WO2023087128A1 - 取水组件和制冷设备 - Google Patents
取水组件和制冷设备 Download PDFInfo
- Publication number
- WO2023087128A1 WO2023087128A1 PCT/CN2021/130815 CN2021130815W WO2023087128A1 WO 2023087128 A1 WO2023087128 A1 WO 2023087128A1 CN 2021130815 W CN2021130815 W CN 2021130815W WO 2023087128 A1 WO2023087128 A1 WO 2023087128A1
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- WO
- WIPO (PCT)
- Prior art keywords
- trigger
- water intake
- bracket
- intake assembly
- swing
- Prior art date
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D11/00—Self-contained movable devices, e.g. domestic refrigerators
- F25D11/02—Self-contained movable devices, e.g. domestic refrigerators with cooling compartments at different temperatures
Definitions
- the application belongs to the technical field of refrigeration equipment, and in particular relates to a water intake assembly and refrigeration equipment.
- the water valve is mostly driven to open by the pressure plate in direct contact with the water valve, and the force exerted by the user on the pressure plate directly acts on the water valve through the pressure plate.
- the water valve has a relatively large resilience, and the force exerted by the pressure plate on the water valve must overcome this resilience to open the water valve smoothly, so that the user It is necessary to exert a large force on the pressure plate to take water smoothly, which affects the user's operating experience.
- Embodiments according to the present application aim to improve at least one of the technical problems existing in the prior art or the related art.
- an object of the embodiments of the present application is to provide a water intake assembly.
- Another object of the embodiments according to the present application is to provide a refrigeration device.
- a water intake assembly includes: a bracket; a trigger member, which is arranged on the bracket and can move relative to the bracket; a swing member, one end of the swing member and the bracket rotate Connected, the other end of the swinging piece is in contact with the triggering piece; the valve body, including the valve core, is connected to the swinging piece; wherein, the triggering piece can drive the swinging piece to rotate around the bracket, and the rotating swinging piece can drive the valve core to move , to open the valve body.
- the water intake assembly defined in the present application is set in cooperation with the liquid storage container, and is used to control the discharge of liquid.
- the water intake assembly includes a valve body connected to the water outlet on the liquid storage container for opening or closing the water outlet.
- the valve body is provided with a spool, and the spool stays in the closed position by its own resilience in an unstressed state to block the water outlet.
- the valve core can be pushed to the open position to open the water inlet so that the liquid in the liquid storage container can be discharged through the valve body.
- the above-mentioned water valve is generally opened in two ways.
- One is that the user directly applies force to the valve core, for example, by pressing the valve core on the water valve to open the water valve;
- the user needs to forcefully push the valve core or the pressure plate to open the water valve, resulting in the destruction of the user's water intake experience.
- the water intake structure that requires a large force to operate is not conducive to the user's precise control of the water intake, and affects the practicability of the product.
- the present application provides a bracket, a trigger and a swinging member for triggering the opening of the valve core in the water intake assembly.
- the bracket is the main frame structure of the water intake assembly, which is used to position and support other working structures on the water intake assembly, and the bracket can cooperate with the product structure to which the water intake assembly is applied, so as to realize the positioning and installation of the water intake assembly on the applied product .
- the trigger piece is movably arranged on the bracket and can move relative to the bracket.
- One end of the swing piece is rotatably connected to the bracket, and the other end abuts against the trigger piece. After the assembly is completed, the swing piece is connected to the valve core on the valve body.
- a trigger piece, a swing piece and a valve core are sequentially connected.
- the user exerts force on the trigger to make the trigger move relative to the support.
- the trigger drives the swinging member to swing relative to the support, so that the swinging swing drives the valve core connected to it to move.
- the moment arm that exerts force on the valve core can be effectively increased, thereby increasing the force without changing the user’s force on the trigger member.
- the force of the large spool allows the user to overcome the resilience of the spool itself with a small force to open the valve body smoothly.
- the trigger can slide on the bracket, rotate or swing on the bracket, and can also complete a specific opening action through a limit structure such as a directional chute, which can satisfy the need to drive the swing to open the valve core.
- water intake assembly provided by this application may also have the following additional technical features:
- the water intake assembly further includes: a guide part, arranged on at least one of the trigger piece and the swing piece, and located between the trigger piece and the swing piece.
- a guide part is further provided on the water intake assembly, and the guide part is arranged between the trigger part and the swing part.
- the guide part is arranged on the trigger member and/or the swing member.
- the direction opposite to the springback force of the valve core on the valve body is the opening direction of the valve core.
- the force between the trigger part and the swing part can be optimized to reduce the The deviation between the direction of the resultant force on the small swinging member and the above-mentioned opening direction further reduces the force required by the user and reduces the difficulty of opening the valve body.
- setting a guide part between the swinging part and the trigger part can adjust the action range of the swinging part and the trigger part by means of the outer contour shape of the guide part. On the one hand, it can optimize the user's operating experience, and on the other hand, it can reduce the probability of structural jamming . In order to achieve the technical effect of optimizing the structure of water intake components, reducing the difficulty of water intake operations, and improving user experience.
- the guide part includes an arc surface, and the swinging member or the triggering member abuts on the arc surface.
- the outer contour of the guide part is limited. Specifically, part of the outer surface of the guide part is an arc surface.
- the swing part abuts against the arc surface on the guide part; when only the guide part is provided on the swing part, the trigger part abuts against the arc surface on the guide part.
- the arc surfaces on the two guide parts abut against each other.
- this structure enables the user to accidentally touch the trigger, and the trigger will not immediately drive the swinging member to open the valve body, so as to reduce the probability of liquid being discharged by misoperation.
- the guide part provided with the curved surface can provide the user with a reaction space. If the user perceives the misoperation according to the pushing action, the user can immediately withdraw the current action to avoid the misoperation.
- the guide portion provided with the arc surface is beneficial to shorten the length of the entire operation stroke of the trigger, so that the user can complete the triggering of the trigger more conveniently.
- the guide part including the arc surface is not provided, the user needs to push the trigger part to rotate 45° to open the valve body, and the guide part including the arc surface is set between the trigger part and the swing part, and the opening rotation angle can be reduced to 30°. Then realize the optimization of the transmission structure between the trigger part and the swing part, improve the practicability of the water intake component, reduce the difficulty of water intake operation, and improve the technical effect of user experience.
- the guide part is arranged on the trigger member, and the swing member abuts against the arc surface.
- one end of the trigger piece is connected to the bracket in rotation, and a guide portion is provided on the trigger piece away from the transmission connection point, and the guide portion is arranged on the surface of the trigger piece facing the bracket, that is, the inner side of the swing piece.
- One end of the oscillating member is rotatably connected with the support, and the other end protrudes into the area between the trigger member and the support, and abuts against the inclined surface on the guide part.
- the user After the water intake is completed, the user removes the pressing force, the valve core pushes the swinging member to rotate by its own resilience, and the rotating swinging member pushes the trigger to rotate to the initial position, thereby completing the automatic reset of the water intake assembly.
- the user can complete the water intake by pushing the trigger, and the operation method is more convenient, and the structure makes reasonable use of the resilience of the valve core, and the mechanism is reset by means of the resilience, which is conducive to simplifying the structural complexity of the water intake assembly.
- the swinging member includes: a connection part, which is rotatably connected to the bracket, and the valve core is connected to the connection part; and a bending part, which is connected to the connection part and abuts against the trigger part.
- the structure of the swing member is limited. Specifically, in the extending direction of the swinging piece, the swinging piece is divided into a connecting portion and a bending portion. One end of the connecting part is rotatably connected to the bracket, one end of the bending part is connected to the other end of the connecting part, and the other end of the bending part is bent toward the direction of the trigger part and abuts against the trigger part.
- the set guide parts abut against each other.
- setting the matching guide part and bending part can optimize the force between the trigger part and the swing part, so as to further reduce the force of water intake. Furthermore, the technical effect of reducing the difficulty of water intake for users, providing convenient conditions for the lightweight design and miniaturization design of water intake components, and reducing the difficulty of arranging water intake components is achieved.
- valve body further includes: a limiting part, which is arranged on the valve core, and the connecting part abuts against the limiting part.
- a limiting portion is provided on the valve core, and the limiting portion abuts against the connecting portion.
- the shape of the limiting part matches the shape of the surface of the connecting part facing the side of the valve core, and the surface is attached to the limiting part after the assembly is completed.
- the contact transmission contact area between the swinging member and the valve body can be increased by setting the limit part, which helps to reduce the force required for water intake and further reduces the difficulty of water intake on the one hand. On the other hand, it can improve the transmission reliability of the access component and reduce the probability of misalignment failure of the pendulum and the valve core. Then realize the technical effect of optimizing the structure of the water intake component, improving the practicability and operability of the water intake component, and reducing the failure rate of the water intake component.
- connection part includes a through hole, the valve core is passed through the through hole, and the through hole and the valve core are in clearance fit.
- a through hole is arranged on the connecting part, the valve core is a columnar body, and the diameter of the through hole is larger than the outer diameter of the valve core.
- the limiting part is sheathed on the peripheral side of the spool and arranged around the axis of the spool, and the outer diameter of the limiting part is larger than the diameter of the through hole.
- the connecting part presses down the limit part according to the swinging trend, so as to drive the valve core to move in the axial direction, so as to push the valve core to the open position.
- the rebounded spool pushes the swinging member back through the limiting part.
- the structure has low structural complexity and less difficulty in assembly operation, and can realize the modular design of the bracket, trigger and swing member.
- the maintenance can be completed directly by replacing the entire water intake transmission structure.
- the structure complexity and process assembly difficulty of the water intake assembly are reduced, and convenient conditions are provided for reducing the production cost of the water intake assembly.
- the bracket includes: a first section, on which the trigger is arranged; a second section, connected to the first section, bent in a direction away from the valve body, including avoiding The hole; the positioning piece is arranged on the second section, away from the first section, the swinging piece is connected with the positioning piece in rotation, and the swinging piece passes through the escape hole.
- the bracket is divided into a first section and a second section bent relative to the first section according to the extension direction of the bracket.
- the first section is located below the valve body and extends toward the direction of the valve body
- the trigger member is rotatably connected with the bottom end of the first section, and can rotate in a direction approaching or away from the first section.
