CN207163041U - The door component of ice machine and there is its ice machine - Google Patents

Abstract

The utility model discloses a kind of door component of ice machine and there is its ice machine, the door component includes：Door cover plate, door body, insulating foam and sealing ring, the door body is connected to the side of the door cover plate and limits receiving space between the door cover plate, there is annular groove, the annular groove is set adjacent to the edge of the door body on one side surface of the remote door cover plate of the door body；The insulating foam is located in the receiving space；A part for the sealing ring is embedded in the annular groove so that the door component closing ice mouth seals simultaneously.According to the door component of ice machine of the present utility model, the vibrations and collision of ice cube and door body can be slowed down, reduce noise, and the thawing speed of ice cube can be slowed down, improve ice-making effect and heat insulation effect, beneficial to reduction energy consumption.

Description

The door component of ice machine and there is its ice machine

Technical field

Ice machine technical field is the utility model is related to, a kind of door component more particularly, to ice machine and there is it Ice machine.

Background technology

Ice machine is typically using ice door opening and closing ice mouth is gone out, to control ice cube to pass in and out.

But the ice machine in correlation technique, when ice cube is assembled at ice mouth, easily block ice mouth, and ice cube Ice door easily is collided out, noise is higher, while goes out ice door and can not close ice mouth so that the ice cube of ice mouth is closed on when not going out ice Easily melt, ice-making effect is poor, and energy consumption is higher.

Utility model content

The utility model is intended at least solve one of technical problem present in prior art.Therefore, the utility model carries Going out a kind of door component of ice machine, the door component can not only slow down the vibrations and collision of ice cube and door body, reduce noise, And the thawing speed of ice cube can be slowed down, ice-making effect and heat insulation effect are improved, beneficial to reduction energy consumption.

According to the door component of ice machine of the present utility model, the ice machine has ice mouth, and the door component includes：Door Cover plate, door body, insulating foam and sealing ring, the door body be connected to the side of the door cover plate and with the door cover plate it Between limit receiving space, there is annular groove, the annular groove on a side surface of the remote door cover plate of the door body The edge of the neighbouring door body is set；The insulating foam is located in the receiving space；The sealing ring it is a part of embedding Enter in the annular groove so that the door component is closed the ice mouth while sealed.

According to the door component of ice machine of the present utility model, by forming receiving space between door body and door cover plate, Insulating foam is located in receiving space, and using embedded annular groove sealing ring realized when door component closes ice mouth it is close It envelope, can not only slow down the vibrations and collision of ice cube and door body, reduce noise, and the thawing speed of ice cube can be slowed down, Ice-making effect and heat insulation effect are improved, beneficial to reduction energy consumption.

In addition, technical characteristic additional as follows can also be had according to the door component of ice machine of the present utility model：

According to some embodiments of the utility model, the receiving space is configured to it and is projected as in vertical plane General triangular, the insulating foam are filled up completely with the receiving space.

Alternatively, the door body includes：Body frame, the upper end of the body frame can pivot relative to the ice mouth Turn ground connection；Entity plate, the upper end of the entity plate are connected to the body frame and tilt down extension backward；Bottom plate, institute Bottom plate is stated to be connected between the lower end of the entity plate and the body frame；Two side plates triangular in shape, described two sides Plate is connected between the entity plate, bottom plate and body frame.

Alternatively, the bottom plate extends downwardly forward from the lower end of the entity plate.

Further, the door body also includes the top plate being connected between the entity plate and the body frame, institute State when component is closed general parallel orientation between the top plate and horizontal plane.

According to some embodiments of the utility model, the sealing ring includes：Embedded section, the embedded section are formed as annular And it is embedded into the annular groove；Only support segment, the only support segment are connected to the embedded section and extended towards the ice mouth, institute Only support segment is stated to be configured to only support on perisporium or the body of the ice mouth when door component closes the ice mouth Around the part of the ice mouth.

Alternatively, the only support segment is connected to the radial inner end of the embedded section, and along the side towards the ice mouth To extending radially outwardly simultaneously.

Further, the cross section of the only support segment is formed as arcuate shape.

Alternatively, the free end of the only support segment diametrically extends beyond the embedded section.

