This application is a 35 U.S.C. § 371 National Phase conversion of International (PCT) Patent Application No. PCT/CN2016/112821, filed on Dec. 29, 2016, which claims the priority of Chinese Patent Application No. 201610379789.5 filed on May 31, 2016 with a title of “Left-Right Door Opening Mechanism and Refrigerator”, the entire content of which is hereby incorporated in this application by reference. The PCT International Patent Application was filed and published in Chinese.
The present invention relates to the technical field of household appliances, and in particular, to a left-right door opening mechanism and a refrigerator.
At present, for a commercially available refrigerator, a door is generally opened from the left side, and also has the function of opening from the right side, but it is necessary for an after-sales engineer to visit to replace a hinge or change the position of the hinge. This method has higher skill requirements for after-sales maintenance personnel and also reduces the use experience of a user.
In view of the above problems, it is necessary to provide a left-right door opening mechanism and a refrigerator.
In view of the defects of the prior art, the technical problem to be solved by the present invention is to provide a left-right door opening mechanism and a refrigerator, which are capable of opening a door of the refrigerator from the left side or the right side.
In order to solve the above technical problem, the technical solution of the present invention is implemented as follows.
A left-right door opening mechanism comprises first modules symmetrically arranged on the left side and the right side of a door body, and second modules symmetrically arranged on the left side and the right side of a refrigerator body, wherein each first module comprises a mounting bottom plate and gears rotatable on the mounting bottom plate; each first module is provided with an opening; each second module comprises a rack in transmission with the corresponding gear, a hinge used for fixing the rack, a rotating shaft mounted in cooperation with the hinge, and a guiding slider fixedly located below the hinge; when the left-right door opening mechanism is in a locked state, the rotating shafts are accommodated in the openings; the first modules fixedly cooperate with the second modules; when the left-right door opening mechanism is opened from one side, the gear is driven by the rack, and the opening of the first module on this side is gradually opened, such that the rotating shaft on this side is disengaged from the first module; meanwhile, the opening of the first module on the other side is in a locked state to accommodate the rotating shaft on this side.
As an improvement of the present invention, the gears on both sides of the mounting bottom plate are symmetrically mounted; the racks, the hinges, the rotating shafts and the guiding sliders in the second modules are symmetrically mounted; when the left-right door opening mechanism is locked or opened, the two gears rotate in the same direction.
As a further improvement of the present invention, the openings include a first opening on the mounting bottom plate and a second opening on the gear; the mounting bottom plate is provided with a first main body portion having an arc shape; the first main body portion has the first opening that faces the rotating shaft; the gear is provided with a second main body portion having an arc shape; the second main body portion rotates around the first main body portion on the mounting bottom plate; the second main body portion has the second opening that faces the rotating shaft.
As a further improvement of the present invention, a guiding member which extends downwards from the second main body portion is arranged on the gear; the mounting bottom plate is provided with a first guiding groove having an arc shape; the guiding member on the gear moves along the first guiding groove on the mounting bottom plate.
As a further improvement of the present invention, a first attracting portion and a second attracting portion are arranged on two ends of the first guiding groove respectively; when the guiding member is adjacent to the first attracting portion or the second attracting portion, the first attracting portion or the second attracting portion attracts the guiding member.
As a further improvement of the present invention, a first tooth portion and a second tooth portion which are meshed with each other are arranged on the gear and the rack respectively, wherein the first tooth portion is arranged outside the second main body portion; the rack is fixedly arranged; when the gear moves relative to the rack, the first tooth portion rotates to change the orientation of the second opening on the gear.
As a further improvement of the present invention, a buckling portion for a clamping purpose and a limiting portion are arranged on the gear and the rack respectively; when the left-right door opening mechanism is locked, the buckling portion is fixedly clamped with the limiting portion; when the left-right door opening mechanism is opened from one side, the buckling portion and the limiting portion on this side are separated from each other.
As a further improvement of the present invention, the guiding slider is provided with a plurality of limiting members or guiding grooves which are used for limiting or guiding the gear and/or the rack, and a third attracting portion for attracting the rack.
As a further improvement of the present invention, the hinge is mounted between the rack and the guiding slider; the hinge is provided with a plurality of accommodating grooves and/or guiding grooves so as to limit the rack and the guiding slider and/or guide the mounting bottom plate.
Correspondingly, the present invention further discloses a refrigerator which comprises the above-mentioned left-right door opening mechanism.
The present invention has the following beneficial effects:
the first modules and the second modules, which cooperate with each other, are arranged on two sides of the door body and on two sides of the refrigerator body respectively, and therefore, the door can be opened from the left side and the right side at the same time;
it is ensured that the door opening and closing process is smooth and free of blocking and impact noise. The door body is unlikely to fall off during the opening and closing process, and provides an excellent use experience for a user.
To make the objects, technical solutions and advantages of the present invention clearer, the specific embodiments of the present invention are described in detail with reference to the accompanying drawings. Examples of these preferred embodiments are given in the accompanying drawings. The embodiments of the present invention shown in the accompanying drawings and described based on the accompanying drawings are only exemplary and are not intended to limit the present invention.
