Disappearing device for shelf support in furniture

A disappearing shelf support for furniture comprises a casing (13, 113) having a seat (14, 114) in which a pin (15, 115) is housed, which pin axially slides in the seat between an operating position, at which the pin has its front portion projecting from a front wall of the casing (13, 113) and out of the shelf edge, and a non-operating position at which the pin is retracted in its seat so that it does not project from the shelf edge. A working element (16, 116) laterally projects from the pin (15, 115) and slides in a groove (17, 117) in the casing that is open on a side face (18, 118) of said casing to enable manual operation of the pin (15, 115) between the two positions thereof. Also present in the casing is fitting means (20, 120) for an unstable maintenance of the pin in the retracted position, which fitting means is disposed between the side wall of said groove (17, 117) and said working element (16, 116) sliding therein.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a disappearing shelf-supporting device for furniture.

2. State of the Prior Art

Devices for shelf support in furniture are known which are adapted to be inserted in an appropriate seat on the shelf edge and are provided with a pin elastically jutting out of the edge for fitting into a hole in the wall of the piece of furniture.

These devices have construction expedients capable of enabling the pin to keep two steady positions, a rest and an operating positions respectively. In the first position the pin is retracted in the shelf edge and in the second it projects from the shelf edge.

For obtaining this operation in known devices elastic wings are generally present that interfere with appropriate hollows in the side wall of the pin: in order to move the pin between the two positions the elastic resistance of the wings is to be manually overcome.

The structure of known devices of the mentioned type however, is relatively complicated because a given number of component pieces are to be made that are then assembled to obtain the complete device. Alternatively, the number of pieces can be reduced, making the elastic wings of one piece construction with the device body for example, which body is in turn of one piece construction. But the known structure, with elastic wings emerging in the pin seat, makes molding of the device complicated and increases the mould cost.

Since on the market these devices are required to be as much as possible cheap, the known structures are not therefore satisfactory in this respect. In addition, to enable the device to fit shelves of small thickness, said device must be relatively small and this prevents the obtained elastic wings from being strong. Therefore when submitted to the stress of repeated operations, known devices show a worrying tendency to breaking.

A further important drawback of the known art resides in that known devices are hardly maneuverable without use of a tool (a screwdriver for example) and this makes positioning of the shelves utilizing such devices less prompt.

It is a general aim of the present invention to obviate the above mentioned drawbacks by providing a shelf-supporting device with a disappearing pin that is particularly strong, cheap and of easy handling.

SUMMARY OF THE INVENTION

In view of the above aim a disappearing shelf-supporting device for furniture has been conceived, in accordance with the invention, which is designed to be housed on the edge of a shelf and comprises a casing having a seat in which a pin is housed, which pin axially slides in the seat between an operating position, at which the pin has its front portion projecting from a front wall of the casing and out of the shelf edge, and a non-operating position at which the pin is retracted in its seat for not projecting from the shelf edge, a working element laterally projects from the pin and slides in a groove in the casing, which groove is open on a side face of the casing to enable manual operation of the pin between the two positions of same, fitting means being further present in the casing for an unstable maintenance of the pin in the retracted position, wherein the fitting means for an unstable maintenance of the pin in the retracted position is disposed between the side wall of said groove and said working element sliding therein.

DETAILED DESCRIPTION OF THE INVENTION

With reference to the drawings, a disappearing shelf-supporting device for furniture is shown inFIG. 1and generally denoted at10, which device is designed to be housed in a cavity11on the edge of a shelf12.

The shelf support comprises a casing13with a seat14in which a pin15is housed which pin axially slides in the seat between an operating position at which the pin has its front portion projecting from a front wall of the casing and out of the shelf edge, and a non-operating position at which the pin is retracted in the seat for not projecting from the shelf edge. The operating and non-operating positions of the pin are shown in chain line and solid line respectively inFIG. 2.

As known, two pairs of shelf supports disposed on opposite edges of a shelf can bear the shelf in a piece of furniture by fitting the pins in an operating position into appropriate seats or holes formed in the inner wall of the piece of furniture.

