RU2799679C1 - Hinge and refrigeration equipment - Google Patents

Abstract

FIELD: refrigeration engineering.

SUBSTANCE: hinge and refrigeration equipment are disclosed. The hinge comprises a vertical hinge shaft, the first hinged base and the second hinged base. The first hinged base includes a first mounting plate and a first bushing rotatably coupled to the pivot shaft to allow the first bushing to rotate around the pivot shaft. The lower end of the first bushing is equipped with a first slope inclined downwards. The second hinged base located below the first hinged base includes a second mounting plate and a second bushing fixed to the hinged shaft. The upper end of the second bushing is equipped with an upwardly inclined second slope. The second slope rests against the first slope and interacts with it to enable the first sleeve to move from the first position to the second position in the direction from the second bushing or from the second position to the first position along the direction close to the second bushing when the first bushing rotates around the hinged shaft. The hinged shaft is equipped with the first restrictive groove, the first bushing is equipped with a restrictive protrusion extending into the first restrictive groove to limit the first bushing. Between the first restrictive groove and the end of the hinged shaft remote from the second bushing, a stopper is provided for abutting against the restrictive ledge, and a cutout is provided on the stopper near the upper end of the first restrictive groove, through which the restrictive ledge passes.

EFFECT: providing the possibility of automatic closing of the door under its own weight.

9 cl, 13 dwg

Description

CROSS REFERENCES TO RELATED APPLICATIONS

[0001] This application claims priority over Chinese Application No. 202010210537.6, filed March 20, 2020, and entitled "HINGE AND REFRIGERATION EQUIPMENT", the full disclosure of which is incorporated herein by reference.

Technical field

[0002] This disclosure relates to the technical field of refrigeration equipment, in particular to the hinge and refrigeration equipment.

State of the art

[0003] With the development of science and technology and the improvement of people's living standards, refrigeration equipment such as refrigerators become more and more necessary in daily life. As a rule, the door and the body of the refrigerator are hinged. At this point, the hinge is usually formed by assembling together the spring, the hinge shaft, the shaft sleeve, the hinge cap, and other parts. The design is complex and consists of a large number of parts. Many assembly processes are needed, the production efficiency of the hinge is low, which affects the production efficiency of the refrigerator.

[0004] In addition, door sealing strips are additionally provided between the refrigerator body and the door. After the door is closed, the magnet on the door performs a compensatory movement, thereby sealing the door and the refrigerator body. Typically, the hinge shaft is located inside the refrigerator body, making it difficult to adjust the minimum spacing between the refrigerator body and the door seal strips through the hinge shaft in actual production. When the minimum distance between the refrigerator body and the door seal strips is smaller than the travel distance of the door seal strips during the compensating movement, the edges of the door seals tend to curl during the closing process of the door, resulting in poor door sealing and poor cooling effect of the refrigerator.

[0005] Moreover, the conventional hinge can only provide the function of opening and closing the door, but cannot perform the automatic closing function of the door. During the use of the refrigerator by users, the door may not close properly due to the relatively small force applied to the door to close it, which affects the cooling effect of the refrigerator.

The essence of the invention

[0006] The main object of the present invention is to provide a hinge and a refrigeration equipment in order to solve the technical problem that refrigerator doors cannot close automatically.

[0007] In order to solve the above problem, the present invention provides a hinge comprising: a hinge shaft, a first hinge base, and a second hinge base. The articulated shaft is located vertically. The first hinge base includes a first mounting plate and a first bushing connected to the first mounting plate, the first bushing is put on the hinged shaft and connected to the hinged shaft for rotation so that the first bushing can rotate around the hinged shaft, and the lower end of the first bushing is equipped with the first slope inclined downwards. The second hinged base is located under the first hinged base and includes a second mounting plate and a second bushing connected to the second mounting plate. The second sleeve is put on the hinge shaft and fixed on the hinge shaft, and the upper end of the second sleeve is equipped with a second slope inclined upwards, the second slope abuts against the first slope and interacts with it to enable the first sleeve to move from the first position to the second position in the direction from the second bushing or from the second position to the first position along the direction towards the second bushing, when the first bushing rotates around the articulated shaft.

[0008] In an embodiment, the lower end of the first slope is equipped with a first lower limit platform, the upper end of the second slope is equipped with a second upper limit platform, and the second upper limit platform supports the first lower limit platform and holds the second sleeve in the second position.

[0009] In an embodiment, the upper end of the first slope is provided with a first upper limit platform abutting the second upper limit platform, the lower end of the second slope is provided with a second lower limit platform, and the second lower limit platform supports the first lower limit platform and holds the second sleeve in the first position .

[0010] In an embodiment, the upper end of the first slope is equipped with a first upper limit platform abutting the second upper limit platform, the lower end of the second slope is equipped with a second lower limit platform, and the second lower limit platform supports the first lower limit platform and holds the second sleeve in the first position .