Advantageously, the radial inner end of a side surface of the remote door cover plate of the embedded section has gap slot, described Only support segment is connected in the gap slot and has gap in the radial direction between the embedded section.

According to ice machine of the present utility model, include the door component of the ice machine according to the utility model above-described embodiment.

According to ice machine of the present utility model, by the door group for setting the ice machine according to the utility model above-described embodiment Part, the vibrations and collision of ice cube and door body can be slowed down, reduce noise, and the thawing speed of ice cube can be slowed down, improved Ice-making effect and heat insulation effect, beneficial to reduction energy consumption.

Additional aspect and advantage of the present utility model will be set forth in part in the description, partly by from following description In become obvious, or by it is of the present utility model practice recognize.

Brief description of the drawings

Of the present utility model above-mentioned and/or additional aspect and advantage will in the description from combination accompanying drawings below to embodiment Become obvious and be readily appreciated that, wherein：

Fig. 1 be according to the stereogram of the part-structure of the ice machine of the utility model embodiment, wherein, ice mouth is closed Close；

Fig. 2 is the front view of the part-structure shown in Fig. 1；

Fig. 3 is the sectional view of the line A-A along Fig. 2；

Fig. 4 is explosive views of the Fig. 1 according to the part-structure of the ice machine of the utility model embodiment；

Fig. 5 be according to the stereogram of the part-structure of the ice machine of the utility model embodiment, wherein, ice mouth is beaten Open；

Fig. 6 is the front view of the part-structure shown in Fig. 5；

Fig. 7 is the sectional view of line B-B in Fig. 6；

Fig. 8 is the stereogram according to an angle of the door component of the ice machine of the utility model embodiment；

Fig. 9 is the stereogram of another angle of the door component shown in Fig. 8；

Figure 10 is the front view according to the door component of the ice machine of the utility model embodiment；

Figure 11 is the sectional view of the line C-C along Figure 10；

Figure 12 is the explosive view according to the door component of the ice machine of the utility model embodiment；

Figure 13 is the stereogram according to an angle of the door body of the ice machine of the utility model embodiment；

The stereogram of another angle of the door body shown in Figure 14 Figure 13；

Figure 15 is the front view according to the door body of the ice machine of the utility model embodiment；

The sectional view of Figure 16 line D-Ds along Figure 15；

Figure 17 is the stereogram according to an angle of the sealing ring of the ice machine of the utility model embodiment；

The stereogram of another angle of the sealing ring shown in Figure 18 Figure 17；

Figure 19 is the front view according to the sealing ring of the ice machine of the utility model embodiment；

Figure 20 is the sectional view of the E-E lines along Figure 19；

Figure 21 is the enlarged drawing in the F portions that Figure 20 centre circles show.

Reference：

1：Body；10：Ice mouth；

2：Support；20：Shaft hole；

3：Door component；30：Chute；31：Receiving space；

4：Door cover plate；

5：Door body；50：Annular groove；

51：Body frame；52：Entity plate；53：Bottom plate；54：Side plate；55：Top plate；

56：Pivotal axis；57：Connecting plate；510：First escape groove；520：Second escape groove；

6：Insulating foam；

7：Sealing ring；71：Embedded section；72：Only support segment；

7101：Gap slot；7102：Technology groove；7103：Lead-in chamfered；

8：Drive component；81：Motor；82：Driving member；821：Sliding part.

Embodiment

Embodiment of the present utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning Same or similar element is represented to same or similar label eventually or there is the element of same or like function.Below by ginseng The embodiment for examining accompanying drawing description is exemplary, is only used for explaining the utility model, and it is not intended that to of the present utility model Limitation.

In description of the present utility model, it is to be understood that term " " center ", " length ", " width ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outer ", " axial direction ", " radial direction ", The orientation or position relationship of instructions such as " circumferences " are based on orientation shown in the drawings or position relationship, are for only for ease of description originally Utility model and simplifying describes, rather than instruction or implies that signified device or element must have specific orientation, with specific Azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.In addition, define " first ", " second " One or more this feature can be expressed or be implicitly included to feature.

, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；Can be joined directly together, can also be indirectly connected by intermediary, can be the connection of two element internals.For For one of ordinary skill in the art, concrete meaning of the above-mentioned term in the utility model can be understood with concrete condition.