- the second section extends from the top end of the first section in a direction away from the valve body.
- the positioning piece is arranged on the end of the second section, and is located on the side away from the first section, that is, the positioning piece is located at the top of the second section in the height direction of the water intake assembly, and the first section is located at the bottom of the second section .
- the center of the second section is provided with an avoidance hole
- the swinging member passes through the avoidance hole
- the connecting part at the top of the second section is rotatably connected with the positioning member
- the bending part at the bottom of the second section is connected with the trigger or
- the guides abut against each other.
- the valve body By setting the support structure, the valve body can be arranged above the trigger member, so that the user can push the trigger member to open the valve body through the cup held by the user, and ensure that the liquid discharged from the valve body can directly flow into the cup.
- the user can complete the water extraction operation with one hand.
- this structure can effectively reduce the dimension in the height direction of the transmission structure composed of the bracket, the trigger piece and the swinging piece, thereby reducing the difficulty of arranging the water intake assembly on refrigerators and other equipment, and providing a basis for the miniaturization and lightweight design of the water intake assembly Provide convenience.
- the trigger is a plate, the end of the trigger away from the valve body is connected to the support in rotation, and the swinging member abuts against the surface of the trigger facing the support.
- the trigger is a plate, and the end of the trigger that is away from the valve body, that is, the bottom end, is rotatably connected to the bracket, and the swinging member abuts against the plate surface of the trigger facing the first section, or is arranged on the The guides on the plate facing the first section abut against each other.
- the trigger configured as a plate can function to shield the inner structure of the plate, preventing the internal structure of the bracket, the swinging member, and the applied product from being exposed in the visible range of the user.
- the appearance consistency of the water intake components and the applied products can be improved, and the abruptness of the water intake components can be reduced. Furthermore, the technical effect of providing convenient conditions for water intake for users and reducing the influence of the water intake component on the appearance of the product is realized.
- the valve body when the trigger member drives the swinging member to press the valve core, the valve body opens; after stopping pressing the valve core, the valve core rebounds and the valve body closes; the bracket includes a limit hole, and the water intake assembly also includes: limit A part is arranged on the trigger part and penetrates in the limit hole. When the valve core is not under pressure, the limit part leans against the surface of the bracket away from the trigger part.
- the switching action of the valve body is limited. Specifically, the spool stays at the closed position in the unstressed state, and when the trigger member drives the swinging member to press the spool, the spool moves away from the bracket to move to the open position where the valve body can be opened. After the external force is removed, the spool pushes the pendulum and the trigger to reset by its own resilience, and finally stays at the closed position.
- a limit hole is set on the bracket, specifically the limit hole is set on the first section, a limit piece is set on the trigger piece, and the limit piece is set on the plate surface of the trigger piece facing the first section, The limit piece passes through the limit hole, and the limit piece is arranged opposite to the surface of the first section on the side away from the trigger piece.
- the rebounding spool drives the trigger to bounce away from the bracket.
- the end of the limiting part is bent toward the direction of the bracket to form a hook-like structure, and in the unstressed state, the hook-like structure of the limiting part abuts against the back of the bracket to complete the limiting.
- at least two sets of limiting pieces and limiting holes are arranged between the bracket and the triggering piece, so as to prevent the triggering piece from tilting relative to the bracket.
- the water intake assembly further includes: an elastic member connecting the bracket and the swinging member.
- an elastic member connecting the bracket and the swinging member.
- an elastic member is also arranged in the water intake assembly.
- One end of the elastic member is connected with the bracket, and the other end is connected with the swing member.
- the elastic part is always in a deformed state.
- the elastic member can also be in a deformed state when the trigger member is not stressed.
- the water intake assembly further includes: a water tank including a water outlet, a valve body is arranged on the water outlet, and the valve body is used to open or close the water outlet.
- a water tank is also arranged on the water intake assembly.
- a cavity is formed inside the water tank, and the liquid is stored in the cavity.
- the water tank is provided with a water outlet connecting the inside and outside of the cavity, and the valve body is arranged at the water outlet.
- the valve body blocks the water outlet to close the water outlet.
- the valve core is pushed to the open position by the swing member, the valve body is opened, the cavity communicates with the external space, and the liquid stored inside can be discharged through the valve body.
- the embodiment of the second aspect of the present application provides a refrigeration device, and the refrigeration device includes: the water intake assembly in any one of the above technical solutions.
- This technical solution proposes a refrigeration device using the water intake assembly in any of the above technical solutions. Therefore, the refrigeration equipment has the advantages of the water intake assembly in any of the above technical solutions, and can achieve the technical effects that the water intake assembly in any of the above technical solutions can achieve. In order to avoid repetition, details will not be repeated here.
- the refrigeration equipment further includes: a door body including an installation hole; a bracket and a water tank are arranged on the door body, the bracket and the water tank are located on both sides of the door body, and the valve body is embedded in the installation hole.
- the refrigeration equipment includes a door body, and the door body is used to open or close a cooling cavity inside the refrigeration equipment.
- the door body is provided with an installation hole penetrating the door body
- the water tank is positioned inside the door body
- the bracket and the trigger are positioned outside the door body
- the swing member and the valve core are embedded in the installation hole.
- the refrigerating equipment further includes: a box body, including a cavity and an opening communicating with the cavity, the door is openably and closably arranged at the opening for opening or closing the cavity, and the water tank is located at the door The side of the body facing the cavity; the refrigeration component is arranged on the box body and is used for cooling the cavity.
- the refrigerating equipment further includes a box body, a cavity for cooling is formed inside the box body, and a door body is arranged at the opening of the box body so as to open or close the cavity.
- the water tank is located in the cavity.
- the refrigerating component is arranged in the tank and is used for cooling the cavity, thereby reducing the ambient temperature inside the cavity and obtaining low-temperature liquid in the water tank.
- the refrigerating device may be a refrigerator, and the water intake assembly is arranged on a door body for opening or closing the refrigerating chamber.
- Fig. 1 is one of the schematic structural diagrams of a water intake assembly according to an embodiment provided by the present application
- Figure 2 is an exploded view of a water intake assembly according to an embodiment of the present application
- Fig. 3 is the second structural schematic diagram of a water intake assembly according to an embodiment of the present application.
- Fig. 4 is one of the structural schematic diagrams of a swing member according to an embodiment of the present application.
- Fig. 5 is the second structural schematic diagram of a swing member according to an embodiment provided by the present application.
- Fig. 6 is one of the structural schematic diagrams of a trigger according to an embodiment of the present application.
- Fig. 7 is the second structural schematic diagram of the trigger according to an embodiment provided by the present application.
- FIG. 8 is one of the structural schematic diagrams of a bracket according to an embodiment of the present application.
- Fig. 9 is the second structural schematic diagram of a stent according to an embodiment of the present application.
- Fig. 10 is a schematic structural diagram of a refrigeration device according to an embodiment of the present application.
- 100 water intake assembly 110 bracket, 112 first section, 114 second section, 116 positioning piece, 118 limiting hole, 120 triggering piece, 122 limiting piece, 130 swinging piece, 132 connecting part, 134 bending part, 136 escape hole, 140 valve body, 142 spool, 150 guide part, 160 elastic part, 170 water tank, 200 refrigeration equipment, 210 door body, 220 box body.
- a water intake assembly 100 includes: a bracket 110; Swing member 130, one end of the swing member 130 is rotationally connected with the bracket 110, and the other end of the swing member 130 abuts against the trigger member 120; the valve body 140 includes a valve core 142, and the valve core 142 is connected with the swing member 130; wherein, The triggering part 120 can drive the swinging part 130 to rotate around the bracket 110 , and the rotating swinging part 130 can drive the valve core 142 to move to open the valve body 140 .
- the water intake assembly 100 defined in the present application is arranged in conjunction with a liquid storage container for controlling the discharge of liquid.
- the water intake assembly 100 includes a valve body 140 connected to the water outlet on the liquid storage container for opening or closing the water outlet.
- the valve body 140 is provided with a valve core 142, and the valve core 142 stays in the closed position by its own resilience in the unstressed state, so as to block the water outlet.
- the valve core 142 can be pushed to the open position to open the water inlet so that the liquid in the liquid storage container can pass through the valve body 140 discharge.
- the above-mentioned water valve is generally opened in two ways, one is that the user directly exerts force on the valve core 142, for example, by pressing the valve core 142 on the water valve to open the water valve, and the other is to open the water valve outside the water valve.
- a pressing plate structure overlapped with the valve core 142 is provided, and after the user presses the pressing plate, the pressing plate directly pushes the valve core 142 to move.
- the user needs to forcefully push the valve core 142 or the pressure plate to open the water valve, which results in the destruction of the user's water intake experience.
- the water intake structure that requires a large force to operate is not conducive to the user's precise control of the water intake, and affects the practicability of the product.
- the present application provides a bracket 110 , a trigger member 120 and a swing member 130 for triggering the opening of the valve core 142 in the water intake assembly 100 .
- the bracket 110 is the main frame structure of the water intake assembly 100, used for positioning and supporting other working structures on the water intake assembly 100, and the bracket 110 can cooperate with the product structure to which the water intake assembly 100 is applied to realize the water intake assembly 100 in the Positioning installation on the application product.
- the trigger piece 120 is movably arranged on the bracket 110 and can move relative to the bracket 110.
- One end of the swing piece 130 is rotatably connected to the bracket 110, and the other end abuts against the trigger piece 120.
- the swing piece 130 is connected to the valve body
- the spool 142 on the 140 is connected.
- the trigger piece 120 exerts force on the trigger 120 to make the trigger 120 move relative to the support 110
- the trigger 120 drives the swinging member 130 to swing relative to the support 110 , so that the swinging swing 130 Drive the valve core 142 connected with it to move.
- the trigger piece 120 can slide on the bracket 110 , can also rotate or swing on the bracket 110 , and can also complete a specific opening action through a limiting structure such as a directional chute, which can satisfy the need to drive the swing piece 130 to open the valve core 142 .
- the water intake assembly 100 further includes: a guide part 150 disposed on at least one of the trigger member 120 and the swing member 130 , located on the trigger member 120 and the swing member between 130 pieces.
