CN215332164U - Hinge and refrigeration equipment with same - Google Patents

Abstract

The utility model provides a hinge and refrigeration equipment with the hinge, wherein the hinge comprises a fixed hinge seat and a movable hinge seat which is in pivot connection with the fixed hinge seat, the fixed hinge seat is provided with a first end and a second end which is arranged opposite to the first end along the first direction, the fixed hinge seat is provided with a limiting groove which extends along the first direction, the hinge also comprises a connecting piece, a movable shaft and a limiting block, the connecting piece is rotationally connected with the movable hinge seat and the movable shaft, the movable shaft is matched and connected in the limiting groove and can move along the extending direction of the limiting groove, the limiting block is detachably assembled in the limiting groove, and when the limiting block is assembled in the limiting groove, the limiting block abuts against the movable shaft to limit the movable shaft to move along the limiting groove. When the hinge is transported or assembled in refrigeration equipment, the limiting block can be assembled in the limiting groove to prevent the fixed hinge seat from being overturned back and forth relative to the movable hinge seat to damage the hinge; and the movable hinge seat can be fixedly attached to the door body without being held by hands during installation, so that the installation efficiency is greatly improved, and the labor cost is reduced.

Description

Hinge and refrigeration equipment with same

Technical Field

The utility model relates to the technical field of refrigeration equipment, in particular to a hinge and refrigeration equipment with the hinge.

Background

Refrigeration equipment such as refrigerators, freezers, wine cabinets and the like generally adopts hinges to connect a door body and a cabinet body, wherein the hinges comprise movable hinge seats and fixed hinge seats, the fixed hinge seats are assembled in the cabinet body, the movable hinge seats are assembled in the door body, and the door body is opened or closed relative to the cabinet body through the rotation of the movable hinge seats relative to the fixed hinge seats.

However, in the hinge transportation process or when the hinge is assembled on the refrigeration equipment, the fixed hinge seat can overturn back and forth relative to the movable hinge seat, so that the hinge is easily damaged, particularly, when a field worker installs the hinge, the movable hinge seat needs to be held by hand so as to enable the movable hinge seat to be fixedly attached to the door body, so that the installation is convenient, great inconvenience is brought to subsequent installation operation, even the installation can be completed by matching two persons, the installation efficiency is greatly influenced, and the labor cost is increased.

Disclosure of Invention

In order to solve the technical problems, the utility model aims to provide a hinge and a refrigeration device with the hinge, so as to solve the problems that the existing hinge is easy to turn back and forth during transportation and installation, so that the hinge is damaged, the installation efficiency is low, and the labor cost is high.

In order to achieve one of the above objectives of the present invention, an embodiment of the present invention provides a hinge, including a fixed hinge base and a movable hinge base pivotally connected to the fixed hinge base, wherein the fixed hinge base has a first end and a second end opposite to the first end along a first direction, the fixed hinge base is provided with a limiting groove extending along the first direction, the hinge further includes a connecting member, a movable shaft, and a limiting block, the connecting member rotatably connects the movable hinge base and the movable shaft, the movable shaft is coupled to the limiting groove and can move along the extending direction of the limiting groove, the limiting block is detachably assembled in the limiting groove, and when the limiting block is assembled in the limiting groove, the limiting block abuts against the movable shaft to limit the movable shaft to move along the limiting groove.

As a further improvement of an embodiment of the present invention, the limiting groove has a limiting proximal end and a limiting distal end disposed opposite to the limiting proximal end in the first direction; when the limiting block is assembled in the limiting groove, one end of the limiting block abuts against the limit near end, and the other end of the limiting block abuts against the movable shaft and enables the movable shaft to abut against the limit far end.

As a further improvement of an embodiment of the present invention, when the limiting block is assembled in the limiting groove, an arc-shaped groove is formed at one end of the limiting block abutting against the movable shaft, and the movable shaft is clamped in the arc-shaped groove.

As a further improvement of an embodiment of the present invention, a groove wall of the limiting groove at the proximal end of the limit is arc-shaped, and an end of the limiting block abutting against the proximal end of the limit is also arc-shaped and is attached to the groove wall of the limiting groove at the proximal end of the limit.

As a further improvement of an embodiment of the present invention, two limiting blocks are respectively disposed in one-to-one correspondence with the limiting grooves, the fixed hinge base includes a bottom plate and a pair of side plates disposed oppositely, the pair of side plates are respectively connected to two opposite ends of the bottom plate perpendicular to the first direction, the two limiting grooves are respectively disposed on the pair of side plates, and two axial ends of the movable shaft are respectively coupled to the two limiting grooves.

As a further improvement of an embodiment of the present invention, the fixed hinge base includes a bottom plate and a pivot shaft, the bottom plate extends along the first direction, the pivot shaft is perpendicular to the first direction, the movable hinge base is pivotally connected to the pivot shaft, the movable shaft is parallel to the pivot shaft, and a plane formed by axes of the movable shaft and the pivot shaft is parallel to the bottom plate.

As a further improvement of an embodiment of the present invention, the movable hinge base further includes a swing shaft, the connecting member is pivotally connected to the swing shaft, and when the limiting block is assembled in the limiting groove, an axis of the swing shaft is located on a plane formed by axes of the movable shaft and the pivot shaft.