[0011] In an embodiment, the pivot shaft is provided with a first stop slot, and the first sleeve is provided with a stop lug extending into the first stop slot to restrict the first sleeve.

[0012] In an embodiment, a stopper is provided between the first stop slot and the end of the pivot shaft distal to the second bushing, the stopper abuts against the stopper lip, and the first stopper slot extends from the stopper towards the second bushing.

[0013] In an embodiment, the expansion path of the first stop slot corresponds to the expansion path of the second slope, with the lower end of the first stop slot adjacent to the second sleeve and the upper end of the first stop slot connected to the stopper.

[0014] In an embodiment, the stopper is provided with a cutout through which the stopper protrusion passes.

[0015] In an embodiment, a notch is provided on the stopper near the upper end of the first restrictive slot.

[0016] In an embodiment, the hinge shaft includes a guide portion and a stop portion, the lower end of the guide portion is inserted into the second bushing and secured to the second bushing, and the upper end of the guide portion is connected to the lower end of the restrictive portion. The upper end of the limiting part is connected with the stopper, the overall diameter of the stopper and the total diameter of the guide part is larger than the total diameter of the restrictive part, and the first limiting groove is formed between the stopper, the restrictive part and the guide part.

[0017] In an embodiment, the hinge further includes a first buffer sleeve fitted onto the pivot shaft, wherein the first buffer sleeve is connected to a second mounting plate and located between the first sleeve and the second sleeve, and the two ends of the cylinder wall of the first buffer sleeve abut respectively against the first bushing and the second bushing.

[0018] In an embodiment, the outer wall of the cylinder of the first buffer sleeve is provided with a reinforcing block located between the first mounting plate and the second mounting plate, wherein the reinforcement block is provided with a slip zone to avoid the first mounting plate.

[0019] In an embodiment, the side of the reinforcement block facing the slip zone is provided with a second stop slot in a position corresponding to the position of the second top stop platform, and the slot wall of the second stop slot abuts against the second mounting plate, limiting the second mounting plate.

[0020] In an embodiment, the slot wall of the second restrictive slot is provided with a plurality of reinforcing ribs spaced along the extension direction of the first buffer sleeve, and a buffer slot is provided between any two adjacent reinforcing ribs.

[0021] In an embodiment, a clamping groove is provided on the side of the reinforcement block away from the slip zone, and the second mounting plate is clamped by the clamping groove.

[0022] In an embodiment, the hinge further includes a second buffer sleeve fitted onto the pivot shaft and positioned between the first sleeve and the first buffer sleeve, wherein an end of the second buffer sleeve is connected to the first sleeve and the other end of the second buffer sleeve abuts against the first buffer sleeve .

[0023] In an embodiment, the second slope is an arcuate convex surface projecting upward, and the first slope is an arcuate concave surface interacting with the second slope.

[0024] The present invention is a refrigeration equipment. The refrigeration equipment comprises a refrigerator body, a door and a hinge. The door is hung on the side of the refrigerator body through a hinge. The hinge includes a hinge shaft, a first hinge base and a second hinge base. The articulated shaft is located vertically. The first hinge base includes a first mounting plate and a first bushing connected to the first mounting plate, the first bushing being put on the hinged shaft and rotatably connected to the hinged shaft so that the first bushing can rotate around the hinged shaft, and the lower end of the first bushing equipped with a downwardly inclined first slope. The second hinged base is located under the first hinged base and includes a second mounting plate and a second bushing connected to the second mounting plate. The second sleeve is put on the hinge shaft and fixed on the hinge shaft, the upper end of the second sleeve is equipped with an upwardly inclined second slope, and the second slope abuts against the first slope and interacts with it to cause the first sleeve to move from the first position to the second position in the direction from the second sleeve or from the second position to the first position along a direction close to the second sleeve as the first sleeve rotates about the pivot shaft. The first mounting plate is detachably connected to the door, and the second mounting plate is detachably connected to the refrigerator body.

[0025] In an embodiment, the first mounting plate is releasably connected to the inner side wall of the door, the second mounting plate is releasably connected to the outer side wall of the refrigerator body, and the hinge shaft is located outside the refrigerator body and the door.

[0026] In an embodiment, an evasion slot is provided on the door at a location corresponding to the position of the hinge shaft to avoid the hinge shaft.

[0027] In an embodiment, a plurality of hinges are spaced along the expansion direction of the refrigerator body.

[0028] In the technical solution of the present invention, the first hinge base, the first hinge base and the hinge shaft are first assembled together in an up-down direction, after which the door is attached to the refrigerator body with a hinge. When the first sleeve is in the first position, the door closes, and when the first sleeve is in the second position, the door opens. When the door is pressed by an external force, the first sleeve rotates counterclockwise around the hinge shaft as viewed from above, and the first slope interacts with the second slope so that the first sleeve rotates and in the meantime moves upward from the first position to the second position. When the external force is removed, the first sleeve tends to automatically close the door by the gravity of the door and moves from the second position to the first position to automatically close the door. Due to the interaction between the first hinge base and the second hinge base, the hinge of this embodiment allows the refrigeration equipment to avoid the defect that the door cannot be closed automatically during use, thus ensuring the cooling effect of the refrigeration equipment.

