CN217900254U - Refrigerator - Google Patents

Abstract

The utility model discloses a refrigerator, include: the refrigerator comprises a cabinet body and a door body, wherein the cabinet body is provided with a storage space, the door body is provided with a cabinet opening part located at the opening position of the storage space, the refrigerator is characterized in that the refrigerator is further provided with a light source module, the light source module comprises a light emitting unit arranged on the cabinet opening part, the light emitting unit is provided with a first position located at the closing state of the door body and a second position located at the opening state of the door body, when the first position is converted to the second position, the light emitting unit moves towards the direction of the cabinet opening part and irradiates towards the storage space when the second position is reached. The embodiment of the utility model provides a it can realize that light source module throws the illumination in to storing space from storing space's outside, what article in having avoided storing space caused shelters from irradiant, simultaneously, sets the light-emitting unit into mobilizable realization light-emitting unit that can be convenient folding and hide.

Description

Refrigerator

Technical Field

The utility model relates to a refrigeration plant technical field, especially freezer.

Background

The storage space of the refrigerator serving as a refrigeration device is generally deeper in the structural design of the product, and the deeper storage space is inconvenient for illumination in the refrigerator body. When the light source of the environment can not directly irradiate the inside of the cabinet body, the light is often blocked by the high and wide cabinet body and can not irradiate the articles in the box body. The lighting system is added in the refrigerator to realize an important function of forming ice-cold products by auxiliary lighting of articles in the refrigerator.

If lighting apparatus directly sets up the auxiliary lighting lamp in the freezer in current, illumination is sheltered from by article easily to influence lighting system's the effect of shining.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a refrigerator to solve not enough among the prior art, it can realize that light source module throws the illumination in to storing space from storing space's outside, what have avoided article in the storing space to cause shelters from to illumination, has reduced the degree of difficulty of refrigerator wiring simultaneously, has optimized structural design.

The utility model provides a refrigerator, include: the refrigerator comprises a cabinet body and a door body, wherein the cabinet body is provided with a storage space, the door body is provided with a cabinet opening part located at the opening position of the storage space, the refrigerator is characterized in that the refrigerator is further provided with a light source module, the light source module comprises a light emitting unit arranged on the cabinet opening part, the light emitting unit is provided with a first position located at the closing state of the door body and a second position located at the opening state of the door body, when the first position is converted to the second position, the light emitting unit moves towards the direction of the cabinet opening part and irradiates towards the storage space when the second position is reached.

Further, the light source module still has the setting and is in module casing on the cabinet body, the light-emitting unit has to be fixed light source, activity on the module casing are in leaded light unit on the module casing, the activity of leaded light unit is in primary importance and second place when the activity of leaded light unit is in the second place, the light of light source outgoing shines towards storing space under the effect of leaded light unit.

Further, the module housing has an accommodating groove, the light source is disposed in the accommodating groove, the light guide unit is accommodated in the accommodating groove at the first position, and the light guide unit is disposed outside the accommodating groove at the second position.

Further, the light guide unit is provided with a bearing part and a light reflecting surface arranged on the bearing part, and when the light guide unit moves to the second position, the plane where the light reflecting surface is located is inclined towards the light source and the storage space.

Furthermore, the bearing piece comprises a light-transmitting body which is rotatably installed on the module shell, and the light-reflecting surface is arranged on one side, deviating from the accommodating groove, of the light-transmitting body or is arranged in the light-transmitting body.

Furthermore, the light-transmitting body is a sector with a sector-shaped cross section, and the sector comprises a first side surface, a second side surface and an arc-shaped surface, wherein the first side surface and the second side surface are arranged in an intersecting manner; the second side face is opposite to the position of the accommodating groove, and the light reflecting face is arranged on the first side face.

Further, the bearing piece comprises a light-transmitting body which is arranged on the module shell in a sliding manner along the opening direction of the accommodating groove; the light reflecting surface is arranged in the light transmitting body.

Further, the printing opacity body has the court the mounting groove that the light source opening set up, reflection of light face sets up in the mounting groove, light guide unit still has the setting and is in light shield layer on the external wall of printing opacity body, in the light shield layer with reflection of light face position department of relative forms the printing opacity window.

Further, the light guide unit is provided with a bearing piece, the bearing piece comprises a light-transmitting body arranged on the module shell in a sliding mode along the opening direction of the accommodating groove and a light-transmitting groove formed in one side, facing the storage space, of the light-transmitting body, and the light-transmitting groove is provided with a bottom wall which is arranged in an inclined mode and faces the light source and the storage space; the light guide unit is also provided with a light reflecting layer arranged on the outer surface of the light transmitting body, and a light transmitting window is formed at the position opposite to the bottom wall on the light reflecting layer.

Further, the light-transmitting body is a glass piece or an acrylic piece.

Further, the light source module still has the piece that resets, it moves and makes the piece that resets save resilience force to carry the thing to set up to the first position under the exogenic action to hold the thing and remove to the second position at the exogenic action withdrawal back, reset under the effect of the piece that resets.

