阅读说明：本技术 工具组 (Tool set ) 是由 陈坤灿 于 2021-02-04 设计创作，主要内容包括：一种工具组,包含一握柄单元及复数工具件。该握柄单元沿一旋转轴线延伸,每一工具件包括一可枢转地设置于该握柄单元的设置部、一由该设置部沿该旋转轴线之延伸方向延伸的延伸部,及一位于该延伸部远离该设置部之一端的工具部,每一工具件可转入该握柄单元而位于收纳位置,或转出该握柄单元而位于一操作位置,于该操作位置时,该设置部与该延伸部其中至少之一朝该旋转轴线延伸,而使该工具部位于该旋转轴线上,藉此,可符合人体施力习惯,大幅增加使用方便性。(A tool set includes a handle unit and a plurality of tools. The handle unit extends along a rotation axis, each tool piece comprises a setting part which can be arranged on the handle unit in a pivoting way, an extending part which extends from the setting part along the extending direction of the rotation axis, and a tool part which is positioned at one end of the extending part far away from the setting part, each tool piece can be rotated into the handle unit to be positioned in a storage position or rotated out of the handle unit to be positioned in an operation position, and at least one of the setting part and the extending part extends towards the rotation axis when the operation position is carried out, so that the tool part is positioned on the rotation axis, thereby being capable of conforming to the force application habit of human bodies and greatly increasing the use convenience.)

1. A kit, comprising:

a handle unit extending along a rotation axis for being held by a user and rotating around the rotation axis; and

each tool piece comprises a setting part which is arranged on the grab handle unit in a pivoting mode, an extending part which extends from the setting part along the extending direction of the rotating axis, and a tool part which is located at one end, far away from the setting part, of the extending part, each tool piece can rotate through the setting part to rotate into the grab handle unit to be located at a containing position or rotate out of the grab handle unit to be located at an operating position, and when each tool piece is located at the operating position, at least one of the setting part and the extending part extends towards the rotating axis, so that the tool part is located on the rotating axis.

2. The kit of claim 1, wherein in the storage position, the tool members have their placement portions arranged along a pivot axis perpendicular to the rotational axis, each placement portion extending outwardly from the pivot axis and having a length substantially the same as the shortest distance from the pivot axis to the rotational axis.

3. The tool set according to claim 2, wherein an extension plane having the rotation axis and perpendicular to the pivot axis is defined, the length of each tool member in the direction of the rotation axis is different in the storage position, and the extension of each tool member extends along the extension direction of the rotation axis and toward the extension plane, so that the tool portions of each tool member are juxtaposed on the extension plane.

4. A kit according to claim 3, wherein the length of the tool members in the direction of the axis of rotation increases from the center outwards.

5. The kit according to claim 1, wherein in the storage position, the arrangement portions of the tool members are arranged along a pivot axis perpendicular to the rotation axis, defining an extension plane having the rotation axis and perpendicular to the pivot axis, the length of each tool member in the direction of the rotation axis being different, and the extension portion of each tool member extending along the extension direction of the rotation axis and in the direction of the extension plane, such that the tool portions of each tool member are juxtaposed on the extension plane.

6. A kit according to claim 3 or claim 5, wherein the tool part of shorter length in the direction of the axis of rotation has a larger outer diameter.

7. The tool set of claim 1, wherein the handle unit comprises two handle portions each extending along the rotation axis direction and at least one connecting rib connecting the handle portions, the handle portions defining a tool space therebetween for receiving the tool pieces.

8. The tool set according to claim 1, wherein the setting portion of at least one of the tool members has two setting blocks spaced apart along a pivot axis perpendicular to the rotation axis and pivotally disposed on the handle unit, the extending portion of at least one of the tool members has two extending columns respectively extending from the setting blocks along the extending direction of the rotation axis, the tool portion of at least one of the tool members is pivotally disposed on the extending columns and has two ends along the extending direction of the rotation axis respectively being tools of different specifications, and the extending columns of at least one of the tool members define a sub-tool space therebetween for receiving another tool member.