Ice machine below with reference to Fig. 1-Figure 21 descriptions according to the utility model embodiment, ice machine can be used for cooling in water Ice cube is made, the ice machine can be vertical spray formula ice machine, but not limited to this.Wherein, above-below direction and fore-and-aft direction point It is not defined by the above-below direction of diagram and fore-and-aft direction.

As shown in Figure 1, Figure 2, shown in Fig. 5 and Fig. 6, included according to the ice machine of the utility model embodiment：Body 1, support 2, Door component 3 and two drive components 8.

Specifically, there is ice mouth 10 on body 1, ice making courage and the ice making for ice making can be installed in body 1 Device (not shown), ice mouth 10 can be connected with ice making courage, and obtained ice cube is sent out from ice mouth 10.Support 2 can To be located on body 1, and support 2 is set adjacent to ice mouth 10.As shown in Figure 1 and Figure 5, door component 3 is pivotally arranged in machine On body 1, to open or close ice mouth 10, ice is controlled out.

As shown in Fig. 1-Fig. 7, two drive components 8 can be located on support 2, and two drive components 8 are located at respectively The both sides of door component 3, each drive component 8 include motor 81 and driving member 82, and motor 81 drives driving member 82 to drive door component 3 Motion, realizes the open and close controlling to ice mouth 10.

When ice machine is run, ice maker ice making, ice cube is dropped down onto in ice making courage after the completion of ice making, needs to take ice in user During block, drive component 8 can be controlled to open ice mouth 10, motor 81 starts and drives driving member 82 to move, and driving member 82 drives Door component 3 moves, and a component 3 is pivoted relative to ice mouth 10, ice mouth 10 is opened, now, user can easily take Go out ice cube, after taking out ice cube, drive component 8 can be controlled to close ice mouth 10, it is to be understood that when closing ice mouth 10, It is opposite when the action of drive component 8 and door component 3 is with opening.

According to the ice machine of the utility model embodiment, it can easily be opened and closed ice mouth 10 and realize out ice, the behaviour of user It is simple to make process, with correlation technique compared with by the way of opening Door by Hand, it is not necessary to open Door by Hand.User can so be simplified Operation, reduce the discomfort to open Door by Hand, improve the automaticity of ice machine.

Also, ice mouth 10 is opened or closed by the driving gate component 3 of drive component 8, is exported beneficial to ice cube, ice can be mitigated The collision of block and door component 3, can not only reduce collision noise, and can prevent the component 3 from damaging, and extend a component 3 Service life, maintenance and the replacement cost of a component 3 can be reduced.

In addition, two drive components 8 can improve door from the driving force that the both sides of door component 3 are that door component 3 provides opening and closing The uniform force of component 3, when ice mouth 10 is closed a component 3 can be made to close ice mouth 10, thus it can be prevented that the external world Hot-air from ice mouth 10 enter ice machine inside, so as to hinder the heat exchange inside and outside ice mouth 10, can slow down and ice The thawing of ice cube at mouth 10, and then ice-making effect can be improved, reduce the operation energy consumption of ice machine.

Therefore, according to the ice machine of the utility model embodiment, driven by two drive components 8 from the both sides of door component 3 Dynamic door component 3 opens or closes ice mouth 10, has and is beneficial to ice cube output, goes out that ice noise is small, ice-making effect is good, operation energy consumption is low The advantages that.

According to some embodiments of the utility model, as Figure 1-Figure 4, driving member 82 is connecting rod, and one end of connecting rod is consolidated Surely the motor shaft of motor 81 is connected to, and the other end is movably connected with door component 3, is transported with the pivot of driving gate component 3 It is dynamic, it is simple and compact for structure and convenient and strength-saving with process and assemble.

Alternatively, as shown in figure 4, the both sides of door component 3 are respectively provided with chute 30, the other end of connecting rod movably match somebody with somebody and In chute 30.So, when the drive link of motor 81 rotates, the other end of connecting rod can slide in chute 30, now, connecting rod and Door component 3 may be constructed toggle, and connecting rod can drive a component 3 to pivot, you can realize the pivot fortune of door component 3 It is dynamic, and then open or close ice mouth 10.Specifically, as shown in figure 4, the other end of connecting rod can be provided be adapted for engagement with to chute The sliding part 821 slided in 30, when the drive link of motor 81 rotates, sliding part 821 slides in chute 30, drives door component 3 Do compound motion.So, the load of motor 81 is small, and the stability during motion of door component 3 is good, and not only design concept is ingenious, The on-off action to ice mouth 10 can be conveniently realized, and it is rationally distributed, space-consuming can be saved.

