法国专利FR3036991A1

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专利摘要:
A mixed tool carrier has a base (10, 10B), a bushing assembly (20, 20B) and a hand tool assembly (30, 30B). The base (10, 10B) has a substrate (11, 11A, 11B) and a first rail (12, 12A, 12B). The first rail (12, 12A, 12B) has an upper opening (121) and a sliding slot (122, 122B). The socket assembly (20, 20B) is connected to the base (10, 10B) and has multiple positioning blocks (22, 22B, 22C) slidably mounted in the sliding slot (122, 122B) of the first rail (12, 12A, 12B). The hand tool assembly (30, 30B) is connected to the base (10, 10B) and has at least one holding member (31, 31B) disposed on the substrate (11, 11A).
公开号:FR3036991A1
申请号:FR1654334
申请日:2016-05-16
公开日:2016-12-09
发明作者:Jui-Chien Kao
申请人:Jui-Chien Kao；
IPC主号:

专利说明:

[0001] The present invention relates to a support, in particular a mixed tool carrier capable of storing both hand tools and sockets. A conventional tool rack mainly comprises a base and multiple positioning blocks movably mounted in the base. A slide rail is formed on an upper surface of the base, and each of the positioning blocks has a sliding base formed on a lower portion of the positioning block for engagement with the slide rail. An introduction portion is formed upwardly on an upper surface of the sliding base of the positioning block, and the insertion portion can be a bushing or a suspension rod. When the introducer portion of each of the positioning blocks is the socket, the socket can be used to store a socket. In addition, when the insertion portion of each of the positioning blocks is the suspension rod, a hand tool such as a socket wrench may be suspended on the suspension rod for storing the hand tools. However, a user especially needs to use the bushing and the hand tool at the same time to attach or detach a fastener, such as a bolt or nut, but the conventional tool holder can not hold the socket and the hand tool at the same time. Often, the user may forget to bring the socket or hand tool, which leads to inconvenience. In addition, when the user needs to use the bushing and the hand tool at the same time, the conventional tool holder may cause inconvenience during transport or storage of the bushing and tool. by hand. As a result, the classic tool rack needs to be improved. The main object of the present invention is to provide a mixed tool holder that can store both hand tools and sockets. The combination tool holder has a base, a socket assembly, and a hand tool assembly. The base has a substrate and a first rail. The substrate has an upper surface, a lower surface, two elongate sides, a length, and at least one slot formed through the top surface and the bottom surface of the substrate. The first rail is formed on one of the elongated sides of the substrate and has a length equal to the length of the substrate, an upper surface, a lower surface, an upper aperture formed through the upper surface of the first rail and a slot of sliding formed in the first rail and communicating with the upper opening. The bushing assembly is connected to the base and has multiple locating blocks rotatably mounted in the first rail and moved along the first rail. The hand tool assembly is connected to the base and has at least one holding member disposed on the substrate with a combination portion and a holding portion. The combining portion is mounted through one of the at least one slot of the substrate and has a locating projection formed on an outer surface of the combining portion and bearing against the substrate. The holding portion is formed integrally on an upper surface of the combination portion and is mounted above the substrate. Accordingly, the present invention is directed to a mixed tool carrier, characterized in that it comprises: a base having: a substrate having: an upper surface; a lower surface; two elongated sides; a length ; and at least one slot formed through the upper surface and the lower surface of the substrate; and a first rail formed on one of the elongate sides of the substrate, and having: a length equal to the length of the substrate; an upper surface; a lower surface; an upper aperture formed through the upper surface of the first rail; and a sliding slot formed in the first rail and communicating with the upper opening; a socket assembly connected to the base and having multiple positioning blocks rotatably mounted in the first rail and moved along the first rail; and a hand tool assembly connected to the base and having: at least one holding member disposed on the substrate and having: a combination portion mounted through one of the at least one slot of the substrate and having a protrusion positioning device formed on an outer surface of the combination portion and bearing against the substrate; and a holding portion formed integrally on an upper surface of the combining portion and mounted above the substrate. According to optional features: the base has a second rail formed on the lower surface of the first rail, and the second rail has: an upper opening formed through the lower surface of the first rail and communicating with the sliding slot; and an engagement slot formed in the second rail and communicating with the upper opening; and the bushing assembly has a locating plate disposed in the engagement slot of the second rail and having two opposite long sides; an environment ; and an arcuate bearing portion, bent upwards from the long opposing sides to the middle of the locating plate and having an upper surface extending into the sliding slot of the first rail to be support against positioning blocks. According to optional features: the base has two enclosed rails respectively formed on the lower surfaces of the substrate and the first rail, the enclosed rail which is formed on the lower surface of the substrate communicates with the at least one slot, and the enclosed rail which is formed on the lower surface of the first rail is mounted around the second rail; and each of the enclosed rails has a length equal to the length of the substrate and the length of the first rail; a lower surface; a bottom opening formed through the bottom surface of the enclosed rail; and an enclosed slot formed in the enclosed rail and communicating with the lower opening. According to optional features: the combination tool holder has a bracket assembly 10 releasably connected to the base adjacent to the socket assembly; and the bracket assembly has: multiple attachment plates disposed in one of the enclosed rails and near an end of the substrate or end of the first rail, and each of the attachment plates having: a mounting hole formed through the fixing plate and communicating with the lower opening of a corresponding enclosed rail; and a fastener connected to the fastener plate through the lower opening; and two support bases respectively connected to two sides of the base to enclose the first rail, the second rail and the enclosed rails.
[0002] According to optional features: each of the support bases has: a closure plate arranged longitudinally and in abutment against one of the sides of the base; a support plate formed transversely on an upper portion of the enclosed plate and aligning with the substrate; An extension plate formed transversely on and protruding from the closure plate under the base, opposite to the support plate, and having two through holes formed through the extension plate at a spaced apart interval; allowing the fasteners to be mounted respectively through the through holes and respectively connected to the fixing holes of the fastening plates which are mounted on the same side of the base; and a connecting rail formed downwardly on a lower portion of the extension plate opposite the closure plate; and the console assembly has two magnetic bases respectively connected to the support bases beneath the base, and each of the magnetic bases has: a combination frame securely mounted in the connecting rail of one of the support bases; a fastener mounted through the combination frame and the connecting rail for connecting the combination frame to the connecting rail; and at least one magnetic block securely mounted on a lower portion of the combination frame opposite the connecting rail. The present invention also relates to a mixed tool carrier, characterized in that it comprises: a base having: a substrate having: two elongate sides; and a length; and a first rail detachably connected to one of the elongated sides of the substrate by a hooking structure between the substrate and the first rail, and having a length equal to the length of the substrate; a hand tool assembly releasably connected to the base and having at least one