- the water intake assembly 100 is further provided with a guide part 150 , and the guide part 150 is arranged between the trigger part 120 and the swing part 130 .
- the guide part 150 is disposed on the trigger member 120 and/or the swing member 130 .
- the guide part 150 is arranged on one of the trigger part 120 and the swing part 130, the one without the guide part 150 abuts against the trigger part 120, and the structure without the guide part 150 is opposite to that of the guide part 150 during the action
- both the triggering part 120 and the swinging part 130 are provided with guide parts 150, the two guiding parts 150 on the triggering part 120 and the swinging part 130 are in contact and slide relative to each other during the action.
- the direction opposite to the springback force of the valve core 142 on the valve body 140 is the opening direction of the valve core 142.
- the guide part 150 between the trigger piece 120 and the swing piece 130 the trigger piece 120 and the swing piece 130 can be optimized. In order to reduce the deviation between the direction of the resultant force on the swing member 130 and the above-mentioned opening direction, thereby further reducing the force required by the user and reducing the difficulty of opening the valve body 140 .
- setting the guide part 150 between the swing part 130 and the trigger part 120 can adjust the action range of the swing part 130 and the trigger part 120 by means of the outer contour shape of the guide part 150, which can optimize the user's operating experience on the one hand, and on the other hand can Reduce the probability of structure stuck. Further, the technical effect of optimizing the structure of the water intake assembly 100, reducing the difficulty of water intake operation, and improving user experience is achieved.
- the guiding part 150 includes an arc surface, and the swinging member 130 or the triggering member 120 abuts on the arc surface.
- the outer contour of the guide part 150 is defined. Specifically, part of the outer surface of the guide portion 150 is an arc surface.
- the swing part 130 abuts against the arc surface on the guide part 150; Depend on.
- the guide part 150 is provided on both the trigger part 120 and the swing part 130 , the arc surfaces on the two guide parts 150 abut against each other.
- this structure can prevent the trigger member 120 from immediately driving the swing member 130 to open the valve body 140 when the user touches the trigger member 120 by mistake, so as to reduce the probability of liquid being discharged by misoperation.
- the guide part 150 provided with a curved surface can provide the user with a reaction space. operate.
- the guide portion 150 provided with the arc surface is beneficial to shorten the length of the entire operation stroke of the trigger member 120 , so that the user can complete the triggering of the trigger member 120 more conveniently.
- the guide part 150 including the arc surface is not provided, the user needs to push the trigger part 120 to rotate 45° to open the valve body 140, and the guide part 150 including the arc surface is provided between the trigger part 120 and the swing part 130. Reduce the opening rotation angle to 30°.
- the transmission structure between the trigger member 120 and the swing member 130 is optimized, the practicality of the water intake assembly 100 is improved, the difficulty of water intake operation is reduced, and the technical effect of improving user experience is achieved.
- the guide portion 150 is disposed on the trigger member 120, and the swing member 130 abuts against the arc surface.
- the structure of the water intake assembly 100 is specifically limited.
- one end of the trigger piece 120 is connected to the bracket 110 in rotation, and a guide portion 150 is provided on the trigger piece 120 far away from the transmission connection point, and the guide portion 150 is arranged on the surface of the trigger piece 120 facing the bracket 110, that is, on the side of the swing piece 130. inside.
- One end of the swing member 130 is rotatably connected to the bracket 110 , and the other end penetrates into the area between the trigger member 120 and the bracket 110 , and abuts against the slope on the guide portion 150 .
- the user presses the trigger member 120, and the trigger member 120 that rotates toward the bracket 110 pushes the swing member 130 through the guide portion 150, so that the swing member 130 presses the valve core 142, thereby pushing the valve core 142 from the closed position to the open position .
- the user removes the pressing force, and the valve core 142 pushes the swing member 130 to rotate by its own resilience, and the rotating swing member 130 pushes the trigger member 120 to rotate to the initial position, thereby completing the automatic reset of the water intake assembly 100 .
- the user can complete water intake by pushing the trigger 120, and the operation method is relatively convenient, and this structure reasonably utilizes the resilience of the valve core 142, and the mechanism is reset by means of the resilience, which is conducive to simplifying the structural complexity of the water intake assembly 100 .
- the swing member 130 includes: a connecting part 132, which is rotatably connected with the bracket 110, and a valve core 142 is connected with the connecting part 132; The connecting portion 132 is connected and abuts against the trigger member 120 .
- the structure of the swing member 130 is limited. Specifically, in the extending direction of the swinging member 130 , the swinging member 130 is divided into a connecting portion 132 and a bending portion 134 .
- One end of the connecting part 132 is rotatably connected to the bracket 110, one end of the bending part 134 is connected to the other end of the connecting part 132, and the other end of the bending part 134 is bent toward the direction of the trigger part 120 and abuts against the trigger part 120, Specifically, it can abut against the guide portion 150 provided on the trigger member 120 .
- Providing the bent portion 134 on the swinging member 130 is beneficial to reduce the overall length of the swinging member 130 , and can also improve the structural compactness of the water intake assembly 100 to a certain extent, thereby reducing the space occupied by the water intake assembly 100 .
- setting the matching guide part 150 and the bending part 134 can optimize the force between the trigger part 120 and the swing part 130, so as to further reduce the force of water intake.
- the technical effects of reducing the difficulty of water intake for users, providing convenience for the lightweight design and miniaturization design of the water intake assembly 100, and reducing the difficulty of arranging the water intake assembly 100 are achieved.
- the valve body 140 further includes: a limiting portion disposed on the valve core 142 , and the connecting portion 132 abuts against the limiting portion.
- a limiting portion is provided on the valve core 142 , and the limiting portion abuts against the connecting portion 132 .
- the shape of the limiting portion matches the shape of the surface of the connecting portion 132 facing the valve core 142 , and the surface is attached to the limiting portion after the assembly is completed.
- the contact transmission area between the swinging member 130 and the valve body 140 can be increased by setting the limiting part, on the one hand, it is beneficial to reduce the force required for water intake, and further reduce the difficulty of water intake. On the other hand, it can improve the transmission reliability of the reading assembly, and reduce the probability of misalignment failure of the swing member 130 and the valve core 142 . Furthermore, the technical effects of optimizing the structure of the water intake assembly 100 , improving the practicability and operability of the water intake assembly 100 , and reducing the failure rate of the water intake assembly 100 are realized.
- the connecting portion 132 includes a through hole, the valve core 142 is penetrated in the through hole, and the through hole and the valve core 142 are loosely fitted.
- the connecting portion 132 is provided with a through hole
- the valve core 142 is a columnar body
- the diameter of the through hole is larger than the outer diameter of the valve core 142 .
- the limiting portion is sheathed on the side of the valve core 142 around the axis of the valve core 142 , and the outer diameter of the limiting portion is larger than the diameter of the through hole.
- the connecting portion 132 presses down on the limit portion along with the swinging trend, so as to drive the valve core 142 to move in the axial direction, so as to push the valve core 142 to the open position.
- the valve core 142 that rebounds after removing the water fetching force pushes the swinging member 130 to reset through the limiting part.
- the structural complexity of this structure is low and the assembly operation is less difficult, and the modular design of the bracket 110, the trigger 120 and the swinging member 130 can be realized.
- the maintenance can be completed directly by replacing the entire water intake transmission structure. .
- the structure complexity and process assembly difficulty of the water intake assembly 100 are reduced, and convenient conditions are provided for reducing the production cost of the water intake assembly 100 .
- the bracket 110 includes: a first section 112, on which the trigger 120 is arranged; a second section 114, and the first section 114
- the segments 112 are connected and bent in a direction away from the valve body 140, including the escape hole 136; the positioning member 116 is arranged on the second segment 114, away from the first segment 112, and the swinging member 130 is rotationally connected with the positioning member 116 , the swinging member 130 passes through the avoidance hole 136 .
- the bracket 110 is divided into a first section 112 and a second section 114 bent relative to the first section 112 .
- the first section 112 is located below the valve body 140 and extends toward the direction of the valve body 140
- the trigger member 120 is connected to the bottom end of the first section 112 in rotation, and can rotate in a direction approaching or away from the first section 112 .
- the second section 114 extends from the top end of the first section 112 in a direction away from the valve body 140 .
- the positioning piece 116 is arranged on the end of the second section 114, and is located on the side away from the first section 112, that is, the positioning piece 116 is located at the top of the second section 114 in the height direction of the water intake assembly 100, and the first section 112 is located at the bottom of the second section 114 .
- the center of the second section 114 is provided with an avoidance hole 136 through which the swinging member 130 passes.
- the connecting part 132 at the top of the second section 114 is rotatably connected with the positioning member 116 and is located at the bottom of the second section 114.
- the bent portion 134 abuts against the trigger piece 120 or the guide piece.
- the valve body 140 can be arranged above the trigger piece 120, so that the user can push the trigger piece 120 to open the valve body 140 through the cup held by the user, and ensure that the liquid discharged from the valve body 140 can directly flow into the cup in vivo.
- the user can complete the water extraction operation with one hand.
- this structure can effectively reduce the dimension in the height direction of the transmission structure composed of the bracket 110, the trigger member 120 and the swing member 130, thereby reducing the difficulty of arranging the water intake assembly 100 on refrigerators and other equipment, and contributing to the miniaturization of the water intake assembly 100.
- Design and lightweight design provide convenience.
- the trigger 120 is a plate, the end of the trigger 120 away from the valve body 140 is connected to the bracket 110 in rotation, and the swinging member 130 and the trigger 120 face The surfaces of the bracket 110 abut against each other.
- the trigger piece 120 is a plate, and the end of the trigger piece 120 away from the valve body 140, that is, the bottom end, is rotatably connected to the bracket 110, and the swing piece 130 is on the plate surface of the trigger piece 120 facing the first section 112. abut against, or abut against a guide provided on the plate surface facing the first section 112 .
- the trigger 120 configured as a plate can function to shield the inner structure of the plate, preventing the bracket 110, the swinging member 130 and the internal structure of the applied product from being exposed in the visible range of the user.