According to some embodiments of the utility model, motor 81 can be attached to the surface of the remote ice mouth 10 of support 2 On, the motor shaft of motor 81 is connected after passing through support 2 with driving member 82.Thus, it is possible to improve the reliability of motor 81, Ke Yiti The stability of height opening and closing ice mouth 10, further, it is also possible to by motor 81 " hiding " in the position of the remote ice mouth 10 of support 2, Improve aesthetic property.

In certain embodiments, as shown in Fig. 1-Fig. 7, the both sides of door component 3 can be the left and right sides, and door group The line of pivotal axis 56 of part 3 can be located at the upper end of ice mouth 10.That is, two drive components 8 may be mounted at a component 3 The left and right sides, now, door component 3 are pivotable around the pivot axis above ice mouth 10.I.e. door component 3 is in the vertical direction It can be opened and closed.It is understood that now, the chute 30 on door component 3 is located at the left and right sides and vertically extending, motor 81 Driving driving member 82 overcomes the gravity acting of a component 3, realizes the opening and closing to ice mouth 10, and stability is good, and reliability is high.

In further embodiments, the both sides of door component 3 are upper and lower both sides, and the pivot axis position of door component 3 In the left or right of ice mouth 10.That is, two drive components 8 may be mounted at the both sides up and down of a component 3, this When, door component 3 is pivotable around the pivot axis of the left or right positioned at ice mouth 10.I.e. door component 3 in the lateral direction may be used Opening and closing.It is understood that now, the chute 30 on door component 3 is located at upper and lower both sides and extended in left-right direction, and motor 81 drives Dynamic driving member 82 rotates around the axis vertically extended, realizes the opening and closing to ice mouth 10, and flexibility is good.

According to some embodiments of the utility model, ice mouth 10 can be located at the front side of body 1, so as to facilitate user Ice cube is taken, and aesthetic property is good.

Alternatively, the front side of body 1 has recess backward, and ice mouth 10 is located in recess, and support 2 is by two of recess Side wall is formed.Thus, it is possible to make full use of the side wall of body 1 install with supporting motor 81, be not only simple in structure it is compact, and Unnecessary assembling process can be omitted, efficiency of assembling is improved, at the same time it can also make the aesthetic property of ice machine further be lifted.

According to some embodiments of the utility model, as shown in Fig. 8-Figure 12, door component 3 can include：Door cover plate 4, door Body 5 and insulating foam 6.Specifically, door body 5 can be connected to the side of door cover plate 4, and door body 5 and door cover plate 4 Between can limit receiving space 31, insulating foam 6 can be located in receiving space 31, wherein, door component 3 close ice mouth When 10, door body 5 after ice mouth 10 by stretching into inside ice machine.Thus, the space formed between door body 5 and door cover plate 4 To a certain extent cold can be hindered to flow out, while noise, door group can be reduced to a certain extent with damping vibration and collision When part 3 closes ice mouth 10, insulating foam 6 is located in ice mouth 10, and insulating foam 6 can be further hindered inside and outside ice mouth 10 The heat exchange of both sides, slow down the thawing speed of the ice cube at ice mouth 10, in addition, the foam of insulating foam 6 can provide well Shock absorbing effect so that damping noise reduction effect is further lifted.

As shown in figures 9 and 11, the remote door cover plate 4 of door body 5 a side surface (such as, it is illustrated that rear surface) on can With annular groove 50, annular groove 50 is set adjacent to the edge of door body 5, and door component 3 can also include：Sealing ring 7, sealing ring 7 It is a part of can be embedded in annular groove 50 so that door component 3 close ice mouth 10 seal simultaneously.In other words, the back of the body of door body 5 Edge from the surface of door cover plate 4 is provided with annular groove 50, and a part for sealing ring 7 is embedded in annular groove 50, when door body 5 is closed When closing ice mouth 10, sealing ring 7 can seal the gap between door body 5 and ice mouth 10, so as to hinder inside and outside ice mouth 10 The air flow of both sides, slow down heat exchange, and then ice melting, raising ice-making effect can be avoided, and ice making can be improved The heat insulation effect of machine, reduce energy consumption.