holding member disposed on the substrate; and a console assembly detachably connected to the base and having two support bases respectively connected to two sides of the base for enclosing the first rail. According to optional features: the first rail has: a top surface; a lower surface; an upper aperture formed through the upper surface of the first rail; and a sliding slot formed in the first rail and communicating with the upper opening; and the base has a second rail formed on the lower surface of the first rail and having: an upper aperture formed through the lower surface of the first rail and communicating with the sliding slot; and an engagement slot formed in the second rail and communicating with the upper opening; and the mixed tool carrier has a bushing assembly 25 connected to the base and having: a locator plate disposed in the engagement slot of the second rail and having two long opposed sides; an environment ; A bearing portion bent upwardly from opposite long sides to the middle of the locating plate and having a top surface; and 3036991 8 multiple engagement reinforcements formed in the upper surface of the bearing portion at spaced intervals; and multiple locating blocks slidably mounted in the first rail and abutting against the locating plate, and each of the locating blocks having: an engaging portion mounted in the slit of the first rail, abutting against the support portion 10 of the positioning plate, and having a lower surface; an upper surface; and an engagement member formed on and projecting downwardly from the bottom surface of the engagement portion and selectively engaging one of the engagement plate engagement reinforcements to maintain the positioning block securely on the positioning plate; and an introducer portion formed on and protruding from the upper surface of the engagement portion and extending out of the first rail through the upper opening. According to optional features: the substrate has: an upper surface; a lower surface; at least one receiving hole formed through the upper surface and the lower surface of the substrate and; multiple assembly holes formed through the upper and lower surfaces of the substrate at spaced intervals; and the hand tool assembly has a mounting cover detachably mounted on the substrate, and the mounting cover has an upper surface; A lower surface; and at least one mounting hole formed through the upper surface and lower surface of the mounting cover and aligning with the at least one receiving hole of the substrate for receiving a projecting head of a hand tool; multiple insertion tubes formed on and projecting downwardly from the lower surface of the mounting cover at spaced intervals, and respectively mounted in the substrate assembly holes when the lower surface of the mounting cover is above the substrate; multiple surface washers mounted respectively abutting against the introduction tubes which extend through the substrate; and multiple fasteners respectively connected to the introduction tubes and pressed against the washers to mount the mounting cover securely on the substrate.
[0003] According to optional features: each of the at least one holding member is formed on the upper surface of the mounting cover and has: a combination portion formed on the upper surface of the mounting cover and having a top surface; and a U-shaped holding portion formed integrally on the upper surface of the combination portion and disposed above the mounting cover, and having two free ends; and two holding protrusions formed respectively on the free ends of the holding portion; the base has two enclosed rails, each of the enclosed rails is formed downward on the bottom surface of the substrate along one of the elongated sides which is opposed to the first rail and communicates with some of the assembly holes, and further enclosed rails are formed down on the lower surface of the first rail around the second rail; each of the enclosed rails has a lower surface; a lower opening formed through the bottom surface of the enclosed rail; and an enclosed slot formed in the enclosed rail and communicating with the lower opening; The console assembly has multiple securing plates, and each of the securing plates is disposed in one of the enclosed rails and near an end of the substrate or end of the first rail and has a formed mounting hole through the fixing plate and communicating with the lower opening of a corresponding enclosed rail; and each of the support bases has: a closure plate disposed longitudinally and in abutment with one of the two sides of the base to enclose the first rail, the second rail and the enclosed rails; an extension plate formed transversely on and protruding from the closure plate and bearing against the rails enclosed under the base, and having two through holes formed through the extension plate at a spaced apart interval; and two fasteners mounted respectively through the through holes and respectively connected to the fixing holes of the fastening plates which are mounted on the same side of the base. According to optional features: each of the support bases has a support plate formed transversely on an upper portion of the closure plate and aligning with the substrate; each of the engagement reinforcements of the positioning plate is curved; the engaging part of the engaging part of each of the positioning blocks is an engagement ring, and a part of the engagement ring engages in one of the engagement reinforcements and the part remaining press engagement ring against the upper surface of the support portion; the engagement portion of each of the positioning blocks is a circular plate rotatable relative to the first rail; the introduction portion of each of the positioning blocks has: an outer surface; and a restriction protrusion disposed on the outer surface of the introducer portion; and the mixed tool support further has: a first auxiliary rail detachably connected to one of the elongated sides of the substrate by a latching structure between the substrate and the first auxiliary rail, and opposite to the first rail; a second auxiliary rail formed on the first auxiliary rail; and an auxiliary bushing assembly connected to the first auxiliary rail and the second auxiliary rail, and having: a locator plate mounted in the second auxiliary rail and having: a bearing portion having a top surface; and multiple elongated engagement reinforcements formed in the upper surface of the bearing portion at spaced intervals; and multiple locating blocks non-rotatably and slidably mounted in the first auxiliary rail and bearing against the locating plate, and each of the locating blocks having: a rectangular engagement portion mounted in the first auxiliary rail; and pressing against the support portion of the positioning plate; and an introducer portion which is an elongate engagement rib and selectively engages one of the engagement plate engagement reinforcements to securely hold the positioning block on the locator plate ; the first rail and the first auxiliary rail being respectively connected to the two elongated sides of the substrate; the base having two enclosed rails respectively formed downwardly on the first rail and the first auxiliary rail around respectively the second rail and the second auxiliary rail; and a length of each of the support bases is long enough to enclose the first rail, the first auxiliary rail, the second rail, the second auxiliary rail, and the enclosed rails.
[0004] Other objects, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
