Compact size tape measure
阅读说明:本技术 紧凑尺寸卷尺 (Compact size tape measure ) 是由 姜东宪 姜男薰 安奭准 于 2018-04-06 设计创作,主要内容包括:紧凑尺寸卷尺包括外壳、可旋转地安装在外壳内部的卷轴及卷绕在卷轴的外面且通过外壳的入口被拉出的带子,所述卷轴包括提供用于卷绕带子的力的弹簧及提供用于收容弹簧的内部空间与用于卷绕保管带子的外部空间的绕线架,内部空间的能够收容弹簧的弹簧收容空间的宽度可以比外部空间的能够收容带子的带子收容空间的宽度更宽。(The compact-sized tape measure includes a case, a reel rotatably installed inside the case, the reel including a spring providing a force for winding a tape and a bobbin providing an inner space for accommodating the spring and an outer space for winding and keeping the tape, and a tape wound outside the reel and pulled out through an entrance of the case, and a width of a spring accommodating space of the inner space capable of accommodating the spring may be wider than a width of a tape accommodating space of the outer space capable of accommodating the tape.)
1. A compact size tape measure comprising a housing, a reel (reel) rotatably mounted inside the housing, a tape (blade) wound outside the reel and pulled out through an entrance of the housing, comprising:
the reel includes a spring for providing a force for winding the tape, and a bobbin for providing an inner space for housing the spring and an outer space for winding and storing the tape,
the width of the spring receiving space of the inner space, which can receive the spring, is wider than the width of the strap receiving space of the outer space, which can receive the strap.
2. A compact size tape measure according to claim 1, wherein:
the housing includes a projection portion projecting toward a periphery of a rotation shaft of the spool in correspondence with the internal space and a peripheral portion formed in correspondence with the external space to a relatively smaller width than the projection portion,
the protruding portion protrudes in the direction of the rotation axis of the spool more than the peripheral portion, so that a user can easily grip the spool.
3. A compact size tape measure according to claim 1, wherein:
the width of the spring received in the inner space is wider than the width of the band wound around the outer space.
4. A compact size tape measure according to claim 3, wherein:
the width of the spring has a dimension exceeding 120% and 140% or less of the width of the band.
5. A compact size tape measure according to claim 1, wherein:
the bobbin includes a first bobbin portion and a second bobbin portion spaced apart from each other in a left-right direction of a rotation axis, the first bobbin portion and the second bobbin portion each including a first bobbin outer wall corresponding to the internal space, a partition plate formed in a cylinder shape perpendicular to the first bobbin outer wall, and a second bobbin outer wall extending from the partition plate and corresponding to the external space,
the partition plates of the first and second bobbin parts support both ends of the band in a width direction, and an interval between the first disc outer walls corresponds to a width of the spring receiving space and an interval between the second disc outer walls corresponds to a width of the band receiving space.
6. A compact size tape measure according to claim 5, wherein:
the first bobbin portion and the second bobbin portion are provided to be rotatable independently of each other.
7. A compact size tape measure according to claim 1, wherein:
the bobbin includes a central protrusion corresponding to the inner space, the housing is formed with a through hole exposing the central protrusion to the outside, and the rotation of the spool can be restricted or released by the central protrusion exposed through the through hole.
8. The compact size tape measure of claim 7, wherein:
the through hole is formed at one side or both sides of the housing, and the central protrusion is also exposed from one side or both sides of the housing.
9. A compact size tape measure according to claim 1, wherein:
a width of the spring receiving space is defined from an outside of a rotation shaft of the spool to a partition formed between the inner space and the outer space, and the width of the spring receiving space is wider than the width of the spring.
10. A compact size tape measure according to claim 1, wherein:
the housing includes a protruding portion that provides an inner face expanding toward a periphery of a rotation shaft of the spool corresponding to the internal space and a peripheral portion that provides an inner face relatively narrower than the protruding portion corresponding to the external space,
the bobbin includes a partition between the inner space and the outer space,
the partition and an inner surface of the peripheral portion define the external space.
