TW202239542A - Three-axis limiting type tool placement device - Google Patents

Abstract

The present invention provides a three-axis limiting tool placement device, which basically includes a basic face having a placement area, and a tool placement track assembled in the placement area which is characterized that there is a three-axis limiting tool placement device in the placement area. The three-axis limiting tool placement device includes an end-type limiting part and an elastic hook fastener. The end-type limiting part includes an end-type abutment wall, two lateral limiting walls and a pressing edge to form axially limiting function of X, Y and Z axis of the first end of tool placement track. The elastic hook fastener includes an elastic arm and a hook-shaped portion, the hook-shaped portion is formed with a dial control portion and a pressing surface, and the pressing surface is pressed against the second end of the tool placement track to form a Z-axis limiting function. In addition, there is a corresponding relationship between the elastic arm and the second end of the tool placement track along the X axis.

Description

Three-axis limited tool placement device

The present invention relates to a tool placement device; in particular, it refers to an innovative three-axis limited tool placement device structure disclosure.

The tool placement device referred to in the present invention is commonly used to place and position kit tools with various sizes and specifications, such as socket sets, screwdriver bit sets, and the like. And this kind of tool placement device usually divides the tools into several units according to the specifications or types, and then arranges the tools of different units on different shelves, and the shelves are assembled together on the same shelf. In terms of the base structure, this type of design is mainly to consider that in the actual use process, if the user only needs to use the tools of one of the units, it is relatively only necessary to take the shelf board instead of moving the entire base. Seat, more labor-saving and convenient to use.

However, in the conventional structure mentioned in the previous paragraph, due to the lack of a proper positioning structure between the frame board and the base structure, the frame board is easy to loosen, shift or even fall off. Another structure type of conventional tool placement device is proposed, as disclosed in the content of the U.S. invention patent case of US9364949B2 "sliding rail and tray for socket wrench" (note: the figure numbers below this paragraph refer to those marked in the US9364949B2 specification ), in this former case, the detachable state of each slide rail 14 relative to the tray 12 is the mechanism design of its button 56 part. When the button 56 is pressed by the user, the locking of its flexible arm The edge 52 will be lowered below the bottom surface of the slide rail so that the slide rail 14 can slide on the top of the flexible arm in the released state, and the button 56 provides a The function that the button 56 can be pressed and swung flexibly is realized.

However, there are still some problems in the actual use of the conventional structure type mentioned in the preceding paragraph. For example, based on the consideration of the safety of use, the product of this tool placement device usually needs to be dropped before leaving the factory. Check the firmness of the combination between the slide rail 14 and the tray 12. At this time, because the button 56 has the characteristics of being able to swing flexibly, the moment the tool placement device product as a whole falls from a height and hits the ground, The button 56 is most likely to be affected by the impact force to produce a vibration displacement phenomenon, thereby causing the slide rail 14 to be released and slid to loosen the state, that is to say, the slide rail 14 and the tray of the conventional tool placement device Among the 12, there are still problems such as insufficient combination positioning stability, easy loosening and separation during use, and safety concerns.

The main purpose of the present invention is to provide a three-axis limited tool placement device. The technical problem to be solved is how to develop a more ideal and practical new tool placement device. Innovative breakthrough.

Based on the aforementioned purpose, the technical characteristics of the present invention to solve the problem mainly lie in that the tool placement device includes: a basic face, which defines the X-axis and the Y-axis along its different horizontal extension directions, and the basic face defines Out of at least one placement area; at least one tool placement track is detachably assembled in each placement area, and the at least one tool placement track is elongated along the X-axis, thereby forming the first end, The second end and the long plate section between the first end and the second end, the long plate section is slidably provided with a plurality of tool sleeves, each tool sleeve is protrudingly provided with a cylinder, and according to the cylinder The protruding direction defines the Z axis; a three-axis limiting structure is formed in each placement area, and the three-axis limiting structure includes: an end-to-limiting portion formed on the X-axis of the placement area To one of the ends and corresponding to the first end of the corresponding tool placement track, the end-to-limit portion includes an end-to-resist wall, two lateral-to-limit walls and at least one pressing edge, and the end-to-to-resist wall to abut against Lean against the first end surface of the corresponding tool placement track to form an X-axis limit effect, and the two lateral limit walls are against the corresponding tool placement track on both sides of the first end to form a Y-axis Limiting effect, the pressing edge is used to press against the top surface of the first end of the corresponding tool placement track, thereby forming a Z-axis limiting effect; an elastic hook is formed in the other side of the X-axis of the placement area At one end and corresponding to the second end of the tool placement track, the elastic hook fastener includes an elastic arm protruding from the placement area toward the Z-axis, and a hook-shaped portion formed at the protruding end of the elastic arm. The part is also formed with a dial control part and a pressing surface. The pressing surface is pressed against the second end of the tool placement track, thereby forming a Z-axis limiting effect, and between the elastic arm and the second end of the tool placement track, along the X-axis corresponding relationship.