As a further improvement of an embodiment of the present invention, the fixed hinge base includes a bottom plate extending along the first direction, the connecting member includes a first connecting end, a second connecting end, and a main body connecting the first connecting end and the second connecting end, the first connecting end is rotatably connected to the movable hinge base, the second connecting end is connected to the movable shaft, and the main body is recessed toward a direction away from the bottom plate.

As a further improvement of an embodiment of the present invention, the fixed hinge base includes a pair of side plates disposed opposite to each other, the movable hinge base includes a pair of side edges disposed opposite to each other, the pair of side edges are located between the pair of side plates and correspond to the pair of side plates one to one, and the movable hinge base further includes a swing shaft connected to the pair of side edges and located between the pair of side plates.

As a further improvement of an embodiment of the present invention, the fixed hinge base includes a bottom plate, the movable hinge base has an initial position and a door opening position, and when the movable hinge base rotates from the initial position to the door opening position toward the movable shaft, an axis of the swing shaft is located on a plane where the bottom plate is located, or the axis of the swing shaft and the movable shaft are located on two sides of the bottom plate respectively.

As a further improvement of an embodiment of the present invention, during the process of rotating the movable hinge base relative to the fixed hinge base from the initial position toward the door opening position, the connecting member and the bottom plate do not interfere with each other.

In order to achieve one of the above objectives of the present invention, an embodiment of the present invention further provides a refrigeration apparatus, including a cabinet body and a door body assembled to the cabinet body, and further including the hinge as described above, wherein the fixed hinge seat is assembled to the cabinet body, and the movable hinge seat is assembled to the door body.

Compared with the prior art, the utility model has the following beneficial effects: according to the hinge and the refrigeration equipment with the hinge, the limit block can be assembled in the limit groove in the transportation process or when the hinge is assembled in the refrigeration equipment, so that the fixed hinge seat is prevented from being turned over back and forth relative to the movable hinge seat to damage the hinge; when the field worker installs, the movable hinge seat can be prevented from overturning back and forth by assembling the limiting block in the limiting groove, and the movable hinge seat can be fixedly attached to the door body so as to be convenient for installation without holding the movable hinge seat by hands, so that the installation efficiency is greatly improved, and the labor cost is reduced.

Drawings

Fig. 1 is a schematic perspective view of a refrigeration apparatus according to an embodiment of the present invention;

FIG. 2 is a longitudinal sectional view of a refrigeration unit in accordance with an embodiment of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a perspective view of a hinge according to an embodiment of the present invention, illustrating a state that a movable hinge is at an initial position;

FIG. 5 is a perspective view of a hinge according to another embodiment of the present invention, illustrating a state that a movable hinge is located at an initial position;

FIG. 6 is an exploded view of the hinge of FIG. 5;

FIG. 7 is a schematic perspective view of a hinge according to an embodiment of the present invention, illustrating a stopper in an assembled state;

FIG. 8 is an exploded view of the hinge of FIG. 7;

FIG. 9 is a side view of the hinge of one embodiment of the present invention illustrating the movable hinge in the open position;

FIG. 10 is a schematic perspective view of a bushing according to an embodiment of the present invention;

FIG. 11 is a front view of a bushing in accordance with an embodiment of the present invention;

FIG. 12 is a perspective view of a hinge according to another embodiment of the present invention;

fig. 13 is a front view of fig. 12.

100. A refrigeration device; 1. a hinge; 11. a fixed hinge base; 111. a base plate; 1111. a first end; 1112. a second end; 112. a side plate; 113. a pivotal shaft; 114. end blocking; 12. a movable hinge seat; 121. a substrate; 122. a side edge; 123. a swing shaft; 124. a limiting groove; 1241. a proximal extremity; 1242. a distal limit; 13. a stopper; 14. a connecting member; 141. a first connection end; 142. a second connection end; 143. a main body; 15. a sliding mechanism; 151. a movable shaft; 152. a mating portion; 16. a limiting block; 17. an elastic member; 171. a support bar; 1711. a flange; 172. a spring; 173. a mating end; 18. a shaft sleeve; 181. a sleeve; 182. an oil storage rib; 2. a cabinet body; 3. a door body; 4. a cavity.

Detailed Description

The utility model will be described in detail hereinafter with reference to specific embodiments shown in the drawings.

In the various drawings of the present invention, certain dimensions of structures or portions are exaggerated relative to other structures or portions for ease of illustration and, therefore, are used only to illustrate the basic structure of the subject matter of the present invention.

It will be understood that, although the terms first, second, etc. may be used herein to describe various elements or structures, these described elements should not be limited by these terms. These terms are only used to distinguish these descriptive objects from one another.

Referring to fig. 1 to 3, a refrigeration apparatus 100 according to an embodiment of the present invention includes a hinge 1, a cabinet 2, and a door 3, where the cabinet 2 has a refrigeration compartment for storing and refrigerating articles, and the door 3 is assembled to the cabinet 2 and can rotate relative to the cabinet 2 via the hinge 1 to open or close the refrigeration compartment. The refrigeration device 100 may be embodied as a refrigerator, freezer, wine cabinet, or the like.

Referring to fig. 3 to 8, the hinge 1 includes a fixed hinge base 11 and a movable hinge base 12 rotatably connected to the fixed hinge base 11, the fixed hinge base 11 includes a pivot shaft 113, and the movable hinge base 12 is rotatably connected to the pivot shaft 113 so as to rotate the movable hinge base 12 relative to the fixed hinge base 11, wherein the fixed hinge base 11 is assembled to the cabinet 2, the movable hinge base 12 is assembled to the door body 3, and the movable hinge base 12 rotates relative to the fixed hinge base 11 so as to drive the door body 3 to rotate relative to the cabinet 2 to open or close the refrigeration compartment.