[0005] In these drawings: Fig. 1 is a perspective view of a first embodiment of a mixed tool holder according to the present invention; Figure 2 is an exploded perspective view of the composite tool holder of Figure 1; Figure 3 is another exploded view of the composite tool holder of Figure 2; Figure 4 is a partial sectional side view of the composite tool holder of Figure 1; Figure 4A is a partial enlarged view of Figure 4; Figure 5 is a top view of the composite tool holder of Figure 1; Figure 6 is an enlarged partial sectional side view of the composite tool holder of Figure 5 along the line 6-6; Figure 7 is another enlarged partial sectional side view of the composite tool holder of Figure 1; Figure 8 is a perspective view of a second embodiment of the mixed tool holder according to the present invention; Figure 9 is an exploded perspective view of the composite tool holder of Figure 8; Figure 10 is a perspective view of a third embodiment of a mixed tool holder according to the present invention; Figure 11 is an exploded perspective view of the composite tool holder of Figure 10; Figure 12 is another exploded view of the combination tool holder of Figure 11; Figure 13 is another exploded view of the composite tool holder of Figure 11; Figure 14 is a top view of the composite tool holder of Figure 10; Figure 15 is a partial sectional side view of the composite tool holder of Figure 14 along the line 15-15; Figure 16 is an enlarged partial sectional side view of the composite tool holder of Figure 14 along the line 16-16; Figure 17 is another enlarged partial sectional side view of the composite tool holder of Figure 10; Figs. 17A and 17B are enlarged sectional side views of the mixed tool holder of Fig. 17; Fig. 18 is a perspective view of a fourth embodiment of a mixed tool carrier according to the present invention; Figure 19 is an exploded perspective view of the composite tool holder of Figure 18; Figure 20 is another exploded view of the combination tool carrier of Figure 19; Figure 21 is a top view of the mixed tool holder of Figure 18; Fig. 22 is an enlarged side view in partial section of the mixed tool carrier of Fig. 21 along the line 22-22; Figure 23 is an enlarged and functional perspective view of the composite tool holder of Figure 18; and Fig. 24 is a perspective view of a fifth embodiment of a mixed tool carrier according to the present invention. With reference to Figures 1 to 3, a first embodiment of a mixed tool holder according to the present invention has a base 10, a socket assembly 20, a hand tool assembly 30 and a bracket assembly 40. With reference to Figures 2 to 4, the base 10 is an extruded aluminum structure and includes a substrate 11, a first rail 12, a second rail 13 and two enclosed rails 14. The substrate 11 is a transversely extending rectangular plate and has an upper surface, a lower surface, two elongate sides, a length, at least one slot 111, at least one receiving hole 112 and multiple assembly holes 113. The at least one slot 111 is shaped like and furthermore, the substrate 11 has three slots 111 formed through the substrate at spaced intervals. The at least one receiving hole 112 is formed through the upper surface and the lower surface of the substrate 11. Referring to Figures 4 and 4A, the first rail 12 is formed on one of the elongate sides of the substrate 11 and a length, an upper surface, a lower surface, an upper opening 121 and a sliding slot 122. The length of the first rail 12 is equal to the length of the substrate 11. In addition, a height is formed between the first rail 12 and the substrate 11. The upper opening 121 is formed through the upper surface of the first rail 12. The sliding slot 122 is formed in the first rail 12 and communicates with the upper opening 121. The second rail 13 is formed on the lower surface of the first rail 12, and has an upper opening 131 and a slot of engagement. 132. The upper opening 131 is formed through the lower surface of the first rail 12 and communicates with the sliding slot 122. The engagement slot 132 is formed in the second rail 13 and communicates with the upper opening 131. In addition, the upper opening 131 has a width W3 narrower than the width W1 of the sliding slot 122, and the engagement slot 132 has a width W4 wider than the width W3 of the upper opening 131. The enclosed rails 14 are respectively formed on the lower surfaces of the substrate 11 and the first rail 12, and each of the enclosed rails 14 has a length equal to the length of the substrate 11 and the length of the first rail 12. The enclosed rail 14 which is formed on the lower surface of the substrate 11 communicates with the at least one slot 111, and the enclosed rail 14 which is formed on the lower surface of the first rail 12 is mounted around the second rail 13. Each of the rails 14, the lower opening 141 is formed through the lower surface of the enclosed rail 14. The enclosed slot 142 is formed in the enclosed rail 14 and communicates with the enclosed rail 14. the lower opening 141. In addition, the lower opening 141 has a width W5 narrower than a width W6 of the enclosed slot 142.
[0006] With reference to FIGS. 2 and 3, the bushing assembly 20 is connected to the base 10 and has a locating plate 21 and multiple locating blocks 22. The locating plate 21 is a belt-shaped plate 3036991 with elasticity, is disposed in the engagement slot 132 of the second rail 13, and has two long opposite sides, a middle and a bearing portion 211. The bearing portion 211 is arc-shaped and is curved upwardly from the opposite long sides to the middle of the locating plate 21 and has an upper surface extending into the sliding slot 122 of the first rail 12. Each of the locating blocks 22 is rotatably mounted and sliding in the sliding slot 122 of the first rail 12, bears against the positioning plate 21, and has an engagement portion 221 and an insertion portion 222. The engagement portion 221 of the positioning block 22 is mounted in the slot of sliding 122 of the first rail 12 bears against the bearing portion 211 of the positioning plate 21, and has a lower surface and an upper surface. In addition, the engaging portion 221 of the locating block 22 may be a disk of a flattened structure or a stepped structure and may be rotated relative to the first rail 12. The introductory portion 222 is formed on and protrudes from the upper surface of the engagement portion 221 and extends out of the first rail 12 through the upper opening 121. The introducer portion 222 has an outer surface and a The restriction protrusion 223 is disposed on the outer surface of the insertion portion 222, so that a sleeve can engage firmly with the insertion portion 222 of the positioning block 22.
[0007] With reference to Figures 3, 5 and 6, the hand tool assembly 30 is connected to the base 10 and has at least one holding member 31. Each of the at least one holding member 31 is connected to the substrate 11 and a combination portion 311 and a retaining portion 312. The combination portion 311 is a plate and is mounted through one of the at least one slot 111 of the substrate 11. The combination portion 311 has a protrusion positioning portion 313 formed on an outer surface of the combining portion 311 and bearing against the substrate 11, such that the at least one holding member 31 can be mounted securely mounted on the substrate 11. The holding portion 312 is formed integrally on an upper surface of the combining portion 311 and is mounted above the substrate 11. The holding portion 312 is U-shaped with elasticity, so that the at least one holding member 31 can position a hand tool 50 on the substrate 11. In addition, the holding portion 312 of the holding member 31 has two holding projections 314 formed on an inner surface of the holding portion 312 respectively near two free ends of the In addition, an amount of at least one holding member 31 of the hand tool assembly 30 and an amount of the at least one slot 111 of the substrate 11 are the same. A protruding head 51 of the hand tool 50 can extend to the bottom of the substrate 11 through the receiving hole 112 of the substrate 11 so that the hand tool 50 can be positioned. solidly on the substrate 11 by the at least one holding member 31 and the receiving hole 112. Referring to Figures 1, 2 and 7, the bracket assembly 40 is detachably connected to the base 10 adjacent to the assembly for sockets 20, and has multiple fixing plates 41, two support bases 42 and two magnetic bases 43. Each of the fixing plates 41 3036991 19 is a rectangular plate and disposed in one of the closed rails 14 and close one end of the substrate 11 or one end of the first rail 12. Each of the attachment plates 41 has an attachment hole 41 formed through the attachment plate 41 and communicating with the lower opening 141 of a rail enclosed corresponding 14, so that a The fixing element 60 can be connected to the fixing plate 41 via the bottom opening 141. The support bases 42 are extruded aluminum structures 10 and are respectively connected to two sides of the base 10, so that to surround the first rail 12, the second rail 13 and the enclosed rails 14. Each of the support bases 42 has a closure plate 421, an extension plate 422 and a connecting rail 423. The closure plate 421 is arranged longitudinally and in abutment against one of the sides of the base 10, so as to enclose the first rail 12, the second rail 13 and the enclosed rails 14. In addition, each support base 42 has a support plate 424 formed 20 transversely on an upper portion of the closure plate 421 and aligning with the substrate 11. Therefore, a user can lift the mixed tool holder holding the two support plates 424. The extension plate 422 is formed trans and is protruding from the closure plate 421 under the base 10, is opposed to the support plate 424, and has two through-holes 425 formed through the