Description of attached drawings

[0029] In order to more clearly illustrate the technical solutions in accordance with the embodiments of the present invention, the accompanying drawings are briefly presented to describe the embodiments. Obviously, the accompanying drawings in the following description refer only to some embodiments of the present invention, and those skilled in the art can derive other drawings from the accompanying drawings without creative effort.

[0030] FIG. 1 is a schematic view showing a hinge according to an embodiment of the present invention.

[0031] FIG. 2 is a schematic view showing rotation of a hinge according to an embodiment of the present invention.

[0032] FIG. 3 is a schematic view showing a second hinge base assembly with a hinge shaft according to an embodiment of the present invention.

[0033] FIG. 4 is a schematic view of the construction of a first hinge base according to an embodiment of the present invention.

[0034] FIG. 5 is a schematic view of the structure of the second hinge base according to an embodiment of the present invention.

[0035] FIG. 6 is a schematic view of the structure of a refrigeration equipment according to an embodiment of the present invention.

[0036] FIG. 7 is an enlarged view of part A of FIG. 6.

[0037] FIG. 8 is an exploded view of a hinge according to an embodiment of the present invention.

[0038] FIG. 9 is an exploded view of a hinge according to another embodiment of the present invention.

[0039] FIG. 10 is a schematic view of a hinge in one state according to an embodiment of the present invention.

[0040] FIG. 11 is a schematic view of a hinge in another state according to an embodiment of the present invention.

[0041] FIG. 12 is a schematic view of a hinge structure according to another embodiment of the present invention.

[0042] FIG. 13 is a schematic structural view showing a part of a hinge according to an embodiment of the present invention.

[0043] Description of reference numerals:

Reference position Name Reference position Name 100 hinge 321 cutout 1 first pivot base 33 guide part eleven first mounting plate 34 restrictive part 12 first sleeve 4 first decorative cover 121 first slope 5 second decorative cover 122 first lower limit platform 6 first buffer sleeve 123 first upper limit platform 61 reinforcing block 124 restrictive ledge 611 avoidance zone 2 second pivot base 612 second restrictive groove 21 second mounting plate 613 reinforcing rib 22 second sleeve 614 buffer groove 221 second slope 615 clamping groove 222 second upper limit platform 7 second buffer sleeve 223 second lower limit platform 200 refrigeration equipment 3 articulated shaft 210 refrigerator body 31 first limit groove 220 door 32 stopper 2201 slip groove

[0044] the Realization of the purpose, functional characteristics and advantages of the present invention are now described with reference to the accompanying drawings.

Specific Embodiments

[0045] The technical solutions of the embodiments of the present invention will be described in detail below with reference to the accompanying drawings. Obviously, the described embodiments are only some, and not all, embodiments of the present invention. All other embodiments obtained by those skilled in the art from the embodiments of the present invention without imaginative effort fall within the claimed scope of the present invention.

[0046] It should be noted that all direction indicators (such as up, down, left, right, forward, backward...) in the embodiments of the present invention are only used to explain the relative positional relationship, movement or similar components in a certain position (as shown in drawings). If a particular position changes, then the direction indicator changes accordingly.

[0047] In addition, the descriptions associated with, for example, "first" and "second" in the present invention are for descriptive purposes only and cannot be understood as indicating or implying relative importance or indirectly indicating the number of the indicated technical characteristic. Therefore, a feature associated with "first" or "second" may directly or indirectly include at least one such characteristic. In addition, the technical solutions of various embodiments may be combined with each other, however, such combinations should be based on the implementation of specialists in this field of technology. In cases where a combination of technical solutions is inconsistent or cannot be achieved, it should be considered that such a combination of technical solutions does not exist and does not fall within the scope of the present invention.

[0048] The description of the up, down, left, right, forward, and back orientations is based on the orientations shown in FIG. 6 and is used only to explain the relative position relationship between the devices in the position shown in FIG. 6. If a particular position changes, then the direction indicators change accordingly.

[0049] The present invention provides a hinge.

[0050] As shown in FIG. 1, in an embodiment of the present invention, the hinge 100 includes a hinge shaft 3, a first hinge base 1, and a second hinge base 2. The hinge shaft 3 is positioned vertically, and the first hinge base 1 includes a first mounting plate 11 and a first sleeve 12 connected with the first mounting plate 11. The first sleeve 12 is put on the hinge shaft 3 and is connected to the hinge shaft 3 with the possibility of rotation to allow rotation of the first sleeve 12 around the hinge shaft 3. The lower end of the first sleeve 12 is equipped with a first slope 121 inclined downward. The second hinge base 2 is located under the first hinge base 1. The second hinge base 2 includes a second mounting plate 21 and a second sleeve 22 connected to the second mounting plate 21. The second sleeve 22 is put on the hinge shaft 3 and fixed on the hinge shaft 3. The upper end of the second sleeve 22 is provided with an upwardly inclined second slope 221. The second slope 221 abuts against and cooperates with the first slope 121 so that as the first sleeve 12 rotates around the pivot shaft 3, the first sleeve 12 moves from the first position to the second position in the direction away from the second sleeve 22. or from the second position to the first position along the direction close to the second sleeve 22.