The fixed hinge base 11 includes a bottom plate 111 disposed to abut against an outer wall of the cabinet 2 and a pair of opposite side plates 112, the bottom plate 111 has a first end 1111 and a second end 1112 disposed opposite to the first end 1111 along a first direction, the pair of side plates 112 are respectively connected to opposite ends of the bottom plate 111 along a second direction perpendicular to the first direction, the pair of side plates 112 are disposed on the same side of the bottom plate 111, and an assembly space is formed between the pair of side plates 112 and the bottom plate 111. Preferably, the pair of side plates 112 extends perpendicular to the base plate 121 in a direction away from the base plate 111.

The two ends of the pivot shaft 113 are respectively connected with the pair of side plates 112, and the axis of the pivot shaft 113 extends along the second direction.

The movable hinge base 12 includes a base plate 121 attached to the door body 3 and a pair of side edges 122 oppositely disposed along the second direction, the pair of side edges 122 are respectively connected to two opposite ends of the base plate 121 along the second direction, the pair of side edges 122 are oppositely disposed on the same side of the base plate 121, the pair of side edges 122 are disposed between the pair of side plates 112 and are in one-to-one correspondence with the pair of side plates 112, and the pair of side edges 122 are respectively pivotally connected to the pivot shaft 113 and can enable the movable hinge base 12 to rotate around the pivot shaft 113 relative to the base plate 111.

Further, the side edges 122 are parallel to the side panels 112. Preferably, the side edge 122 extends perpendicular to the base plate 121 in a direction away from the door body 3, and the side plate 112 extends perpendicular to the bottom plate 111 in a direction away from the side wall of the cabinet 2.

For convenience of description, in the present embodiment, taking the refrigeration device 100 as an example of being horizontally placed on the ground, when the door 3 is in a closed state, the direction from the door 3 to the cabinet 2 is defined as a top-to-bottom direction, correspondingly, the movable hinge base 12 is located above the fixed hinge base 11, the side of the hinge 1 facing the refrigeration device 100 is defined as an inner side, the side of the hinge 1 facing away from the refrigeration device 100 is defined as an outer side, and when a user faces the hinge 1 from the outer side, two sides of the hinge 1 are respectively defined as a left side and a right side.

In this embodiment, the first direction is a vertical direction, the second direction is a horizontal direction, the fixed hinge base 11 includes a bottom plate 111 extending vertically and a pair of side plates 112 disposed opposite to each other in the horizontal direction, and the pair of side plates 112 are respectively connected to the left and right ends of the bottom plate 111 and extend outward perpendicular to the bottom plate 111; the pivot shaft 113 extends in the left-right direction; the movable hinge base 12 includes a base plate 121 attached to the door 3 and a pair of side edges 122 disposed opposite to each other in the left-right direction, the base plate 121 is rotatable relative to the base plate 111 in the left-right direction, and the pair of side edges 122 are respectively connected to the left and right ends of the base plate 121 and extend outward perpendicular to the base plate 121.

The movable hinge base 12 has a door opening position for opening the door 3 and an initial position for closing the door 3, fig. 4 shows a state of the movable hinge base 12 at the initial position, and fig. 9 shows a state of the movable hinge base 12 at the door opening position. The door opening position is defined as the position of the movable hinge base 12 relative to the fixed hinge base 11 when the door body 3 is opened to a set maximum angle, which is usually set to 81-88 ° when the door body 3 is turned and opened.

Referring to fig. 4, further, the hinge 1 further includes a stop member 13 disposed on the fixed hinge seat 11, the stop member 13 is located on a path of the movable hinge seat 12 rotating toward the assembling space, and the stop member 13 can abut against the movable hinge seat 12 to limit an angle of the movable hinge seat 12 rotating relative to the fixed hinge seat 11, so as to limit a maximum angle of opening the door body 3 relative to the cabinet 2.

When the movable hinge base 12 is opened from the initial position to the door opening position relative to the fixed hinge base 11, the movable hinge base 12 rotates around the pivot shaft 113 toward the assembly space, that is, rotates outward, until the stopper 13 abuts against the movable hinge base 12, the movable hinge base 12 is at the door opening position, and the stopper 13 limits the movable hinge base 12 to continue rotating toward the assembly space, so that the door body 3 is suspended. The stop piece 13 is arranged to limit the rotation angle of the movable hinge base 12 relative to the fixed hinge base 11, so as to limit the door opening angle of the door body 3 and enable the door body 3 to hover after opening the door opening angle.

Referring to fig. 4, specifically, the stop member 13 is disposed on the side plate 112 and protrudes from the side plate 112 toward the assembly space, the stop member 13 is located on a path along which the side edge 122 corresponding to the side plate 112 where the stop member 13 is located rotates toward the assembly space, and when the movable hinge base 12 rotates outward around the pivot shaft 113 until the stop member 13 abuts against the side plate 112, the side plate 112 can limit the movable hinge base 12 from continuing to rotate outward.

Preferably, the stop member 13 is disposed at an end of the side plate 112 away from the bottom plate 111, so that the stop member 13 can be prevented from affecting the opening of the door body 3 by the movable hinge base 12.