9. The kit of claim i, wherein the handle unit is substantially cylindrical.

10. The kit of claim 1, wherein the handle unit defines at least one concave-convex gripping area on an outer side surface thereof.

Technical Field

The present invention relates to a tool set, and more particularly, to a portable tool set suitable for carrying about.

Background

In recent years, a bicycle is a portable tool set which can be carried about or stored in a bicycle tail bag in order to overcome simple mechanical faults possibly occurring during traveling, and the portable tool set is one of necessary equipment for bicycle drivers.

Referring to fig. 1, a conventional bicycle tool set is to store various tools 11 in a tool box 12, however, the tool set must have a sufficient surface for the tool box 12 to be unfolded and placed when in use, and if the tools 11 are not taken out and then put back immediately, there is a risk of missing the tools 11.

Therefore, referring to fig. 2, another conventional bicycle tool set is to pivotally mount tool parts 111 of various tools on a base 13, and when in use, rotate out the selected tool part 111 and use the base 13 as a handle. The tool set can avoid single tool dispatch loss and reduce the occupied space due to the sharing of one holding handle. However, as can be seen from fig. 2, in order to arrange various tool portions 111 on the base 13, the base 13 is often square, and the hand feeling is not good. Moreover, each tool portion 111 must be set at its position as the rotation axis during operation, and when the user selects the tool portion 111 at the edge, the user is not easy to apply force when holding and rotating due to the offset of the axis, which is very inconvenient in use.

Disclosure of Invention

Therefore, the object of the present invention is to provide a tool set capable of improving the convenience of use.

The technical scheme of the invention is realized as follows: a tool set comprises a handle unit and a plurality of tool pieces, wherein:

the handle unit extends along a rotation axis and can be held by a user to rotate by taking the rotation axis as an axis.

Each tool piece comprises a setting part which can be arranged on the handle unit in a pivoting mode, an extending part which extends from the setting part along the extending direction of the rotating axis, and a tool part which is located at one end, far away from the setting part, of the extending part, each tool piece can rotate through the setting part to rotate into the handle unit to be located at a containing position or rotate out of the handle unit to be located at an operating position, and when each tool piece is located at the operating position, at least one of the setting part and the extending part extends towards the rotating axis, so that the tool part is located on the rotating axis.

As a further improvement of the present invention, in the storage position, the setting portions of the tool pieces are arranged along a pivot axis perpendicular to the rotation axis, each setting portion extends outward from the pivot axis, and the extending length is substantially the same as the shortest distance from the pivot axis to the rotation axis.

As a further improvement of the invention, an extension plane which is provided with the rotation axis and is vertical to the pivot axis is defined, when the tool is at the storage position, the length of each tool piece in the direction of the rotation axis is different, and the extension part of each tool piece extends along the extension direction of the rotation axis and towards the extension plane, so that the tool parts of each tool piece are parallel on the extension plane.

As a further improvement of the invention, the length of the tool parts in the direction of the rotation axis increases from the center to the outside.

As a further improvement of the present invention, in the storage position, the setting portions of the tool members are arranged along a pivot axis perpendicular to the rotation axis, an extension plane having the rotation axis and perpendicular to the pivot axis is defined, the length of each tool member in the rotation axis direction is different, and the extension portion of each tool member extends along the extension direction of the rotation axis and towards the extension plane, so that the tool portions of each tool member are juxtaposed on the extension plane.

As a further improvement of the present invention, the tool member having a shorter length in the direction of the rotation axis has a larger outer diameter of the tool portion.

As a further improvement of the invention, the handle unit comprises two handle portions extending along the direction of the rotation axis respectively, and at least one connecting rib connecting the handle portions, wherein a tool space for accommodating the tool pieces is defined between the handle portions.