[0051] In this embodiment, the first hinge base 1 and the second hinge base 2 may be made from sheet metal or formed by injection molding or other methods. The inner diameter of the first sleeve 12 is larger than that of the second sleeve 22 to facilitate assembly of the hinge 100. The hinge 100 of this embodiment is mainly used in refrigeration equipment 200 such as refrigerators, freezers, wine cabinets, or the like, wherein the hinge 100 is configured to articulate the door 220 of the refrigeration equipment 200 to the body 210 of the refrigerator of the refrigeration equipment 200.

[0052] When it is necessary to assemble the refrigeration equipment 200 of this embodiment, the second sleeve 22 is first slid onto the hinge shaft 3, after which the second sleeve 22 is fixed on the hinge shaft 3 by interference fit or etching on the surface of the hinge shaft 3. Then the first sleeve 12 is put on the hinge shaft 3 so that the first sleeve 12 and the second hinge sleeve 22 are sequentially located on the hinge shaft 3 along the extension direction of the hinge shaft 3. The second mounting plate 21 is connected to the refrigerator body 210, and the door 220 is connected to the first mounting plate 11 for the hinge fixing the door 220 on the body 210 of the refrigerator. The door 220 can be pressed by an external force causing the first sleeve 12 connected to the door 220 to rotate around the hinge shaft 3, thereby pivoting the door 220 around the hinge 100 and opening or closing the refrigerator body 210. In this embodiment, it is only required to put the first hinge base 1 and the second hinge base 2 on the hinge shaft 3 to complete the assembly of the hinge 100, which not only eliminates a number of parts such as springs and shaft bushings, but also shortens the assembly processes of the hinge 100 and increases hinge production efficiency 100.

[0053] The first hinge base 1, the first hinge base 1, and the hinge shaft 3 are first assembled together in an up-down direction, after which the door 220 is attached to the refrigerator body 210 by the hinge 100. When the first sleeve 12 is in the first position, the door 220 closed, when the first sleeve 12 is in the second position, the door 220 is open. When the door 220 is pressed by an external force, the first sleeve 12 rotates around the hinge shaft 3 counterclockwise as viewed from above, and the first slope 121 interacts with the second slope 221 so that the first sleeve 12 rotates and in the meantime moves upward from the first position to second position. When the external force is removed by the gravity of the door 220, the first sleeve 12 tends to automatically close the door and moves from the second position to the first position to close the door 220 automatically. By cooperating between the first hinge base 1 and the second hinge base 2, the hinge 100 of this embodiment allows the refrigeration equipment 200 to avoid the defect that the door cannot be automatically closed during use, thus ensuring the cooling effect of the refrigeration equipment 200.

[0054] In this embodiment, the lower end of the first slope 121 is equipped with the first lower limit platform 122, and the upper end of the second slope 221 is equipped with the second upper limit platform 222. The second upper limit platform 222 supports the first lower limit platform 122 and holds the second sleeve 22 in the second position.

[0055] When the door 220 in the closed state is pressed counterclockwise by an external force, the first sleeve 12 rotates around the hinge shaft 3 and in the meantime moves upward. When the first sleeve 12 is rotated through a predetermined angle, the first sleeve 12 moves from the first position to the second position, and the second upper limit platform 222 of the second sleeve 22 supports the first lower limit platform 122 of the first sleeve 12 across the plane to prevent the first sleeve 12 from sliding down under gravity. door 220 to close the door and hold the door 220 open. In a preferred embodiment, to facilitate opening of the door 220 by users, the height of the second slope 221 is 22.4 mm and the predetermined angle is not less than 90° and not more than 180°. In this embodiment, due to the interaction of the first slope 121 with the second slope 221 and the interaction of the first lower limit platform 122 with the second upper limit platform 222, the door 220 can not only close automatically, but also hang after turning through a predetermined angle.

[0056] It should be noted that the upper end of the first slope 121 is equipped with the first upper limit platform 123, which abuts against the second upper limit platform 222, and the lower end of the second slope 221 is equipped with the second lower limit platform 223. The second lower limit platform 223 supports the first lower limit platform. platform 122 and holds the second sleeve 22 in the first position. When the door 220 is in the closed state, the second lower limit platform 223 supports the first lower limit platform 122 across the plane, the second upper limit platform 222 supports the first upper limit platform 123 across the plane, and the first sleeve 12 is in the first position, whereby the closed state of the door 220 is stable, and the cooling effect of the refrigeration equipment 200 is improved.