11. A compact size tape measure according to claim 1, wherein:
the housing includes a protruding portion that provides an inner face expanding toward a periphery of a rotation shaft of the spool corresponding to the internal space and a peripheral portion that provides an inner face relatively narrower than the protruding portion corresponding to the external space,
the bobbin includes a partition between the inner space and the outer space,
the partition and an inner face of the projection define the inner space.
12. A compact size tape measure according to claim 1, wherein:
the housing includes a protruding portion that provides an inner face expanding toward a periphery of a rotation shaft of the spool corresponding to the internal space and a peripheral portion that provides an inner face relatively narrower than the protruding portion corresponding to the external space,
the bobbin includes a partition between the inner space and the outer space,
the partition and the inner surface of the peripheral portion define the outer space, and the partition and the inner surface of the protrusion define the inner space.
Technical Field
The present invention relates to tape measures and more particularly to compact size tape measures that are easy to grasp and access.
Background
A general tape measure includes a case, a reel (reel) elastically supported inside the case, a tape (blade) wound around the reel in a coil form, and an end hook (end hook) coupled to an end of the tape. The user pulls out the strap from the end portion coupled to the end hook for measurement, and can pull out a desired length or distance of the length measurement object.
And, the reel (reel) of the elastic work includes the coil spring and bobbin (bobbin) to accommodate the coil spring, the state that the ribbon is coiled outside the bobbin provides in order to be drawn out from the outer cover, the ribbon drawn out through the restoring force of the said coil spring can be returned to the direction of coiling to the bobbin.
In this regard, U.S. Pat. No. 6,751,883 (2004.06.22, granted) discloses "REEL ROTATION OUNT ARRANGEMENT EQUIPPED WITH FRICTION REDUCTION MEANS FOR TAPE MEASURE (spool-rotation mounting MEANS including FRICTION-reducing MEANS in the TAPE MEASURE)". Referring to the above about the installation of the reel, the tape is almost the same as the formation width of the spring, the bobbin forming the reel is integrally formed and the inner space for the spring and the outer space where the tape is wound include partitions separated from each other in the circumferential direction.
U.S. Pat. No. 4,121,785 (1978.10.24) discloses "TAPE BRAKE". The U.S. patent includes contents of a band for suspending a tape measure by an operation of pressing a button, and a side of a space for accommodating a spring is opened, but for a pressing operation for braking, a width of a space capable of substantially accommodating a spring is limited, and the width of a spring cannot be substantially formed wider than the band.
Japanese Kokai Utility model No. 1975-080451 (1975.7.11 publication) relates to a "tape measure housing" which provides a housing assembled to form a bobbin and exposing a portion of a circular plate in the bobbin to the outside. Here, in order to realize the brake function by the circular plate exposed to the housing, the width of the space capable of substantially accommodating the spring is smaller than the space capable of accommodating the strap in japanese utility model, and the width of the space capable of accommodating the spring cannot be further increased because the spring is stopped by the surface of the bobbin by friction.
When the tape is completely restored to the inside of the case, the inside of the case is stored in a state in which the tape and the spring are both wound, and the size of the case is determined by the volume of the wound tape and the spring. Therefore, in order to compactly form the housing of the tape measure, it is critical to house the strap and the spring as compactly as possible.
Disclosure of Invention
Technical problem
The invention provides a tape measure capable of improving the storage efficiency of a belt and a spring.
The invention provides a tape measure which can reduce the size of a shell and has a structure that can be easily grasped by hands.
Technical scheme
According to an exemplary embodiment of the present invention for achieving the above object of the present invention, a compact-sized tape measure includes a case, a reel rotatably installed inside the case, the reel including a spring providing a force for winding a tape and a bobbin providing an inner space for housing the spring and an outer space for winding and keeping the tape, a tape wound outside the reel and pulled out through an entrance of the case, and a width of a spring housing space of the inner space capable of housing the spring may be wider than a width of a tape housing space of the outer space capable of housing the tape.