Furthermore, the light source module is also provided with a limiting part arranged on the bearing part, a shell limiting part matched with the limiting part is arranged on the module shell, and when the bearing part moves to the second position, the limiting part and the shell limiting part limit each other.

Further, the light source module is also provided with a module shell arranged on the cabinet body, the light emitting unit comprises a light source which is movably arranged on the module shell, and the light source is movably arranged between a first position and a second position;

the module shell is provided with a containing groove, the light source is contained in the containing groove at the first position, and the light source is arranged outside the containing groove at the second position.

Furthermore, the light source module is also provided with a light source supporting piece rotatably installed on the module shell, the light source is fixed at one end, far away from the module shell, of the light source supporting piece, and when the light source moves to the second position, the supporting piece inclines towards the storage space.

Furthermore, the light source module is further provided with a light source supporting piece which is arranged on the module shell in a sliding mode along the opening direction of the accommodating groove, the light source supporting piece faces to the arranging groove arranged on one side of the storage space, the arranging groove is provided with an installing surface which is arranged in an inclined mode towards the storage space, and the light source is fixed on the installing surface.

Further, the light source module still has the rotation and installs light source support piece on the module casing is installed with rotating the connecting piece that light source support piece kept away from module casing one end, the light source sets up the connecting piece is towards one side of storing space, when changing to the first position from the second position, the connecting piece to the light source support piece direction is gathered together, light source support piece court the cabinet mouth spare direction is gathered together.

Furthermore, the light source module comprises a telescopic rod arranged on the module shell in a sliding mode along the opening direction of the accommodating groove, a light source supporting piece arranged on the telescopic rod in a sliding mode along the extending direction of the telescopic rod, and a light source arranged on the light source supporting piece.

Compared with the prior art, the embodiment of the utility model provides an on the light-emitting unit of light source module sets up on the cabinet mouth spare of the cabinet body, and the cabinet mouth spare is owing to set up the open position at storing space, can realize that light source module throws the illumination in to storing space from storing space's outside to effectual article of having avoided in the storing space cause to irradiant sheltering from, simultaneously, set the light-emitting unit into the folding of realization light-emitting unit that mobilizable can be convenient and hide, make occupation storing space as few as possible.

Drawings

Fig. 1 is a schematic structural view of a refrigerator according to a first embodiment of the present invention when a door is opened;

fig. 2 is a schematic structural view of a refrigerator according to a first embodiment of the present invention when a door is closed;

fig. 3 is a schematic structural view of a first light source module in a refrigerator disclosed in an embodiment of the present invention when a door body is opened;

fig. 4 is a schematic structural view of a first light source module in a refrigerator disclosed in an embodiment of the present invention when a door body is closed;

FIG. 5 is a right side view of FIG. 3;

fig. 6 is a schematic structural view of a refrigerator according to a second embodiment of the present invention when a door is opened;

fig. 7 is a schematic structural view of a refrigerator according to a second embodiment of the present invention when a door is closed;

fig. 8 is a schematic structural view of a second light source module in the refrigerator disclosed in the embodiment of the present invention when the door body is opened;

fig. 9 is a schematic structural view of a second light source module in the refrigerator disclosed in the embodiment of the present invention when the door is closed;

fig. 10 is a schematic structural view of a refrigerator according to a third embodiment of the present invention when a door is opened;

fig. 11 is a schematic structural view of a refrigerator according to a third embodiment of the present invention when the door is closed;

fig. 12 is a schematic structural view of a third light source module in the refrigerator disclosed in the embodiment of the present invention when the door body is opened;

fig. 13 is a schematic structural view of a third light source module in the refrigerator disclosed in the embodiment of the present invention when the door is closed;

fig. 14 is a schematic structural view of a refrigerator according to a fifth embodiment of the present invention when a door is opened;

fig. 15 is a schematic structural view of a refrigerator according to a fifth embodiment of the present invention when the door is closed;

fig. 16 is a schematic structural view of a fifth light source module in the refrigerator disclosed in the embodiment of the present invention when the door body is opened;

fig. 17 is a schematic structural view of a fifth light source module in the refrigerator disclosed in the embodiment of the present invention when the door is closed;

fig. 18 is a schematic structural view of a refrigerator according to a sixth embodiment of the present invention when a door is opened;

fig. 19 is a schematic structural view of a refrigerator according to a sixth embodiment of the present invention when the door is closed;

fig. 20 is a schematic structural view of a sixth light source module in the refrigerator disclosed in the embodiment of the present invention when a door body is opened;

fig. 21 is a schematic structural view of a sixth light source module in the refrigerator disclosed in the embodiment of the present invention when the door body is closed;

fig. 22 is a schematic structural view of the sixth light source module according to the embodiment of the present invention, which is laterally installed on the side wall of the refrigerator and then the door is opened;

fig. 23 is a schematic structural view of the sixth light source module according to the embodiment of the present invention, which is laterally installed on the side wall of the refrigerator and then the door is closed;

fig. 24 is a schematic structural view of a refrigerator according to a seventh embodiment of the present invention when a door is opened;

fig. 25 is a schematic structural view of a refrigerator according to a seventh embodiment of the present invention when the door is closed;

fig. 26 is a schematic structural view of a seventh light source module in the refrigerator disclosed in the embodiment of the present invention when a door body is opened;

fig. 27 is a schematic structural view of a seventh light source module in the refrigerator disclosed in the embodiment of the present invention when the door body is closed;