The main effect and advantage of the present invention is that it can achieve a firm combined positioning state in the X, Y, and Z axes between the tool placement track and the basic face placement area, thereby effectively preventing the tool placement track from loosening and shifting. It is indeed practical and progressive.

Another object of the present invention is that the pressing edge of the end-to-limiting part is formed with another technical feature of an oblique guide surface, so that the setting of the oblique guide surface can conform to the tool placement track The state when the first end is inserted at an oblique angle achieves the advantages of improving the smoothness of the insertion and assembly of the tool placement track and the practical progress.

Another object of the present invention is to place the long plate section of the track with the tool and form a nesting part that is recessed or penetrates any shape along the Z axis, and is formed by cooperation of three axial limit structures. There is another technical feature that the protruding post protrudes from the basic surface along the Z axis, and the protruding post is just opposite to the nesting part to achieve a mutual nesting and matching relationship, so that the long plate segment is opposite to the placed part. The release area achieves a limiting state in at least one of the X and Y axes, which further increases the stability of the tool placement track combination and effectively prevents it from falling and disintegrating. The advantages and practical progress.

Please refer to Fig. 1 to Fig. 3, which are preferred embodiments of the three-axis limited tool placement device of the present invention, but these embodiments are for illustration purposes only, and are not restricted by this structure in the patent application. limit.

The tool placement device includes the following components: a basic face 10, which defines an X-axis and a Y-axis along its different plane horizontal extension directions, and the basic face 10 defines at least one Placement area 11; at least one tool placement track 20 is detachably assembled in each placement area 11, and the at least one tool placement track 20 is elongated along the X-axis, thereby forming There is a first end 21, a second end 22, and a long plate section 23 between the first end 21 and the second end 22. The long plate section 23 is slidably provided with a plurality of tool sleeve seats 24, each The tool sleeve seat 24 is protrudingly provided with a cylinder 25, and a Z-axis is defined according to the protruding direction of the cylinder 25; In the region 11, the three-axis limiting structure includes: an end-toward limiting portion 31 formed at one end of the X-axis of the placement region 11 and corresponding to the first end 21 of the tool placement track 20 Correspondingly, the end limiting portion 31 includes an end abutting wall 311, two lateral limiting walls 312 and at least one pressing edge 313, wherein the end abutting wall 311 is used to abut against the corresponding The end face of the first end 21 of the tool placement track 20 forms a limiting effect in the X-axis. The two sides of the end 21, thereby forming a Y-axis limiting effect, the at least one pressing edge 313 is used to press against the top surface of the first end 21 of the corresponding tool placement track 20, thereby forming a Z-axis Limiting effect: an elastic hook 32 is formed at the other end of the X-axis of the placement area and corresponds to the second end 22 of the tool placement track 20. The elastic hook 32 is composed of An elastic arm 321 protruding from the placement area toward the Z-axis, and a hook-shaped portion 322 formed on the protruding end of the elastic arm 321, the hook-shaped portion 322 also forms a dial portion 323 and a pressing surface 324 , wherein the pressing surface 324 is used to press against the second end 22 of the tool placement track 20 to form a Z-axis limiting effect, and the elastic arm 321 and the second end of the tool placement track 20 There is a corresponding relationship between the ends 22 along the X-axis.

As shown in Figures 1 to 3, in this example, the basic face 10 is formed on a tray 05; the tray 05 is an independent component, and the user can place it on a suitable plane according to its use requirements.

As shown in FIG. 13 , in this example, the basic face 10 is formed on a partial surface of a tool storage device 40 , and the tool storage device 40 is any one of a tool box, a tool rack or a tool cabinet.