Specifically, in this embodiment, the stop piece 13 is a plate-shaped piece parallel to the bottom plate 111, on one hand, the influence of the stop piece 13 on the opening of the door body 3 driven by the movable hinge base 12 can be further avoided, and on the other hand, the strength of the stop piece 13 can be ensured, and since the gravity of the door body 3 of the refrigeration equipment 100 is large, the stop piece 13 needs to have sufficient pressure-bearing capacity to avoid failure and damage, and the service life of the hinge 1 and the refrigeration equipment 100 is affected.

Preferably, the stopper 13 is provided integrally with the side plate 112, and the strength of the connection of the stopper 13 to the side plate 112 can be further improved.

Preferably, the two stoppers 13 are provided, the two stoppers 13 are respectively provided on the pair of side plates 112 and protrude toward each other, and each stopper 13 is located on a path along which the side 122 corresponding to the side plate 112 on which it is located rotates toward the assembly space, so that the pressure from the door body 3 can be shared, and the pressure-bearing capacity of the stopper 13 can be further improved.

Further, the hinge 1 further comprises a connecting member 14 and a sliding mechanism 15, the movable hinge base 12 further comprises a swinging shaft 123, the swinging shaft 123 is parallel to the pivot shaft 113, the connecting member 14 is pivotally connected with the swinging shaft 123 to realize the pivotal connection between the connecting member 14 and the movable hinge base 12, the fixed hinge base 11 is provided with a limit groove 124 extending up and down, the sliding mechanism 15 comprises a movable shaft 151 and a matching part 152 matched and connected in the limit groove 124, the movable shaft 151 is parallel to the pivot shaft 113, the matching part 152 can do linear motion along the extending direction of the limit groove 124, so that the sliding mechanism 15 moves linearly along the extending direction of the limiting groove 124, the upper end of the connecting piece 14 is rotatably connected with the swinging shaft 123, the lower end of the connecting piece 14 is pivotally connected with the movable shaft 151, so that the connecting member 14 is rotatably connected to the movable hinge base 12 and the sliding mechanism 15 and drives the mating portion 152 to move linearly along the extending direction of the limiting groove 124.

Referring to fig. 4, in the present embodiment, the limiting grooves 124 are disposed on the side plates 112, preferably, a pair of limiting grooves 124 are disposed on the side plates 112, and the pair of limiting grooves 124 are disposed on the side plates 112 in a left-right opposite manner, respectively, and the mating parts 152 are two axial ends of the movable shaft 151, that is, two axial ends of the movable shaft 151 are respectively mated in the pair of limiting grooves 124.

Referring to fig. 5 to 6, in other embodiments, the limiting groove 124 may also be disposed on the bottom plate 111, and the mating portion 152 is connected to the movable shaft 151 and protrudes toward the bottom plate 111.

Referring to fig. 7 to 8, further, the hinge 1 further includes a stopper 16, the stopper 16 is detachably assembled in the stopper groove 124, and the stopper 16 has an assembled state of being assembled in the stopper groove 124 and a free state of being separated from the stopper groove 124. When the stopper 16 is in the assembled state, the stopper 16 abuts against the movable shaft 151 to limit the movement of the movable shaft 151 along the stopper groove 124. When the stopper 16 is in the free state, the connecting element 14 can drive the movable shaft 151 to move linearly along the stopper groove 124.

Therefore, in the transportation process of the hinge 1 or when the hinge 1 is assembled in the refrigeration equipment 100, the limit block 16 can be assembled in the limit groove 124, so that the fixed hinge seat 11 is prevented from being overturned back and forth relative to the movable hinge seat 12 to damage the hinge 1; in addition, when the field worker installs the movable hinge base 12, the movable hinge base 12 can be prevented from being turned back and forth by assembling the limiting block 16 in the limiting groove 124, and the movable hinge base 12 can be fixedly attached to the door body 3 without holding the movable hinge base 12 by hands so as to be convenient for installation, so that the installation efficiency is greatly improved, and the labor cost is reduced. After the installation is completed, the limit block 16 can be taken down from the limit groove 124, so that the limit block 16 is separated from the limit groove 124, and the movable hinge base 12 can rotate relative to the fixed hinge base 11.

Specifically, the limiting groove 124 has a limiting proximal end 1241 and a limiting distal end 1242 disposed opposite to the limiting proximal end 1241 in the first direction. When the limiting block 16 is in the assembled state, the movable hinge base 12 is in the initial position, one end of the limiting block 16 abuts against the limit proximal end 1241, and the other end of the limiting block 16 abuts against the movable shaft 151 and enables the movable shaft 151 to abut against the limit distal end 1242.

Preferably, the limiting block 16 is located in the assembling state, the limiting block 16 abuts against one end of the movable shaft 151 to form an arc-shaped groove, and the movable shaft 151 is clamped in the arc-shaped groove, so that the limiting block 16 is matched with the movable shaft 151 more tightly, and the movable hinge base 12 is prevented from being overturned relative to the fixed hinge base 11.

Preferably, the groove wall of the limiting groove 124 at the limiting proximal end 1241 is arc-shaped, and when the limiting block 16 is in the assembled state, the end of the limiting block 16 abutting against the limiting proximal end 1241 is also arc-shaped and is attached to the groove wall of the limiting groove 124 at the limiting proximal end 1241, so that the matching between the limiting block 16 and the limiting groove 124 is tighter, and the movable hinge base 12 is further prevented from being turned over relative to the fixed hinge base 11.