[0057] As shown in FIG. 8 and FIG. 9, in one embodiment, the first stop slot 31 is made on the driveshaft 3 by cutting or laser marking. The first sleeve 12 is provided with a stop lug 124 in a position corresponding to the position of the first stop slot 31. The stop lug 124 extends into the first stop slot 31 to restrict the first sleeve 12. When using a hinge 100, the first sleeve 12 and the second sleeve 22 can rotate relative to each other in horizontal plane to open and close the hinge 100. The first stop slot 31 abuts against the stop lug 124 and limits the stop lug 124 to prevent the second sleeve 22 from separating from the first sleeve 12 in the extension direction of the hinge shaft 3, which not only guarantees the correct use of the hinge 100, but also increases the structural stability of the hinge 100. In this embodiment, the hinge shaft 3, the first hinge base 1, and the second hinge base 2 cooperate with each other to facilitate the assembly of the hinge 100, prevent the first sleeve 12 and the second sleeve 22 from separating from each other, and improve stability. hinge design 100.

[0058] In an embodiment, the stop lip 124 is integral with the first sleeve 12, or the stop lip 124 is releasably connected to the first sleeve 12. In an embodiment, the outer wall of the cylinder of the first sleeve 12 protrudes inwardly, forming a stop lip 124 to integrate the stop lip 124 with the first sleeve 12, which eliminates the process of assembling the first sleeve 12 and the restrictive ledge 124 together. In another embodiment, the restrictive protrusion 124 is a screw. When the screw is screwed in, the stop lug 124 passes through the first sleeve 12 and is inserted into the first stop slot 31, facilitating the picking and assembly of the stop lug 124 with the first sleeve 12.

[0059] In addition, to facilitate the manufacture of the hinge shaft 3 between the first limiting groove 31 and the end of the hinge shaft 3 remote from the second sleeve 22, a stopper 32 is provided, and the stopper 32 abuts against the limiting protrusion 124. The first limiting groove 31 extends from the stopper 32 towards the second sleeve 22. According to this embodiment, the pivot shaft 3 extends in an up and down direction. The first sleeve 12 is positioned above the second sleeve 22. The upper end of the drive shaft 3 is provided with a stopper 32, and the first stop groove 31 extends from top to bottom. When pulling the first sleeve 12 upwards, the stopper 32 abuts against the restrictive ledge 124 to prevent separation of the first sleeve 12 from the second sleeve 22.

[0060] As shown in FIG. 8, in one embodiment, the expansion path of the first stop slot 31 corresponds to the expansion path of the second slope 221. The lower end of the first stop slot 31 is adjacent to the second sleeve 22, and the upper end of the first stop slot 31 is connected to the stop 32. In this embodiment, the first stop slot 31 the groove 31 extends around the outer wall of the hinge shaft 3 and at the same time goes up. The hinge 100 is opened by an external force, and the first sleeve 12 and the second sleeve 22 move away from each other in the vertical direction. In addition, the expansion paths of the first stop groove 31 and the second slope 221 coincide, whereby it can be ensured that the stop protrusion 124 is always in the first stop groove 31, and the first sleeve 12 is limited by the stop protrusion 124. Therefore, separation of the first sleeve 12 and the second sleeves 22 from each other, they always rest against each other and engage with each other.

[0061] As shown in FIG. 8 and FIG. 9, the stopper 32 of this embodiment is provided with a notch 321 through which the stopper lip 124 extends. In addition, in this embodiment, on the stopper 32, the notch 321 is adjacent to the upper end of the first stopper slot 31. The stopper 32 in this embodiment is disc-shaped, and cutout 321 is provided on the edge of stopper 32. When assembling first hinge base 1 and second hinge base 2 together, first sleeve 12 and second sleeve 22 can be rotated relative to each other by a predetermined angle so that limiting lug 124 faces cutout 321, whereupon the first sleeve 12 and the second sleeve 22 can be moved close to each other to insert the stop lug 124 into the first stop slot 31 through the notch 321. Thus, the assembly of the first hinge base 1 with the second hinge base 2 is completed, which facilitates the assembly of the hinge 100. First the sleeve 12 and the second sleeve 22 can be further rotated relative to each other so that the stop lip 124 and the notch 321 are offset from each other, the first stop slot 31 can abut against the stop lip 124 to stabilize the hinge 100 structure. , the first sleeve 12 and the second sleeve 22 can be rotated relative to each other at a predetermined angle so that the restrictive protrusion 124 faces the cutout 321, and the first sleeve 12 and the second sleeve 22 can be moved away from each other to separate the restrictive protrusion 124 from the first restrictive slot 31 through cutout 321. In this way, the second sleeve 22 can be released from the first restrictive slot 31, which facilitates the process of assembling the hinge 100.