- the appearance consistency of the water intake assembly 100 and the applied products is improved, and the abrupt feeling of the water intake assembly 100 is reduced. Furthermore, the technical effect of providing convenient conditions for users to take water and reducing the influence of the water taking assembly 100 on the appearance of the product is realized.
- the valve body 140 when the trigger member 120 drives the swing member 130 to press the valve core 142, the valve body 140 opens; after stopping pressing the valve core 142, the valve core 142 rebounds, and the valve body 140 closes; the bracket 110 includes a limiting hole 118.
- the water intake assembly 100 further includes: a limiting member 122, which is arranged on the triggering member 120 and penetrates in the limiting hole 118. When the valve core 142 is not under pressure, the limiting member 122 leans against the bracket 110 and deviates from the triggering member 120 on the surface.
- the switching action of the valve body 140 is limited. Specifically, the spool 142 stays at the closed position in the unstressed state, and when the trigger member 120 drives the swinging member 130 to press the spool 142, the spool 142 moves away from the bracket 110 to move to the position where the valve body 140 can be opened. Location. After the external force is removed, the valve core 142 pushes the swinging member 130 and the triggering member 120 to reset by its own resilience, and finally stays at the closed position.
- a limiting hole 118 is provided on the bracket 110, specifically, the limiting hole 118 is provided on the first section 112, and a limiting member 122 is arranged on the trigger member 120, and the limiting member 122 is arranged on the trigger member 120 toward the second On the board surface of the first section 112 , the limiting member 122 passes through the limiting hole 118 and the limiting member 122 is opposite to the surface of the first section 112 facing away from the triggering member 120 .
- the rebounding spool 142 drives the trigger piece 120 to bounce off relative to the bracket 110, and by setting the limit hole 118 on the bracket 110 and cooperating with the set limit piece 122, it can pass against the bracket.
- the limiter 122 on the back of the trigger 110 limits the rebound angle of the trigger 120 to ensure that the trigger 120 can accurately stay at the predetermined initial position, eliminating the reset operation when the user subsequently uses the trigger 120 .
- the technical effect of optimizing the structure of the water intake assembly 100, improving the structural reliability of the water intake assembly 100, and providing convenient conditions for users is achieved.
- the end of the limiting part 122 is bent toward the direction of the bracket 110 to form a hook structure.
- the hook structure of the limiting part leans against the back of the bracket 110 to complete the limiting.
- at least two sets of limiting members 122 and limiting holes 118 are provided between the bracket 110 and the triggering member 120 to prevent the triggering member 120 from tilting relative to the bracket 110 .
- the water intake assembly 100 also includes: an elastic member 160, connecting the bracket 110 and a swing member 130, when the trigger member 120 drives the swing member 130 to rotate, the elastic member 160 deformed.
- the water intake assembly 100 is further provided with an elastic member 160 .
- One end of the elastic member 160 is connected to the bracket 110 , and the other end is connected to the swing member 130 .
- the elastic member 160 is always in a deformed state.
- the elastic member 160 can also be in a deformed state when the trigger member 120 is not under stress.
- setting the elastic member 160 can eliminate the abnormal vibration of the water intake assembly 100 by eliminating the structural gap between the trigger member 120 , the swing member 130 and the valve core 142 . Furthermore, the technical effect of optimizing the structure of the water intake assembly 100 and improving the reliability of the water intake assembly 100 is realized.
- the water intake assembly 100 further includes: a water tank 170 including a water outlet, and a valve body 140 is arranged on the water outlet, and the valve body 140 is used to open or close the water outlet Shuikou.
- a water tank 170 is also provided on the water intake assembly 100 .
- a cavity is formed inside the water tank 170, and the liquid is stored in the cavity.
- the water tank 170 is provided with a water outlet connecting the inside and outside of the cavity, and the valve body 140 is arranged at the water outlet.
- the valve body 140 blocks the water outlet to close the water outlet.
- the valve core 142 is pushed to the open position by the swing member 130 , the valve body 140 is opened, the cavity communicates with the external space, and the liquid stored inside can be discharged through the valve body 140 .
- a refrigeration device 200 is provided, and the refrigeration device 200 includes: the water intake assembly 100 in any one of the above embodiments.