Further, two limiting blocks 16 are also arranged, and the two limiting blocks 16 correspond to the pair of limiting grooves 124 one by one, so that the two limiting grooves 124 are uniformly stressed, and the left end and the right end of the hinge 1 are stressed in a balanced manner.

Preferably, each of the limiting grooves 124 penetrates the side plate 112 where the limiting groove is located in the left-right direction, so as to facilitate assembly of the movable shaft 151, improve a contact area between the movable shaft 151 and a groove wall of the limiting groove 124, and improve stability of the movable shaft 151 moving along the limiting groove 124.

Further, the thickness of the limiting block 16 in the left-right direction is greater than the depth of the limiting groove 124 in the left-right direction, so that the stability of the limiting block 16 assembled in the limiting groove 124 is improved, and the limiting block is prevented from falling off in the using process.

Further, when the limiting block 16 is in the assembled state, two ends of the limiting block 16 along a third direction respectively fit to groove walls of the limiting groove 124 along two ends of the third direction, wherein the third direction is perpendicular to the first direction and the second direction, that is, in this embodiment, the third direction is an inward and outward direction.

Referring to fig. 3 to 4 and fig. 7 to 8, further, the hinge 1 further includes an elastic member 17, the elastic member 17 is located in the assembling space, one end of the elastic member 17 is connected to the movable shaft 151, the elastic member 17 and the movable shaft 151 move synchronously, the other end of the elastic member 17 abuts against the fixed hinge base 11, and the elastic member 17 is always in a compressed state when the movable hinge base 12 moves between the door opening position and the initial position. Thus, when the movable hinge base 12 rotates around the pivot shaft 113 relative to the fixed hinge base 11, the swing shaft 123 swings along with the movable hinge base and pulls the connecting member 14 to drive the movable shaft 151 to move together, and under the mutual restriction of all the components in the moving process, the swing shaft 123, the movable shaft 151 and the pivot shaft 113 are always in a parallel state, and the movable hinge base 12, the pivot shaft 113, the swing shaft 123, the connecting member 14, the movable shaft 151, the elastic member 17 and the fixed hinge base 11 jointly form a crank-slider mechanism, so that the pivoting motion of the movable hinge base 12 is converted into the linear motion of the movable shaft 151 and the elastic member 17, compared with the arc motion of the movable shaft 151 and the elastic member 17, the moving space required by the movement of the elastic member 17 is greatly reduced, especially in the inner and outer directions, and therefore, the thickness of the hinge 1 can be reduced.

In the present embodiment, the elastic member 17 is provided with one; in other embodiments, a plurality of elastic members 17 may be provided to share the stress, and the plurality of elastic members 17 are arranged at intervals, for example, as shown in fig. 12 to 13, two elastic members 17 are provided, and two elastic members 17 are arranged at intervals on two sides of the connecting member 14, so as to share the pressure, thereby making each elastic member small in size and further reducing the thickness of the hinge 1.

In practical application, when the door body 3 is opened to the side edge 122 to abut against the stopper 13 under the action of external force, the door body 3 is opened to the set maximum door opening angle, after the external force is removed, under the action of the gravity of the door body 3, the door body 3 has resilience at a certain angle due to the inevitable fit clearance among the pivot shaft 113, the swing shaft 123 and each part matched and connected with the swing shaft in a rotating manner, so that the side edge 122 is far away from the stopper 13 by a certain distance, and the door body 3 is difficult to hover at the set maximum door opening angle.

To solve the above technical problem, when the movable hinge base 12 is rotated outward relative to the fixed hinge base 11 to the door-opening position, a gap is formed between the movable shaft 151 and the proximal limit end 1241 of the limiting groove 124, and the elastic element 17 has a compression deformation amount. Thus, when the external force is applied to rotate the hinge base 12 to the door opening position along with the door body 3, due to the existence of the gap, the elastic member 17 applies an upward thrust to the connecting member 14 under the action of the elastic restoring force thereof, and transmits the upward thrust to the swinging shaft 123 to form an upward thrust of the connecting member 14 to the swinging shaft 123, so that the hinge base 12 has a tendency of rotating outward around the pivoting shaft 113, and even if the external force is removed, the thrust can form a balance with the gravity of the door body 3, so that the door body 3 hovers at the set maximum door opening angle, and the problem of rebound of the door body 3 after the external force is removed is solved.

In the present embodiment, the elastic member 17 is provided with one; in other embodiments, the elastic member 17 may be provided in plurality according to actual needs. For example, a pair of elastic members 17 are provided at intervals, the pair of elastic members 17 are respectively provided on the left and right sides of the connecting member 14, and the plurality of elastic members 17 can share the force, so that the size of the elastic members 17 can be reduced, and if the elastic members 17 include the springs 172, the outer diameter and the wire diameter of the springs 172 can be reduced, thereby further reducing the thickness of the hinge 1.

Referring to fig. 8, further, the elastic member 17 includes a supporting rod 171 connected to the sliding mechanism 15 and a spring 172 sleeved on the periphery of the supporting rod 171, wherein one end of the supporting rod 171 away from the sliding mechanism 15 is inserted into the fixed hinge base 11 and loosely connected to the fixed hinge base 11, that is, the supporting rod 171 can move up and down relative to the fixed hinge base 11, one end of the supporting rod 171 close to the sliding mechanism 15 is provided with a flange 1711, one end of the spring 172 abuts against the flange 1711, and the other end of the spring 172 abuts against the fixed hinge base 11.