Since the spring and the spring housing space corresponding to the spring are formed to be relatively wide, the thickness of the spring can be made thinner or the size of the internal space occupied by the spring can be reduced. Therefore, the housing can be formed in an overall compact size.
Further, the difference in width between the inner space and the outer space of the bobbin is configured to form a step between the partial space and the outer space, thereby naturally limiting the space in which the spring can expand, and thus simplifying the process in terms of bobbin design and assembly.
As a result, the conventional bobbin provides a thick partition for cutting off the inner space from the outer space, whereas the partition of the bobbin of the tape measure of the present embodiment may be completely omitted or formed to be considerably thin or minimal.
In order to form the inner space wider than the outer space, the housing may include a protrusion portion protruding toward a periphery of the rotation shaft of the spool corresponding to the inner space and a peripheral portion corresponding to the outer space and having a relatively smaller width than the protrusion portion. As a result, since the bobbin is formed to be wider than the inner space for the spring and the outer space for the strap, the housing is formed with a convex portion at the center adjacent to the rotation shaft, and the convex portion makes the housing have a spherical shape or a shape in which the center portion of the side surface is convex, which is easy to grip as a whole.
Also, not only the shape in which the rotation shaft is protruded is provided, but the size of the inner space for the spring is reduced by the inner space, so the height of the housing is also reduced accordingly, thereby providing a size and a shape which are more convenient for the worker to grasp even with the same strap.
Of course, the width of the spring housed in the internal space can be made wider than the width of the strap wound around the external space by such a process, and in order to obtain such an effect more effectively, it is preferable that the width of the spring exceeds the width of the strap by 120% and 140% or less. Here, the width of the spring may be 120% or less, but when the width of the spring exceeds 120%, the shape of the bobbin and the housing can be made more compact and can be easily grasped by hand. When the width of the spring is 140% or more, the height of the housing can be further reduced, but the spring can have a shape that is difficult to grip by hand.
The structure of the bobbin may be further specifically defined. In one example, the bobbin includes a first bobbin portion and a second bobbin portion spaced apart from each other in the rotation axis direction, and the first bobbin portion and the second bobbin portion include a first bobbin outer wall corresponding to the internal space, a cylindrical partition plate formed to be perpendicular to the first bobbin outer wall, and a second bobbin outer wall extending perpendicularly outward from the partition plate and corresponding to the external space.
The partition plates of the first and second bobbin parts support both ends of the band in the width direction, and the interval between the outer walls of the first disc may correspond to the width of the spring and the interval between the outer walls of the second disc may correspond to the width of the band.
Here, the cylinder-shaped partition plate may be formed in a shape corresponding to an internal space for the spring, and the partition plate may be thinly extended toward a surface where the first bobbin portion and the second bobbin portion face each other, or may be formed in a portion where the extension is not performed at all.
Further, in the case where the first bobbin part and the second bobbin part are provided separately from each other, the coupling of the spring and the strap can be facilitated as compared with the case where the first bobbin part and the second bobbin part are provided integrally, and the separate bobbin parts can be positioned in the internal space in a manner that they approach from the left and right, without forcibly inserting the spring into the closed space.
In the case of such a combination, it is not necessary to assemble the first bobbin portion and the second bobbin portion with each other so as to be integrated. That is, the bobbin, the spring, and the strap can be assembled with each other by assembling the first bobbin part and the second bobbin part to be rotatable independently of each other, and the first bobbin part and the second bobbin part rotate together by friction with the strap, so that it is not necessary to integrate them at the time of assembly.