extension plate 422 at a spaced interval, such as so that two fixing elements 60 can be mounted respectively through the through holes 425 and respectively connected to the fixing holes 411 of the fixing plates 41 which are mounted on the same side of the base 10. Next, the support base 42 may be arranged on the side of the base 10 by the engagement of the two fastening elements 60 and the two corresponding fastening plates 41. The connecting rail 423 is formed downwards on a lower part of the plate. extension 422 opposite the closure plate 421. In addition, a gap G is formed between the connecting rail 423 and the base 10. The magnetic bases 43 are connected respectively to the support bases 42 s or the base 10, and each of the magnetic bases 43 has a combination frame 431 and at least one magnetic block 432. The combination frame 431 is U-shaped and is securely mounted in the connecting rail 423 of the base. In addition, a fastener 70 is mounted through the combination frame 431 and the connecting rail 423 to connect the combination frame 431 to the connecting rail 423. The at least one magnetic block 432 is securely mounted. on a lower portion of the combination frame 431 away from the connecting rail 423 to provide a fastening effect to metal objects, so that the mixed tool holder can be mounted on a tool cabinet by the Magnetic bases 43. With reference to Figures 1 and 4, when the first embodiment according to the present invention is in use, the user can mount a socket around the insertion portion 222 of one of the position blocks. 22, and the socket may be securely disposed on the positioning block 22 by the restriction projection 223. The user may apply a force to the socket to rotate the positioning block 22 relative to the positioning plate 21 such that a size mark on an outer surface of the bushing is rotated to be directed to the user to facilitate recovery and identification of the bushing. The engaging portion 221 of each locating block 22 bears against the bearing portion 211 of the locating plate 21 so that after the user has rotated or slid the bushing, the The positioning 22 and the positioning plate 21 bear against each other and are firmly arranged in the first rail 12. Therefore, the bushing on the positioning block 22 does not rotate or slide relative to the first rail 12. Namely, the sleeve can be arranged firmly on the base 10. With additional reference to Figures 3, 4 and 6, the user can position the hand tool 50 on the substrate 11 by the two retaining projections 314 of the holding member 31 of the hand tool assembly 30, and the hand tool 50 can cooperate with the socket mounted on the positioning block 22. The hand tool 50 comprises the projecting head 51 extending to the bottom of the su 11 in the receiving hole 112 of the substrate 11. In addition, the hand tool 50 can be positioned on the substrate 11 by the holding member 31 and the receiving hole 112. 1 and 2, after the bushing and the hand tool 50 are positioned on the base 10 by the bushing assembly 20 and the hand tool assembly 30, the bushing and the hand tool. 50 on the base 10 can be securely mounted on the tool cabinet by a magnetic force which is provided by the magnetic bases 43 of the console assembly 40. The socket and the hand tool 50 can be stored at the same time to facilitate the convenience of use and to prevent the user from forgetting to bring the socket or hand tool 50.
[0008] With reference to Figures 8 and 9, a second embodiment of a mixed tool holder according to the present invention is substantially identical to the first embodiment with the exception of the following features.
[0009] The first rail 12A and the substrate 11A are formed with each other at the same horizontal level, so that no height is formed between the first rail 12A and the substrate 11A. With reference to Figures 10 to 13, a third embodiment of a mixed tool carrier according to the present invention is substantially identical to the first embodiment with the exception of the following features. The substrate 11B of the base 10B does not have the at least one slot 111 which is disclosed in the first embodiment of the mixed tool carrier according to the present invention. The substrate 11B has a receiving hole 112B and multiple assembly holes 113B formed through the upper surface and the lower surface of the substrate 11B at spaced intervals. With reference to FIGS. 11 and 13, the first rail 12B is detachably connected to one of the elongate sides of the substrate 11B by a hooking structure between the substrate 11B and the first rail 12B, and the length of the first rail 12B is equal to the length of the substrate 11B.
[0010] Referring to Figures 11, 13 and 16, one of the enclosed rails 14B is formed downwardly on the bottom surface of the substrate 11B along one of the two elongated sides which is opposite the first rail 12B, and communicates with some of the assembly holes 113B. The other of the enclosed rails 14B is formed downward on the bottom surface of the first rail 12B around the second rail 13B. The enclosed rails 14B have lengths equal to the lengths of the substrate 11B and the first rail 12B.
[0011] With reference to FIGS. 11, 13, 16 and 17, the bushing assembly 20B is connected to the base 10B and has multiple engagement recesses 21B curved and formed in the upper surface of the bearing portion 211B. at spaced intervals. Each of the positioning blocks 22B is rotatably and slidably mounted in the sliding slot 122B of the first rail 12B and has an engagement member 224B formed on and projecting downwardly from the lower surface of the housing portion. 221B and engages selectively with one of the engagement recesses 212B of the locating plate 21B to securely hold the locating block 22B on the locating plate 21B without sliding relative to the first rail 12B. In addition, the engagement member 224B is an engagement ring. With reference to Figures 17, 17A and 17B, when each of the positioning blocks 22B is mounted on the locating plate 21B, a portion of the engagement ring engages one of the engagement recesses 212B and the remaining portion of the press engagement ring against the upper surface of the bearing portion 211B. Then, the bearing relationship between the engagement ring and the locating plate 21B may allow the engaging ring portion to engage more securely in the corresponding engagement recess 212B, and the positioning block 22B can be securely positioned on the base 10B by the positioning plate 21B.
[0012] With reference to Figures 11, 12, 14 and 15, the hand tool assembly 30B is detachably connected to the base 10B, the at least one holding member 31B is disposed on the substrate 11B. In addition, the hand tool assembly 30B has a mounting cover 32B detachably mounted on the substrate 11B, and the mounting cover 32B may be U-shaped and has a top surface, a bottom surface, at least one mounting hole 321B and multiple insertion tubes 322B. The at least one mounting hole 321B is formed through the upper surface and lower surface of the mounting cover 32B and aligns with the at least one receiving hole 112B of the substrate 11B. The insertion tubes 322B are formed on and protrude downwardly from the lower surface of the mounting cover 32B at spaced intervals, and are respectively mounted in the assembly holes 113B of the substrate 11B when the lower surface mounting cap 32B bears against the upper surface of substrate 11B. In addition, the mounting cover 32B has multiple washers 323B respectively mounted around the introducer tubes 322B which extend through the substrate 11B, and multiple fasteners 324B are respectively connected to the introducer tubes 322B and are pressed against the 323B washers. Then, the mounting cover 32B is securely mounted on the substrate 11B. Further, each of the at least one holding member 31B is formed on the upper surface of the mounting cover 32B and has a combining portion 311B and a holding portion 312B. The combining portion 311B is formed on the upper surface of the mounting cover 32B and has a top surface. The holding portion 312B is U-shaped, formed integrally on the upper surface of the combining portion 311B, and is disposed above the mounting cover 32B. Then, the hand tool 50 can be securely mounted on the mounting cover 32B above the substrate 11B by the holding portion 312B of the at least one holding member 31B. With reference to Figures 12 and 15, the projecting head 51 of the hand tool 50 can extend through the substrate 11B through the at least one mounting hole 321B and the at least one receiving hole. 112B, so that the hand tool 50 can be securely positioned on the mounting cover 32B above the substrate 11B by the at least one holding member 31B, the