The present invention relates to tool containers and, more specifically, to containers which include inserts to retain the tools within the container.
Tool users, whether casual or professional, desire to maintain their tools in some type of organized fashion. Tool organization enables a user to readily find the tool, use it, and return it to its place. Thus, several types of tool containers have been provided to serve such a function.
While the tool containers work satisfactorily for their designed purpose, these containers have their drawbacks. One such drawback is some containers are not rugged enough to withstand the day-to-day punishment which a professional user subjects his tools to. Also, the containers may be large, awkward and difficult to be handled by the user. Further, the containers may not provide an aesthetic appearance.
The present invention provides the art with a tool container which overcomes the above shortcomings. The present invention provides the art with a tool case which is durable and easily manipulated by the user. The tool case is rugged enough to withstand the daily use of a professional user, while providing a pleasing aesthetic appearance.
In accordance with one aspect of the invention, a tool container comprises a pair of housing members pivotally coupled with one another. The pair of housing members open and close with respect to one another. At least one member defines a cavity to receive tools in the cavity. The cavity is defined by a base and a peripheral wall extending from the base. An insert for retaining tools is permanently secured in the housing. The insert has a surface mechanism to secure with the housing member base or wall. Also, a mechanism is present to lock the pair of housing members together in a closed position. The surface mechanism to retain the insert within the housing may be comprised of a plurality of alternating dove-tail recesses and tenons on the insert and the walls. The tenons are received by opposing recesses. The tenons have a front face which is angled with respect to vertical at about one (1°) degree. Also, the recesses have a surface angled corresponding to the front face of the tenon for locking the insert within the cavity. Alternatively, the housing base may have a roughed surface. Likewise, the insert would also have a roughed surface wherein the rough surfaces are ultrasonically welded together. The locking mechanism includes an arcuate rail member on each of the housing members and a latch with a channel to receive the rail members. The latch moves on the rail from a locked to an unlocked position. The rail members, as well as the channel for receiving the rail are both arcuate in a longitudinal as well as lateral direction. Further, the latch includes a first and second set of indicia which indicate a locked and unlocked position as well as directional movements. The latch member includes first and second members; the first member provides rigidity and includes a portion which projects through the second member. The first and second indicia have contrasting colors with respect to one another.
In accordance with a second aspect of the invention, a latch is provided to retain the housing pairs in locked and unlocked positions. The latch includes a channel defined by an arcuate base surface, a pair of side walls extending from the base, and a pair of flanges extending from the side walls toward one another. The base surface is arcuate along both the longitudinal and lateral axes. One of the flanges includes a cut-out to enhance coupling with the housing pair. The latch includes two sets of indicia, one to indicate a locked and unlocked position, while the other indicates directional movement. The latch is comprised of a first and second member, the first member providing rigidity. A portion of the first member extends through the second member to provide an indicia member. Also, the indicia member is substantially flush with the second member.
In accordance with a third aspect of the invention, a retaining insert is provided to retain tools within the container. The insert includes a body member with a plurality of V-shaped tool receiving cradles. A mechanism to retain the tools within the cradle is coupled with the body adjacent the tool receiving cradles. The mechanism and V-shaped cradles self-orientate the tool bits in the cradle. The mechanism includes fingers which extend from the insert. The fingers, if necessary, rotate the tool bit to seat the tool bit with an apex of the tool bit in the apex of the V-shaped tool receiving channel. The V-shaped cradle has an aperture dividing the cradle into two spaced V-shaped cradle portions. The two fingers are positioned adjacent the aperture to enable flexing of the fingers which, in turn, enable the fingers to spread apart to receive a tool bit in the V-shaped cradle. Also, a wall member is positioned at an end of the insert adjacent the tool receiving V-shaped cradles. The inserts include a tenon and a recess to couple the insert with a container to position the insert in a plurality of positions within the container. The inserts may include eight or five V-shaped tool receiving cradles.
In accordance with a fourth aspect of the invention, a tool container comprises a housing member defining a cavity to receive tools. The cavity is defined by a base and a wall extending from the base. A plurality of inserts to retain tools are capable of being multi-positioned in the housing member. The inserts, after determining a position in the housing, are permanently secured in the cavity. The inserts include a surface to secure the housing member with a base or wall. The surface may include alternating tenons and grooves for mating with corresponding wall tenons and grooves. Likewise, the walls may include either a cut-out or projection member where the inserts include an opposing mating projection member or cut-out to enable multi-positions for the inserts within the housing.
In accordance with a fifth aspect of the invention, a method of making a tool container comprises providing a housing member having a cavity defined by a base and a wall extending from the base. Also provided is at least one tool receiving insert having a plurality of tool receiving members. The wall or base and the at least one tool receiving insert have a mating mechanism. The insert may be positioned in one of a plurality of positions within the cavity. At the positioning points, the mating mechanisms mate with one another. The insert is secured into the cavity. A plurality of inserts may be provided and positioned and secured within the cavity. Also, a second housing member may be hingedly secured to the first housing member to provide a second cavity wherein additional inserts may be positioned and secured to the second housing member.
In accordance with a sixth aspect of the invention, a method of securing a tool bit in a tool retaining insert comprises providing a tool retaining insert having at least one V-shaped tool receiving cradle. Two fingers extend from the insert adjacent the V-shaped receiving cradle. A tool with a polygonal cross-section is provided. The tool is positioned on the fingers. A force is applied onto the tool to spread the fingers apart so that the tool enters into the fingers. Upon forcing the tool past the fingers into the V-shaped cradle, as the tool passes the fingers, if necessary, the tool is rotated such that an apex of the tool seats in the apex of the V-shaped cradle self-orientating the tool in the cradle. If rotation of the tool is not necessary, the apex of the tool will seat directly within the apex of the V-shaped cradle.