Further, the fixed hinge base 11 includes an end stop 114 disposed at an end thereof far away from the movable hinge base 12, both ends of the end stop 114 are respectively connected with the pair of side plates 112, the end stop 114 has a slot, and an end of the support rod 171 far away from the sliding mechanism 15 is inserted into the slot so as to limit the elastic member 17 to move only parallel to the bottom plate 111, that is, move up and down, thereby avoiding increasing the thickness of the hinge 1; in this embodiment, the lower end of the spring 172 abuts against the end stop 114, the supporting rod 171 is loosely connected with the end stop 114, and when the elastic member 17 moves up and down synchronously with the movable shaft 151, the lower end of the supporting rod 171 always protrudes out of the end stop 114, so as to prevent the elastic member 17 from falling off the end stop 114 and causing the hinge 1 to fail.

Referring to fig. 4 and 8, further, the hinge 1 further includes a shaft sleeve 18, the shaft sleeve 18 is sleeved on the periphery of at least one of the swing shaft 123 and the movable shaft 151, the shaft sleeve 18 includes a sleeve 181 and oil storage ribs 182 disposed on the inner wall of the sleeve 181, so that lubricating oil can be added between the oil storage ribs 182, and the lubricating oil can slowly seep out from the shaft sleeve 18 to the swing shaft 123 and the movable shaft 151, thereby playing a role in lubricating and protecting the swing shaft 123 and the movable shaft 151, enabling the hinge 1 to smoothly rotate, reducing wear and noise during use, and prolonging the service life of the hinge 1 and the refrigeration equipment 100.

The sleeve 181 may be cylindrical. Referring to fig. 10 to 11, the cross section of the sleeve 181 is preferably circular arc shaped, and the central angle is 270 to 280 °. Like this, through setting up sleeve 181 and being semi-enclosed open structure, can be along radially directly with axle sleeve 18 joint to swing axle 123, loose axle 151 on, not only improved assembly efficiency, do not receive the restriction of assembly order moreover, avoided when the assembly order is wrong all to tear down the trouble of reassembling with each part.

Further, the oil storage rib 182 extends along the axial direction of the sleeve 181, the oil storage rib 182 is provided with at least two, and the at least two oil storage ribs 182 are evenly arranged along the circumference of the sleeve 181, so that the speed of lubricating oil seeping out from the shaft sleeve 18 can be delayed, and the problems that the hinge 1 is dirty and lubricating oil needs to be frequently added due to excessive overflow of the lubricating oil are avoided.

Further, the connecting member 14 includes a pair of first connection ends 141 connected to the movable shaft 151, a shaft sleeve 18 is sleeved on the outer periphery of the movable shaft 151, the shaft sleeve 18 is located between the pair of first connection ends 141, and two axial ends of the shaft sleeve 18 respectively abut against the pair of first connection ends 141, so as to limit the axial movement of the connecting member 14 along the movable shaft 151.

Referring to fig. 8, the elastic member 17 includes a coupling end 173 coupled to the movable shaft 151, where the sleeve 18 fitted around the outer circumference of the movable shaft 151 is divided into two sub-sleeves, and the coupling end 173 is located between the two sub-sleeves and respectively abuts against the two sub-sleeves, thereby limiting the axial movement of the elastic member 17 along the movable shaft 151.

Further, the shaft sleeve 18 may be sleeved on a portion of the movable shaft 151 located between the connecting member 14 and the side plate 112, and the two axial ends of each shaft sleeve 18 may also respectively abut against the connecting member 14 and the side plate 112 adjacent to the shaft sleeve 18.

Similarly, the outer periphery of the swing shaft 123 may be fitted with the boss 18. The connecting member 14 includes a pair of second connecting ends 142 connected to the swing shaft 123, and specifically, the shaft sleeve 18 may be disposed between the pair of second connecting ends 142, and two axial ends of the shaft sleeve 18 respectively abut against the pair of second connecting ends 142 to limit the axial movement of the connecting member 14 along the swing shaft 123; alternatively, the shaft sleeve 18 is disposed between the second connecting end 142 and the side edge 122 corresponding to the second connecting end 142, and the second connecting end 142 and the side edge 122 are respectively abutted against two axial ends of the shaft sleeve 18, so as to limit the axial movement of the connecting member 14 along the swing shaft 123.

Furthermore, the two ends of the swing shaft 123 are respectively connected with the pair of side edges 122, and the swing shaft 123 is located between the pair of side walls, that is, the swing shaft 123 is not connected with the fixed hinge base 11, so that the arc-shaped groove arranged on the fixed hinge base 11 in the prior art is eliminated, the limitation of the size and the bearing strength of the arc-shaped groove on the hinge 1 is avoided, the thickness of the hinge 1 can be reduced, the packing amount of the refrigeration equipment 100 during storage and transportation is increased, and the occupied space during use is reduced.

In the present embodiment, the swing shaft 123 is provided with one; referring to fig. 12 to 13, in other embodiments, the two swing shafts 123 may be provided, the two swing shafts 123 are respectively connected to the pair of second connection ends 142, and the two swing shafts 123 are coaxially provided.