As shown in Figures 3 to 5, in this example, the at least one pressing edge 313 of the end-to-limiting portion 31 is further formed with an oblique guiding surface 314; The setting of the oblique guide surface 314 conforms to the state when the first end 21 of the tool placement rail 20 is inserted at an oblique angle, so as to improve the smoothness of inserting the tool placement rail 20 into groups.

Wherein, the variant embodiment of the present invention may further include at least one nesting portion (the figure number is marked in the rear section) which is formed on the long plate section 23 of the at least one tool placement track 20 and is along the Z-axis It is recessed or penetrates any type; and the three-axis limiting structure cooperates to form at least one convex column (the figure number is marked in the rear section), which is in the shape of protruding from the basic face 10 along the Z-axis, And the position of the at least one boss (the figure number is marked in the rear section) is just opposite to the at least one nesting part (the figure number is marked in the back section) to achieve mutual nesting and matching relationship, so that the long plate section 23 is relatively The placement area 11 achieves a limiting state in at least one of the X and Y axes.

Continuing the embodiment disclosed in the previous section, as shown in Figure 2 and Figure 3, the long plate section 23 of the tool placement track 20 includes a first nesting part 261 and a second nesting part 262, and the The first nesting portion 261 and the second nesting portion 262 are spaced apart along the X-axis; each placement area 11 correspondingly includes a first protrusion 131 and a second protrusion. 132, the first protruding post 131 and the second protruding post 132 are spaced apart along the X-axis, and the positions of the first protruding post 131 and the second protruding post 132 are just in line with the first protruding post 132 The nesting part 261 and the second nesting part 262 are matched in opposite positions, and as shown in FIG. The first nesting part has an X-axis displacement stroke W1 relative to the first boss; in this figure, the first nesting part 261 is further defined to form a limiting end wall 263, when the tool is placed on the track When the end face of the first end 21 of 20 abuts against the end-to-abutment wall 311, it simultaneously forms the position-limiting end wall 263 to abut against the corresponding side of the first protruding post 131; in this example, mainly by The first nesting part 261 is set in the shape of a long hole, so that the first end 21 of the tool placement rail 20 is inserted into the limit part 31 at an inclined angle, and then the process of pressing down on the long plate section 23 can be relatively smooth and unimpeded.

Alternatively, the convex post and the nesting part can also be set as a nesting fit relationship with a taper fit (that is, a push-out angle) (note: the drawing of this example is omitted). According to the shape, the nesting part is not limited to having elongated holes or mutually compatible shapes relative to the protruding posts, which can make the long plate section 23 achieve a smooth and unimpeded effect in the process of pressing down.

As shown in FIG. 14 , it is only provided with the second protruding post 132 and the second nesting portion 262. The form of this example is sufficient to increase the X, Y of the second end 22 of the tool placement track 20. Limiting strength of at least one axial direction.

With the above-mentioned structural composition and technical features, in terms of the practical application of the tool placement device disclosed in the present invention, in terms of the preferred embodiment of the previous disclosure, as shown in Figure 4 and Figure 5, the user wants to place the tool When the rail 20 is assembled in the placement area 11, firstly, the first end 21 of the tool placement rail 20 is displaced toward the limit portion 31 at an inclined angle (as shown by the arrow L1 in FIG. 5 ), and then 6 and FIG. 7, insert the end surface of the first end 21 of the tool placement track 20 against the end-toward abutment wall 311, and then press down the second end 22 of the tool placement track 20 as shown in FIGS. 8 and 9 (As shown by the arrow L2 in Figure 9), make it cross the hook-shaped portion 322 of the elastic hook 32, so that it constitutes the combined positioning state as shown in Figure 10 and Figure 11, that is, the end-to-position limit The end abutment wall 311 of the part 31 abuts against the end surface of the first end 21 of the tool placement track 20, the two lateral limit walls 312 abut against the two sides of the first end 21 of the tool placement track 20, and the pressing edge 313 presses against it. On the top surface of the first end 21 of the tool placement track 20, so as to achieve the state of X, Y, and Z three-axis limit; while the second end 22 of the tool placement track 20 is pressed by the elastic hook 32 The surface 324 is pressed to form a Z-axis limiting effect, and the elastic arm 321 and the second end 22 of the tool placement track 20 are in a corresponding relationship along the X-axis, which also forms the X-axis It can be seen that the tool placement rail 20 of the present invention is quite firm after assembly, and there is no possibility of loosening in any axial direction, so there is no possibility of loosening, and the safety of use is greatly improved. Further adding the implementation form of the nesting portion and the protruding post can add the limiting effect of the long plate section 23 of the tool placement track 20 on the X and Y axes, and can effectively prevent the tool placement track 20 from being in contact with the tool placement track 20. The problem of falling and decomposing occurs between the placing areas 11 .