- a refrigeration device 200 using the water intake assembly 100 in any of the above embodiments is proposed. Therefore, the refrigeration device 200 has the advantages of the water intake assembly 100 in any of the above embodiments, and can achieve the technical effects that the water intake assembly 100 in any of the above embodiments can achieve. To avoid repetition, details are not repeated here.
- the refrigeration equipment 200 further includes: a door body 210 including a mounting hole; the bracket 110 and the water tank 170 are arranged on the door body 210, the bracket 110 and the water tank 170 are located on both sides of the door body 210, and the valve body 140 Embedded in the mounting hole.
- the refrigeration device 200 includes a door body 210 , and the door body 210 is used to open or close a cooling cavity inside the refrigeration device 200 .
- the door body 210 is provided with a mounting hole through the door body 210
- the water tank 170 is positioned inside the door body 210
- the bracket 110 and the trigger piece 120 are positioned outside the door body 210
- the swing piece 130 and the valve core 142 are embedded. on the mounting hole.
- the refrigeration device 200 further includes: a box body 220, including a cavity and an opening communicating with the cavity, the door 210 is openably and closably provided at the opening, and is used to open or close the cavity,
- the water tank 170 is located on the side of the door body 210 facing the cavity; the cooling assembly is arranged on the tank body 220 for cooling the cavity.
- the refrigeration device 200 further includes a box body 220 , a cavity for cooling is formed inside the box body 220 , and the door body 210 is arranged at the opening of the box body 220 so as to open or close the cavity.
- the water tank 170 is located in the cavity.
- the refrigeration assembly is arranged in the box body 220 and is used for cooling the cavity, thereby reducing the ambient temperature inside the cavity and obtaining low-temperature liquid in the water tank 170 .
- the refrigerating device 200 may be a refrigerator, and the water intake assembly 100 is arranged on a door 210 for opening or closing the refrigerating cavity.
- connection can be fixed connection, detachable connection, or integral connection; “connection” can be directly or indirectly through an intermediary.
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Abstract
本申请提出了一种取水组件和制冷设备,属于制冷设备技术领域。取水组件包括:支架;触发件,设于支架上,可相对支架运动;摆动件,摆动件的一端与支架转动连接,摆动件的另一端与触发件相抵接;阀体,包括阀芯,阀芯与摆动件相连接;其中,通过触发件能够带动摆动件绕支架转动,转动的摆动件能够带动阀芯移动,以开启阀体。通过在触发件和阀芯之间设置相对支架摆动的摆动件,可以有效增大对阀芯施加作用力的力臂,从而在不改变用户对触发件施加作用力的情况下增大阀芯的受力,以使用户可以通过较小施力克服阀芯自身的回弹力,以顺利开启阀体。
Description
本申请属于制冷设备技术领域,具体涉及一种取水组件和制冷设备。
相关技术中,对于安装在冰箱等制冷设备上的储水设备,需对其上设置的水阀施加作用力才可开启水阀并将内部存储的水由水阀排出。
目前,多通过与水阀直接接触的压板带动水阀开启,用户施加在压板上的作用力经由压板直接作用在水阀上。但为了保证水阀的密封性以及降低水阀误开启的概率,水阀具备较大的回弹力,压板施加在水阀上的作用力需克服该回弹力才可顺利开启水阀,以至于用户需要对压板施加较大的作用力才可顺利取水,导致用户的操作体验受到影响。
因此,如何设计出一种可攻克上述技术缺陷的阀芯组件成为了目前亟待解决的技术问题。
发明内容
根据本申请的实施例旨在至少改善现有技术或相关技术中存在的技术问题之一。
有鉴于此,根据本申请的实施例的一个目的在于提供一种取水组件。
根据本申请的实施例的另一个目的在于提供一种制冷设备。
为了实现上述目的,根据本申请第一方面的实施例提供了一种取水组件,取水组件包括:支架;触发件,设于支架上,可相对支架运动;摆动件,摆动件的一端与支架转动连接,摆动件的另一端与触发件相抵接;阀体,包括阀芯,阀芯与摆动件相连接;其中,通过触发件能够带动摆动件绕支架转动,转动的摆动件能够带动阀芯移动,以开启阀体。
本申请所限定的取水组件配合储液容器设置,用于控制液体的排出。具体地,取水组件包括阀体,阀体与储液容器上的出水口相连接,用于开启或关闭出水口。其中阀体内设置有阀芯,在未受力状态下阀芯依靠自身的回弹力停留 在关闭位置,以封堵出水口。对应地,在施加在阀芯上的外力能够克服阀芯自身的回弹力时,即可将阀芯推动至开启位置,以开启进水口使储液容器内的液体可以经由阀体排出。
在相关技术中,一般通过两种方式开启上述水阀,一种是用户直接对阀芯施加作用力,例如通过按压水阀上的阀芯开启水阀,另一种是在水阀外设置与阀芯搭接的压板结构,用户在按压压板后,压板直接推动阀芯运动。但在通过这两种方式开启自身回弹力较大的水阀时,用户所需要用力推动阀芯或压板才可开启水阀,导致用户的取水体验被破坏。而且,需较大作用力才可操作的取水结构不利于用户对取水量的精确控制,影响产品的实用性。
对此,本申请在取水组件中设置了用于触发阀芯开启的支架、触发件和摆动件。具体地,支架为取水组件的主体框架结构,用于定位和支撑取水组件上的其他工作结构,并且支架可以与应用该取水组件的产品结构相配合,以实现取水组件在应用产品上的定位安装。触发件可移动地设置在支架上,能够相对支架运动,摆动件的一端与支架转动连接,另一端抵靠在触发件上,且在完成装配后摆动件与阀体上的阀芯相连接。从而相对支架形成依次相接的触发件、摆动件和阀芯。工作过程中,用户对触发件施加作用力,以使触发件相对支架运动,在触发件相对运动过程中触发件带动摆动件相对支架摆动,从而通过摆动的摆动件带动与其相连的阀芯运动。由此可见,通过在触发件和阀芯之间设置相对支架摆动的摆动件,可以有效增大对阀芯施加作用力的力臂,从而在不改变用户对触发件施加作用力的情况下增大阀芯的受力,以使用户可以通过较小施力克服阀芯自身的回弹力,以顺利开启阀体。从而解决相关技术中所存在的水阀开启难度大、水量调控操作困难、用户使用体验差的技术问题。进而实现优化取水组件结构,提升取水组件的实用性和可靠性,降低用户操作难度,为用户提供便利条件的技术效果。
具体地,该技术方案中不对触发件的具体结构形式和动作方式做硬性限定。触发件可以在支架上滑动,也可以在支架上转动或摆动,还可以通过定向滑槽等限位结构完成特定的开启动作,可满足带动摆动件开启阀芯即可。
另外,本申请提供的上述取水组件还可以具有如下附加技术特征:
在上述技术方案中,取水组件还包括:导向部,设于触发件和摆动件中的 至少一个上,位于触发件和摆动件之间。
在该技术方案中,取水组件上还设置有导向部,且导向部设置在触发件和摆动件之间。具体地,导向部设置在触发件和/或摆动件上。在导向部设置在触发件和摆动件的其中一者上时,未设置导向部的一者与触发件相抵靠,动作过程中未设置导向部的结构相对导向部的外轮廓滑动。在触发件和摆动件上均设置有导向部时,触发件和摆动件上的两个导向部相接触,且在动作过程中相对滑动。
其中,在阀体上与阀芯回弹力相反的方向即为阀芯的开启方向,通过在触发件和摆动件之间设置导向部,可以优化触发件和摆动件之间的受力,以减小摆动件上的合力的方向与上述开启方向间的偏差,从而进一步减小用户所需要施加的作用力,降低阀体开启难度。并且,在摆动件和触发件之间设置导向部可以借助导向部的外轮廓形状调节摆动件和触发件的动作区间,一方面可以优化用户的操作体验,另一方面可以降低结构卡死的概率。进而实现优化取水组件结构,降低取水操作难度,提升用户使用体验的技术效果。
在上述任一技术方案中,导向部包括弧面,摆动件或触发件抵接于弧面上。
在该技术方案中,对导向部的外轮廓做出了限定。具体地,导向部的部分外表面为弧面。仅触发件上设置有导向部时,摆动件与导向部上的弧面相抵靠,仅摆动件上设置有导向部时,触发件与导向部上的弧面相抵靠。对应地,在触发件和摆动件上均设置有导向部时,两个导向部上的弧面相抵靠。通过在导向部上构造弧面,可以在用户操作触发件移动的前半段行程中减少摆动件的摆动幅度,并在后半段行程中增大摆动件的摆动幅度。
该结构一方面可以使用户在误触触发件时,触发件不会立即带动摆动件开启阀体,以降低液体被误操作排出的概率。例如,用户在不知情的情况下误推动触发件时,设置有弧面的导向部可以为用户提供反应空间,若用户根据推动动作感知到误操作,即可立即撤回当前动作以免去误操作。
另一方面,设置有弧面的导向部有利于缩短触发件的整个操作行程的长度,使用户可以较为便利地完成触发件的触发。例如在未设置包括弧面的导向部时,用户需推压触发件转动45°才可开启阀体,在触发件和摆动件间设置包括弧面的导向部,即可将该开启转动角度降低至30°。进而实现优化触发 件和摆动件间的传动结构,提升取水组件实用性,降低取水操作难度,提升用户使用体验的技术效果。
在上述任一技术方案中,导向部设于触发件上,摆动件抵接于弧面上。