The present invention is further improved, wherein the setting portion of at least one tool member has two setting blocks spaced apart along a pivot axis perpendicular to the rotation axis and pivotally disposed on the handle unit, the extending portion of at least one tool member has two extending columns respectively extending from the setting blocks along the extending direction of the rotation axis, the tool portion of at least one tool member is pivotally disposed on the extending columns and two ends along the extending direction of the rotation axis are respectively tools with different specifications, and a sub-tool space for accommodating another tool member is defined between the extending columns of at least one tool member.

As a further improvement of the present invention, the grip unit is substantially cylindrical.

As a further improvement of the invention, the outer side surface of the handle unit is provided with at least one concave-convex holding area.

The beneficial technical effects of the invention are as follows: when each tool piece is designed to be in the operation position, at least one of the setting part and the extending part extends towards the rotating axis, so that the tool part is positioned on the rotating axis, and when a user selects any tool piece when operating the tool set, the user can rotate the tool set by taking the rotating axis as an axis to operate, so that the tool set conforms to the force application habit of a human body and greatly improves the use convenience.

Drawings

Other features and advantages of the present invention will become apparent from the following detailed description of the preferred embodiments with reference to the accompanying drawings, in which:

FIG. l is a schematic view of a conventional bicycle tool set;

FIG. 2 is a schematic view of another conventional bicycle tool set;

FIGS. 3 and 4 are perspective views from different angles of one embodiment of the kit of the present invention;

FIGS. 5 and 6 are schematic views of the front and rear sides of the embodiment;

FIG. 7 is a cross-sectional view of the embodiment taken along line VII-VII in FIG. 5;

FIG. 8 is a fragmentary, schematic cross-sectional view of the embodiment, illustrating a tool member in an operative position;

FIG. 9 is a fragmentary front schematic view of the embodiment, taken in conjunction with FIG. 8, illustrating the tool member in the operative position;

FIG. 10 is a fragmentary perspective view of the embodiment, illustrating another tool member in an operative position; and

FIG. 11 is a fragmentary, schematic cross-sectional view of the embodiment, illustrating the third tool element in an operative position; and

fig. 12 is a fragmentary front elevational schematic view of the embodiment, illustrating the tool member in the operative position, in conjunction with fig. 11.

The following supplementary description is made with reference to the accompanying drawings:

2: handle unit 721: extending column

21: the grip portion 722: space for sub-tools

211: tool space 723: groove

212: grip region 73: tool part

22: connecting rib 8: gasket

23: a pivot L: axis of rotation

3,4,5,6: a tool group M: pivoted axis

7: a tool piece P: extension plane

71: setting part h: extended length

711: setting a block d: shortest distance

72: extension part

Detailed Description

Referring to fig. 3, 4 and 7, an embodiment of the tool set of the present invention includes a handle unit 2 and four tool groups 3, 4, 5 and 6.

The handle unit 2 extends along a rotation axis L, and can be held by a user to rotate around the rotation axis L. The handle unit 2 includes two handle portions 21 extending along the direction of the rotation axis L, four connecting ribs 22 connecting the handle portions 21, and four pivots 23 passing through four corners of the handle portions 21.

The handle portions 21 define a tool space 211 therebetween for receiving the tool groups 3, 4, 5, 6. The connecting ribs 22 are located in the tool space 211 to improve the structural strength of the handle unit 2.

Wherein the handle unit 2 is preferably substantially cylindrical, and the cross section of the handle portion 21 on the rotation axis L is arcuate. However, the handle unit 2 may be in the shape of a regular hexagonal column, a regular octagonal column, etc., so as to conform to ergonomics and facilitate the holding operation of the user.

The handle unit 2 preferably has at least one concave-convex holding area 212 formed on the outer side surface, and in the present embodiment, four symmetrical holding areas 212 are formed on the upper, lower, left and right sides, so as to provide a larger frictional resistance for a user to hold more stably without slipping.