FIG. 28 is a right side view of FIG. 26;

fig. 29 is a schematic structural view of the seventh light source module according to the embodiment of the present invention, which is laterally installed on the side wall of the refrigerator and when the door body is opened;

fig. 30 is a schematic structural view of the seventh light source module according to the embodiment of the present invention, which is laterally installed on the side wall of the refrigerator and then the door is closed;

fig. 31 is a schematic structural view of a refrigerator according to an eighth embodiment of the present invention when a door is opened;

fig. 32 is a schematic structural view of a refrigerator according to an eighth embodiment of the present invention when the door is closed;

fig. 33 is a schematic structural view of an eighth light source module in the refrigerator disclosed in the embodiment of the present invention when the door body is opened;

fig. 34 is a schematic structural view of an eighth light source module in the refrigerator disclosed in the embodiment of the present invention when the door body is closed;

fig. 35 is a schematic structural view of a refrigerator according to a ninth embodiment of the present invention when a door is opened;

fig. 36 is a schematic structural view of a refrigerator according to a ninth embodiment of the present invention when the door is closed;

fig. 37 is a schematic structural view of a ninth light source module in the refrigerator disclosed in the embodiment of the present invention when the door body is opened;

fig. 38 is a schematic structural view of a ninth light source module in the refrigerator disclosed in the embodiment of the present invention when the door is closed;

fig. 39 is a schematic structural view of a light source module according to another embodiment of the refrigerator disclosed in the embodiment of the present invention when a door is closed;

fig. 40 is a schematic structural view of a light source module according to another embodiment of the refrigerator disclosed in the embodiment of the present invention when a door body is opened;

description of reference numerals: 1-cabinet body, 10-storage space, 11-cabinet mouth piece, 12-cabinet body, 2-door body, 3-light source module, 30-containing groove, 31-module shell, 311-shell limiting part, 32-light source,

33-a light guide unit, 331-a bearing part, 3311-a first side surface, 3312-a second side surface, 3313-an arc surface, 3314-a light transmission groove, 332-a light reflection surface, 333-a light shielding layer, 334-a light inlet side, 335-a light transmission window, 336-a light reflection layer, 337-a limiting part, 34-a waterproof layer, 35-a resetting part, 36-a light source supporting part, 361-a placing groove, 37-a light source mounting plate, 38-a connecting plate, 39-a telescopic rod, 4-a first contact and 5-a second contact.

Detailed Description

The embodiments described below by referring to the drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention.

The embodiment of the utility model provides a: as shown in fig. 1-40, a refrigerator is disclosed, comprising: a cabinet body 1 formed with a storage space 10 and a door body 2 opening or closing the storage space 10, the cabinet body 1 having a cabinet opening 11 at an opening position of the storage space 10,

the freezer still has light source module 3, light source module 3 is including setting up the light-emitting unit on cabinet mouthful piece 11, the light-emitting unit has the first position under the door body 2 is in the closed condition and the second position under the door body 2 is in the open mode, when changing from the first position to the second position, the light-emitting unit removes towards the direction of keeping away from cabinet mouthful piece 11 to when the second position, the light-emitting unit shines towards storage space.

It is understood that the cabinet body 1 further has a cabinet body 12, the storage space 10 is formed on the cabinet body 12, the counter opening 11 is disposed at an opening position of the cabinet body 12, and it is understood that the cabinet body 12 includes an outer shell, an inner container fixed on the outer shell, and a foaming layer filled between the inner container and the outer shell.

Set up light source module 3's light-emitting unit on the cabinet mouth spare 11 of the cabinet body in this embodiment, and cabinet mouth spare 11 is owing to set up the open position at storing space 10, can realize that light source module 3 throws the illumination in to storing space 10 from storing space's outside, thereby the effectual article of having avoided in the storing space cause to irradiant sheltering from, simultaneously, set the light-emitting unit into mobilizable folding the hiding of realization light-emitting unit that can be convenient, make as few as possible occupy storing space. Compare in addition in the scheme with light source module setting on the door body, can reduce the degree of difficulty of wiring under the prerequisite that produces less influence to the illumination effect, optimize structural design.

Further, the light source module 3 still has the setting and is in module casing 31 on the cabinet body, the light-emitting unit has to be fixed light source 32, the activity on the module casing 3 are in leaded light unit 33 on the module casing 31, leaded light unit 33 activity is in primary importance and second place leaded light unit 33 activity is when the second place, the light of light source 32 outgoing shines towards the storing space under leaded light unit 33's effect.