[0062] As shown in FIG. 9, in another embodiment, the pivot shaft 3 includes a guide part 33 and a limiting part 34. The lower end of the guide part 33 is inserted into the second sleeve 22 and fixed on the second sleeve 22, and the upper end of the guide part 33 is connected to the lower end of the restrictive part 34. The upper end of the restriction portion 34 is connected to the stopper 32. In addition, the overall diameter of the stopper 32 and the overall diameter of the guide portion 33 are larger than the overall diameter of the restriction portion 34, and thus the first restriction groove 31 is formed between the stopper 32, the restriction portion 34 and guide portion 33. In this embodiment, the length of the restrictive portion 34 is equal to the height of the second slope 221. When the first sleeve 12 rotates relative to the second sleeve 22, the restrictive ledge 124 can always be in the restrictive groove to limit the second sleeve 22 and prevent separation of the first sleeve 12 and the second bushings 22 apart.

[0063] In an embodiment, the hinge 100 further includes a first buffer sleeve 6 fitted onto the hinge shaft 3. The first buffer sleeve 6 is connected to the second mounting plate 21 and is located between the first sleeve 12 and the second sleeve 22. In addition, the two ends of the wall cylinders of the first buffer sleeve 6 abut against the first sleeve 12 and the second sleeve 22, respectively. Obviously, in this embodiment, at the upper end of the first buffer sleeve 6, as shown in FIG. 10 and FIG. 11, a second slope 221 is provided. During the closing or opening of the hinge 100, the first buffer sleeve 6 located between the first sleeve 12 and the second sleeve 22 can perform a buffer function in order to avoid abnormal noise due to poor mating of surfaces during relative rotation between the first sleeve 12 and a second sleeve 22. In this embodiment, the first hinge base 1, the second hinge base 2 and the first buffer sleeve 6 of the hinge 100 are engaged with each other to facilitate assembly of the hinge 100 structure, reduce the noise of the hinge 100, and make opening and closing hinge 100 more smooth.

[0064] In addition, the outer wall of the cylinder of the first buffer sleeve 6 is equipped with a reinforcing block 6, and the reinforcing block 6 is located between the first mounting plate 11 and the second mounting plate 21. In this embodiment, the reinforcement block 61 increases the structural strength of the first buffer sleeve 6 to improve the structural stability and operational stability of the hinge 100. As shown in FIG. 10, during rotation, the first mounting plate 11 resists the reinforcing block 61 and is inclined toward the side of the reinforcing block 61 facing the first mounting plate 11, forming an avoidance zone 611 from the first mounting plate 11. Therefore, not only is the structural strength of the hinge 100 improved, but also smooth opening and closing of the hinge 100 is ensured.

[0065] In an embodiment, the side of the reinforcement block 61 facing the slip zone 611 is provided with a second limit slot 612 in a position corresponding to the position of the second upper limit platform 222. 21. When the second buffer sleeve 7 rotates to the second position with respect to the first buffer sleeve 6, the first setting plate 11, driven by the second buffer sleeve 7, rotates with respect to the second positioning plate 21 and moves into the second limit slot 612. Slot wall of the second limit slot 612 abuts against the first setting plate 11 to limit the position of the first setting plate 11 and prevent excessive rotation of the first setting plate 11. As shown in FIG. 11, the second stop slot 612 of this embodiment has an arcuate shape. The expansion direction of the second limit slot 612 corresponds to the expansion direction of the first setting plate 11. In addition, the length of the second limit slot 612 is equal to the length of the first setting plate 11.

[0066] The slot wall of the second restrictive groove 612 of this embodiment is provided with a plurality of reinforcing ribs 613, with a plurality of reinforcing ribs 613 spaced along the expansion direction of the first buffer sleeve 6. In addition, a buffer groove 614 is provided between any two adjacent reinforcing ribs 613 In this embodiment, the structural strength of the first buffer sleeve 6 is further enhanced by a plurality of reinforcing ribs 613. The reinforcing ribs 613 in this embodiment abut against the first mounting plate 11. When the first mounting plate 11 rotates into the second stop slot 612 and abuts against the reinforcing ribs 613 , the buffer groove 614 can be deformed to absorb the impact of the first mounting plate 11 on the reinforcing plate and prevent damage to the first buffer sleeve 6 due to the impact of the first mounting plate 11, which further enhances the structural strength of the hinge 100.

[0067] It should be noted that the upper end of the first sleeve 12 is closed by the first decorative cover 4, and the lower end of the second sleeve 22 is closed by the second decorative cover 5. When using the hinge 100, the first decorative cover 4 and the second decorative cover 5 can prevent small objects from entering the first bushing 12 or second bushing 22, which may affect the normal operation of hinge 100.

[0068] In this embodiment, on the side of the reinforcement block 61 away from the avoidance zone 611, a clamping groove 615 is provided, and the second mounting plate 21 is clamped by the clamping groove 615. The left side of the reinforcement block 61 is provided with an avoidance zone 611 for avoiding the first mounting plate 11 through the use of an inclined surface. The right side of the reinforcement block 61 is provided with a clamping groove 615 clamped by the second mounting plate 21. After the driveshaft 3 is fixed on the second bushing 22, the first buffer bushing 6 is put on the driveshaft 3 and abuts against the first bushing 12. At the same time, the second mounting plate 21 can be clamped by the clamping groove 615. Once clamped and restrained by the second mounting plate 21, the rotation of the first buffer sleeve 6 relative to the second sleeve 22 can be prevented, thus facilitating assembly of the hinge 100.

