Storage component
Technical Field
The invention relates to the field of refrigerators, in particular to a storage assembly.
Background
Generally, the shelf in the prior art is fixed inside the refrigerator through the liner rib supporting structure on the inner side wall of the refrigerator, and the visual effect of the shelf is affected by the liner rib supporting structure exposed outside the inner side wall of the refrigerator in the fixing mode, so that the visual requirement of a user is not met, and the liner rib supporting structure exposed outside the inner side wall of the refrigerator can occupy the inner space of the refrigerator, so that the placing space of food is reduced.
Disclosure of Invention
The invention aims to provide a refrigerator to solve the problem that the visual effect of a storage plate is influenced because a liner rib supporting structure for fixing the storage plate is exposed out of the inner side wall of the refrigerator in the prior art.
Another object of the present invention is to solve the problem that the bladder rib supporting structure in the prior art occupies the inner space of the refrigerator, thereby reducing the food placing space.
It is a further object of the present invention to illuminate the shelf to facilitate the user's storage of food at the shelf.
In particular, the present invention provides a shelving assembly comprising:
the four included angles of the square frame are respectively provided with a telescopic mechanism, and the telescopic mechanism is provided with a supporting part of which the end part can extend out of the square frame and is used for being matched with a mounting hole on the inner side wall of the refrigerator;
the object placing plate is arranged in the square frame; and is
The telescopic mechanism is configured to move towards the inner direction of the frame of the square frame when being squeezed or restore to the state of extending out of the square frame when being released from squeezing so as to extend into the mounting hole.
Further, one end of the supporting part, which is hidden inside the frame of the square frame, is provided with a telescopic spring, and the supporting part is configured to be pressed against the telescopic spring when being pressed or restored to a state of extending out of the square frame due to the action of the telescopic spring when being released from pressing; and is
The tail end of the telescopic spring is provided with a blocking piece for fixing the tail end of the telescopic spring so as to block the tail end of the telescopic spring from moving towards the inner direction of the frame of the square frame where the telescopic spring is located when the supporting part extrudes the telescopic spring;
wherein the tail end is the end part of the extension spring far away from the supporting part.
Furthermore, the end part, provided with the telescopic mechanism, of the frame of the square frame is provided with a metal cavity which is sunken towards the middle direction of the frame and used for placing the telescopic mechanism, and the tail end of the telescopic spring is fixed at the bottom of the metal cavity through the blocking piece.
Furthermore, an electric wire is arranged on the inner side wall of the refrigerator; be equipped with luminous component in square frame's the frame, just still include in the frame of contained angle department with the electrically conductive mechanism that telescopic machanism connects, wherein, electrically conductive mechanism constructs into:
when the telescopic mechanism extends into the mounting hole, the telescopic mechanism is respectively communicated with the electric wire and the light-emitting component so as to enable the light-emitting component to emit light; or
When the telescopic mechanism leaves the mounting hole, the telescopic mechanism is respectively disconnected with the electric wire and the light-emitting component so that the light-emitting component stops emitting light.
Further, the light emitting component comprises an illuminating lamp and a light guide strip arranged in contact with the illuminating lamp, and the light guide strip is configured to be lightened when the illuminating lamp is conducted with the conducting mechanism so as to illuminate the storage plate.
Furthermore, the two conducting mechanisms are respectively positioned at two included angles of the square frame close to the interior of the refrigerator when the storage plate is connected with the inner side wall.
Furthermore, two telescopic mechanisms with included angles of the conducting mechanisms are respectively arranged in two ends of a frame close to the inside of the refrigerator, and the two conducting mechanisms are respectively positioned in the end parts of the frames at two sides of the storage plate;
the end parts of the frames at the two sides of the shelf plate are respectively the parts of the frames at the two sides, which are intersected with the two ends close to the inner frame of the refrigerator.
Furthermore, the conductive mechanism comprises a conductive fixing part and a connecting terminal connected with the lighting lamp circuit, and the light guide strip is arranged in the frames at the two sides of the storage plate and is in contact with the lighting lamp;
one end of the conductive fixing part is in contact connection with the supporting part, and the other end of the conductive fixing part is fixedly connected with the connecting terminal or in circuit connection with the connecting terminal.
Further, a conductive metal sheet connected with the electric wire is arranged in the mounting hole matched with the telescopic mechanism at the included angle of the conductive mechanism, so that the supporting part is abutted to the conductive metal sheet when the supporting part is extruded into the mounting hole.
Further, the conductive fixing member includes a conductive post in contact connection with the support portion and a spring connected to the conductive post.