The terms “left”, “right”, “left side”, “right side”, and the like as used here, which denote spatial relative positions, describe the relationship of a component relative to another component in the accompanying drawings for the purpose of illustration. The terms of the spatial relative positions may be intended to include different orientations of the device in use or operation other than the orientations shown in the accompanying drawings. For example, the units that are described as being located on the “right side” of other units or features will be located on the “left side” of other units or features if the device in the accompanying drawings is turned upside down. Thus, the exemplary term “right side” can encompass both the orientations of left side and right side. The device may be otherwise oriented (rotated by 90 degrees or facing other directions) and the space-related descriptors used here are interpreted accordingly.
As shown in
When the left-right door opening mechanism in the present invention is in a locked state, the rotating shafts 23 are accommodated in the openings. The first modules fixedly cooperate with the second modules. When the left-right door opening mechanism is opened from one side, the gear 12 is driven by the rack 21, and the opening of the first module on this side is gradually opened, such that the rotating shaft 23 on this side is disengaged from the first module. Meanwhile, the opening of the first module on the other side is in a locked state to accommodate the rotating shaft on this side.
The mounting bottom plate 11 in the first module is fixedly mounted on the door body. The gears 12 on both sides of the mounting bottom plate 11 are symmetrically mounted. The racks 21, the hinges 22, the rotating shafts 23 and the guiding sliders 24 in the second modules are symmetrically mounted. When the left-right door opening mechanism is locked or opened, the two gears 12 rotate in the same direction.
The left-right door opening mechanism in the present embodiment will be described below in detail in conjunction with specific components in the first modules and the second modules.
As shown in
Further, a first attracting portion 114 and a second attracting portion 115 are arranged on two ends of the first guiding groove 113 respectively. When the guiding member is adjacent to the first attracting portion or the second attracting portion, the first attracting portion 114 or the second attracting portion 115 attracts the gear.
In addition, a guiding portion 116 having an arc shape is further arranged on the side edge of the mounting bottom plate 11. The guiding portion 116 is matched with the rack 21 and used for guiding and limiting the rack and the mounting bottom plate.
As shown in
A guiding member 123 that extends downwards from the second main body portion 121 is arranged on the gear 12. The guiding member 123 on the gear moves along the first guiding groove 113 on the mounting bottom plate 11. Preferably, the guiding member is made of a metal material (e.g., iron) that can be attracted by a magnet. The first attracting portion 114 and the second attracting portion 115 inside the first guiding groove 113 on the mounting bottom plate 11 are magnets. When the guiding member 123 moves to the vicinity of the first attracting portion 114, the first attracting portion 114 will provide a magnetic force to attract the guiding member. Similarly, when the guiding member 123 moves to the vicinity of the second attracting portion 115, the second attracting portion 115 will provide a magnetic force to attract the guiding member. Of course, in other embodiments, expect for the guiding member that is made of the metal material, the entire gear may also be made of this metal material, and the purpose of attracting the guiding member 123 by the first attracting portion 114 and the second attracting portion 115 may also be achieved.
A first tooth portion 126 is also arranged outside the second main body portion 121 of the gear 12. A rotation is transmitted to the gear 12 through engagement between the first tooth portion 126 and a second tooth portion on the rack. In addition, a first extension portion 124 which extends horizontally outwards from the main body portion is also arranged above the gear 12. A buckling portion 125 which is used for being clamped with a limiting portion on the rack is arranged below the first extension portion 124. The assembly and principle of the first tooth portion 126 and the buckling portion 125 will be described in detail in the section of the rack.
As shown in
A second extension portion 215, a third extension portion 218 and a fourth extension portion 219 are provided on the second stop portion 213, and the second extension portion 215, the third extension portion 218 and the fourth extension portion 219 are extended outwards from the second stop portion 213. The second extension portion 215 is located next to the side of the rotating shaft 23. A second tooth portion 217 is arranged on one side of the second extension portion 215 to face the rotating shaft 23. The second tooth portion 217 is matched with the first tooth portion 126. The rack is fixedly mounted on the refrigerator body. If an outward force is applied to the door body in this case, the gear will move outwards. Meanwhile, the gear will rotate clockwise through the transmission of the first tooth portion and the second tooth portion to gradually change an opening direction of the second opening 122.
The third extension portion 218 and the fourth extension portion 219 extend away from the rotating shaft. The third extension portion 218 abuts against the mounting bottom plate 11. The fourth extension portion 219 abuts against the guiding slider 24. The rack is mounted between the mounting bottom plate and the guiding slider by means of the third extension portion 218 and the fourth extension portion 219.
Further, a third stop portion 214 having an arc shape is further arranged on the side of the fourth extension portion 219. The third stop portion 214 is matched with the guiding portion 116 on the mounting bottom plate 11 so as to control a movement direction of the mounting bottom plate 11.
By reference to
It should be understood that the limiting portion 216 in the present embodiment is arranged on the rack, and the buckling portion 125 is arranged on the gear. In other embodiments, the limiting portion 216 may also be arranged on the gear, but the buckling portion 125 is arranged on the rack, and the mounting relationship thereof corresponds to that in the present embodiment. Similarly, the purpose of clamping the gear and the rack can be achieved, and will not be described in detail again.