Referring to fig. 9, further, when the movable hinge base 12 is in the door-open position, the axis of the swing shaft 123 is located on the plane of the bottom plate 111, or the axis of the swing shaft 123 is located on one side of the plane of the bottom plate 111 facing the cabinet 2, that is, the swing shaft 123 and the movable shaft 151 are located on two sides of the bottom plate 111 respectively.

Referring to fig. 6 and 8, the upper ends of the pair of side plates 112 of the fixed hinge base 11 protrude out of the bottom plate 111, and the lower end of the movable hinge base 12 is connected to the upper ends of the pair of side plates 112 through the pivot shaft 113, that is, a certain distance is provided between the bottom plate 111 and the base plate 121, thereby providing a space for the swing shaft 123 and the link 14 to swing; when the door 33 is in the closed state, i.e. when the movable hinge base 12 is in the initial position, the swing shaft 12314 is located below the pivot shaft 11313.

Referring to fig. 3, a cavity 4 is formed between the cabinet 2 and the door 3, the cavity 4 is located on a plane where the bottom plate 111 is located and faces one side of the cabinet 2, and during the process that the movable hinge base 12 rotates from the initial position to the door opening position, the swing shaft 123 swings from a side, away from the cabinet 2, of the plane where the bottom plate 111 is located toward the cavity 2 to the cavity 4, that is, the swing shaft 123 swings from outside to inside to the cavity 4, and in this process, the swing shaft 123 does not interfere with other structures of the refrigeration equipment 100, so that the swing of the swing shaft 123 is not limited by the fixed hinge base 11, the swing can be performed by the cavity 4 between the cabinet 2 and the door 3, the swing shaft 123 swings until an axis thereof is located on the plane where the bottom plate 111 is located, or the swing shaft 123 swings until the plane where the bottom plate 111 is located faces one side of the cabinet 2, so as to further reduce the thickness of the hinge 1, and does not affect the strength of the hinge 1.

Further, during the process that the movable hinge base 12 moves from the initial position to the door opening position, that is, during the process that the movable hinge base 12 rotates relative to the fixed hinge base 11 toward the assembly space, the connecting member 14 does not interfere with the bottom plate 111. Preferably, the connecting member 14 does not interfere with the stationary hinge base 11. Specifically, the distance between the bottom plate 111 and the base plate 121 can be set, so that the swinging shaft 123 can be smoothly swung to the cavity 4 from the side of the plane of the bottom plate 111 away from the cabinet 2, and the thickness of the hinge 1 can be further made thinner.

Further, the connecting member 14 further includes a main body 143 connecting the first connecting end 141 and the second connecting end 142, the first connecting end 141 is rotatably connected to the movable hinge base 12 through the swing shaft 123, the second connecting end 142 is connected to the sliding mechanism 15, and the main body 143 is recessed toward a direction away from the bottom plate 111. Preferably, the end of the main body 143 facing the cabinet 2 is recessed away from the bottom plate 111, that is, recessed away from the cabinet 2, so as to avoid interference between the connecting member 14 and the bottom plate 111, and thus the swing shaft 123 can swing smoothly into the cavity 4, and even the swing shaft 123 swings into the cavity 4 in a larger amplitude.

Further, the plane formed by the pivot axis 113 and the axis of the movable shaft 151 is parallel to the bottom plate 111, and the thickness of the hinge 1 can be reduced.

Referring to fig. 3, further, when the movable hinge base 12 is at the initial position, the axis of the swing shaft 123 is located on the plane formed by the axes of the movable shaft 151 and the pivot shaft 113, so that the thickness of the hinge 1 can be reduced, the packing amount of the refrigeration equipment 100 during transportation can be further increased, and the supporting effect of the elastic member 17 on the connecting member 14 can be maximized, thereby achieving the effect of saving labor during opening the door.

Compared with the prior art, the hinge 1 and the refrigeration equipment 100 with the same have the advantages that: the stop piece 13 is arranged to limit the rotation angle of the movable hinge seat 12 relative to the fixed hinge seat 11, so as to limit the door opening angle of the door body 3 and enable the door body 3 to hover after the door opening angle is opened; the limit block 16 is detachably assembled in the limit groove 124, so that the limit block 16 can be assembled in the limit groove 124 in the transportation process of the hinge 1 or when the hinge 1 is assembled in the refrigeration equipment 100, the fixed hinge seat 11 is prevented from being turned over back and forth relative to the movable hinge seat 12 to damage the hinge 1, and a site worker can fixedly attach the movable hinge seat 12 to the door body 3 without holding the movable hinge seat 12 by hands during installation so as to facilitate installation, the installation efficiency is greatly improved, and the labor cost is reduced; when the movable hinge base 12 rotates around the swinging shaft 123 relative to the fixed hinge base 11, the swinging shaft 123 swings along with the swinging and pulls the connecting piece 14 to drive the movable shaft 151 to move together, and under the mutual limitation of all the components in the moving process, the swinging shaft 123, the movable shaft 151 and the pivoting shaft 113 are always in a parallel state, and the movable hinge base 12, the pivoting shaft 113, the swinging shaft 123, the connecting piece 14, the movable shaft 151, the elastic piece 17 and the fixed hinge base 11 jointly form a crank-slider mechanism, so that the pivoting motion of the movable hinge base 12 is converted into the linear motion of the elastic piece 17, compared with the linear motion of the elastic piece 17, the moving space required by the movement of the elastic piece 17 is greatly reduced, particularly in the inner and outer directions, and the thickness of the hinge 1 can be reduced; through the periphery that axle sleeve 18 cover was located at least one of the two of swing axle 123 and loose axle 151 and locate the oil storage muscle 182 of sleeve 181, can add lubricating oil between oil storage muscle 182, lubricating oil can slowly ooze to swing axle 123, loose axle 151 from axle sleeve 18 to play the lubricated guard action to swing axle 123, loose axle 151, make hinge 1 rotate smoothly, reduce wearing and tearing and noise in the use, prolong hinge 1 and refrigeration plant 100's life.