The invention has the beneficial effects that:
firstly, because the periphery of the storage plate is provided with the square frame, the four included angles of the square frame are respectively provided with the telescopic mechanisms, and the telescopic mechanisms are provided with the supporting parts of which the end parts can extend out of the square frame, the storage plate can be matched with the mounting holes of the inner side wall of the refrigerator through the supporting parts of the telescopic mechanisms so as to realize the mounting with the inner side wall of the refrigerator. Therefore, when the storage plate is installed, the telescopic mechanism can be extruded firstly, at the moment, the telescopic mechanism can move towards the inner direction of the frame of the square frame where the telescopic mechanism is located, and when the telescopic mechanism reaches the installation hole, the telescopic mechanism stretches out of the square frame due to the fact that the telescopic mechanism is released to extrude so as to stretch into the installation hole. So that the shelf is mounted on the inner side wall of the refrigerator. Because the telescopic mechanism extends into the mounting hole of the inner side wall of the refrigerator when the telescopic mechanism is mounted on the inner side wall of the refrigerator, the part of the storage plate, which is fixedly connected with the inner side wall of the refrigerator, is not exposed outside the inner side wall of the refrigerator, and the inner side wall of the refrigerator is not provided with a liner rib supporting structure exposed outside the inner side wall of the refrigerator, the storage plate is suspended inside the refrigerator from the aspect of visual effect, so that the scientific and technological sense is increased, and the visual requirement of a user is met.
Secondly, because the inner side wall of the refrigerator is not provided with the liner rib supporting structure exposed outside the inner side wall of the refrigerator so as to realize the fixed connection between the storage plate and the inner side wall of the refrigerator, the internal space of the refrigerator occupied by the liner rib supporting structure can be saved, and the placing space of food is enlarged.
Furthermore, because the light emitting part is arranged in the frame of the square frame, and the conductive mechanism connected with the telescopic mechanism is further arranged in the frame at the included angle of the square frame, through the arrangement of whether the telescopic mechanism is effectively installed with the installation hole, the conductive mechanism can be respectively connected with the electric wire of the inner side wall of the refrigerator and the light emitting part or disconnected, so that the light emitting part is lightened or extinguished, the storage plate is lightened, and the user can conveniently store and take food.
The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.
Drawings
Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:
FIG. 1 is a schematic structural view of a refrigerator having a tray assembly according to one embodiment of the present invention;
FIG. 2 is a schematic block diagram of a telescoping mechanism in a shelving assembly in accordance with one embodiment of the invention;
FIG. 3 is a schematic block diagram of the tray assembly of FIG. 1 with the included angle of the conductive mechanism;
FIG. 4 is a schematic connection structure diagram of a conductive mechanism and a telescopic mechanism in the square frame of FIG. 1;
FIG. 5 is an enlarged schematic view of the structure at A in FIG. 4;
fig. 6 is a schematic structural block diagram of a refrigerator according to an embodiment of the present invention.
Detailed Description
Fig. 1 is a schematic perspective view of a refrigerator having a shelf assembly according to an embodiment of the present invention, so as to solve a problem in the prior art that a liner rib supporting structure for fixing a shelf is exposed to an inner side wall of the refrigerator to affect a visual effect of the shelf. As shown in fig. 1, the inner sidewall 101 of the refrigerator 100 may have an inner container structure, and the storage assembly in fig. 1 may be fixedly connected with the inner container structure of the inner sidewall 101. As explained in connection with fig. 2, the shelving assembly may include: the refrigerator comprises a square frame 1, wherein four included angles of the square frame are respectively provided with a telescopic mechanism 11, and the telescopic mechanism 11 is provided with a supporting part 110, the end part of which can extend out of the square frame 1 and is used for being matched with a mounting hole 102 of the inner side wall 101 of the refrigerator; the article placing component comprises an article placing plate 2 which is arranged in the square frame 1; and the telescopic mechanism 11 may be configured to move toward the inside of the frame of the square frame 1 where it is located when being pressed or to return to a state of protruding out of the square frame 1 to extend into the mounting hole 102 when being released from the pressing.