05: tray 10: Basic face 11: Placement area 131: The first boss 132: the second boss 20: Tool placement track 21: first end 22: Second end 23: long board section 24: Tool sleeve seat 25: Cylinder 261: First nesting department 262: Second nesting part 263: limit end wall 31: end to limit part 311: end to the wall 312: lateral limit wall 313: Press edge 314: inclined guide surface 32: Elastic hook fastener 321: elastic arm 322: Hook-shaped part 323: dial control department 324: pressed surface 40: Tool storage utensils W1: Displaceable stroke

Fig. 1 is an assembled perspective view of a preferred embodiment of the tool placement device of the present invention. Fig. 2 is a top view of a preferred embodiment of the tool placement device of the present invention. Fig. 3 is an exploded perspective view of partial components of a preferred embodiment of the tool placement device of the present invention. Fig. 4 is a perspective view 1 of the combined action of the tool placement track of the present invention. Fig. 5 is a vertical sectional view corresponding to Fig. 4 . Fig. 6 is a perspective view 2 of the combined action of the tool placement track of the present invention. Fig. 7 is a vertical sectional view corresponding to Fig. 6 . Fig. 8 is a three-dimensional view of the combined action of the tool placement track of the present invention. Fig. 9 is a vertical sectional view corresponding to Fig. 8 . Fig. 10 is a perspective view of the tool placement track of the present invention in a combined action state. Fig. 11 is a vertical sectional view corresponding to Fig. 10 . Fig. 12 is an enlarged view of the part marked 12 in Fig. 3 . Figure 13 is the implementation of the basic face of the present invention formed on a partial surface of a tool storage utensil examples. Fig. 14 is a diagram of an embodiment of the present invention in which the protruding post and the nesting part are in a single-group fit mode.

05: tray

10: Basic face

11: Placement area

131: The first boss

132: the second boss

20: Tool placement track

21: first end

22: Second end

23: long board section

24: Tool sleeve seat

25: Cylinder

261: First nesting part

262: Second nesting part

31: end to limit part

311: end to the wall

312: lateral limit wall

313: Press edge

314: inclined guide surface

32: Elastic hook fastener

321: elastic arm

323: dial control department

324: pressed surface

X, Y and Z: Axial

Note: 12 in this figure is not a component symbol, but means that the encircled part is enlarged and presented in Figure 12.

Claims (10)