在该技术方案中,对取水组件的结构做出具体限定。其中,触发件的一端与支架转动相连,触发件上远离传动连接点的区域设置有导向部,导向部设置在触发件朝向支架的表面上,也就是摆动件的内侧。摆动件的一端与支架转动连接,另一端探入触发件和支架之间的区域内,并与导向部上的斜面相抵靠。取水时,用户按压触发件,朝支架转动的触发件通过导向部推动摆动件,以通过摆动的摆动件按压阀芯,从而将阀芯由关闭位置推动至开启位置。完成取水后,用户撤去按压力,阀芯依靠自身的回弹力推动摆动件回转,回转的摆动件推动触发件转动至初始位置,从而完成取水组件的自动复位。该结构是用户通过推动触发件即可完成取水,操作方式较为便捷,并且该结构合理利用了阀芯的回弹力,借助该回弹力实现机构复位,有利于简化取水组件的结构复杂度。
在上述任一技术方案中,摆动件包括:连接部,与支架转动连接,阀芯与连接部相连接;弯折部,与连接部相连接,且与触发件相抵接。
在该技术方案中,对摆动件的结构做出了限定。具体地,在摆动件的延伸方向上,摆动件划分为连接部和弯折部。连接部的一端与支架转动连接,弯折部的一端与连接部的另一端相接,弯折部的另一端朝触发件所在方向弯折并与触发件相抵接,具体可与触发件上所设置的导向部相抵接。通过在摆动件上设置弯折部有利于缩减摆动件的总长,还可以在一定程度上提升取水组件的结构紧凑度,从而减少取水组件所需要占用的空间。同时,设置相适配的导向部和弯折部可以优化触发件和摆动件间的受力,以进一步降低取水作用力。进而实现降低用户取水难度,为取水组件的轻量化设计和小型化设计提供便利条件,降低取水组件布置难度的技术效果。
在上述任一技术方案中,阀体还包括:限位部,设置于阀芯上,连接部与限位部相抵接。
在该技术方案中,阀芯上设置有限位部,限位部与连接部相抵靠。其中,限位部的形状与连接部上朝向阀芯一侧的表面的形状相匹配,在完成装配后该表面与限位部相贴合。通过设置限位部可以增大摆动件和阀体间的接触传动接 触面积,一方面有利于降低取水所需作用力,进一步降低取水难度。另一方面可以提升取数组件的传动可靠性,降低摆动件和阀芯错位失效的概率。进而实现优化取水组件结构,提升取水组件实用性和可操作性,降低取水组件故障率的技术效果。
在上述任一技术方案中,连接部包括通孔,阀芯穿设于通孔中,通孔与阀芯间隙配合。
在该技术方案中,对连接部和阀芯之间的配合结构做出具体限定。连接部上设置有通孔,阀芯为柱状体,通孔的孔径大于阀芯的外径。限位部套设在阀芯周侧,环绕阀芯的轴线设置,且限位部的外径大于通孔的孔径。装配过程中,将阀芯的端部穿入通孔中,在通孔周侧的连接部与限位部相抵靠时即可完成装配。开启阀体时,连接部随摆动趋势下压限位部,以带动阀芯在轴线方向移动,以将阀芯推动至开启位置。反之,在撤去取水力后回弹的阀芯通过限位部推动摆动件复位。该结构的结构复杂度较低且装配操作难度小,并且可实现支架、触发件和摆动件的模块化设计,在取水传动结构出现故障时,可直接通过更换取水传动结构整体完成维护。进而实现了降低取水组件结构复杂度和工艺装配难度,为缩减取水组件生产成本提供便利条件。
在上述任一技术方案中,支架包括:第一段部,触发件设于第一段部上;第二段部,与第一段部相连接,朝背离阀体的方向弯折,包括避让孔;定位件,设于第二段部上,背离第一段部,摆动件与定位件转动连接,摆动件穿设于避让孔中。
在该技术方案中,对支架的结构做出展开说明。具体地,根据支架的延伸方向将支架划分为第一段部和相对第一段部弯折的第二段部。其中,第一段部位于阀体下方并朝阀体所在方向延伸,触发件与第一段部的底端转动相连,可在靠近或远离第一段部的方向上转动。第二段部由第一段部的顶端朝远离阀体的方向延伸。定位件设置在第二段部的末端上,且位于背离第一段部的一侧,也就是在取水组件的高度方向定位件位于第二段部顶部,第一段部位于第二段部底部。其中,第二段部的中心处设置有避让孔,摆动件贯穿该避让孔,位于第二段部顶部的连接部与定位件转动连接,位于第二段部底部的弯折部与触发件或导向件相抵靠。通过设置该支架结构,使阀体可以布置在触发件上方,从 而使用户可通过握持的杯子推动触发件开启阀体,并确保阀体所排出的液体可以直接流入杯体内。使用户单手即可完成取水操作。同时,该结构可以有效减少支架、触发件和摆动件所组成的传动结构在高度方向上的尺寸,从而降低取水组件在冰箱等设备上的布置难度,为取水组件的小型化设计和轻量化设计提供便利条件。
在上述任一技术方案中,触发件为板件,触发件远离阀体的一端与支架转动相连接,摆动件与触发件朝向支架的表面相抵接。
在该技术方案中,触发件为板件,触发件上远离阀体的一端也就是底端与支架转动连接,摆动件则于触发件朝向第一段部的板面相抵靠,或与设置在朝向第一段部的板面上的导向件相抵靠。通过将触发件设置为板件一方面可以增大用户的施力面积,从而降低用户的取水操作难度。另一方面,设置为板件的触发件可以起到遮挡板件内侧结构的作用,避免支架、摆动件以及所应用产品的内部结构暴露在用户可视范围内。从而提升取水组件以及所应用产品的外观一致性,降低取水组件的突兀感。进而实现为用户取水提供便利条件,降低取水组件对产品外观影响程度的技术效果。
在上述任一技术方案中,触发件带动摆动件压迫阀芯时,阀体开启;停止压迫阀芯后,阀芯回弹,阀体关闭;支架包括限位孔,取水组件还包括:限位件,设于触发件上,且穿设于限位孔中,阀芯未受压时,限位件抵靠于支架背离触发件的表面上。
在该技术方案中,对阀体开关动作做出限定。具体地,未受力状态下阀芯停留在关闭位置,触发件带动摆动件压迫阀芯时,阀芯朝远离支架的方向运动,以运动至可以开启阀体的开启位置。在撤去外力后,阀芯通过自身的回弹力推动摆动件和触发件复位,并最终停留在关闭位置。在此基础上,支架上设置有限位孔,具体限位孔设置在第一段部上,触发件上则设置有限位件,限位件设置在触发件朝向第一段部的板面上,限位件贯穿限位孔且限位件与第一段部背离触发件一侧的表面相对设置。在撤去对触发件的按压力后,回弹的阀芯带动触发件相对支架弹开,通过在支架上设置限位孔并配合设置限位件可以通过抵靠在支架背面的限位件限制触发件的回弹角度,确保触发件可以准确停留在预定初始位置下,免去用户后续使用触发件时的复位操作。从而实现了优化取水 组件结构,提升取水组件结构可靠性,为用户提供便利条件的技术效果。
具体地,限位件的末端朝支架所在方向弯折,形成钩状结构,在未受力状态下,该限位部的钩状结构抵靠在支架背面,以完成限位。同时,支架和触发件之间设置有至少两组限位件和限位孔,以避免触发件相对支架倾斜。
在上述任一技术方案中,取水组件还包括:弹性件,连接支架和摆动件,触发件带动摆动件转动时,弹性件发生形变。
在该技术方案中,取水组件中还设置有弹性件。弹性件的一端与支架相连接,另一端与摆动件相连接。在触发件带动摆动件转动的过程中,弹性件始终处于形变状态。具体还可以让弹性件在触发件未受力状态时处于形变状态。通过设置该弹性件可以保持触发件、摆动件和阀芯间的抵触配合关系,避免上述三个结构在传动过程或静止状态下解体。使整套传动结构始终处于张紧状态下。同时,设置该弹性件可以通过消除触发件、摆动件和阀芯间的结构缝隙来消除取水组件的振动异响。进而实现优化取水组件结构,提升取水组件可靠性的技术效果。
在上述任一技术方案中,取水组件还包括:水箱,包括出水口,阀体设于出水口上,阀体用于开启或关闭出水口。
在该技术方案中,取水组件上还设置有水箱。水箱内部成型有腔体,液体存放在腔体中。水箱上设置有连通腔体内外的出水口,阀体设置在出水口处。在阀芯处于关闭位置时,阀体封堵出水口,以关闭出水口。对应地,在阀芯被摆动件推动至开启位置时,阀体开启,腔体连通外部空间,其内部存储的液体即可经由阀体排出。
本申请第二方面的实施例提供了一种制冷设备,制冷设备包括:如上述任一技术方案中的取水组件。
该技术方案中提出了一种应用有上述任一技术方案中的取水组件的制冷设备。因此该制冷设备具备上述任一技术方案中的取水组件的优点,可以实现上述任一技术方案中的取水组件所能实现的技术效果,为避免重复,此处不再赘述。
在上述任一技术方案中,制冷设备还包括:门体,包括安装孔;支架和水箱设于门体上,支架和水箱位于门体的两侧,阀体嵌设于安装孔中。
在该技术方案中,制冷设备包括门体,门体用于开启或关闭制冷设备的内的制冷用腔体。具体地,门体上设置有贯穿门体的安装孔,水箱定位在门体的内侧,支架和触发件定位在门体的外侧,摆动件和阀芯嵌设在安装孔上。通过将取水组件设置在制冷设备的门体上,一方面可以借助制冷设备制冷用腔体中的冷量对水箱内的液体进行制冷。另一方面使用户可以在不开启门体的情况下在门体的外侧通过按压触发件取出水箱内的冷水。从而为用户制冷水和取水提供便利条件。
在上述任一技术方案中,制冷设备还包括:箱体,包括腔体以及与腔体相连通的开口,门体可开合地设于开口处,用于开启或关闭腔体,水箱位于门体朝向腔体的一侧;制冷组件,设于箱体上,用于对腔体制冷。
在该技术方案中,制冷设备还包括箱体,箱体内部形成有制冷用腔体,门体可开合的设置在箱体的开口处,以开启或封闭腔体。当门体处于关闭状态时,水箱位于腔体中。制冷组件设置在箱体内,用于对腔体进行制冷,从而降低腔体内部环境温度,并在水箱内得到低温液体。其中,该制冷设备可以为冰箱,取水组件设置在用于开启或关闭冷藏腔体的门体上。
根据本申请的实施例的附加方面和优点将在下面的描述部分中变得明显,或通过根据本申请的实施例的实践了解到。
图1是根据本申请提供的一个实施例的取水组件的结构示意图之一;
图2是根据本申请提供的一个实施例的取水组件的爆炸图;
图3是根据本申请提供的一个实施例的取水组件的结构示意图之二;
图4是根据本申请提供的一个实施例的摆动件的结构示意图之一;
图5是根据本申请提供的一个实施例的摆动件的结构示意图之二;
图6是根据本申请提供的一个实施例的触发件的结构示意图之一;
图7是根据本申请提供的一个实施例的触发件的结构示意图之二;
图8是根据本申请提供的一个实施例的支架的结构示意图之一;
图9是根据本申请提供的一个实施例的支架的结构示意图之二;
图10是根据本申请提供的一个实施例的制冷设备的结构示意图。
其中,图1至图10中的附图标记与部件名称之间的对应关系为:
100取水组件,110支架,112第一段部,114第二段部,116定位件,118限位孔,120触发件,122限位件,130摆动件,132连接部,134弯折部,136避让孔,140阀体,142阀芯,150导向部,160弹性件,170水箱,200制冷设备,210门体,220箱体。
为了可以更清楚地理解根据本申请的实施例的上述目的、特征和优点,下面结合附图和具体实施方式对根据本申请的实施例进行进一步的详细描述。需要说明的是,在不冲突的情况下,根据本申请的实施例的特征可以相互组合。
在下面的描述中阐述了很多具体细节以便于充分理解根据本申请的实施例,但是,根据本申请的实施例还可以采用其他不同于在此描述的其他方式来实施,因此,根据本申请的实施例提供的保护范围并不受下面公开的具体实施例的限制。
下面参照图1至图10描述根据本申请提供的一些实施例。
实施例1
如图1和图2所示,根据本申请第一方面的实施例,提出了一种取水组件100,取水组件100包括:支架110;触发件120,设于支架110上,可相对支架110运动;摆动件130,摆动件130的一端与支架110转动连接,摆动件130的另一端与触发件120相抵接;阀体140,包括阀芯142,阀芯142与摆动件130相连接;其中,通过触发件120能够带动摆动件130绕支架110转动,转动的摆动件130能够带动阀芯142移动,以开启阀体140。
本申请所限定的取水组件100配合储液容器设置,用于控制液体的排出。具体地,取水组件100包括阀体140,阀体140与储液容器上的出水口相连接,用于开启或关闭出水口。其中阀体140内设置有阀芯142,在未受力状态下阀芯142依靠自身的回弹力停留在关闭位置,以封堵出水口。对应地,在施加在阀芯142上的外力能够克服阀芯142自身的回弹力时,即可将阀芯142推动至开启位置,以开启进水口使储液容器内的液体可以经由阀体140排出。
在相关技术中,一般通过两种方式开启上述水阀,一种是用户直接对阀芯142施加作用力,例如通过按压水阀上的阀芯142开启水阀,另一种是在水阀外设置与阀芯142搭接的压板结构,用户在按压压板后,压板直接推动阀芯142运动。但在通过这两种方式开启自身回弹力较大的水阀时,用户所需要用力推动阀芯142或压板才可开启水阀,导致用户的取水体验被破坏。而且,需较大作用力才可操作的取水结构不利于用户对取水量的精确控制,影响产品的实用性。