This embodiment is through fixing light source 32 on module casing 31, then the change that the light that realizes light source 32 outgoing carries out the direction through light guide unit 33 to set light guide unit 33 to mobilizable, can make light guide unit 33 fold or shrink when door body 2 is under the state of closing, thereby avoided taking more storing space 10's space, light guide unit 33 only extends to the second position when door body 2 opens, so that lead the light of light source 32 outgoing to in storing space 10 when the second position.

The light source 32 and the light guide unit 33 are conveniently integrated on the module shell 31 through the module shell 31, the light source 32 and the light guide unit 33 are firstly integrated on the module shell 31 and then the integrated assembly is installed and fixed on the cabinet body 1, and therefore the light source module 3 can be more conveniently installed and fixed on the cabinet body 1. The light guide unit 33 and the light source 32 may be directly and independently mounted and fixed to the counter opening member 11.

Further, the module housing 31 has a receiving groove 30, the light source 32 is disposed in the receiving groove 30, the light guide unit is received in the receiving groove 30 at the first position, and the light guide unit is disposed outside the receiving groove 30 at the second position.

The accommodating groove 30 is formed in the module housing 31, so that the accommodating of the light guide unit in the accommodating groove 30 can be conveniently realized, and after the light guide unit is accommodated in the accommodating groove 30, the outer surface of the light guide unit does not protrude out of the inner side wall of the cabinet body, so that the light guide unit 33 can be folded and accommodated well.

Light source 32 sets up the tank bottom at storage tank 30, for the setting of better realization light source 32 and avoid condensation or water to the influence of light source, is formed with waterproof layer 34 at the surface of light source after light source 32 sets up, and waterproof layer 34 can be for setting up the outer packaging colloid of light source 32, packaging colloid are waterproof material, through the sealed setting of realization light source 32 that the packaging colloid can be better with light source 32 plastic envelope, avoid steam to the influence of light path, promote light source module 3's stability.

It can be understood that, the module housing 31 may not be provided with the receiving groove 30, the light guiding unit 33 is only closed to the inner side wall of the cabinet 1 when being folded and received, and the light guiding unit 33 may be directly attached to the inner side wall of the cabinet 1, or the light guiding unit 33 is shortened to the inner side wall of the cabinet 1.

It should be noted that, in other embodiments, the receiving groove 30 may also be directly disposed on the cabinet opening 11, the light source 32 is also directly disposed on the cabinet opening 11, and the light guide unit 33 is movable on the cabinet opening 11, in this embodiment, compared to a manner that the light source 32 and the light guide unit 33 are integrally disposed as a module through the module housing 31 and then are mounted and fixed, the assembly process is relatively more complicated and tedious.

In a specific embodiment, as shown in fig. 1 to 13, the light guiding unit 33 has a supporting member 331 and a light reflecting surface 332 disposed on the supporting member 331, and when the light guiding unit 33 moves to the second position, the plane of the light reflecting surface 332 is tilted toward both the light source 31 and the storage space 10.

The bearing member 331 is movably disposed on the module housing 31, the light reflecting surface 332 moves along with the movement of the bearing member 331, and after the bearing member 331 moves to the second position, the light reflecting surface 332 is inclined toward the light source 31 and the storage space 10, so that the light emitted from the light source 31 is reflected by the light reflecting surface 332 and then emitted toward the storage space 10.

The supporting element 331 can be disposed in various ways, as shown in fig. 1 to 5, in the first embodiment, the supporting element 331 includes a light-transmitting body rotatably mounted on the module housing 31, and the light-reflecting surface 332 is disposed on a side of the light-transmitting body away from the accommodating groove 30. The light-transmitting body can be a glass piece or an acrylic piece, and the light-transmitting body is made of glass or acrylic materials and can transmit light. It should be noted that all references to optically transparent bodies in this document are to be understood as meaning bodies formed of the above-mentioned materials, the purpose of which is to enable the light beam to pass through. It should be emphasized that the material of the light-transmitting body is not limited to glass or acrylic material.

In a specific embodiment, the light-transmitting body is a sector with a sector-shaped cross section, and the sector includes a first side surface 3311, a second side surface 3312 and an arc-shaped surface 3313 connecting the first side surface 3311 and the second side surface 3312; the second side surface 3312 is opposite to the accommodating groove 30, and the light reflecting surface 332 is disposed on the first side surface 3311.

The entire surface of the first side surface 3311 is provided with a reflective surface 332, the reflective surface 332 is capable of reflecting light, and in the embodiment, when the sector rotates to the second position, the light emitted from the light source 32 enters the light-transmitting body through the second side surface 3312, is reflected by the reflective surface 332 provided on the first side surface 3311 of the light-transmitting body, and finally exits through the arc surface 3313,

in the first embodiment, the light reflecting surface 332 is disposed on the side of the light transmissive body, as shown in fig. 6-9, and in the second embodiment, the light reflecting surface 332 may be disposed in the light transmissive body, and the light reflecting surface 332 is integrally formed in the light transmissive body.