A three-axis limited type tool placement device, the tool placement device includes: A basic face, the basic face defines an X-axis and a Y-axis along its different horizontal extension directions, and the basic face defines at least one placement area; At least one tool placement track is detachably assembled in each of the placement areas. The at least one tool placement track is elongated along the X-axis, thereby forming a first end, a second end and a long plate section between the first end and the second end, the long plate section is slidably provided with a plurality of tool sets, and each of the tool sets is protruded with a cylinder, and according to the column The projection direction of the body defines a Z-axis; and A three-axis limiting structure formed in each placement area of the basic face, the three-axis limiting structure includes: An end-to-limiting portion, formed at one end of the X-axis of the placement area and corresponding to the first end of the corresponding tool placement track, the end-to-limiting portion includes an end-to-abutting wall . Two lateral limiting walls and at least one pressing edge, wherein the end abutting wall is used to abut against the first end surface of the corresponding tool placement track, thereby forming a limiting effect in the X-axis, The two lateral limiting walls are used to abut against the two sides of the first end of the corresponding tool placement rail, so as to form a Y-axis limiting effect, and the at least one pressing edge is used to press against the corresponding The tool is placed on the top surface of the first end of the track, thereby forming a Z-axis limiting effect; An elastic hook, formed at the other end of the X-axis of the placement area and corresponding to the second end of the tool placement track, the elastic hook includes a direction from the placement area toward the Z-axis An elastic arm protruding outward, and a hook-shaped portion formed at the protruding end of the elastic arm, the hook-shaped portion also forms a dial control portion and a pressing surface, wherein the pressing surface is used to press against the tool to place The second end of the track forms a Z-axis limiting effect, and the elastic arm and the second end of the tool placement track are in a corresponding relationship along the X-axis. The three-axis limited tool placement device as claimed in claim 1, wherein the basic surface is formed on a tray structure. The three-axis limited tool placement device as described in claim 1, wherein the basic face is formed on a partial surface of a tool storage structure, and the tool storage is any toolbox, tool rack or tool cabinet one of them. The three-axis limiting tool placement device as described in claim 1, wherein the at least one pressing edge of the end limiting portion is further formed with an inclined guiding surface. A three-axis limited type tool placement device, the tool placement device includes: A basic face, the basic face defines an X-axis and a Y-axis along its different horizontal extension directions, and the basic face defines at least one placement area; At least one tool placement track is detachably assembled in each of the placement areas. The at least one tool placement track is elongated along the X-axis, thereby forming a first end, a second end and a long plate section between the first end and the second end, the long plate section is slidably provided with a plurality of tool sets, and each of the tool sets is protruded with a cylinder, and according to the column The protruding direction of the body defines a Z-axis; At least one nesting portion is formed on the long plate section of the at least one tool placement rail and is in any type of being recessed or penetrating along the Z-axis; and A three-axis limiting structure formed in each placement area of the basic face, the three-axis limiting structure includes: At least one protruding column protrudes from the basic face shape along the Z-axis, and the position of the at least one protruding column is just opposite to the at least one nesting part to achieve mutual nesting and matching relationship, so that The long plate section achieves a limiting state in at least one of the X and Y axes relative to the placement area; An end-to-limiting portion, formed at one end of the X-axis of the placement area and corresponding to the first end of the corresponding tool placement track, the end-to-limiting portion includes an end-to-abutting wall . Two lateral limiting walls and at least one pressing edge, wherein the end abutting wall is used to abut against the first end surface of the corresponding tool placement track, thereby forming a limiting effect in the X-axis, The two lateral limiting walls are used to abut against the two sides of the first end of the corresponding tool placement rail, so as to form a Y-axis limiting effect, and the at least one pressing edge is used to press against the corresponding The tool is placed on the top surface of the first end of the track, thereby forming a Z-axis limiting effect; An elastic hook, formed at the other end of the X-axis of the placement area and corresponding to the second end of the tool placement track, the elastic hook includes a direction from the placement area toward the Z-axis An elastic arm protruding outward, and a hook-shaped portion formed at the protruding end of the elastic arm, the hook-shaped portion also forms a dial control portion and a pressing surface, wherein the pressing surface is used to press against the tool to place The second end of the track forms a Z-axis limiting effect, and the elastic arm and the second end of the tool placement track are in a corresponding relationship along the X-axis. The three-axis limited tool placement device as claimed in claim 5, wherein the basic surface is formed on a tray structure. The three-axis limited tool placement device as described in claim 5, wherein the basic face is formed on a partial surface of a tool storage structure, and the tool storage is any tool box, tool rack or tool cabinet one of them. The three-axis limited tool placement device as described in claim 5, wherein the long plate section of the tool placement track includes a first nesting part and a second nesting part, and the first nesting The sleeve portion and the second nesting portion are spaced apart along the X-axis; each placement area includes a first protruding post and a second protruding post correspondingly, and the first protruding post and The second protrusions are arranged at intervals along the X-axis, and the positions of the first protrusion and the second protrusion are just opposite to the first nesting part and the second nesting part and the X-axis length of the first nesting part is greater than the X-axis length of the first boss, so that the first nesting part has a displacement stroke in the X-axis relative to the first boss . The three-axis limiting tool placement device as described in claim 5, wherein the at least one pressing edge of the end limiting portion is further formed with an inclined guiding surface. The three-axis limited tool placement device as described in claim 5, wherein the at least one protrusion and the at least one nesting portion are in a nesting fit relationship with a taper fit.

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