As can be clearly seen inFIGS. 1 and 2, a working element16laterally projects from the pin and slides in a groove17in the casing that is open on a side face18of the casing itself. This side face18is designed to set itself parallel to the lower surface of the shelf to project therefrom.

The working element16thus allows manual operation of the pin between the two positions thereof. For operation a screw-driver can be for example employed which fits into a hollow advantageously formed in the end of the element itself.

The groove and working element advantageously have a generally T-shaped cross section with the “T” foot directed towards the pin axis.

Also present in the casing is fitting means for an unstable maintenance of the pin in the retracted position, so that the pin does not inopportunely move from the non-operating position to the operating position (and, if wished, from the operating position to the non-operating position) without the working element being acted upon. In particular, the pin can be advantageously urged to the operating position by means of a helical spring19placed at the bottom of the seat to act rearwardly of the pin. In this case, the fitting means must efficiently counteract the spring thrust. In other words, the helical spring has a lower thrust force than the force required for overcoming the fitting means.

As better shown inFIGS. 2 and 3, the fitting means20for an unstable maintenance of the pin in the retracted position is disposed between the side wall of groove17and element16sliding therein. In particular, this fitting means comprises two projections20facing themselves on opposite side walls of the groove and jutting out in the groove to interfere with element16and during sliding of same along the groove. Advantageously, projections20are extended in a direction normal to the sliding direction of the element in the groove and each interfere with a front corner of the working element, as clearly shown inFIG. 2. The projections can be stepped over when a thrusting action is manually exerted on the working element due to the elasticity of the surfaces coming into contact with each other. This elasticity can be merely obtained by suitably selecting the plastic material for manufacture of the casing. More advantageously, the casing can be formed with a cavity21behind each of the side walls carrying the projections. Thinning of the wall thus provides an elastic support for the projections. Advantageously, the cavities open on the side face18of the casing. In this way they can be easily obtained during molding of the casing.

The pin seat14and groove17are open on the front face23of the casing so as to allow the first axial introduction of the pin into the seat in the casing. Also present in the casing is stop limit means preventing a subsequent movement of the pin beyond the operating position, so that said pin cannot unintentionally fully come out of the casing and separate therefrom.

As viewed fromFIG. 3, the stop limit means is advantageously embodied by “fish bone-shaped” teeth22, disposed close to the groove opening on the front face of the casing and directed to the groove inside. Due to the inclination and size of the teeth, passage of the working element is allowed when the device is assembled pushing the pin into the seating. After that, the inner edge of the teeth forms a stop limit against which the front corner of the working element strikes (as shown in chain line inFIG. 3), so as to prevent the pin from coming out beyond the operating position.

A second embodiment of a disappearing shelf-supporting device for furniture is shown inFIG. 5and generally denoted at110, which device is designed to be housed in a cavity111on the edge of a shelf112.

The shelf support comprises a casing113with a seat114in which a pin115is housed which pin axially slides in the seat between an operating position at which the pin has its front portion projecting from a front wall of the casing and out of the shelf edge, and a non-operating position at which the pin is retracted in the seat for not projecting from the shelf edge. The operating and non-operating positions of the pin are shown in chain line and solid line, respectively.

As known, two pairs of shelf supports disposed on opposite edges of a shelf can bear the shelf in a piece of furniture by fitting the pins in an operating position into appropriate seats or holes formed in the inner wall of the piece of furniture.

As can be clearly seen inFIGS. 5 and 6, a working element116laterally projects from the pin and slides in a groove117in the casing that is open on a side face118of the casing itself. This side face118is designed to set itself parallel to the lower surface of the shelf to project therefrom. The groove and working element advantageously have a generally T-shaped cross-section with the “T” foot directed towards the pin axis.

The working element116terminates on the side face118with a slider124advantageously having a finely undulated or transversely knurled surface, extending parallel to the side face to be maneuverable with one finger to make the pin slide between the two positions thereof.