at least one mounting hole 321B and the at least one a receiving hole 112B. Referring to Figures 11, 15 and 16, the bracket assembly 40B is detachably connected to the base 10B adjacent to the bushing assembly 20B, and does not have the magnetic bases 43 which are disclosed in the first embodiment embodiment of the mixed tool carrier according to the present invention. Each of the attachment plates 41B is a rectangular plate and is disposed in one of the enclosed rails 14B and near one end of the substrate 11B or one end of the first rail 12B. Each of the support bases 42 does not have the connecting rail 423 which is disclosed in the first embodiment of the mixed tool holder according to the present invention. With reference to Figures 10, 16 and 17, when the third embodiment of the invention is in use, the user can mount a socket on one of the positioning blocks 22B of the socket assembly 20B, and the user can apply a force to the bushing to rotate the locating block 22B relative to the locating plate 21B, so that a size mark on an outer surface of the bushing is rotated to be rotatable. directed towards the user to facilitate recovery and identification of the socket. In addition, the engaging portion 221B of each of the positioning blocks 22B bears against the bearing portion 211B of the locating plate 21B, and the engaging member 224B of each of the locating blocks 22B engages with one of the engagement recesses 212B of the locating plate 21B to hold the locating block 22B securely on the locating plate 21B without sliding relative to the first rail 12B. After the user has rotated or slid the bushing, the positioning block 22B and the locating plate 21B bear against each other and are securely disposed in the first rail 12B by engagement between the engagement member 224B and a corresponding engagement recess 212B. As a result, the bushing on the positioning block 22B does not rotate or slide relative to the first rail 12B. Namely, the bushing may be securely disposed on the base 10. With reference to Figures 10, 12, 14 and 15, the user can position the hand tool 50 on the mounting cover 32B above the substrate 11B by the at least one holding member 31B of the hand tool assembly 30B, and the hand tool 50 can cooperate with the bushing mounted on the positioning block 22B. The hand tool 50 has a projecting head 51B extending to the bottom surface of the substrate 11B through the at least one mounting hole 321B of the mounting cover 32B and the at least one receiving hole. 112B of the substrate 11B. In addition, the hand tool 50 can be positioned on the mounting cover 32B above the substrate 11B by the at least one holding member 31B, the at least one mounting hole 321B and the at least one mounting hole 32B. 112B reception. Further, after the bushing and the hand tool 50 are positioned on the base 3036991 27 10B by the bushing assembly 20B and the hand tool assembly 30B, the bushing and the hand tool 50 disposed on The base 10B can be stored at the same time for ease of use and to prevent the user from forgetting to bring the bushing or hand tool 50. Referring to FIGS. The embodiment of a mixed tool carrier according to the present invention is substantially identical to the third embodiment with the exception of the following features. The mixed tool holder further has a first auxiliary rail 12C, a second auxiliary rail 13C, and an auxiliary bushing assembly 20C. The first auxiliary rail 12C is detachably connected to one of the elongate sides of the substrate 11B by a latching structure between the substrate 11B and the first auxiliary rail 12C, and is opposed to the first rail 12B. That is, the first rail 12B and the first auxiliary rail 12C are respectively connected to the two elongate sides of the substrate 11B. The second auxiliary rail 13C is formed on the first auxiliary rail 12C. In addition, the structures of the first auxiliary rail 12C and the second auxiliary rail 13C are substantially identical to the first rail 12B and the second rail 13B. In addition, the two enclosed rails 14B are respectively formed downwardly on the first rail 12B and on the first auxiliary rail 12C respectively around the second rail 13B and the second auxiliary rail 13C. The auxiliary bushing assembly 20C is connected to the first auxiliary rail 12C and the second auxiliary rail 13C, and has a locating plate 21C and multiple locating blocks 22C. The locating plate 21C of the auxiliary bushing assembly 20C is mounted in the second auxiliary rail 13C, and each of the engagement recesses 212C is elongate and is formed in the upper surface of the bearing portion 211C at spaced intervals. The positioning blocks 22C are non-rotatably and slidably mounted in the first auxiliary rail 12C and bear against the locating plate 21C, and each of the locating blocks 22C has an engaging portion 221C and a portion thereof. introduction 222C. The engaging portion 221C is rectangular, is mounted in the first auxiliary rail 12C, and bears against the bearing portion 211C of the locating plate 21C. The engagement member 224C of the engagement portion 221C is an elongate engagement rib, and selectively engages one of the engagement recesses 212C of the locating plate 21C to maintain the block. 22C positioning in a secure manner on the positioning plate 21C without sliding relative to the first auxiliary rail 12C. In addition, the length of each of the support bases 42C is long enough to enclose the first rail 12B, the first auxiliary rail 12C, the second rail 13B, the second auxiliary rail 13C and the enclosed rails 14B. Referring to Figures 22 and 23, when the mixed tool holder of the fourth embodiment of the present invention is in use, sockets 80 may be mounted on the positioning blocks 22B, 22C of the socket assembly 20B and the auxiliary bushing assembly 20C, since the engagement portions 221B of the bushing assembly 20B are circular plates, and the bushes 80 which are mounted around the locating blocks 22B of the bushing assembly 20B. Bushings 20B can be rotated and slid with respect to the first rail 12B. Further, since the engagement portions 221C of the auxiliary bushing assembly 20C are rectangular, the bushings 80 which are mounted around the positioning blocks 22C of the auxiliary bushing assembly 20C can only slide by relative to the first auxiliary rail 12C without turning. With reference to Fig. 24, a fifth embodiment of a mixed tool carrier according to the present invention is substantially identical to the fourth embodiment except for the following features. The mixed tool carrier further has a first extension rail 12D, a second extension rail 13D and an additional bushing assembly 20D. The first extension rail 12D is connected and is parallel to the first rail 12B by an extension panel 15D, the second extension rail 13D is formed on the first extension rail 12D, and the additional socket assembly 20D is connected to the first extension rail 12D and the second extension rail 13D. In addition, the structures of the first extension rail 12D, the second extension rail 13D and the additional bushing assembly 20D are respectively and substantially identical to the first rail 12B, the second rail 13B and the assembly for 20D sockets. With the increasing structures of the first extension rail base 12D, the second extension rail 13D and the further bushing assembly 20D, the mixed tool carrier can store more bushings 80 on the support of mixed tools. By the above technical features, the mixed tool holder of the invention allows the user to fix and store the sockets 80 and the hand tools 50 on the base 10, 10B at the same time by arranging the same. sleeve assembly 20, 20B and 3036991 assembly 30 for hand tool 30, 30B. Therefore, it allows the user to use or store the bushings 80 and the hand tools 50 at the same time and prevents the user from forgetting to bring the bushings 80 or the hand tools 50. furthermore, the structural strength can be improved by the console assemblies 40, 40B disposed on two sides of the base 10, 10B, and the user can carry the mixed tool holder holding the two support plates 424. The The invention provides the mixed tool holder 10 for storing the sockets 80 and the hand tool 50 at the same time, and this is convenient in use. In addition, the base 10 can be securely mounted on the tool cabinet by a magnetic force which is provided by the magnetic bases 43 of the bracket assembly 40. In addition, the socket assembly 20B, the 20C auxiliary bushing assembly, the additional bushing assembly 20D and the hand tool assembly 30B are disposed on the base 10B, and the user can store the bushes 80 and the hand tools 50 on the base 10, 10B at the same time, and this is convenient in use.