As shown in
As shown in
Further, a third guiding groove 247 is also formed on the side of the fifth main body portion 241. A limiting structure on the side of the third guiding groove is limited by the third limiting member 225 on the hinge 22. Correspondingly, as shown in
In the present embodiment, a protrusion 246 is also arranged on the fifth main body portion 241 in a vertically upward manner. The protrusion 246 is in a “Π” shape which corresponds to the shape of the second accommodating groove 224. The protrusion 246 may extend out of the second accommodating groove 224. A third attracting portion 248 is also arranged in the protrusion 246. The third attracting portion 248 has the same principle as the first attracting portion and the second attracting portion and may be made of a magnet. As shown in
By reference to
By reference to
Meanwhile, the guide pillar 2110 located below the rack 21 is accommodated on the innermost side of the third guiding groove 247 on the guiding slider 24. The third extension portion 218 and the fourth extension portion 219 on the rack 21 abut against the side wall of the mounting bottom plate 11 and the protrusion 246 on the guiding slider 24 respectively to keep the rack relatively fixed. In addition, the buckling portion 125 on the rack 21 is fixedly clamped with the limiting portion 216 on the rack 21, so as to further ensure that the gear and the rack are fixed.
By reference to
When the rotating shaft 23 is separated from the second opening 122 on the gear 12 and after the guiding member 123 is separated from the guiding slider through the third opening 245, the gear 12 may be completely separated from the rack 21. The guiding member 123 on the gear 12 in this case moves to the leftmost side of the first guiding groove 113, and is attracted with the second attracting portion 115. The mounting bottom plate 11 and the gear are fixed on the door body. The rack 21, the hinge 22, the rotating shaft 23 and the guiding slider 24 are fixed on the refrigerator body, and therefore the door body and the refrigerator body can be opened by rotating along the rotating shaft on the left side.
When the left-right door opening mechanism is opened from the right side, in the left-right door opening mechanism on the left side, the gear 12 and the rack 21 remains relatively fixed and rotate clockwise on the mounting bottom plate 11 along with the door body. The guiding member 123 on the gear 12 in this case rotates on the guiding slider 24 along the third guiding member 244 in a direction away from the third opening 245. The rack 21 also rotates clockwise along the guiding slider 24, and then the second opening 122 on the gear 12 gradually locks the rotating shaft 23, thereby ensuring that the rotating shaft 23 on the left side is not disengaged from the openings of the gear and the rack. The rotating shaft 23 on the left side acts as the rotating shaft when the door is opened from the right side.
When the door is locked from the right side, the transmission direction of the gear and the rack is opposite from the transmission direction when the door is opened from the right side, will not be described in detail here.
In the present embodiment, a description will be made by taking the case where the door is opened from the right side as an example. Similarly, when the door is opened from the left side, the gear and the rack on the left side are in transmission to gradually expand the second opening on the gear, such that the rotating shaft on the left side is separated from the gear. The guiding member on the left gear rotates to the third opening along the guiding slider, and may be then separated from the guiding slider, thereby achieving the purpose of separating the first module from the second module on the left side. In this case, there is no relative movement between the gear and the rack on the right side. The gear and the rack rotate simultaneously along with the mounting bottom plate. The second opening on the right gear gradually locks the rotating shaft. The rotating shaft on the right side acts as the rotating shaft when the door is opened from the left side. The principle of opening the door from the left side is the same as the principle of opening the door from the right side, and will not be described here.
Similarly, when the door is locked from the left side, the transmission direction of the gear and the rack is opposite to the transmission direction when the door is opened from the left side, and will not be described here in detail.
The left-right door opening mechanism in the present embodiment is described by taking a refrigerator as an example. In other embodiments, the left-right door opening mechanism may be applied to any device comprising a door body and a refrigerator body, such as a wine cabinet, etc., and will not be described in detail here.
As can be seen from the above technical solution, the present invention has the following beneficial effects:
the first modules and the second modules, which cooperate with each other, are arranged on two sides of the door body and on two sides of the refrigerator body, and therefore, the door can be opened from the left side and the right side at the same time;
it is ensured that the door opening and closing process is smooth and free of blocking and impact noise. The door body is unlikely to fall off during the opening and closing process, and provides an excellent use experience for a user.
It should be understood that although the description is described based on the embodiments, not every embodiment includes only one independent technical solution. This statement of the description is only for clarity. Those skilled in the art should treat the description as a whole, and technical solutions in all of the embodiments may also be properly combined to form other embodiments that will be understood by those skilled in the art.
The above detailed description only aims to specifically illustrate the available embodiments of the present invention, and is not intended to limit the protection scope of the present invention. Equivalent embodiments or modifications thereof made without departing from the spirit of the present invention shall fall within the protection scope of the present invention.
Number | Date | Country | Kind |
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201610379789.5 | May 2016 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2016/112821 | 12/29/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2017/206502 | 12/7/2017 | WO | A |
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Number | Date | Country | |
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20190145140 A1 | May 2019 | US |