Other objects, features and advantages of the present invention will become more fully apparent from the following detailed description of the preferred embodiment and the accompanying drawings.
Turning to the figures, particularly
Turning to
The housing members 22 and 24 are substantially similar and include cavities 38 and 40 defined by a base 42, 44 and a peripheral wall 46, 48. The housing members 22, 24 have an overall rectangular shape with the peripheral walls 46, 48 defining lateral walls 50, 52, 54, 56 and longitudinal walls 58, 60, 62, 64. The longitudinal walls 60 and 62 at their open ends include hinge members 68. Hinge member 68 has an overall C-shape which snap fits onto the pin member 70. The pin members 70 are separated by barrel members 72. Thus, the hinge 26 enables the housing members 22 and 24 to pivotally open and close the container 20.
Referring to
Referring now to
With respect to
In
The latch 92 also includes a channel 106 for receiving the rail portions 94 and 96. The channel 106 is defined by an arcuate base 108, a pair of opposing side walls 110 and 112, and a pair of opposing flanges 114 and 116 extending toward one another from the walls 110 and 112. Thus, the channel 106 includes an arcuate base 108 which conforms to the arcuate rails and has flanges 110, 112 to secure with the ends 111, 113 of the rails 90. Also, one of the flanges 114 includes a cut-out portion 118. The width of the channel between the flanges is substantially constant. However, at the cut-out 118, the width is larger than the remaining channel. Thus, as flange 116 is captured under rail end 113, and cut-out 118 contacts rail end 111, the larger width channel at the cut-out 118 enables flange 114 to easily snap on to rail end 111, to secure the latch 92 with the rails 90. Also, the arcuate surface 108 is arcuate along the channel axis as well as transverse to the channel axis. Thus, the surface 108 is arcuate in two directions to follow the contour of the rail. The substantially matching arcuateness of both the channel and the rails enables smooth movement of the latch 92 along the rail 90.
The tool-retaining inserts 30, 32, 34, 36, 37 include a plurality of tool-receiving recesses 120 and a plurality of tool-retaining fingers 124. The tool is placed into the recess and is maintained in the recess by the retaining fingers 124. The tool retaining inserts 30, 32 may have a stepped configuration with a plurality of curved cut-outs 126 enabling the tools to be inserted into the stepped portion to receive the tools.
The sides of the inserts 30, 32, 34, 36, 37 include mating tenons and recesses 132 and 134 to mate, respectively, with recesses 76 and tenons 74, respectively, of the housing members 22, 24 (see
Turn to
The fingers 124 are positioned adjacent the aperture 158 and include a barbed member 160 at the free end of the fingers 124. The barbs 160 include a flat surface 161 which helps to retain a tool bit in the V-shaped cradle 152. Also, a wall member 162 is positioned on one side of the tool receiving cradles 152. The wall 162 provides an abutment surface to help in the positioning of tools within the cradle 152. The insert 34 has a longitudinal length of about three-quarters (¾″) of an inch. The insert 36 is substantially the same as insert 34 except the insert 36 has a longitudinal length about two and one-half (2½) times that of insert 34. Thus, a pan portion 164 is formed between the wall 162 and second cradle portion 156. The insert 36 has eight receiving recesses 120 like those described in insert 34.
Turning to
Turning to
Here, the housing members are the same as previously discussed, except that the dove-tail walls are replaced by flat walls. Likewise, the tool retaining inserts have flat side walls.
In their place, the base 42′, or the side walls 58′, 60′, have a roughed raised surface 41. Likewise, the inserts 30′ include side walls and a base which include similar roughed surfaces 43. These roughed surfaces 41, 43 with the raised and lowered portions enhance ultrasonic welding. The inserts may be ultrasonically welded, adhered or glued to the pair of housing members.
The walls 58′ and 60′ include tenons or projecting members 59 and 61. These projecting members 59, 61 are spaced along and do not extend the entire height of the walls 58 and 60′. The projecting members 59 and 61 act to position the inserts 30′, 32′, 34′, 36′, 37′ in the container to allow for the multiple positioning of the inserts within the housing member. The inserts include recesses or cut-outs 180 which receive the projecting members 59 and 61. The cut-outs 180 are sized to receive the projecting members 59, 61 and are positioned such that the projecting members position the inserts along the housing member. The mating of the projecting member 59, 61 and recess or cut-out 180 enable the inserts to then be adhesively glued or ultrasonically welded to be secured with the housing member.
In the case of the inserts 34′, 36′ and 37′, the insert 34′ and the insert 37′ would ordinarily include a single cut-out or recess 180 while the insert 36′ would include two or three recesses 180 to receive the projecting members 59 and 61. Also, it should be noted that the projecting members could be positioned onto the inserts while the recesses could be formed within the walls 58′ and 60′.
While the above detailed description describes the preferred embodiment of the present invention, the invention is susceptible to modification, variation, and alteration without deviating from the scope and fair meaning of the subjoined claims.
This is a divisional of an application filed Aug. 14, 1998 now U.S. Pat. No. 6,755,302 and assigned U.S. Ser. No. 09/134,109.
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Number | Date | Country | |
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20040154942 A1 | Aug 2004 | US |
Number | Date | Country | |
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Parent | 09134109 | Aug 1998 | US |
Child | 10772617 | US |