Cabinet drawer guide and slide connector

A cabinet drawer is supported for sliding movement in a cabinet by means of an elongated guide secured to the cabinet frame and a cooperating elongated slide secured to the drawer, the guide and slide being secured to the cabinet frame and drawer, respectively, each by a connector comprising a body member adapted to be secured to the cabinet or drawer and having a slot arranged to removably receive a tab projecting from the guide or slide, and a locking member mounted movably on the body member and arranged for retractable reception through aligned transverse openings in the connector body and tab, for releasably securing the tab to the connector body.

BACKGROUND OF THE INVENTION 
This invention relates to cabinet drawers, and more particularly to a 
connector by which to secure guide and slide components to the frame and 
drawer respectively, of a cabinet. 
In the construction of built-in cabinets, such as kitchen cabinets made of 
wood, it is the general practice to form the guide and slide components as 
integral, rigid parts of the frame and drawer, respectively. Obviously, 
this method is not usable for cabinets of the knock-down type which are 
sold as packaged units and erected by the do-it-yourselfer. 
Guide and slide components for cabinet drawers also have been provided 
heretofore for attachment to the frame and drawer components, 
respectively, of wood cabinets, by means of screws. This type of assembly 
is time consuming and also inaccurate, resulting in misalignment of 
components, poor operation of the drawer and unprofessional appearance. 
Guide and slide components for cabinet drawers also have been provided 
heretofore for attachment to the sides of frame and drawer components, 
respectively, of metal cabinets, by means of bolts and spring-loaded clips 
arranged to register with openings formed in the frame and drawer 
components. Exemplary of this type of drawer support are those described 
in U.S. Pat. Nos. 3,778,120; 3,771,849; and 3,205,025. In this type of 
drawer support, the requirements of precise locating and forming of the 
openings and clips contribute to costly manufacture and time consuming 
assembly. Further, disassembly is rendered difficult by resistance to 
separation of the spring-loaded clips. 
SUMMARY OF THE INVENTION 
In its basic concept, the cabinet drawer guide and slide connector of this 
invention comprises a body member having a slot arranged to receive a tab 
on the guide or slide, and a locking member arranged for retractable 
reception through aligned transverse openings in the body member and tab. 
It is by virtue of the foregoing basic concept that the principal objective 
of this invention is achieved; namely, to overcome the aforementioned 
disadvantages and limitations of prior cabinet drawer supports. 
Another objective of this invention is the provision of a connector of the 
class described which accommodates adjustment of the drawer to the cabinet 
frame after the guide and slide components have been installed on the 
frame and drawer, respectively. 
Still another objective of this invention is the provision of a connector 
of the class described which enables the use of a single guide and slide 
assembly for each drawer. 
A further objective of this invention is the provision of a connector of 
the class described which may be secured to cabinet frame members and 
cabinet drawers prior to packaging the cabinet components for shipment in 
knocked-down condition, while maintaining the size of the packaged units 
at a minimum. 
A still further objective of this invention is the provision of a connector 
of the class described which is of simplified construction for economical 
manufacture. 
The foregoing and other objects and advantages of this invention will 
appear from the following detailed description, taken in connection with 
the accompanying drawings of a preferred embodiment.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
For purposes of illustration, the drawings show conventional components of 
a cabinet frame and associated drawer. Thus, the cabinet frame includes a 
front frame member 10 and a rear frame member 12. As is well known, the 
front and rear frame members are interconnected by transverse frame 
members (not shown) some of which are positioned to support the bottom 
side edges of a drawer, to provide lateral stability for the latter. Also, 
as is well known, the front frame member is provided with a rectangular 
opening for the removable reception of a cabinet drawer. 
The drawings illustrate a cabinet drawer which includes the front, 
decorative wall 14, laterally spaced side walls 16, rear wall 18 and 
bottom wall 20. 
The drawer is supported on the cabinet frame for slidable extension and 
retraction, by means of an elongated guide member secured to the cabinet 
frame and a cooperating elongated slide member secured to the drawer. The 
conventional form of guide and slide illustrated in the drawing is of the 
type disclosed in the prior art patents the numbers of which are 
identified hereinbefore. Thus, the guide member comprises an elongated 
metal channel-shaped member 22 the opposite inner side portions of which 
form races for a plurality of ball bearings 24 supported in longitudinally 
spaced-apart relationship by means of a short carriage 26. The slide 
member comprises an elongated metal channel member 28 the outer side 
portions of which also form bearing races for the ball bearings. The balls 
and races thus secure the guide and slide members together for relative 
longitudinal displacement. 