It is understood that, in order to better reflect light from the reflective surface 332, the first side 3311 of the light-transmissive body further has a light-shielding layer 333 disposed outside the light-emitting surface 332, and the light-shielding layer 333 is disposed to prevent light from penetrating through the reflective surface 332, so as to better reflect light.

In the first and second embodiments, the light-transmitting body is rotatably mounted on the module housing 31, as shown in fig. 10-17, in the third and fourth embodiments, the light-transmitting body is slidably movable on the module housing 31, and specifically, the carrier 331 includes a light-transmitting body slidably disposed on the module housing 31 along the opening direction of the accommodating groove 30; the light reflecting surface 332 is disposed within the light transmissive body.

As shown in fig. 10 to 13, in a third embodiment, the reflective surface 332 is integrally formed in the transparent body, the transparent body is a solid glass or acrylic member, the exterior of the supporting member 331 is formed with a light shielding layer 333, the light shielding layer 333 is attached to the outer surface of the supporting member 331, the light shielding layer 333 is not disposed on the outer surface of the supporting member 331 opposite to the light source 32, so as to form a light entrance side 334 on the supporting member 331, and the light shielding layer 333 is also not disposed on the outer surface of the supporting member 331 on the transmission path of the light reflected by the reflective surface 332 on the supporting member 331, so as to dispose the transparent window 335 at a corresponding position. The light-transmitting window 335 can transmit the light beam reflected by the light-reflecting surface 332 to the storage space 10.

In the fourth embodiment, the light-transmitting body is hollow, the light-transmitting body has a mounting groove disposed toward the opening of the light source 32, the light-reflecting surface 332 is disposed in the mounting groove, the light-guiding unit 33 further has a light-shielding layer 333 disposed on an outer wall of the light-transmitting body, and a light-transmitting window 335 is formed in the light-shielding layer 333 opposite to the light-reflecting surface 332. The light reflecting surface 332 is provided obliquely to both the light source 32 and the storage space 10, and light emitted from the light source 32 is reflected by the light reflecting surface 332 and then irradiated into the storage space 10.

In all of the above four embodiments, the light guiding unit 33 changes the direction of the light emitted from the light source 32 by the obliquely arranged light reflecting surface 332. The light reflecting surfaces 332 are flat surfaces, and the light reflecting surfaces 332 may be a light emitting coating formed on the supporting member 331, or may be disposed on a light reflecting plate, and then the light reflecting plate is fixed on the supporting member 331. Of course, in other embodiments, the direction of the light source 32 may be changed without providing the planar light reflecting surface 332, and the light reflecting layer 336 disclosed in the fifth embodiment may be adopted, in which the light reflecting layer 336 is formed outside the light transmitting body.

Specifically, as shown in fig. 14 to 17, in the fifth embodiment, the light guiding unit 33 has a carrier 331, the carrier 331 includes a light-transmitting body slidably disposed on the module housing 31 along the opening direction of the accommodating slot 30 and a light-transmitting slot 3314 formed on a side of the light-transmitting body facing the storage space 10, and the light-transmitting slot 2214 is concavely disposed on a side wall of the carrier 331 facing the storage space 10.

The light-transmitting groove 3314 has a bottom wall inclined toward both the light source 32 and the storage space 10; the light guide unit is further provided with a light reflecting layer 336 arranged on the outer surface of the light transmitting body, and a light transmitting window 335 is formed on the position, opposite to the bottom wall, of the light reflecting layer 336.

It can be understood that a light inlet side is disposed on a side of the light transmissive body opposite to the light source 32, the light reflective layer 336 is not disposed at a position outside the light transmissive body opposite to the light inlet side, and the light beam emitted from the light source 32 can conveniently enter the light transmissive body and be reflected by the light reflective layer 336 in the light transmissive body without the light reflective layer 336 disposed at the light inlet side.

The above structure is designed such that the light-reflecting layer 336 is not disposed on the outer surface of the light-transmitting body opposite to the position of the light-transmitting window 225 and the outer surface of the light-transmitting body opposite to the position of the light-entering side, so that the light emitted from the light source 32 is reflected by the light-reflecting layer 336 at other positions and finally exits into the storage space 10 through the light-transmitting window 335.

It should be noted that in the above five embodiments, the light emitting unit is moved between the first position and the second position by controlling the light guiding unit 33, and the light guiding unit 33 can move up and down telescopically along the top of the counter opening part or rotate up and down along the top of the counter opening part during the movement process. Of course, the light guide unit 33 can also be moved telescopically along the side wall of the counter-mouth piece 11 in the lateral direction, or be rotated in the lateral direction along the side wall of the counter-mouth piece.

Correspondingly, the accommodating groove 30 may be disposed at the top of the mouth piece 11 and be opened upward, and the light source 32 irradiates upward. Or the receiving groove 30 is disposed on the sidewall of the cabinet opening 11 and directly exposed toward the storage space 10, and the light source 32 is laterally irradiated into the storage space 10. The light source 32 is arranged to convert the emitted light into light in an oblique direction through the light guide unit 33 and irradiate the light into the storage space 10.