As the square frame 1 is arranged around the shelf 2, the telescopic mechanisms 11 are arranged at four corners of the square frame 1, and the telescopic mechanisms 11 are provided with the supporting parts 110 with the ends capable of extending out of the square frame 1, the shelf 2 can be matched with the mounting holes 102 of the inner side wall 101 of the refrigerator through the supporting parts 110 of the telescopic mechanisms to realize the mounting with the inner side wall of the refrigerator. Thus, when the storage plate 2 is installed, the telescopic mechanism 11 is firstly squeezed, at this time, the telescopic mechanism 11 moves towards the inner direction of the frame of the square frame 1 where the telescopic mechanism 11 is located, and when the telescopic mechanism 11 reaches the installation hole 101, the telescopic mechanism 11 is released to be squeezed and extends out of the square frame 1 so as to extend into the installation hole 101. So that the shelf 2 is completely installed with the inner side wall 101 of the refrigerator. When the telescopic mechanism 11 is installed on the inner side wall 101 of the refrigerator, the telescopic mechanism extends into the installation hole 102 of the inner side wall of the refrigerator, so that the part of the storage plate 2, which is fixedly connected with the inner side wall of the refrigerator, is not exposed outside the inner side wall of the refrigerator, and the inner side wall of the refrigerator is not provided with a liner rib supporting structure exposed outside the inner side wall of the refrigerator.
In addition, the inner side wall of the refrigerator is not provided with the liner rib supporting structure exposed outside the inner side wall 101 of the refrigerator so as to realize the fixed connection between the storage plate and the inner side wall of the refrigerator, so that the inner space of the refrigerator occupied by the liner rib supporting structure can be saved, and the placing space of food is enlarged.
In the above embodiment, as described with reference to fig. 1 and 2, one end of the support portion 110 hidden inside the frame of the square frame 1 has the extension spring 111, and the support portion 110 may be configured to compress the extension spring 111 when being pressed or to be restored to a state of extending out of the square frame 1 due to the action of the extension spring 111 when being released from being pressed; a blocking piece 112 is arranged at the tail end of the telescopic spring 111 and used for fixing the tail end of the telescopic spring 111 so as to block the tail end of the telescopic spring from moving towards the inner direction of the frame of the square frame 1 where the telescopic spring is located when the supporting part 110 presses the telescopic spring 111; wherein, the end of the extension spring 111 far from the support part 110 is the end. The blocking member 112 may be a screw or other member that can block the end of the extension spring 111.
As shown in fig. 3, the end of the frame of the square frame 1 having the telescopic mechanism 11 is provided with a metal cavity 15 recessed toward the middle of the frame for placing the telescopic mechanism 11, and the end of the telescopic spring 111 is fixed at the bottom of the metal cavity 15 by a blocking member 112. The bottom of the metal cavity 15 is the end near the inside of the frame where it is located, and can also be interpreted as the end of the metal cavity 15 away from the support 110.
In any of the above embodiments, as described with reference to fig. 3 to 5, the inner side wall of the refrigerator may be provided with an electric wire 103; be equipped with luminous component in square frame 1's the frame, and still can include the electrically conductive mechanism 12 of being connected with telescopic machanism 11 in the frame of contained angle department, wherein, electrically conductive mechanism 12 can construct: when the telescopic mechanism 11 extends into the mounting hole 102, the telescopic mechanism can be respectively conducted with the electric wire 103 and the light-emitting component so as to enable the light-emitting component to emit light; or to disconnect the electric wire 103 and the light emitting part respectively when the telescopic mechanism 11 is removed from the mounting hole 102, so that the light emitting part stops emitting light.
Because the light emitting part is arranged in the frame of the square frame 1, and the frame at the included angle of the square frame 1 further comprises the conductive mechanism 12 connected with the telescopic mechanism 11, through the effective installation of the telescopic mechanism 11 and the installation hole 102, the conductive mechanism 12 can be respectively connected or disconnected with the electric wire 103 and the light emitting part 13 on the inner side wall of the refrigerator, so that the light emitting part is lightened or extinguished, the storage plate 2 is lightened, and the user can conveniently store and take food.
In the above embodiment, the light emitting part may include the illumination lamp 13 and the light guiding bar 14 disposed in contact with the illumination lamp 13, and the light guiding bar 14 may be configured to be illuminated when the illumination lamp 13 is conducted with the conductive mechanism 12 to illuminate the storage plate 2.
The shelf 2 can be a glass plate or an acrylic plate, namely when the illuminating lamps in the square frame around the shelf 2 are lightened, the light guide strips arranged close to the shelf 2 emit light, so that the shelf 2 is lightened under the action of the light guide strips and the illuminating lamps, the whole shelf can be lightened, the use of a user can be facilitated, and the use requirements of the user can be met. The light guide strip 14 can be a blue light guide strip, when the lighting lamp is lighted, the light guide strip can emit blue light, namely, the whole shelf 2 can present the effect of blue light and suspend in the refrigerator, so that the shelf suspends in the inner side wall of the refrigerator like magic, and the science and technology sense of the shelf is improved. The light guide strip can be in other colors and can be set according to user requirements.