Referring to fig. 3-6, each tool group 3, 4, 5, 6 includes a plurality of tool pieces 7, and each tool group 3, 4, 5, 6 has a pivot axis M. In the present embodiment, the tool groups 3, 4, 5, and 6 are respectively located at the upper and lower positions of the front and rear sides, and the four tool groups 3, 4, 5, and 6 have the same extension plane P. However, the tool set may also include only one, two, or three of the tool groups 3, 4, 5, and 6, but not limited thereto. In fig. 5, 6, 9 and 12, for clarity of illustration, only the front row of the tool pieces 7 is drawn, and the rear row of the tool pieces 7 is omitted.

Referring to fig. 3, 7-9, each tool member 7 includes a setting portion 71 pivotally disposed on the handle unit 2, an extending portion 72 extending from the setting portion 71 along the extending direction of the rotation axis L, and a tool portion 73 located at an end of the extending portion 72 away from the setting portion 71. Each tool member 7 can be rotated through the setting portion 71 to rotate into the handle unit 2 to be located at a storage position as shown in fig. 3 and 7, or to rotate out of the handle unit 2 to be located at an operation position as shown in fig. 8 and 9.

Referring to fig. 3, 7-9, when each tool element 7 is in the operating position, at least one of the setting portion 71 and the extending portion 72 extends toward the rotation axis L, so that the tool portion 73 is located on the rotation axis L.

In the storage position, the placing portions 71 of the tool members 7 are arranged along the pivot axis M perpendicular to the rotation axis L, and each placing portion 71 extends outward from the pivot axis M by a length h substantially equal to the shortest distance d from the pivot axis M to the rotation axis L. Wherein the extension length h is defined as the length extending from the pivot axis M to the axis of the tool part 73, so that when the tool member 7 is turned to the operating position, the axis of the tool part 73 is coincident with the rotation axis L, as shown in fig. 8.

It should be noted that, in order to firmly arrange the tool members 7 at proper positions, a plurality of spacers 8 with proper thickness are disposed at the gaps of the disposing portions 71 as shown in fig. 9 to prevent the tool members 7 from moving.

Referring to fig. 3, 7-9, the extension plane P is defined to have the rotation axis L and to be perpendicular to the pivot axis M, and in the storage position, the lengths of the tool pieces 7 in the direction of the rotation axis L are different, and the lengths of the tool pieces 7 in the direction of the rotation axis L are gradually increased from the center to the outside. The extending portion 72 of each tool member 7 extends along the extending direction of the rotation axis L and toward the extending plane P, so that the tool portion 73 of each tool member 7 is juxtaposed on the extending plane P.

The following describes the detail variations of each tool group 3, 4, 5, 6:

tool groups 3, 6: referring to fig. 5, 7, 8 and 9, tool set 3 is illustrated because tool sets 3 and 6 are similar. The tool group 3 has three tool members 7, and in the storage position, the length of the tool member 7 located at the center is the shortest, the lengths of the left and right tool members 7 are gradually increased, and the left and right extending portions 72 extend in the direction of the extension plane P, so that three tool portions 73 are all arranged on the extension plane P. In the storage position, if the tool pieces 7 interfere with each other in length, one of the tool pieces 7 can be pressed inward to be inclined (see fig. 7), and each tool piece 7 can be stored in the handle unit 2.

In this case, it is preferable that the tool 7 requiring a large force is designed to have a large outer diameter and a short length in the direction of the rotation axis L, so that a better durability of the product can be obtained.

Thus, when each tool 7 is turned out to be located at the operating position, each tool part 73 is still located on the central extending plane P (as shown in fig. 9), and the corresponding arrangement parts 71 extend outward from the pivot axis M and have a length substantially equal to the shortest distance d from the pivot axis M to the rotation axis L, so that when each tool 7 is turned over 180 degrees to be located at the operating position, the tool part 73 can be located on the rotation axis L, that is, since each tool part 73 is located on the rotation axis L after being turned out, a user can hold the handle unit 2 and rotate the tool set by using the rotation axis L located at the center as an axis for operation.