权利要求:
Claims (10)
[0001]
CLAIMS1 - Mixed tool carrier, characterized in that it comprises: a base (10) having: a substrate (11, 11A) having: an upper surface; a lower surface; two elongated sides; a length ; and at least one slot (111) formed through the upper surface and the lower surface of the substrate (11, 11A); and a first rail (12, 12A) formed on one of the elongate sides of the substrate (11, 11A), and having: a length equal to the length of the substrate (11, 11A); an upper surface; a lower surface; an upper opening (121) formed through the upper surface of the first rail (12, 12A); and a sliding slot (122) formed in the first rail (12, 12A) and communicating with the upper opening (121); a bushing assembly (20) connected to the base (10) and having multiple locating blocks (22) rotatably mounted in the first rail (12, 12A) and moved along the first rail (12, 12A); and a hand tool assembly (30) connected to the base (10) and having: at least one holding member (31) disposed on the substrate (11, 11A) and having: a combination portion (311) mounted through one of the at least one slot (111) of the substrate (11, 11A) and having a positioning projection (313) formed on an outer surface of the combining portion (311) and bearing against the substrate (11, 11A); and a holding portion (312) formed integrally on an upper surface of the combining portion (311) and mounted above the substrate (11, 11A). 10
[0002]
2 - Mixed tool carrier according to claim 1, characterized in that: the base (10) has a second rail (13) formed on the lower surface of the first rail (12, 12A), and the second rail (13 an upper opening (131) formed through the lower surface of the first rail (12, 12A) and communicating with the sliding slot (122); and an engagement slot (132) formed in the second rail (13) and communicating with the upper opening (131); and the bushing assembly (20) has a locating plate (21) disposed in the engagement slot (132) of the second rail (13) and having two opposite long sides; A medium; and an arcuate bearing portion (211) curved upwardly from the long opposing sides to the middle of the locating plate (21) and having an upper surface extending into the sliding slot ( 122) of the first rail (12, 12A) to bear against the positioning blocks (22).
[0003]
3 - mixed tool carrier according to claim 2, characterized in that: the base (10) has two enclosed rails (14) respectively formed on the lower surfaces of the substrate (11, 11A) and the first rail ( 12, 12A), the enclosed rail (14) which is formed on the lower surface of the substrate (11, 11A) communicates with the at least one slot (111), and the enclosed rail (14) which is formed on the surface lower of the first rail (12, 12A) is mounted around the second rail (13); and each of the enclosed rails (14) has a length equal to the length of the substrate (11, 11A) and the length of the first rail (12, 12A); a lower surface; a bottom opening (141) formed through the bottom surface of the enclosed rail (14); and an enclosed slot (142) formed in the enclosed rail (14) and communicating with the lower opening (141).
[0004]
4 - Mixed tool holder according to claim 3, characterized in that: the combination tool holder has a bracket assembly (40) detachably connected to the base (10) adjacent to the socket assembly (20); and the bracket assembly (40) has: multiple attachment plates (41) disposed in one of the enclosed rails (14) and near an end of the substrate (11, 11A) or an end of the first rail (12, 12A), and each of the securing plates (41) having: an attachment hole (411) formed through the attachment plate (41) and communicating with the lower opening (141) of a rail enclosed corresponding (14); and a fastener (60) connected to the fastener plate (41) through the lower opening (141); and two support bases (42) respectively connected to two sides of the base (10) to enclose the first rail (12, 12A), the second rail (13) and the enclosed rails (14).
[0005]
5 - mixed tool holder according to claim 4, characterized in that: each of the support bases (42) has: a closure plate (421) arranged longitudinally and in abutment against one of the sides of the base (10); A support plate (424) formed transversely on an upper portion of the enclosed plate (421) and aligning with the substrate (11, 11A) an extension plate (422) formed transversely on and protruding from the closure plate (421) under the base (10), opposite the support plate (424), and having two holes (425) formed through the spaced apart extension plate to allow the elements (60) to respectively mounted through 20 through-holes (425) and respectively connected to the holes of. fastening (411) fastening plates (41) which are mounted on the same side of the base (10); and a connecting rail (423) formed downwardly on a lower portion of the extension plate (422) opposite the closure plate (421); and the bracket assembly (40) has two magnetic bases (43) respectively connected to the support bases (42) under the base (10), and each of the magnetic bases (43) has: a combination frame (431) mounted in a secure manner in the connecting rail (423) of one of the support bases (42); a fastening element (70) mounted through the combination frame (431) and the connecting rail (423) for through-holes (422) to a fixing the holes 3036991 connecting the combination frame (431) to the connecting rail ( 423); and at least one magnetic block (432) securely mounted on a lower portion of the combination frame (431) opposite the connecting rail (423).
[0006]
6 - A mixed tool carrier, characterized in that it comprises: a base (10) having: a substrate (11B) having two elongated sides; and a length; and a first rail (12B) detachably connected to one of the elongated sides of the substrate (11B) by a latching structure between the substrate (11B) and the first rail (12B), and having a length equal to the length of the substrate (11B); a hand tool assembly (30B) detachably connected to the base (10B) and having at least one holding member (31B) disposed on the substrate (11B); and a bracket assembly (40B) detachably connected to the base (10B) and having two support bases (42B) respectively connected to two sides of the base (10B) for enclosing the first rail (12B).
[0007]
7 - Mixed tool holder according to claim 6, characterized in that: the first rail (12B) has: an upper surface; a lower surface; an upper aperture (121) formed through the upper surface of the first rail (12B); and a sliding slot (122B) formed in the first rail (12B) and communicating with the upper opening (121); and the base (10B) has a second rail (13B) formed on the lower surface of the first rail (12B) and having: an upper opening (131) formed through the lower surface of the first rail (12B) and communicating with the sliding slot (122B); and an engagement slot (132) formed in the second rail (13B) and communicating with the upper opening (131); and the mixed tool carrier has a bushing assembly (20B) connected to the base (10B) and having: a locating plate (21B) disposed in the engagement slot (132) of the second rail (13B) and having: two opposite sides long; an environment ; A bearing portion (211B) curved upwardly from opposite long sides to the middle of the locating plate (21B) and having a top surface; and multiple engagement reinforcements (212B) formed in the upper surface of the bearing portion (211B) at spaced intervals; and multiple positioning blocks (22B) slidably mounted in the first rail (12B) and bearing against the locating plate (21B), and each of the locating blocks (22B) having: an engagement portion ( 221B) mounted in the sliding slot (122B) of the first rail (12B), bearing against the bearing portion (211B) of the positioning plate (21B), and having a lower surface; an upper surface; and an engagement member (224B) formed on and projecting downward from the lower surface of the engaging portion (221B) and selectively engaging one of the engagement reinforcements (212B) of the locating plate (21B) for securely holding the locating block (22B) on the locating plate (21B); and an insertion portion (222) formed on and protruding from the upper surface of the engagement portion (221B) and extending out of the first rail (12B) through the upper opening (121).