Further, in the five embodiments, the light source module 3 has the reset member 35, and the carrier 331 is configured to move to the first position by an external force and to cause the reset member 35 to accumulate a resilient force, and to move to the second position by the reset member 35 after the external force is removed.

When the door body is closed, the acting force for closing the door body acts on the bearing piece 331, the bearing piece 331 moves from the second position to the first position, the restoring piece 35 accumulates resilience force in the moving process, when the door body is opened, the acting force acting on the bearing piece 331 is cancelled, and the bearing piece 331 resets and moves from the first position to the second position under the action of the resilience force of the restoring piece 35.

When the carrier 331 is rotatably mounted on the module housing 31, the reset member 35 may be a torsion spring, and two ends of the torsion spring respectively abut against the module housing 31 and the carrier 331. When the carrier 331 is slidably disposed on the module housing 31 along the opening direction of the accommodating groove 30, the reset member 35 is a compression spring, and two ends of the compression spring are respectively abutted to the bottom of the accommodating groove 30 and the carrier 331. It should be noted that the two manners are only examples of specific implementation of the resetting element 35, and do not limit the resetting element 35, and the resetting element 35 may be set to other corresponding manners based on the capability of those skilled in the art, and will not be described herein again.

The light source module 3 further has a limiting portion 337 disposed on the bearing 331, the module housing 31 is provided with a housing limiting portion 311 adapted to the limiting portion 337, and when the bearing 331 moves to the second position, the limiting portion 337 and the housing limiting portion 311 limit each other.

The maximum stroke of the supporting member 331 extending and moving to the outside of the accommodating groove can be limited by the matching of the limiting portion 337 and the limiting portion 311 of the housing, that is, after the limiting portion 337 abuts against and is limited by the limiting portion 311 of the housing, the supporting member 331 is located at the second position.

In the actual use process, the power of the bearing 331 from the first position to the second position is derived from the reset acting force of the reset piece 35, and the force of the reset piece 35 is uncontrollable, so that the light guide unit 33 can be better controlled to move to the second position by arranging the limiting part 337 and the housing limiting part 311.

In the first five embodiments, the light emitting unit is moved in a telescopic manner by moving the light guide unit 33, and in the sixth to ninth embodiments, the light emitting unit is moved between the first position and the second position by directly controlling the light source 32 to move in a telescopic manner.

In a sixth embodiment, as shown in fig. 18 to 23, the light source module 3 further has a module housing 31 disposed on the cabinet 1, the light emitting unit includes a light source 32 movable on the module housing 31, and the light source 32 is movable between a first position and a second position;

the module housing 31 has a receiving groove 30, and in the first position, the light source 32 is received in the receiving groove 30, and in the second position, the light source 32 is disposed outside the receiving groove 30.

Specifically, the light source module 3 further has a light source supporting member 36 rotatably mounted on the module housing 31, the light source 32 is fixed at one end of the light source supporting member 36 away from the module housing 31, and when the light source 32 moves to the second position, the plane of the light source supporting member 36 is inclined toward the storage space 10, so that the light source 32 irradiates toward the storage space 10.

In another embodiment, the light source module 3 further has a light source mounting plate 37 disposed on the light source support 36, the light source mounting plate 37 is fixed on the light source support 36, and when the light emitting unit moves to the second position, the plane of the light source mounting plate 37 irradiates towards the storage space 10.

In other embodiments, the light source support 36 may further include a light-transmitting body, and the light source 32 may be installed and fixed on a side of the light-transmitting body facing away from the receiving groove 30, or the light source 32 is directly fixed in the light-transmitting body, and the light source 32 may be integrally formed in the light-transmitting body. The light-transmitting body can be provided with a light shielding part or a light reflecting part in the direction deviating from the irradiation direction of the light source 32, so that the light source can irradiate towards the storage space more.

In the sixth embodiment, the light source supporting member 36 is rotatably mounted on the module housing 31, and the light source supporting member 36 can also be slidably mounted on the module housing 31.

Specifically, as shown in fig. 24 to 28, in the seventh embodiment, the light source module 3 further includes a light source supporting member 36 slidably disposed on the module housing 31 along the opening direction of the accommodating groove 30, the light source supporting member 36 faces a disposition groove 361 disposed on one side of the storage space 10, the disposition groove 361 has a mounting surface disposed obliquely toward the storage space 10, and the light source 32 is fixed on the mounting surface.

It is understood that in the above sixth and seventh embodiments, the movement of the light emitting unit at the first position and the second position is realized by controlling the direct movement of the light source 32, and the light source 32 can make the light source supporting member 36 for fixing the light source 32 move up and down telescopically along the top of the counter 11 or rotate up and down along the top of the counter 11 during the movement. Of course, the light source 32 may be telescopically movable along the side walls of the counter piece 11 in a lateral direction, or rotatable along the side walls of the counter piece in a lateral direction.

Correspondingly, the accommodating groove 30 may be disposed at the top of the counter opening 11 and opened upward. Or the receiving groove 30 is disposed on a sidewall of the cabinet opening 11 and directly exposed toward the storage space 10.