[0069] As shown in FIG. 12 and FIG. 13, in an embodiment, the hinge 100 further includes a second buffer sleeve 7 fitted onto the pivot shaft 3. The second buffer sleeve 7 is located between the first sleeve 12 and the first buffer sleeve 6. One end of the second buffer sleeve 7 is connected to the first sleeve 12, and the other end of the second buffer sleeve 7 rests against the first buffer sleeve 6. Both the first buffer sleeve 6 and the second buffer sleeve 7 according to this embodiment may be molded plastic products, and the upper end of the second buffer sleeve 7 may be clamped by the second sleeve 22. Obviously, in another embodiment, the first slope 121 is on the second buffer sleeve 7, and the second slope 221 is on the first buffer sleeve 6. In this embodiment, the first sleeve 12, the second buffer sleeve 7, the first buffer sleeve 6 and the second sleeve 22 in series are put on the hinged shaft 3 in the up-down direction. During the rotation of the second sleeve 22 relative to the first sleeve 12, the first mounting plate 11 and the second mounting plate 21 are opened or closed, the first buffer sleeve 6 is connected to the second mounting plate 21 and fixed on it, while the second buffer sleeve 7 is connected to the first sleeve 12 and follows the first bushing 12 for rotation relative to the first buffer bushing 6. The first bushing 12 is not directly connected to the second bushing 22, and the buffering effect is enhanced by the interaction between the first buffer bushing 6 and the second buffer bushing 7, which further reduces the noise of the hinge 100.

[0070] As shown in FIG. 1, the outer diameter of the first sleeve 12 is equal to the outer diameter of the second sleeve 22, which makes the interaction between the first sleeve 12 and the second sleeve 22 tighter and facilitates the manufacture and assembly of the first sleeve 12 and the second sleeve 22. In the hinge 100 of this embodiment, the second slope 221 is an arcuate convex surface protruding upward. The first slope 121 is an arcuate concave surface engaged with the second slope 221. As the first sleeve 12 rotates around the hinge shaft 3, the arcuate convex surface of the second slope 221 comes into contact with the arcuate concave surface of the first slope 121, causing the door 220 and the first sleeve 12 to slowly rise along the hinge shaft 3, which prevents sudden lowering or lifting of the door 220 and the first sleeve 12 and improves the user experience.

[0071] In order to improve the aesthetic appearance of the hinge 100, the upper end of the first sleeve 12 is provided with the first decorative cap 4, and the lower end of the second sleeve 22 is provided with the second decorative cap 5. Moreover, the first decorative cap 4 and the second decorative cap 5 also prevent small objects from entering into the first sleeve 12 or the second sleeve 22, which may affect the normal operation of the hinge 100.

[0072] The present invention provides a refrigerator 200 including a refrigerator body 210, a door 220, and a hinge 100 as described above. The door 220 is hinged to the side of the refrigerator body 210 by a hinge 100. The first mounting plate 11 is removably connected to the door 220, and the second mounting plate 21 is releasably connected to the refrigerator body 210. The specific design of the hinge 100 may refer to the above embodiments. Since the refrigeration equipment 200 includes all the technical solutions of all the above embodiments, it has at least all the effects of the technical solutions of the above embodiments, which are not repeated here.

[0073] In an embodiment, the first mounting plate 11 is removably connected to the inner side wall of the door 220, and the second mounting plate 21 is releasably connected to the outer side wall of the refrigerator body 210. The hinge shaft 3 is located outside the refrigerator body 210 and the door 220. When assembling the refrigeration equipment 200 according to this embodiment, the first hinge base 1, the second hinge base 2 and the hinge shaft 3 are first assembled into a hinge 10. Then, the second mounting plate 21 is connected with screws to the outer side wall of the refrigerator body 210, and the first mounting plate 11 is connected to the inner side wall of the door 220. As shown in FIG. 6, in this case, the hinge shaft 3 is outside the refrigerator body 210 and the door 220, and not between the door 220 and the refrigerator body 210. Therefore, curling of the edges of the door seals is prevented, and both the sealing effect of the door seals and the cooling effect of the refrigeration equipment 200 are improved.