In the description of the present invention, it is to be understood that the words "upper", "lower", "inner", "outer", "left", "right", etc., indicating the orientation or positional relationship, are all referred to the directions defined herein, and these words indicating the orientation or positional relationship are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

It should be understood that although the present description refers to embodiments, not every embodiment contains only a single technical solution, and such description is for clarity only, and those skilled in the art should make the description as a whole, and the technical solutions in the embodiments can also be combined appropriately to form other embodiments understood by those skilled in the art.

The above-listed detailed description is only a specific description of a possible embodiment of the present invention, and they are not intended to limit the scope of the present invention, and equivalent embodiments or modifications made without departing from the technical spirit of the present invention should be included in the scope of the present invention.

Claims (12)

1. The utility model provides a hinge, including decide the hinge seat and with decide hinge seat pivotal connection's movable hinge seat, decide the hinge seat have first end and along first direction with the relative second end that sets up of first end, a serial communication port, decide the hinge seat offer along the spacing groove that first direction extends, the hinge still includes connecting piece, loose axle and stopper, the connecting piece rotates to be connected move the hinge seat with the loose axle, the loose axle join in marriage in the spacing groove and can follow the extending direction motion of spacing groove, the stopper can dismantle the equipment in the spacing groove, the stopper assemble in during the spacing groove, the stopper support hold the loose axle is in order to restrict the loose axle is followed the spacing groove motion.

2. The hinge of claim 1, wherein the retaining groove has an extreme proximal end and an extreme distal end disposed opposite the extreme proximal end in the first direction;

when the limiting block is assembled in the limiting groove, one end of the limiting block abuts against the limit near end, and the other end of the limiting block abuts against the movable shaft and enables the movable shaft to abut against the limit far end.

3. The hinge according to claim 2, wherein when the limiting block is assembled in the limiting groove, an arc-shaped groove is formed at one end of the limiting block, which abuts against the movable shaft, and the movable shaft is clamped in the arc-shaped groove.

4. The hinge of claim 2, wherein the wall of the limiting groove at the proximal end of the limit is arc-shaped, and the end of the limiting block abutting against the proximal end of the limit is also arc-shaped and fits the wall of the limiting groove at the proximal end of the limit.

5. The hinge according to claim 1, wherein two limiting blocks are respectively disposed in one-to-one correspondence with the limiting grooves, the fixed hinge base includes a bottom plate and a pair of side plates disposed oppositely, the pair of side plates are respectively connected to two opposite ends of the bottom plate perpendicular to the first direction, the two limiting grooves are respectively disposed on the pair of side plates, and two axial ends of the movable shaft are respectively coupled to the two limiting grooves.

6. The hinge according to claim 1, wherein the fixed hinge base comprises a bottom plate and a pivot shaft, the bottom plate extends along the first direction, the pivot shaft is perpendicular to the first direction, the movable hinge base is pivotally connected with the pivot shaft, the movable shaft is parallel to the pivot shaft, and a plane formed by axes of the movable shaft and the pivot shaft is parallel to the bottom plate.

7. The hinge according to claim 6, wherein the movable hinge base further comprises a swing shaft, the connecting member is pivotally connected to the swing shaft, and when the limiting block is assembled in the limiting groove, the axis of the swing shaft is located on a plane formed by the axes of the movable shaft and the pivot shaft.

8. The hinge according to claim 1, wherein the fixed hinge base includes a bottom plate extending in the first direction, the connecting member includes a first connecting end rotatably connected to the movable hinge base, a second connecting end connected to the movable shaft, and a body connecting the first connecting end and the second connecting end, the body being recessed in a direction away from the bottom plate.

9. The hinge according to claim 1, wherein the fixed hinge base comprises a pair of side plates disposed oppositely, the movable hinge base comprises a pair of side edges disposed oppositely, the pair of side edges are disposed between the pair of side plates and correspond to the pair of side plates one by one, and the movable hinge base further comprises a swing shaft connected with the pair of side edges and disposed between the pair of side plates.

10. The hinge according to claim 9, wherein the fixed hinge base includes a bottom plate, the movable hinge base has an initial position and a door-open position, and when the movable hinge base rotates from the initial position to the door-open position toward the movable shaft, an axis of the swing shaft is located on a plane of the bottom plate, or the axis of the swing shaft and the movable shaft are located on two sides of the bottom plate respectively.

11. The hinge of claim 10, wherein the connecting member does not interfere with the base plate during rotation of the movable hinge base relative to the fixed hinge base from the initial position toward the door-open position.

12. The refrigeration equipment comprises a cabinet body and a door body assembled on the cabinet body, and is characterized by further comprising the hinge according to claims 1-11, wherein the fixed hinge seat is assembled on the cabinet body, and the movable hinge seat is assembled on the door body.

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