The light source supporting member 36 may also be provided with a corresponding resetting member and a corresponding limiting member, and the resetting member and the limiting member are consistent with the limiting bearing member 331, which is not described herein again.

In another embodiment, as shown in fig. 39 and 40, the light source supporting member 36 is slidably disposed on the mouth piece 11 and slidably disposed on the top of the mouth piece 11 along the horizontal direction, the light source supporting member 36 is slidably disposed toward the storage space 10 and has a second position extending in the storage space 10 and a first position contracting on the top of the mouth piece 11, the light source supporting member is provided with a first contact, the mouth piece 11 is provided with a second contact 5, and in the second position, the first contact 4 is in contact with the second contact 5.

In the sixth and seventh embodiments, the light source 32 moves, whether telescopic movement or rotational movement is achieved by one telescopic movement or one rotational movement, and in other embodiments, the control of the movement of the light source 32 can be achieved by multiple telescopic movements or folding movements.

Specifically, as shown in fig. 31 to 34, in the eighth embodiment, the light source module 3 further includes a light source supporting member 36 rotatably mounted on the module housing 31 and a connecting member 38 rotatably mounted at an end of the light source supporting member 36 away from the module housing 31, the light source 32 is disposed at a side of the connecting member 38 facing the storage space 10, when the second position is switched to the first position, the connecting member 38 gathers or contracts toward the light source supporting member 36, and the light source supporting member 36 gathers or contracts toward the direction of the counter 11. In this embodiment, the light source supporting member is moved and contracted by folding.

In a ninth embodiment, as shown in fig. 35 to 38, the light source module 3 includes an expansion link 39 slidably disposed on the module housing 31 along the opening direction of the accommodating groove 30, a light source support 36 slidably disposed on the expansion link 39 along the extending direction of the expansion link 39, and a light source 32 disposed on the light source support 36. The light source support 36 is rod-shaped and extends along the extending direction of the light source support 36, and the light source support 36 is slidably disposed on the telescopic rod 39.

In the sixth and seventh embodiments, the light source 32 performs one telescopic movement, and in the eighth and ninth embodiments, the light source 32 moves on the module housing 31 by two telescopic foldings.

It can be understood that, in this embodiment, the light source 32 may be an LED lamp panel, and in order to control the opening of the light source 32 only when the door body is opened, the refrigerator further has a switch unit.

The switch unit can be independently arranged, and can be a sector switch, a cylindrical switch or a Hall switch arranged on the cabinet body 1. After the door body is opened, the switch unit is connected with a power supply loop of the light source, the light source is lightened, when the door body is closed, the door body moves downwards, the switch unit is disconnected, and the light source is extinguished.

The switch unit may be integrated with the light emitting unit, and specifically, in the first five embodiments, the light emitting unit is controlled by the light guide unit 33 to move on the cabinet body, so as to enable the light emitting unit to be retracted into the accommodating slot 30 by Rong Zhebi and extended out of the accommodating slot 30.

The switch unit may include a first contact 4 disposed on the carrier 331 and a second contact 5 disposed on the module case 31, and when the carrier 331 moves to the second position, the first contact 4 contacts the second contact 5, and the light source 32 is turned on to emit light. When the carrier 331 moves to the first position, the first contact 4 is disconnected from the second contact 5, the light source 32 is turned off, and the first contact 4 can move along with the movement of the carrier 331.

For the following sixth to ninth embodiments, the light emitting unit is moved in a telescopic manner by controlling the light source 32 to move directly, when the light emitting unit and the light emitting unit are integrally disposed, the switch unit may include a first contact 4 disposed on the light source support 36 and a second contact 5 disposed on the module housing 31, and when the light source support 36 moves to the second position, the first contact 4 contacts with the second contact 5, and the light source 32 is turned on to emit light. When the light source support 36 moves to the first position, the first contact 4 is disconnected from the second contact 5, the light source 32 is turned off, and the first contact 4 can move along with the movement of the light source support 36.

The structure, features and effects of the present invention have been described in detail above according to the embodiment shown in the drawings, and the above description is only the preferred embodiment of the present invention, but the present invention is not limited to the implementation scope shown in the drawings, and all changes made according to the idea of the present invention or equivalent embodiments modified to the same changes should be considered within the protection scope of the present invention when not exceeding the spirit covered by the description and drawings.

Claims (17)

1. A refrigerator, comprising: the refrigerator comprises a cabinet body and a door body, wherein the cabinet body is provided with a storage space, the door body is provided with a cabinet opening part located at the opening position of the storage space, the refrigerator is characterized in that the refrigerator is further provided with a light source module, the light source module comprises a light emitting unit arranged on the cabinet opening part, the light emitting unit is provided with a first position located at the closing state of the door body and a second position located at the opening state of the door body, when the first position is converted to the second position, the light emitting unit moves towards the direction of the cabinet opening part and irradiates towards the storage space when the second position is reached.