The central boss may be formed as an outer shape of the bobbin corresponding to the inner space. The central protrusion may be housed inside the housing, but a through hole may be formed in the housing so as to be exposed through one side or both sides of the housing. Since a part of the bobbin is exposed through the case, a user can restrict the rotation of the bobbin with a palm or a finger, and the user can directly lock or release the rotation of the spool, there is an advantage that the winding of the tape can be temporarily controlled.
According to one embodiment, the central boss portion of the bobbin may be entirely exposed to the outside, and one or both sides of the central boss portion may be exposed, but only a portion thereof may be exposed instead of the entire portion including the rotation shaft. Of course, depending on the case, the peripheral portion corresponding to the external space may be exposed instead of the central projecting portion.
The spring receiving space and the inner space may be defined to be the same in the present embodiment, and the strap receiving space and the outer space may be defined to be the same. However, according to circumstances, even if the inner space portion is convex, the spring housing space capable of substantially housing the spring may occupy a smaller space than the inner space, which may also be applicable to the tape housing space and the outer space. From this viewpoint, the width of the spring housing space can be defined from the outside of the rotation shaft of the spool to the partition formed between the inner space and the outer space, and it is preferable that the width of the spring housing space defined in this range is at least wider than the width of the spring, and is also preferably wider than the tape housing space.
The bobbin can be located in the housing, and the bobbin has an external space and an internal space at the same time, but the external space and the internal space can be defined by the bobbin and the housing. As an example, the case may include a protrusion portion providing an inner surface expanding toward a periphery of the rotation shaft of the reel corresponding to the inner space and a peripheral portion providing an inner surface relatively narrower than the protrusion portion corresponding to the outer space, and the bobbin may be formed to include a partition plate between the inner space and the outer space and a first reel outer wall connected to the partition plate and covering at least one of side surfaces of the inner space. Here, even if the bobbin has no separate structure for defining the external space, the external space can be defined by the partition plate of the bobbin and the inner surface of the peripheral portion.
As another example, in the case including the protrusion portion and the peripheral portion, the bobbin may be formed to include a partition plate between the inner space and the outer space and a second disc outer wall connected to the partition plate and covering at least one of side surfaces of the outer space. Here, even if the bobbin has no separate structure for defining the internal space, the internal space can be defined by the partition and the inner surface of the protrusion. Here, since a separate structure connected to the rotary shaft can be omitted from the bobbin, the partition plate of the bobbin is elastically supported by a spring or the like, and can be supported by a step connecting the peripheral portion and the projection portion in the housing.
As yet another example, in the case including the protrusion portion and the peripheral portion, the bobbin may be provided only by the partition between the inner space and the outer space. Here, even if the bobbin has no separate structure for defining the internal space and the external space, the internal space can be defined by the partition and the inner surface of the projection, and the external space can be defined by the partition and the inner surface of the peripheral portion. The bobbin may be omitted from the structure of the rotary shaft, and the partition plate of the bobbin may be elastically supported by a spring or the like so as to be supported by a step connecting the peripheral portion and the protrusion portion in the case.
Technical effects
The invention provides a tape measure, which can reduce the height of the inner space for accommodating the spring, thereby reducing the size of the casing based on belts with the same width and length, and forming a structure which can be easily held by hands.
Further, since the break is naturally formed between the internal space and the external space, the spring can be prevented from being unscrewed to the outside in terms of structure, and the manufacturing process is easy, which is very advantageous for automation.