[0008]
8 - mixed tool carrier according to claim 7, characterized in that: the substrate (11B) has: an upper surface; A lower surface; at least one receiving hole (112B) formed through the upper surface and the lower surface of the substrate (11B) and; multiple assembly holes (113B) formed through the upper surface and the lower surface of the substrate (11B) at spaced intervals; and the hand tool assembly (30B) has a mounting cover (32B) detachably mounted on the substrate (11B), and the mounting cover (32B) has an upper surface; a lower surface; and at least one mounting hole (321B) formed through the upper surface and lower surface of the mounting cover (32B) and aligning with the at least one receiving hole (112B) of the substrate (11B) to receive a protruding head (51) of a hand tool (50); multiple insertion tubes (322B) formed on and projecting downward from the lower surface of the mounting cover (32B) at spaced intervals, and respectively mounted in the assembly holes (113B) of the substrate (11B) when the lower surface of the mounting cover (32B) bears against the upper surface of the substrate (11B); multiple washers (323B) mounted respectively about the introduction tubes (322B) extending through the substrate (11B); and multiple fasteners (324B) connected respectively to the insertion tubes (322B) and pressed against the washers (323B) to securely mount the mounting cover (32B) on the substrate (11B).
[0009]
9 - Mixed tool holder according to claim 8, characterized in that each of the at least one holding element (31B) is formed on the upper surface of the mounting cover (32B) and has: a combination part (311) formed on the upper surface of the mounting cover (32B) and having a top surface; and a U-shaped holding portion (312) formed integrally on the upper surface of the combining portion (311) and disposed above the mounting cover (32B), and having two ends free; and two retaining projections (314) respectively formed on the free ends of the holding portion (312); the base (10B) has two enclosed rails (14B), each of the enclosed rails (14B) is formed down on the bottom surface of the substrate (11B) along one of the elongated sides opposite the first rail (12B) and communicates with some of the assembly holes (113B), and the other of the 3036991 39 enclosed rails (14B) is formed down on the bottom surface of the first rail (12B) around the second rail (13B) ; each of the enclosed rails (14B) has: a lower surface; a lower opening (141) formed through the bottom surface of the enclosed rail (14B); and an enclosed slot (142) formed in the enclosed rail (14B) and communicating with the lower opening (141); the bracket assembly (40B) has multiple securing plates (41B), and each of the securing plates (41B) is disposed in one of the enclosed rails (14B) and near an end of the substrate (11B) or one end of the first rail (12B) and has a fixing hole (411) formed through the attachment plate (41B) and communicating with the lower opening (141) of a corresponding enclosed rail (14B); and each of the support bases (42B) has: a closure plate (421) disposed longitudinally and in abutment with one of the two sides of the base (10B) to enclose the first rail (12B), the second rail (13B) and the enclosed rails (14B); an extension plate (422) formed transversely on and protruding from the closure plate (421) and bearing against the enclosed rails (14B) under the base (10B), and having two through holes (425) formed through the extension plate (422) at a spaced apart interval; and two fasteners (60) respectively mounted through the through holes (425) and respectively connected to the fastening holes (411) of the fastening plates (41B) which are mounted on the same side of the base (10B) .
[0010]
Mixed tool carrier according to claim 8, characterized in that: each of the support bases (42B) has a support plate (424) formed transversely on an upper part of the closure plate (421) and aligning with the substrate (11B); each of the engagement reinforcements (212B) of the locating plate (21B) is curved; the engagement member (224B) of the engaging portion (221B) of each of the positioning blocks (22B) is an engagement ring, and a portion of the engagement ring engages in one engagement reinforcements (212B) and the remaining portion of the engagement ring pressing against the upper surface of the bearing portion (211B); the engagement portion (221B) of each of the positioning blocks (22B) is a circular plate rotatable relative to the first rail (12b); the insertion portion (222) of each of the positioning blocks (22) has: an outer surface; and a restriction protrusion (223) disposed on the outer surface of the insertion portion (222); and the mixed tool support further has: a first auxiliary rail (12C) detachably connected to one of the elongated sides of the substrate (11B) by a hooking structure between the substrate (11B) and the first auxiliary rail (12C), and opposite the first rail (12B); a second auxiliary rail (13C) formed on the first auxiliary rail (12C); and an auxiliary bushing assembly (20C) connected to the first auxiliary rail (12C) and the second auxiliary rail (13C), and having: a locating plate (21C) mounted in the second auxiliary rail (13C) and having a bearing portion (211C) having an upper surface; and multiple elongated engagement reinforcements (212C) formed in the upper surface of the backing portion (211C) at spaced apart intervals; and multiple positioning blocks (22C) non-rotatably and slidably mounted in the first auxiliary rail (12C) and bearing against the locating plate (21C), and each of the locating blocks (22C) having: a portion rectangular engagement member (221C), mounted in the first auxiliary rail (12C), and bearing against the bearing portion (211C) of the positioning plate (21C); and an introducer portion (222C) which is an elongate engagement rib and selectively engages one of the engagement reinforcements (212C) of the locating plate (21C) to hold the positioning (22C) securely on the positioning plate (21C); the first rail (12B) and the first auxiliary rail (12C) being respectively connected to the two elongated sides of the substrate (11B); the base (10B) having two enclosed rails (14B) formed respectively downwardly on the first rail (12B) and the first auxiliary rail (12C) around respectively the second rail (13B) and the second auxiliary rail (13C); and 3036991 42 a length of each of the support bases (42C) is long enough to enclose the first rail (12B), the first auxiliary rail (12C), the second rail (13B), the second auxiliary rail (13C) and the enclosed rails (14B). 5