Advantageously, the slider extends rearwardly, in an L-shaped conformation with respect to the working element, in a direction parallel to the pin axis, with an undulated surface slightly projecting from the device face118, so as to allow easy operation of same. The slider protection between the two portions of wall118makes an accidental movement for unlocking the device in the operating position less likely to occur.

Still advantageously, the groove117is open rearwardly on the edge125of surface118and the rear portion of the slider is elongated to such an extent that when the pin is in an operating position the slider is fully contained between the two body portions defining surface118(as viewed in chain line inFIG. 1), whereas when the pin is in a non-operating position, the slider projects, by its rear portion, beyond the rear edge125of wall118.

In this way working of the slider from the non-operating position to the operating position is more facilitated than the other way round (that is potentially more dangerous if carried out accidentally).

In the operating position advantageously the slider substantially covers the whole groove117.

Also present in the casing is fitting means for an unstable maintenance of the pin in the retracted position, so that the pin does not inopportunely move from the non-operating position to the operating position (and, if wished, from the operating position to the non-operating position) without the working element being acted upon. In particular, the pin can be advantageously urged to the operating position by means of a helical spring119placed at the bottom of the seat to act rearwardly of the pin. In this case, the fitting means must efficiently counteract the spring thrust. In other words, the helical spring has a lower thrust force than the force required for overcoming the fitting means.

As better shown inFIGS. 5 and 6, the fitting means120for an unstable maintenance of the pin in the retracted position is disposed between the side wall of groove117and element116sliding therein. In particular, this fitting means comprises two projections120facing each other on opposite side walls of the groove and jutting out in the groove to interfere with element116and during sliding of same along the groove. Advantageously, projections120are extended in a direction normal to the sliding direction of the element in the groove and each interfere with a front corner of the working element, as clearly shown inFIGS. 5 and 6. These projections120stop towards surface118to allow transit of the slider and remain under the latter.

The projections can be stepped over when a thrusting action is manually exerted on the working element due to the elasticity of the surfaces coming into contact with each other. This elasticity can be merely obtained by suitably selecting the plastic material for manufacture of the casing. More advantageously, the casing can be formed with a cavity121behind each of the side walls carrying the projections. Thinning of the wall thus provides an elastic support for the projections. Advantageously, the cavities open on the side face118of the casing. In this way they can be easily obtained during molding of the casing.

The pin seat114and groove117are open on the front face123of the casing so as to allow the first axial introduction of the pin into the seat in the casing. Also present in the casing is stop limit means preventing a subsequent movement of the pin beyond the operating position, so that said pin cannot unintentionally fully come out of the casing and separate therefrom.

As clearly visible in chain line inFIG. 6, the stop limit means is advantageously embodied by “fish bone-shaped” teeth122, disposed close to the groove opening on the front face of the casing and directed to the groove inside. Due to the inclination and size of the teeth, passage of the working element is allowed when the device is assembled pushing the pin into the seating. After that, the inner edge of the teeth forms a stop limit against which the front corner of the working element strikes (as shown in chain line inFIG. 7), so as to prevent the pin from coming out beyond the operating position.

As can be seen inFIG. 5, teeth122stop before reaching the bridge126terminating ahead of groove117to strengthen the body structure of the device. The space between the bridge126and teeth122is adapted to allow passage of slider124during assembling of the device.

At this point it is apparent that the intended purposes have been achieved. In particular, the shelf-supporting device can be made up of two pieces alone (three pieces, if the spring is provided). The proposed structure for the casing body allows the casing to be made of one piece construction, being molded from a plastic material, and molding is very simple and cheap. In fact, as can be easily understood by a person skilled in the art, the mould can be made in such a manner that it has the closure of the two halves in a junction plane shown in chain dot line inFIG. 1, with a single short-stroke side carriage to make the groove17,117(also forming the inner edges of teeth22,122) and cavities21,121.

Obviously, the above description of an embodiment applying the innovative principles of the present invention is given by way of example only and therefore cannot be considered as a limitation of the scope of the patent rights herein claimed. For example the proportion of the different parts can vary depending on specific requirements and the shelf thickness provided for the device. In addition, slider124can be made as a separate piece fastened to or fitted into the working element116.