Drawings
FIG. 1 is an exploded perspective view of a compact size tape measure of one embodiment of the present invention;
FIG. 2 is a cross-sectional view for explaining a state in which a band and a spring of the tape measure of FIG. 1 are removed;
FIG. 3 is a sectional view for explaining a state where a band and a spring of the tape measure of FIG. 1 are assembled;
FIG. 4 is a cross-sectional view of a tape measure used to compare a prior art tape measure to one embodiment of the present invention;
FIG. 5 is a cross-sectional view of a compact size tape measure used to illustrate one embodiment of the present invention;
FIG. 6 is a perspective view of a compact size tape measure useful in describing one embodiment of the present invention;
FIG. 7 is a cross-sectional view for illustrating the internal structure of the compact size tape measure of FIG. 6;
FIG. 8 is a cross-sectional view of a compact size tape measure useful in describing one embodiment of the present invention;
FIG. 9 is a perspective view of a compact size tape measure useful in describing one embodiment of the present invention;
FIG. 10 is a sectional view for explaining the internal structure of the compact size tape measure of FIG. 9;
FIGS. 11 to 13 are sectional views for explaining the internal structure of the compact size tape measure of one embodiment of the present invention.
Detailed Description
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited or restricted by the embodiments. For reference, in the present description, the same reference numerals denote substantially the same elements, and the description may refer to the contents described in other figures under the above-described rule, and the contents considered to be known to those skilled in the art or duplicated contents may be omitted.
Fig. 1 is an exploded perspective view of a compact-sized tape measure according to an embodiment of the present invention, fig. 2 is a sectional view illustrating a state in which a band and a spring of the tape measure of fig. 1 are removed, fig. 3 is a sectional view illustrating a state in which the band and the spring of the tape measure of fig. 1 are assembled, and fig. 4 is a sectional view comparing a conventional tape measure with the tape measure according to an embodiment of the present invention.
Referring to fig. 1 to 4, the
The
In the present embodiment, the inner space 136 and the spring receiving space capable of receiving the
Of course, in other embodiments, the internal space may be larger than the spring housing space, and although there may be a case where the maximum width of the internal space is larger than the width Sw of the spring housing space, in this case, the width of the spring housed in the internal space may be formed smaller than the width Sw of the spring housing space within the allowable range of the spring housing space.
The
If the widths of the inner space and the outer space of the conventional bobbin are substantially the same, the
Generally, the tape measure may be classified into tape measures capable of measuring 3.5m, 5.5m, etc. according to the maximum length that can be measured, and may be provided in various types according to the material, width, etc. of the tape. The maximum length of the tape measure may depend on the length of the strap, and generally the greater the maximum length of the tape measure, the greater the width of the strap may be. For example, the tape of a tape measure capable of measuring up to 5.5m has a width of about 2.7cm or more, and the entire housing has conventionally been formed to have a height of about 85 to 90 mm. However, in this embodiment, the height can be reduced by about 10%, and the size of the housing can be reduced to about 75 to 80mm for the same strap.
While according to the present embodiment, the width of the inner space 136 for the spring can be formed wider than the outer space 138 for the strap, as shown in fig. 4, the height Bh of the outer space for the strap can also be substantially the same, provided that the strap having substantially the same length and width is treated. While the present embodiment can form the height or dimension Sh of the
Referring to fig. 2, by making the widths of the inner space 136 and the outer space 138 of the
Therefore, the
The
In the present embodiment, the
The spacing between the first tray
More preferably, the width of the
For reference, the height of the
Referring to fig. 3, the
Structurally, the conventional bobbin provides a thick partition cutting off the inner space and the outer space, which is a limitation in reducing the thickness, and the
As described above, in order to form the inner space 136 of the
As a result, since the
Further, since the size of the internal space 136 for the
The present embodiment may not need to assemble the
FIG. 5 is a cross-sectional view of a compact size tape measure used to illustrate one embodiment of the present invention.
Referring to fig. 5, the compact size tape measure 200 of the present embodiment may include a
The width Sw of the spring receiving space in the
In this case, the height of the
Fig. 6 is a perspective view for explaining a compact size tape measure according to an embodiment of the present invention, and fig. 7 is a sectional view for explaining an internal structure of the compact size tape measure of fig. 6.
Referring to fig. 6 and 7, the compact
The
The
FIG. 8 is a cross-sectional view of a compact size tape measure used to illustrate one embodiment of the present invention.