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同族专利:

公开号 | 公开日

AU2017204333B2|2018-07-19|

FR3036991B1|2021-01-01|

AU2016203155A1|2016-12-22|

CA2979139C|2018-08-21|

GB201608314D0|2016-06-29|

JP2016221677A|2016-12-28|

JP6301394B2|2018-03-28|

JP2018058207A|2018-04-12|

CA2929841A1|2016-12-02|

GB201703567D0|2017-04-19|

GB2544928A|2017-05-31|

GB2544928B|2018-04-11|

DE102016109268A1|2016-12-08|

AU2016203155B2|2017-08-17|

GB2539094B|2017-06-07|

CN106239446A|2016-12-21|

TWM509710U|2015-10-01|

CA2979139A1|2016-12-02|

CA2929841C|2018-03-20|

AU2017204333A1|2017-07-13|

GB2539094A|2016-12-07|

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法律状态:
2017-03-10| PLFP| Fee payment|Year of fee payment: 2 |

2018-03-09| PLFP| Fee payment|Year of fee payment: 3 |

2019-03-18| PLFP| Fee payment|Year of fee payment: 4 |

2020-04-17| PLSC| Search report ready|Effective date: 20200417 |

2020-11-20| PLFP| Fee payment|Year of fee payment: 5 |

2021-03-22| PLFP| Fee payment|Year of fee payment: 6 |

2021-09-29| PLFP| Fee payment|Year of fee payment: 7 |

优先权:

申请号 | 申请日 | 专利标题

TW104208746U|TWM509710U|2015-06-02|2015-06-02|Compound tool holder|

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