[0074] As shown in FIG. 7, in order to facilitate the rotation of the hinge shaft 3, the door 220 in a position corresponding to the position of the hinge shaft 3 is provided with an evasion slot 2201 for evading the hinge shaft 3. The hinge shaft 3 is located inside the evasion slot 2201, which further increases the compactness of the refrigeration equipment 200. In this embodiment, a plurality of hinges 100 are provided, the plurality of hinges 100 are spaced along the expansion direction of the refrigerator body 210. When assembling the refrigerator body 210 and the door 220 of the refrigeration equipment 200 together, a plurality of hinges 100 are sequentially assembled between the door 220 and the refrigerator body 210 in an up-and-down direction. As shown in FIG. 6, the refrigeration equipment 200 of this embodiment is provided with two hinges 100, one of which is located near the top of the refrigerator body 210, and the other hinge 100 is located near the bottom of the refrigerator body 210.

[0075] The foregoing is only preferred embodiments of the present invention and is not intended to limit the scope of the present invention. In accordance with the concept of the present invention, any equivalent design changes made using the contents of the description and drawings of the present invention, or any direct or indirect application in other related technical fields are included in the scope of the claims.

Claims (40)

1. A hinge containing a hinge shaft, a first hinge base and a second hinge base, while: the hinge shaft is located vertically; the first hinge base includes the first mounting plate and the first sleeve connected to the first mounting plate, the first sleeve is put on the hinge shaft and connected to the hinge shaft with the possibility of rotation to allow rotation of the first sleeve around the hinge shaft, and the lower end of the first sleeve equipped with a downwardly inclined first slope; and the second hinged base is located under the first hinged base and includes a second mounting plate and a second bushing connected to the second mounting plate, wherein: the second sleeve is put on the articulated shaft and fixed on the articulated shaft; and the upper end of the second sleeve is equipped with an upwardly inclined second slope, and the second slope abuts against the first slope and interacts with it to enable the first sleeve to move from the first position to the second position in the direction from the second sleeve or from the second position to the first position along a direction close to the second sleeve when the first sleeve rotates around the drive shaft, the hinge shaft is equipped with the first restrictive groove; the first sleeve is provided with a limiting protrusion extending into the first limiting slot for limiting the first sleeve; between the first restrictive groove and the end of the hinge shaft remote from the second sleeve, a stopper is provided for abutting against the restrictive ledge; and on the stopper near the upper end of the first restrictive slot, a cutout is provided through which the restrictive ledge passes. 2. Hinge according to claim 1, characterized in that: the second slope is an arcuate convex surface protruding upward; the first slope is an arcuate concave surface interacting with the second slope; the lower end of the first slope is equipped with the first lower limiting platform; the upper end of the second slope is equipped with a second upper limiting platform; and the second upper limit platform supports the first lower limit platform and holds the second sleeve in the second position. 3. Hinge according to claim 1 or 2, characterized in that: the upper end of the first slope is provided with a first upper limit platform abutting against a second upper limit platform; the lower end of the second slope is equipped with a second lower limiting platform; and the second lower limit platform supports the first lower limit platform and holds the second sleeve in the first position. 4. Hinge according to claim 1, characterized in that: the hinge shaft includes a guide part and a restrictive part; the lower end of the guide part is inserted into the second sleeve and fixed to the second sleeve, and the upper end of the guide part is connected to the lower end of the restrictive part; the upper end of the restrictive part is connected to the stopper; and the size of the outer edge of the stopper and the size of the outer edge of the guide part are larger than the size of the outer edge of the limiting part, and the first limiting groove is formed between the stopper, the limiting part and the guide part. 5. The hinge according to any one of paragraphs. 1-4, characterized in that: the hinge further includes a first buffer sleeve fitted onto the hinge shaft; the first buffer sleeve is connected to the second mounting plate and is located between the first sleeve and the second sleeve; and the two ends of the cylinder wall of the first buffer sleeve abut against the first sleeve and the second sleeve, respectively. 6. Hinge according to claim 5, characterized in that: the outer wall of the cylinder of the first buffer sleeve is provided with a reinforcing block between the first mounting plate and the second mounting plate; the reinforcing block is equipped with an evasion zone to evade the first mounting plate; on the side of the reinforcing block away from the evasion area, a clamping groove is provided, and the side of the reinforcing block facing the evasion zone is provided with a second restrictive groove in a position corresponding to the position of the second upper restrictive platform; and the second setting plate is clamped by the clamping groove, and the slot wall of the second limiting groove abuts against the second setting plate, limiting the second setting plate. 7. The hinge according to claim 6, characterized in that the slot wall of the second restrictive groove is equipped with a plurality of reinforcing ribs spaced along the extension direction of the first buffer sleeve, and a buffer groove is provided between any two adjacent reinforcing ribs. 8. The hinge according to claim 5, characterized in that the hinge additionally includes a second buffer sleeve, put on the hinge shaft and located between the first sleeve and the first buffer sleeve, the end of the second buffer sleeve is connected to the first sleeve, and the other end of the second buffer sleeve bushing rests against the first buffer bushing. 9. Refrigeration equipment, including a refrigerator body, a door and a hinge according to any one of paragraphs. 1-8, characterized in that: the door is hung on the side of the refrigerator body through a hinge; and the first mounting plate is releasably connected to the door, and the second mounting plate is releasably connected to the refrigerator body.

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