Referring to fig. 8, a compact size tape measure may include a housing 310', a spool including a bobbin 330' and a spring, and a strap. The bobbin 330 'includes an inner space 336' formed to have a relatively wider width than the outer space 338', and both sides may be formed with central protrusions 333' centering on a rotation axis of the bobbin 330 'corresponding to the inner space 336'.
The central protrusion 333' has a relatively more protruding structure than the periphery thereof, may correspond to the first tray outer wall, and may be exposed to the outside through the through-holes 319' formed at both sides of the outer case 310 '. In the present embodiment, the through holes 319' are formed at both sides of the
Fig. 9 is a perspective view for explaining a compact size tape measure according to an embodiment of the present invention, and fig. 10 is a sectional view for explaining an internal structure of the compact size tape measure of fig. 9.
Referring to fig. 9 and 10, a compact size tape measure may include a housing 410, a spool including a bobbin 430 and a spring, and a strap. The bobbin 430 includes a central protrusion 433 formed corresponding to the inner space 436, and the central protrusion 433 may be exposed to the outside through a through hole 419 formed in the case 410. However, the through-hole 419 does not expose the entire central projection 433 but only a part thereof, and specifically, the through-hole 419 is formed to be offset from the rotation axis so that the housing 410 receives the rotation axis of the spool while exposing a part of the central projection 433.
Even if the central protrusion 433 of the bobbin 430 is partially exposed, the user can directly lock or release the rotation of the spool by pressing a part of the bobbin 430. The partially exposed through holes 419 may be formed on one side or both sides, but the through holes 419 may be formed symmetrically with each other or in other shapes and positions.
FIGS. 11 to 13 are sectional views for explaining the internal structure of the compact size tape measure of one embodiment of the present invention.
Referring to fig. 11, the compact size tape measure may include a
An
To this end, the
In some cases, a ring-shaped protective film may be further provided to protect the
Referring to fig. 12, the compact size tape measure may include a case 610 and a bobbin 630 received in the case 610, the bobbin 630 including first and second bobbin portions separated from each other in the left and right directions, and an inner space 636 and an outer space 638 may be defined with reference to a partition 644 formed in the first and second bobbin portions.
An outer space 638 and an inner space 636 are also provided by the bobbin 630 in this embodiment, but the bobbin 630 may define the inner space 636 together with the housing 610.
To this end, the case 610 may include a protrusion 613 providing an inner surface expanding toward the periphery of the rotational axis of the spool corresponding to the inner space 636 and a peripheral portion 615 providing an inner surface relatively narrower than the protrusion 613 corresponding to the outer space 638, and the bobbin 630 may be formed to include a partition 644 between the inner space 636 and the outer space 638 and a second bobbin outer wall 646 connected to the partition 644 and located at both sides of the outer space 638. That is, the first and second bobbin portions may include the second outer wall 646 protruding outward from the cylindrical partition 644, and the internal space 636 may be defined by the partition 644 and the inner surface of the protruding portion 613 of the bobbin 630 even if the bobbin 630 has no separate structure for defining the internal space 636.
An additional structure connected to the rotation shaft may be omitted from the bobbin 630, and the partition 644 of the bobbin 630 is elastically supported by a spring 650 or the like so as to be supported by a step in the case 610 connecting the peripheral portion 615 and the protrusion 613.
According to circumstances, a disk-shaped protective film for protecting the spring 650 to both sides of the inner surface of the protruding portion 613 may be added.
Referring to fig. 13, the compact size tape measure may include a
The
For this, the
A separate structure connected to the rotation shaft may be omitted from the
According to circumstances, it is also possible to add a disk-shaped protective film that can be used to protect the
As described above, the present invention has been described with reference to the preferred embodiments thereof, but it will be understood by those skilled in the art that various modifications and changes may be made thereto without departing from the spirit and scope of the present invention as set forth in the appended claims.
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