对此,本申请在取水组件100中设置了用于触发阀芯142开启的支架110、触发件120和摆动件130。具体地,支架110为取水组件100的主体框架结构,用于定位和支撑取水组件100上的其他工作结构,并且支架110可以与应用该取水组件100的产品结构相配合,以实现取水组件100在应用产品上的定位安装。触发件120可移动地设置在支架110上,能够相对支架110运动,摆动件130的一端与支架110转动连接,另一端抵靠在触发件120上,且在完成装配后摆动件130与阀体140上的阀芯142相连接。从而相对支架110形成依次相接的触发件120、摆动件130和阀芯142。工作过程中,用户对触发件120施加作用力,以使触发件120相对支架110运动,在触发件120相对运动过程中触发件120带动摆动件130相对支架110摆动,从而通过摆动的摆动件130带动与其相连的阀芯142运动。由此可见,通过在触发件120和阀芯142之间设置相对支架110摆动的摆动件130,可以有效增大对阀芯142施加作用力的力臂,从而在不改变用户对触发件120施加作用力的情况下增大阀芯142的受力,以使用户可以通过较小施力克服阀芯142自身的回弹力,以顺利开启阀体140。从而解决相关技术中所存在的水阀开启难度大、水量调控操作困难、用户使用体验差的技术问题。进而实现优化取水组件100结构,提升取水组件100的实用性和可靠性,降低用户操作难度,为用户提供便利条件的技术效果。
具体地,该实施例中不对触发件120的具体结构形式和动作方式做硬性限定。触发件120可以在支架110上滑动,也可以在支架110上转动或摆动,还可以通过定向滑槽等限位结构完成特定的开启动作,可满足带动摆动件130开启阀芯142即可。
实施例2
如图2和图3所示,根据本申请第一方面的实施例,取水组件100还包括:导向部150,设于触发件120和摆动件130中的至少一个上,位于触发件120和摆动件130之间。
在该实施例中,取水组件100上还设置有导向部150,且导向部150设置在触发件120和摆动件130之间。具体地,导向部150设置在触发件120和/或摆动件130上。在导向部150设置在触发件120和摆动件130的其中一者上时,未设置导向部150的一者与触发件120相抵靠,动作过程中未设置导向部150的结构相对导向部150的外轮廓滑动。在触发件120和摆动件130上均设置有导向部150时,触发件120和摆动件130上的两个导向部150相接触,且在动作过程中相对滑动。
其中,在阀体140上与阀芯142回弹力相反的方向即为阀芯142的开启方向,通过在触发件120和摆动件130之间设置导向部150,可以优化触发件120和摆动件130之间的受力,以减小摆动件130上的合力的方向与上述开启方向间的偏差,从而进一步减小用户所需要施加的作用力,降低阀体140开启难度。并且,在摆动件130和触发件120之间设置导向部150可以借助导向部150的外轮廓形状调节摆动件130和触发件120的动作区间,一方面可以优化用户的操作体验,另一方面可以降低结构卡死的概率。进而实现优化取水组件100结构,降低取水操作难度,提升用户使用体验的技术效果。
在上述任一实施例中,导向部150包括弧面,摆动件130或触发件120抵接于弧面上。
在该实施例中,对导向部150的外轮廓做出了限定。具体地,导向部150的部分外表面为弧面。仅触发件120上设置有导向部150时,摆动件130与导向部150上的弧面相抵靠,仅摆动件130上设置有导向部150时,触发件120与导向部150上的弧面相抵靠。对应地,在触发件120和摆动件130上均设置有导向部150时,两个导向部150上的弧面相抵靠。通过在导向部150上构造弧面,可以在用户操作触发件120移动的前半段行程中减少摆动件130的摆动幅度,并在后半段行程中增大摆动件130的摆动幅度。
该结构一方面可以使用户在误触触发件120时,触发件120不会立即带动摆动件130开启阀体140,以降低液体被误操作排出的概率。例如,用户在不 知情的情况下误推动触发件120时,设置有弧面的导向部150可以为用户提供反应空间,若用户根据推动动作感知到误操作,即可立即撤回当前动作以免去误操作。
另一方面,设置有弧面的导向部150有利于缩短触发件120的整个操作行程的长度,使用户可以较为便利地完成触发件120的触发。例如在未设置包括弧面的导向部150时,用户需推压触发件120转动45°才可开启阀体140,在触发件120和摆动件130间设置包括弧面的导向部150,即可将该开启转动角度降低至30°。进而实现优化触发件120和摆动件130间的传动结构,提升取水组件100实用性,降低取水操作难度,提升用户使用体验的技术效果。
在上述任一实施例中,导向部150设于触发件120上,摆动件130抵接于弧面上。
在该实施例中,对取水组件100的结构做出具体限定。其中,触发件120的一端与支架110转动相连,触发件120上远离传动连接点的区域设置有导向部150,导向部150设置在触发件120朝向支架110的表面上,也就是摆动件130的内侧。摆动件130的一端与支架110转动连接,另一端探入触发件120和支架110之间的区域内,并与导向部150上的斜面相抵靠。取水时,用户按压触发件120,朝支架110转动的触发件120通过导向部150推动摆动件130,以通过摆动的摆动件130按压阀芯142,从而将阀芯142由关闭位置推动至开启位置。完成取水后,用户撤去按压力,阀芯142依靠自身的回弹力推动摆动件130回转,回转的摆动件130推动触发件120转动至初始位置,从而完成取水组件100的自动复位。该结构是用户通过推动触发件120即可完成取水,操作方式较为便捷,并且该结构合理利用了阀芯142的回弹力,借助该回弹力实现机构复位,有利于简化取水组件100的结构复杂度。
实施例3
如图4和图5所示,根据本申请第三方面的实施例,摆动件130包括:连接部132,与支架110转动连接,阀芯142与连接部132相连接;弯折部134,与连接部132相连接,且与触发件120相抵接。
在该实施例中,对摆动件130的结构做出了限定。具体地,在摆动件130的延伸方向上,摆动件130划分为连接部132和弯折部134。连接部132的一 端与支架110转动连接,弯折部134的一端与连接部132的另一端相接,弯折部134的另一端朝触发件120所在方向弯折并与触发件120相抵接,具体可与触发件120上所设置的导向部150相抵接。通过在摆动件130上设置弯折部134有利于缩减摆动件130的总长,还可以在一定程度上提升取水组件100的结构紧凑度,从而减少取水组件100所需要占用的空间。同时,设置相适配的导向部150和弯折部134可以优化触发件120和摆动件130间的受力,以进一步降低取水作用力。进而实现降低用户取水难度,为取水组件100的轻量化设计和小型化设计提供便利条件,降低取水组件100布置难度的技术效果。
实施例4
根据本申请第四方面的实施例,阀体140还包括:限位部,设置于阀芯142上,连接部132与限位部相抵接。
在该实施例中,阀芯142上设置有限位部,限位部与连接部132相抵靠。其中,限位部的形状与连接部132上朝向阀芯142一侧的表面的形状相匹配,在完成装配后该表面与限位部相贴合。通过设置限位部可以增大摆动件130和阀体140间的接触传动接触面积,一方面有利于降低取水所需作用力,进一步降低取水难度。另一方面可以提升取数组件的传动可靠性,降低摆动件130和阀芯142错位失效的概率。进而实现优化取水组件100结构,提升取水组件100实用性和可操作性,降低取水组件100故障率的技术效果。
实施例5
如图4和图5所示,根据本申请第五方面的实施例,连接部132包括通孔,阀芯142穿设于通孔中,通孔与阀芯142间隙配合。
在该实施例中,对连接部132和阀芯142之间的配合结构做出具体限定。连接部132上设置有通孔,阀芯142为柱状体,通孔的孔径大于阀芯142的外径。限位部套设在阀芯142周侧,环绕阀芯142的轴线设置,且限位部的外径大于通孔的孔径。装配过程中,将阀芯142的端部穿入通孔中,在通孔周侧的连接部132与限位部相抵靠时即可完成装配。开启阀体140时,连接部132随摆动趋势下压限位部,以带动阀芯142在轴线方向移动,以将阀芯142推动至开启位置。反之,在撤去取水力后回弹的阀芯142通过限位部推动摆动件130复位。该结构的结构复杂度较低且装配操作难度小,并且可实现支架110、 触发件120和摆动件130的模块化设计,在取水传动结构出现故障时,可直接通过更换取水传动结构整体完成维护。进而实现了降低取水组件100结构复杂度和工艺装配难度,为缩减取水组件100生产成本提供便利条件。
实施例6
如图8和图9所示,根据本申请第六方面的实施例,支架110包括:第一段部112,触发件120设于第一段部112上;第二段部114,与第一段部112相连接,朝背离阀体140的方向弯折,包括避让孔136;定位件116,设于第二段部114上,背离第一段部112,摆动件130与定位件116转动连接,摆动件130穿设于避让孔136中。
在该实施例中,对支架110的结构做出展开说明。具体地,根据支架110的延伸方向将支架110划分为第一段部112和相对第一段部112弯折的第二段部114。其中,第一段部112位于阀体140下方并朝阀体140所在方向延伸,触发件120与第一段部112的底端转动相连,可在靠近或远离第一段部112的方向上转动。第二段部114由第一段部112的顶端朝远离阀体140的方向延伸。定位件116设置在第二段部114的末端上,且位于背离第一段部112的一侧,也就是在取水组件100的高度方向定位件116位于第二段部114顶部,第一段部112位于第二段部114底部。其中,第二段部114的中心处设置有避让孔136,摆动件130贯穿该避让孔136,位于第二段部114顶部的连接部132与定位件116转动连接,位于第二段部114底部的弯折部134与触发件120或导向件相抵靠。通过设置该支架110结构,使阀体140可以布置在触发件120上方,从而使用户可通过握持的杯子推动触发件120开启阀体140,并确保阀体140所排出的液体可以直接流入杯体内。使用户单手即可完成取水操作。同时,该结构可以有效减少支架110、触发件120和摆动件130所组成的传动结构在高度方向上的尺寸,从而降低取水组件100在冰箱等设备上的布置难度,为取水组件100的小型化设计和轻量化设计提供便利条件。
实施例7
如图6和图7所示,根据本申请第七方面的实施例,触发件120为板件,触发件120远离阀体140的一端与支架110转动相连接,摆动件130与触发件120朝向支架110的表面相抵接。
在该实施例中,触发件120为板件,触发件120上远离阀体140的一端也就是底端与支架110转动连接,摆动件130则于触发件120朝向第一段部112的板面相抵靠,或与设置在朝向第一段部112的板面上的导向件相抵靠。通过将触发件120设置为板件一方面可以增大用户的施力面积,从而降低用户的取水操作难度。另一方面,设置为板件的触发件120可以起到遮挡板件内侧结构的作用,避免支架110、摆动件130以及所应用产品的内部结构暴露在用户可视范围内。从而提升取水组件100以及所应用产品的外观一致性,降低取水组件100的突兀感。进而实现为用户取水提供便利条件,降低取水组件100对产品外观影响程度的技术效果。
在上述任一实施例中,触发件120带动摆动件130压迫阀芯142时,阀体140开启;停止压迫阀芯142后,阀芯142回弹,阀体140关闭;支架110包括限位孔118,取水组件100还包括:限位件122,设于触发件120上,且穿设于限位孔118中,阀芯142未受压时,限位件122抵靠于支架110背离触发件120的表面上。
在该实施例中,对阀体140开关动作做出限定。具体地,未受力状态下阀芯142停留在关闭位置,触发件120带动摆动件130压迫阀芯142时,阀芯142朝远离支架110的方向运动,以运动至可以开启阀体140的开启位置。在撤去外力后,阀芯142通过自身的回弹力推动摆动件130和触发件120复位,并最终停留在关闭位置。在此基础上,支架110上设置有限位孔118,具体限位孔118设置在第一段部112上,触发件120上则设置有限位件122,限位件122设置在触发件120朝向第一段部112的板面上,限位件122贯穿限位孔118且限位件122与第一段部112背离触发件120一侧的表面相对设置。在撤去对触发件120的按压力后,回弹的阀芯142带动触发件120相对支架110弹开,通过在支架110上设置限位孔118并配合设置限位件122可以通过抵靠在支架110背面的限位件122限制触发件120的回弹角度,确保触发件120可以准确停留在预定初始位置下,免去用户后续使用触发件120时的复位操作。从而实现了优化取水组件100结构,提升取水组件100结构可靠性,为用户提供便利条件的技术效果。