In accordance with this invention, the guide and slide members are secured 
to the cabinet frame members and drawer, respectively, by means of a novel 
connector now to be described. 
The connector of this invention includes a body member 30, preferably 
molded of synthetic thermoplastic resin. It includes a top side 32, 
lateral sides 34, bottom side 36, front side 38 and rear side 42. It is 
provided intermediate its lateral sides with a laterally elongated slot 42 
which extends inward from the top side 32 preferably through the bottom 
side 36. Intercepting said slot is a transverse opening 44 which extends 
from the front side 38 of the body preferably through the back side 40 
thereof. 
The body member is adapted to be secured to the drawer and frame components 
of the cabinet. Although the attachment may be achieved by adhesive or 
glue, it preferably is provided by means of a pair of screws 46 which 
extend through counterbored holes 48 which extend through the body from 
the front side 38 to the back side 40 on opposite sides of the transverse 
opening 44. 
As best illustrated in FIG. 4, indexing means preferably is provided for 
locating the body member in predetermined position on a frame member of 
the cabinet or the back wall of the drawer, and with speed and facility. 
This indexing means is provided by an annular shoulder 50 projecting 
rearward from the back surface of the body member around each of the screw 
receiving holes 48. The cabinet frame member and back wall of the drawer 
are provided with registering sockets 52 arranged in predetermined 
positions to receive the annular indexing shoulders. 
Associated with the body member is a locking member. It includes an 
enlarged head portion 54 and a shank portion 56 dimensioned for reception 
freely through the transverse opening 44 in the body member. The front 
side of the body member is recessed around the transverse opening to 
receive the enlarged head of the locking member when the latter is 
extended into the transverse opening in the locking position. 
In the preferred embodiment illustrated, the shank 56 of the locking member 
is substantially U-shaped in cross section (FIGS. 4 and 5) to provide 
laterally spaced resilient sides. A web 58 interconnects the resilient 
sides intermediate their ends to stiffen the latter somewhat and yet allow 
inward deflection of the outer ends. These outer ends are provided with 
laterally projecting catches 60 which serve to retain the locking member 
against complete detachment from the body member, except under a positive 
pulling force. In this manner the body member and locking member are 
secured together against accidental separation. 
The laterally projecting catches 60 cooperate with a recess 62 in the back 
side 40 of the body member, registering with the transverse opening 44, 
and also with a slot 42 extending inward from the top side of the body 
member. Thus, with the locking member shank 56 extended into the body 
member in the locking position illustrated in FIG. 4, the catches 60 
engage the inner surface of the rear recess 62. 
The locking member is retractable from the position illustrated in FIG. 4, 
as by engaging a finger nail in the space between the enlarged head 54 and 
the adjacent recessed surface in the body member, to urge the locking 
member outward of the body. The resilience of the U-shaped shank of the 
locking member allows the catches to be deflected inward to the cross 
sectional profile of the transverse opening 44, whereby the locking member 
may be retracted. When the catches enter the slot 64 outwardly of the main 
lateral slot 42, they again engage the body member to prevent further 
retraction of the locking member. 
The body member is provided with a laterally elongated pocket 66 which 
extends inward from its front side 38 between the screw holes 48 and the 
top side 32, terminating inwardly of the back side 40 and the lateral 
sides 34. This laterally elongated pocket serves to support the rear end 
of an elongated guide member 22, as described hereinafter. 
The connector described hereinbefore functions to secure the elongated 
slide member 28 to the cabinet drawer, as follows: The front end of the 
slide member is provided with a forwardly projecting tongue 68 (FIGS. 1 
and 2) and a correspondingly dimensioned pocket 70 is provided in the 
inner surface of the front wall 14 of the drawer, to receive it. This 
pocket is located centrally between the lateral sides of the drawer, so as 
to position the slide member along the longitudinal center line of the 
drawer under the bottom wall 20 thereof. 
The rearward end of the slide member is secured to the rearward end of the 
drawer by means of one of the connectors described hereinbefore. Thus 
(FIGS. 6 and 7), the body member 30 is secured to the rear side of the 
back wall 20 of the drawer, centrally of the lateral sides thereof, with 
the top side 32 of the body member facing downward and the front side 38 
facing rearward. A rearward, central portion of the metal slide member is 
struck upwardly at right angles to the longitudinal dimension of the slide 
member, to form a connecting tab 72 which is extended upward through the 
laterally elongated slot 42 in the body member. A transverse opening 74 in 
the tab is arranged to register with the transverse opening 44 in the body 
member when the tab is extended fully into the lateral opening 42, 
whereupon the locking member shank 56 is extended fully into the 
transverse opening 44, in the manner illustrated in FIG. 4, whereby the 
shank extends through the opening in the tab and thus secures the latter 
to the body member. 