Tool groups 4, 5: referring to fig. 5, 10, 11 and 12, the tool groups 4 and 5 are similar to each other and will be described together. Both tool groups 4, 5 have two tool pieces 7. Wherein the setting portion 71 of a tool 7 has two setting blocks 711 pivotally disposed on the handle unit 2 and spaced along the pivot axis M, the extending portion 72 of the tool 7 has two extending posts 721 respectively extending from the setting blocks 711 along the extending direction of the rotation axis L, the tool portion 73 of the tool 7 and two ends along the extending posts 721 and along the extending direction of the rotation axis L are respectively tools of different specifications (for example, hex wrenches of M8 and M10 specifications, respectively), the rotation axis of the tool portion 73 is parallel to the pivot axis M, so that a user can rotate the tool portion 73 180 degrees to select a desired end. The extending posts 721 of the tool element 7 define a sub-tool space 722 therebetween into which another tool element 7 (e.g., a screwdriver) can be received.

Thus, the user can choose to turn out the tool 7 (screwdriver) in the sub-tool space 722 or turn the tool 7 with the sub-tool space 722 180 degrees and rotate the tool part 73 to a desired end for operation. Similarly, by means of the extension length h of the setting portions 71 extending outwards from the pivot axis M and being substantially the same as the shortest distance d from the pivot axis M to the rotation axis L, when each tool 7 is turned out to be located at the operating position, the tool portion 73 is located on the rotation axis L.

Referring to fig. 10, it should be noted that the outer diameters of the two ends of the tool portion 73 with the sub-tool space 722 are not limited by the distance between the setting blocks 711, and when the tool portion 73 with a larger outer diameter needs to be set, a groove 723 with a corresponding shape is formed inside the extending pillars 721 within a range that does not affect the supporting degree of the extending pillars 721, so as to set the end of the tool portion 73 with a larger outer diameter.

Referring to fig. 3, fig. 8 and fig. 9, through the above description, the effects of the present embodiment are as follows:

firstly, by designing each tool 7 at the operation position, at least one of the setting portion 71 and the extending portion 72 extends toward the rotation axis L, so that the tool portion 73 is located on the rotation axis L, when a user operates the tool set, no matter which tool 7 is selected, the user can rotate the tool set by taking the rotation axis L as an axis to operate, thereby conforming to the force application habit of human body and greatly increasing the use convenience.

Secondly, when a plurality of rows of tool members 7 are arranged and the tool members 7 deviate from the rotation axis L, by designing that the outward extension length h of each arrangement portion 71 from the pivot axis M is substantially the same as the shortest distance d from the pivot axis M to the rotation axis L, after each arrangement portion 71 is turned over 180 degrees, the corresponding tool portion 73 is just positioned on the rotation axis L, and the effect of increasing the use convenience can be achieved.

Thirdly, when a plurality of tool members 7 are arranged on the pivot axis M and the tool members 7 deviate from the extension plane P, by designing the extension parts 72 to extend toward the extension plane P, the tool parts 73 of each tool member 7 are juxtaposed on the extension plane P, and similarly, after each arrangement part 71 is turned over 180 degrees, the corresponding tool part 73 is exactly located on the rotation axis L, thereby achieving the effect of increasing the convenience of use.

Fourthly, referring to fig. 10, by designing the tool part 7 composed of two setting blocks 711, two extending columns 721, and a pivoted tool part 73, it is possible to provide more large-sized tools in a limited space, and by disassembling the above-mentioned structure, it is also possible to reduce the manufacturing cost of each component, and the simple assembly structure can achieve excellent durability.

Referring to fig. 3, by designing the handle unit 2 to be cylindrical and forming a plurality of concave-convex holding areas 212 on the outer side surface, friction can be increased, the hand feeling of the user can be improved, the probability of slippery hands can be reduced, and the convenience of use can be further increased.

In summary, the tool set of the present invention can achieve the objective of the present invention.

However, the above description is only an example of the present invention, and the scope of the present invention should not be limited by this, and all the simple equivalent changes and modifications made according to the claims and the contents of the patent specification should be included in the scope of the present invention.