具体地,限位件122的末端朝支架110所在方向弯折,形成钩状结构,在 未受力状态下,该限位部的钩状结构抵靠在支架110背面,以完成限位。同时,支架110和触发件120之间设置有至少两组限位件122和限位孔118,以避免触发件120相对支架110倾斜。
实施例8
如图1和图2所示,根据本申请第八方面的实施例,取水组件100还包括:弹性件160,连接支架110和摆动件130,触发件120带动摆动件130转动时,弹性件160发生形变。
在该实施例中,取水组件100中还设置有弹性件160。弹性件160的一端与支架110相连接,另一端与摆动件130相连接。在触发件120带动摆动件130转动的过程中,弹性件160始终处于形变状态。具体还可以让弹性件160在触发件120未受力状态时处于形变状态。通过设置该弹性件160可以保持触发件120、摆动件130和阀芯142间的抵触配合关系,避免上述三个结构在传动过程或静止状态下解体。使整套传动结构始终处于张紧状态下。同时,设置该弹性件160可以通过消除触发件120、摆动件130和阀芯142间的结构缝隙来消除取水组件100的振动异响。进而实现优化取水组件100结构,提升取水组件100可靠性的技术效果。
实施例9
如图1和图2所示,根据本申请第九方面的实施例,取水组件100还包括:水箱170,包括出水口,阀体140设于出水口上,阀体140用于开启或关闭出水口。
在该实施例中,取水组件100上还设置有水箱170。水箱170内部成型有腔体,液体存放在腔体中。水箱170上设置有连通腔体内外的出水口,阀体140设置在出水口处。在阀芯142处于关闭位置时,阀体140封堵出水口,以关闭出水口。对应地,在阀芯142被摆动件130推动至开启位置时,阀体140开启,腔体连通外部空间,其内部存储的液体即可经由阀体140排出。
实施例10
如图1和图10所示,根据本申请第十方面的实施例,提供了一种制冷设备200,制冷设备200包括:如上述任一实施例中的取水组件100。
该实施例中提出了一种应用有上述任一实施例中的取水组件100的制冷 设备200。因此该制冷设备200具备上述任一实施例中的取水组件100的优点,可以实现上述任一实施例中的取水组件100所能实现的技术效果,为避免重复,此处不再赘述。
在上述任一实施例中,制冷设备200还包括:门体210,包括安装孔;支架110和水箱170设于门体210上,支架110和水箱170位于门体210的两侧,阀体140嵌设于安装孔中。
在该实施例中,制冷设备200包括门体210,门体210用于开启或关闭制冷设备200的内的制冷用腔体。具体地,门体210上设置有贯穿门体210的安装孔,水箱170定位在门体210的内侧,支架110和触发件120定位在门体210的外侧,摆动件130和阀芯142嵌设在安装孔上。通过将取水组件100设置在制冷设备200的门体210上,一方面可以借助制冷设备200制冷用腔体中的冷量对水箱170内的液体进行制冷。另一方面使用户可以在不开启门体210的情况下在门体210的外侧通过按压触发件120取出水箱170内的冷水。从而为用户制冷水和取水提供便利条件。
在上述任一实施例中,制冷设备200还包括:箱体220,包括腔体以及与腔体相连通的开口,门体210可开合地设于开口处,用于开启或关闭腔体,水箱170位于门体210朝向腔体的一侧;制冷组件,设于箱体220上,用于对腔体制冷。
在该实施例中,制冷设备200还包括箱体220,箱体220内部形成有制冷用腔体,门体210可开合的设置在箱体220的开口处,以开启或封闭腔体。当门体210处于关闭状态时,水箱170位于腔体中。制冷组件设置在箱体220内,用于对腔体进行制冷,从而降低腔体内部环境温度,并在水箱170内得到低温液体。其中,该制冷设备200可以为冰箱,取水组件100设置在用于开启或关闭冷藏腔体的门体210上。
在根据本申请的实施例中,术语“第一”、“第二”、“第三”仅用于描述的目的,而不能理解为指示或暗示相对重要性;术语“多个”则指两个或两个以上,除非另有明确的限定。术语“安装”、“相连”、“连接”、“固定”等术语均应做广义理解,例如,“连接”可以是固定连接,也可以是可拆卸连接,或一体地连接;“相连”可以是直接相连,也可以通过中间媒介间接相连。对于本领域的普通技 术人员而言,可以根据具体情况理解上述术语在根据本申请的实施例中的具体含义。
根据本申请的实施例的描述中,需要理解的是,术语“上”、“下”、等指示的方位或位置关系为基于附图所示的方位或位置关系,仅是为了便于描述根据本申请的实施例和简化描述,而不是指示或暗示所指的装置或单元必须具有特定的方向、以特定的方位构造和操作,因此,不能理解为对根据本申请的实施例的限制。
在本说明书的描述中,术语“一个实施例”、“一些实施例”、“具体实施例”等的描述意指结合该实施例或示例描述的具体特征、结构、材料或特点包含于根据本申请的至少一个实施例或示例中。在本说明书中,对上述术语的示意性表述不一定指的是相同的实施例或实例。而且,描述的具体特征、结构、材料或特点可以在任何的一个或多个实施例或示例中以合适的方式结合。
以上仅为根据本申请的优选实施例而已,并不用于限制根据本申请的实施例,对于本领域的技术人员来说,根据本申请的实施例可以有各种更改和变化。凡在根据本申请的实施例的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在根据本申请的实施例的保护范围之内。
Claims (15)
- 一种取水组件,其中,包括:支架;触发件,设于所述支架上,可相对所述支架运动;摆动件,所述摆动件的一端与所述支架转动连接,所述摆动件的另一端与所述触发件相抵接;阀体,包括阀芯,所述阀芯与所述摆动件相连接;其中,通过所述触发件能够带动所述摆动件绕所述支架转动,转动的所述摆动件能够带动所述阀芯移动,以开启所述阀体。
- 根据权利要求1所述的取水组件,其中,还包括:导向部,设于所述触发件和所述摆动件中的至少一个上,位于所述触发件和所述摆动件之间。
- 根据权利要求2所述的取水组件,其中,所述导向部包括弧面,所述摆动件或所述触发件抵接于所述弧面上。
- 根据权利要求3所述的取水组件,其中,所述导向部设于所述触发件上,所述摆动件抵接于所述弧面上。
- 根据权利要求1所述的取水组件,其中,所述摆动件包括:连接部,与所述支架转动连接,所述阀芯与所述连接部相连接;弯折部,与所述连接部相连接,且与所述触发件相抵接。
- 根据权利要求5所述的取水组件,其中,所述阀体还包括:限位部,设置于阀芯上,所述连接部与限位部相抵接。
- 根据权利要求5所述的取水组件,其中,所述连接部包括通孔,所述阀芯穿设于所述通孔中,所述通孔与所述阀芯间隙配合。
- 根据权利要求1所述的取水组件,其中,所述支架包括:第一段部,所述触发件设于所述第一段部上;第二段部,与所述第一段部相连接,朝背离所述阀体的方向弯折,包括避让孔;定位件,设于所述第二段部上,背离所述第一段部,所述摆动件与所述定 位件转动连接,所述摆动件穿设于所述避让孔中。
- 根据权利要求1至8中任一项所述的取水组件,其中,所述触发件为板件,所述触发件远离所述阀体的一端与所述支架转动相连接,所述摆动件与所述触发件朝向所述支架的表面相抵接。
- 根据权利要求9所述的取水组件,其中,所述触发件带动所述摆动件压迫所述阀芯时,所述阀体开启;停止压迫所述阀芯后,所述阀芯回弹,所述阀体关闭;所述支架包括限位孔,所述取水组件还包括:限位件,设于所述触发件上,且穿设于所述限位孔中,所述阀芯未受压时,所述限位件抵靠于所述支架背离所述触发件的表面上。
- 根据权利要求1至8中任一项所述的取水组件,其中,还包括:弹性件,连接所述支架和所述摆动件,所述触发件带动所述摆动件转动时,所述弹性件发生形变。
- 根据权利要求1至8中任一项所述的取水组件,其中,还包括:水箱,包括出水口,所述阀体设于所述出水口上,所述阀体用于开启或关闭所述出水口。
- 一种制冷设备,其中,包括:如权利要求1至12中任一项所述的取水组件。
- 根据权利要求13所述的制冷设备,其中,还包括:门体,包括安装孔;所述支架和所述取水组件的水箱设于所述门体上,所述支架和所述水箱位于所述门体的两侧,所述阀体嵌设于所述安装孔中。
- 根据权利要求14所述的制冷设备,其中,还包括:箱体,包括腔体以及与所述腔体相连通的开口,所述门体可开合地设于所述开口处,用于开启或关闭所述腔体,所述水箱位于所述门体朝向所述腔体的一侧;制冷组件,设于所述箱体上,用于对所述腔体制冷。
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117367879A (zh) * | 2023-10-07 | 2024-01-09 | 新疆河润尚源科技有限公司 | 一种生活污水厂调试用折叠式微生物检测设备 |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1158405A (zh) * | 1995-12-12 | 1997-09-03 | 三星电子株式会社 | 冰箱用饮料自动补充装置 |
US5881930A (en) * | 1995-11-29 | 1999-03-16 | Daewoo Electronics Co., Ltd. | Valve of a water dispenser for a refrigerator |
WO2012143366A2 (en) * | 2011-04-18 | 2012-10-26 | Arcelik Anonim Sirketi | A refrigerator comprising a water dispenser |
KR20130045437A (ko) * | 2011-10-26 | 2013-05-06 | 엘지전자 주식회사 | 냉장고 |
JP2013256989A (ja) * | 2012-06-12 | 2013-12-26 | Shimizu Tekkosho:Kk | スイング式逆止弁 |
-
2021
- 2021-11-16 WO PCT/CN2021/130815 patent/WO2023087128A1/zh unknown
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5881930A (en) * | 1995-11-29 | 1999-03-16 | Daewoo Electronics Co., Ltd. | Valve of a water dispenser for a refrigerator |
CN1158405A (zh) * | 1995-12-12 | 1997-09-03 | 三星电子株式会社 | 冰箱用饮料自动补充装置 |
WO2012143366A2 (en) * | 2011-04-18 | 2012-10-26 | Arcelik Anonim Sirketi | A refrigerator comprising a water dispenser |
KR20130045437A (ko) * | 2011-10-26 | 2013-05-06 | 엘지전자 주식회사 | 냉장고 |
JP2013256989A (ja) * | 2012-06-12 | 2013-12-26 | Shimizu Tekkosho:Kk | スイング式逆止弁 |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117367879A (zh) * | 2023-10-07 | 2024-01-09 | 新疆河润尚源科技有限公司 | 一种生活污水厂调试用折叠式微生物检测设备 |
CN117367879B (zh) * | 2023-10-07 | 2024-05-07 | 新疆河润尚源科技有限公司 | 一种生活污水厂调试用折叠式微生物检测设备 |
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