The connector described hereinbefore functions to mount the front end of 
the elongated guide member 22, as follows: Referring to FIG. 1 of the 
drawings, the body member 30 is secured to the inner side of the front 
frame member 10 centrally of the lateral sides of the opening which 
receives the drawer. The forward end of the elongated guide member is 
provided with a dowwardly extending tab 76. Conveniently, the tab is 
provided by striking a forward, central portion of the metal guide member 
downward at right angles to its longitudinal dimension. A transverse 
opening 78 is provided in the tab in position registering with the 
transverse opening 44 in the body member when the tab is inserted fully 
into the laterally elongated slot 42 in the body member. The locking 
member shank 56 then is pushed into the transverse opening to the extended 
position illustrated in FIG. 4, whereby the shank extends through the 
opening in the tab and thus secures the latter to the body member. 
The rearward end of the elongated guide member 22 may be secured in the 
same manner as the forward end, by use of a second connector and providing 
a downwardly struck tab 80 at the rearward end of the guide member. Such 
an arrangement is illustrated in FIG. 9. In this case the laterally 
elongated pocket 66 may be omitted. However, the use of the laterally 
elongated pocket provided in the body member is preferred for mounting the 
rearward end of the guide member. Thus, referring to FIG. 6 of the 
drawings, the body member 30 is secured to the back frame member 12 of the 
cabinet in approximate alignment with the connector secured to the inner 
side of the front frame member 10 of the cabinet. The rearward end of the 
guide member is positioned within the laterally elongated pocket 66, 
before the locking member shank 56 has been extended through the 
transverse opening 44. The drawer is then pushed inward to its fully 
retracted position. In doing so, the rearward end of the guide member may 
move laterally to adjust itself to the position of the slide member 28 
secured to the drawer. Then, the locking member shank is extended into the 
transverse opening 44 to a position illustrated in FIG. 6. 
It is to be noted in FIG. 6 that the upper transverse edge 82 of the 
enlarged head 54 of the locking member is inclined toward the body member, 
with its inner edge projecting slightly above the bottom surface of the 
laterally elongated pocket 66. Thus, as the locking member shank is 
extended into the transverse opening 44, the upper edge 82 of the enlarged 
head bears against the underside of the guide member 22 and forces it 
upward, bringing the upper lateral edges of the guide member into gripping 
engagement with the upper surface of the laterally elongated pocket 66. 
This frictional engagement secures the guide member in properly adjusted 
position. 
From the foregoing, it will be apparent that the connector of this 
invention may be utilized with a wide variety of types of guide and slide 
assemblies. In this regard, the only requirement is that the guide member 
22 be provided with a downwardly extending tab 76 adjacent its forward end 
and that the slide member 28 be provided with an upwardly projecting tab 
72 adjacent its rearward end, for cooperative association with the 
corresponding connectors of this invention, in the manner previously 
described. The rearward end of the guide member may be secured to the rear 
frame member of the cabinet by use of the connector illustrated in FIG. 6, 
or it may be provided with a downwardly extending tab 80 for association 
with a connector as demonstrated in FIG. 9. 
It will be apparent to those skilled in the art that various changes may be 
made in the size, shape, type, number and arrangement of parts described 
hereinbefore. For example, the front end of a slide member may be secured 
to the drawer by screws instead of the tongue 68 and routed pocket 70. The 
illustrated arrangement is preferred for its simplicity and preciseness. A 
slide member may be secured to each lateral side of a drawer and an 
associated guide member may be secured to the corresponding side frame 
members of a cabinet. The illustrated arrangement is preferred, since it 
minimizes the number of components. The slide member or guide member may 
be secured to the associated drawer or cabinet frame by means other than 
the connector of this invention. It is preferred, however, to employ the 
connectors for both slide and guide members, as described hereinbefore, 
for ease, speed and accuracy of assembly of the cabinet. The connector of 
this invention also may be employed for attaching other forms of 
structural members together, it being required only that one of the 
structural members be provided with a tab projecting from it in a position 
for extension into the transverse opening 44 of the body member 30 secured 
to the other structural member.