body, a rear positioning slide plate that can slide along the rear side of the housing body, a first guide slider that can be inserted into a first guide groove, and a second guide slider that can be inserted into a second guide groove. The hinge end is located at the left end of the main slide plate and is hinged to the force-bearing seat. The top edge of the front positioning slide plate is connected to the front end of the main slide plate, and the top edge of the rear positioning slide plate is connected to the rear end of the main slide plate. The first guide slider is located on the inner wall of the front positioning slide plate and is inserted into the first guide groove. The second guide slider is located on the inner wall of the rear positioning slide plate and is inserted into the second guide groove.

8. The correction tape housing structure as described in claim 7, characterized in that: The right end of the top surface of the main slide is provided with an upwardly protruding finger push-pull tab.

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