In the above further embodiment, the number of the conductive mechanisms 12 may be two, and the two conductive mechanisms are respectively located at two corners of the square frame 1 near the inside of the refrigerator when the shelf 2 is connected with the inner side wall 101. The two telescopic mechanisms 11 with the included angle of the conductive mechanism 12 can be respectively arranged in the two ends of the frame close to the inside of the refrigerator, and the two conductive mechanisms 12 can be respectively arranged in the end parts of the frames at the two sides of the storage plate 2; wherein, the end parts of the frames at the two sides of the shelf 2 are the parts where the two sides of the frames meet the two ends of the frame near the inside of the refrigerator.
As described with reference to fig. 4 and 5, the conductive mechanism 12 may include a conductive fixing member 121 and a connection terminal 122 electrically connected to the illumination lamp 13, and the light guide bar 14 may be disposed in the frame at two sides of the storage plate 2 and disposed in contact with or close to the illumination lamp 13. One end of the conductive fixing member 121 may be in contact with the supporting portion 110, and the other end thereof is fixedly connected or electrically connected to the connection terminal 122. The installation hole 102, which is matched with the telescopic mechanism 11 at the corner with the conductive mechanism 12, may have a conductive metal sheet 104 connected with the electric wire 103 therein, so that the support portion 110 may abut against the conductive metal sheet 104 when the support portion 110 is pressed into the installation hole 102. The conductive metal sheet 104 may be provided with a fixing clip 105 for fixing the conductive metal sheet 105 in the mounting hole 102.
Further, the conductive fixing member 12 may include a conductive post 1211 connected in contact with the supporting portion 110 and a spring 1212 connected to the conductive post 1211. The conductive post 1211 can be abutted or fixedly connected to a sidewall of the metal cavity recessed toward the middle of the frame, and at least a portion of the support portion of the telescopic mechanism is located in the metal cavity no matter the support portion extends out of the square frame or is pressed into the frame of the square frame. That is, when the supporting portion extends out of the frame, since at least a part of the supporting portion 110 is still located in the metal cavity 15, and the conductive post 1211 can be always connected to the metal cavity 15, when the supporting portion contacts the conductive metal sheet in the mounting hole 102, the electric wire 103 is conducted to the illumination lamp 13 through the conductive metal sheet, the supporting portion, the metal cavity, the conductive post, and the connection terminal, so that the illumination lamp 13 is turned on, and thus the light guide bar 14 emits light with a corresponding color under the action of the illumination lamp 13.
In any of the above embodiments, the supporting portion 110 in the telescopic mechanism 11 may be a tongue-fixing member, that is, the supporting portion 110 may be shaped like a tongue, and has one end with a relatively sharp end and the other end with an end parallel to the width direction of the square frame. The expansion spring 111 is fixed at the end of the fixing tongue parallel to the width direction of the frame of the square frame. The relatively sharp end of the support portion may extend outside the square frame and into the mounting hole 102 in the inner side wall of the refrigerator.
The invention also provides a refrigerator, as shown in fig. 1, the inner side wall 101 of the refrigerator is provided with an inner container structure, the inner container structure can be provided with a plurality of mounting holes 102, any article placing component is fixed at the mounting holes 102 corresponding to the positions of the telescopic mechanisms through the telescopic mechanisms 11, so that the connection of the article placing component and the inner container structure of the inner side wall 101 of the refrigerator 100 without a liner rib structure can be realized, the article placing plate 2 is suspended in the inner space of the refrigerator 100, the technological sense is increased, and the visual requirements of users are met. In addition, the inner space of the refrigerator occupied by the liner rib supporting structure can be saved, so that the placing space of food is increased.
Further, an electric wire 103 may be disposed in the inner container structure of the inner side wall 101 of the refrigerator, and the electric wire is abutted to the supporting portion 110 of the telescopic mechanism 11 of the article holding assembly through the mounting hole 102, so that a light emitting component (a lighting lamp) in the square frame 1 may be connected to the electric wire 103, so that the light emitting component is electrically conductive to emit light, illuminate the article holding plate 2, and facilitate the use of a user.
In a further embodiment, as shown in fig. 6, a door sensor 200 and a controller 300 connected to the door sensor 200 are disposed on an inner wall of the refrigerator, the door sensor 200 can be used to detect whether a door of the refrigerator is opened, and the controller 300 can control the light emitting component (the illumination lamp 13) to stop emitting light according to a signal that the door is closed. That is, if the door sensor detects that the door is closed, it indicates that the user has not placed food or taken food, and the door is closed by the user, and at this moment, the controller can control the illuminating lamp 13 to stop emitting light according to the signal that the door is closed, so as to prevent the refrigerator door from continuing to emit light when the refrigerator door is closed, which causes waste of electric energy.
Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.