2. The refrigerator of claim 1 wherein: the light source module still has the setting and is in module casing on the cabinet body, the light-emitting unit has to be fixed light source on the module casing, activity are in leaded light unit on the module casing, leaded light unit activity is in primary importance and second place leaded light unit activity is when the second place, the light of light source outgoing shines towards storing space under leaded light unit's effect.

3. The cooler of claim 2, wherein: the module shell is provided with an accommodating groove, the light source is arranged in the accommodating groove, the light guide unit is accommodated in the accommodating groove at the first position, and the light guide unit is arranged outside the accommodating groove at the second position.

4. The cooler of claim 3, wherein: the light guide unit is provided with a bearing piece and a reflecting surface arranged on the bearing piece, and when the light guide unit moves to the second position, the plane of the reflecting surface is inclined towards the light source and the storage space.

5. The refrigerator of claim 4 wherein: the carrier is including rotating the installation and being in transparent body on the module casing, the reflection of light face sets up transparent body deviates from one side of storage tank or the reflection of light face sets up in the transparent body.

6. The cooler of claim 5, wherein: the light-transmitting body is a sector with a sector-shaped cross section, and the sector comprises a first side surface, a second side surface and an arc-shaped surface, wherein the first side surface and the second side surface are arranged in an intersecting manner; the second side face is opposite to the accommodating groove, and the light reflecting face is arranged on the first side face.

7. The cooler of claim 4, wherein: the bearing piece comprises a light-transmitting body which is arranged on the module shell in a sliding mode along the opening direction of the accommodating groove; the light reflecting surface is arranged in the light transmitting body.

8. The cooler of claim 7, wherein: the light-transmitting body has the court the mounting groove that the light source opening set up, the reflection of light face sets up in the mounting groove, light guide unit still has the setting and is in light-transmitting body light shield layer on the outer wall, in the light shield layer with reflection of light face position department of relative formation printing opacity window.

9. The refrigerator of claim 3 wherein: the light guide unit is provided with a bearing piece, the bearing piece comprises a light-transmitting body arranged on the module shell in a sliding mode along the opening direction of the accommodating groove and a light-transmitting groove formed in one side, facing the storage space, of the light-transmitting body, and the light-transmitting groove is provided with a bottom wall which is arranged in an inclined mode and faces the light source and the storage space; the light guide unit is also provided with a reflecting layer arranged on the outer surface of the light transmitting body, and a light transmitting window is formed on the reflecting layer at the position opposite to the bottom wall.

10. The refrigerator of any one of claims 5 to 9 wherein: the light-transmitting body is a glass piece or an acrylic piece.

11. The refrigerator of any one of claims 4 to 9 wherein: the light source module still has the piece that resets, it moves and makes the piece that resets save resilience force to hold the piece and set up to move to first position under the exogenic action to hold carrier to after the exogenic action is cancelled, reset under the effect of the piece that resets and move to the second position.

12. The refrigerator of any one of claims 4 to 9 wherein: the light source module is characterized in that the light source module is also provided with a limiting part arranged on the bearing piece, a shell limiting part matched with the limiting part is arranged on the module shell, and when the bearing piece moves to the second position, the limiting part and the shell limiting part are mutually limited.

13. The cooler of claim 1, wherein: the light source module is also provided with a module shell arranged on the cabinet body, the light emitting unit comprises a light source which is movably arranged on the module shell, and the light source is movably arranged between a first position and a second position;

the module shell is provided with a containing groove, the light source is contained in the containing groove at the first position, and the light source is arranged outside the containing groove at the second position.

14. The cooler of claim 13, wherein: the light source module is also provided with a light source supporting piece rotatably installed on the module shell, the light source is fixed at one end, far away from the module shell, of the light source supporting piece, and when the light source moves to the second position, the supporting piece inclines towards the storage space.

15. The cooler of claim 13, wherein: the light source module is characterized in that the light source module is further provided with a light source supporting piece arranged on the module shell in a sliding mode along the opening direction of the accommodating groove, the light source supporting piece faces to a placing groove arranged on one side of the storage space, the placing groove is provided with an installing surface arranged in an inclined mode towards the storage space, and the light source is fixed on the installing surface.

16. The cooler of claim 13, wherein: the light source module is characterized in that the light source module is further provided with a light source supporting piece which is rotatably installed on the module shell and a connecting piece which is rotatably installed at one end, far away from one end of the module shell, of the light source supporting piece, the light source is arranged on one side, facing the storage space, of the connecting piece, when the light source module is converted from the second position to the first position, the connecting piece gathers together towards the direction of the light source supporting piece, and the light source supporting piece gathers together towards the direction of the cabinet opening piece.

17. The cooler of claim 13, wherein: the light source module comprises a telescopic rod, a light source supporting piece and a light source, wherein the telescopic rod is arranged on the module shell in a sliding mode along the opening direction of the accommodating groove, the light source supporting piece is arranged on the telescopic rod in a sliding mode along the extending direction of the telescopic rod, and the light source is arranged on the light source supporting piece.

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