The door component 3 of the ice machine according to the utility model embodiment is described in detail with reference to Fig. 8-Figure 12.Ice machine With ice mouth 10, door component 3, which may be mounted at ice mouth 10, to be sentenced and opens or closes ice mouth 10.

As is illustrated by figs. 11 and 12, door cover plate 4, door body 5 are included according to the door component 3 of the utility model embodiment, protected Warm bathing foam 6 and sealing ring 7, wherein, door body 5 can be connected to the side of door cover plate 4, and between door body 5 and door cover plate 4 Can limit receiving space 31, a side surface of the remote door cover plate 4 of door body 5 (such as, it is illustrated that rear surface) on can have There is annular groove 50, annular groove 50 is set adjacent to the edge of door body 5.

As shown in figure 11, insulating foam 6 can be located in receiving space 31, and a part of of sealing ring 7 can be embedded in annular In groove 50, sealed simultaneously so that door component 3 closes ice mouth 10.

So, the receiving space 31 formed between door body 5 and door cover plate 4 can hinder cold stream to a certain extent Go out, while noise can be reduced to a certain extent with damping vibration and collision.Also, insulating foam 6 further can hinder Heat exchange inside and outside ice mouth 10, slow down the thawing speed of the ice cube at ice mouth 10, in addition, the foam of insulating foam 6 can To provide good shock absorbing effect so that damping noise reduction effect is further lifted.Meanwhile sealing ring 7 can be with hermatic door sheet Gap between body 5 and ice mouth 10, so as to hinder the air flow inside and outside ice mouth 10, slow down heat exchange, Jin Erke It is ice melting to avoid, ice-making effect is improved, and the heat insulation effect of ice machine can be improved, reduce energy consumption.

Therefore, according to the door component 3 of the ice machine of the utility model embodiment, by between door body 5 and door cover plate 4 Receiving space 31 is formed, insulating foam 6 is located in receiving space 31, and utilizes the sealing ring 7 of embedded annular groove 50 in door group Part 3 realizes sealing when closing ice mouth 10, can not only slow down the vibrations and collision of ice cube and door body 5, reduces noise, and The thawing speed of ice cube can be slowed down, improve ice-making effect and heat insulation effect, beneficial to reduction energy consumption.

According to some embodiments of the utility model, as shown in figure 11, receiving space 31 is configurable to it and vertically put down General triangular is projected as on face, it is simple and compact for structure, it is easy to fabricate, and the receiving space 31 of general triangular can To improve damping noise reduction effect.Insulating foam 6 can be filled up completely with receiving space 31, i.e., insulating foam 6 is integrally provided at appearance Receive in space 31, so as to provide protection to insulating foam 6 using door body 5 and door cover plate 4, avoid insulating foam 6 from damaging, Heat insulation effect can also be lifted simultaneously, can further improve ice-making effect, reduces energy consumption.

Alternatively, as shown in figure 3, when door component 3 closes ice mouth 10, the summit of generally triangular receiving space 31 Can be in the top of ice mouth 10.So, the thicker part of insulating foam 6 can be made to be located at the lower section of ice mouth 10, from And the heat exchange of the rapid opening position of heat exchange can be hindered, break the heat exchange law of air-flow, can further optimize insulation Effect.

In certain embodiments, between door body 5 and door cover plate 4 can by snapping connection, so as to easy to assembly laborsaving, Efficiency of assembling can be improved, reduces cost.

According to the ice machine of the utility model embodiment, including the door component 3 according to the utility model embodiment.

The door body 5 of the ice machine according to the utility model embodiment is described in detail with reference to Figure 13-Figure 16, wherein, The front side of ice machine has ice mouth 10, and the door body 5 can be located at ice mouth 10.

As shown in Figure 13-Figure 16, door body 5 can include：Body frame 51, entity plate 52, bottom plate 53 and two are in three Angular side plate 54, wherein, the upper end of body frame 51 is pivotably connected relative to ice mouth 10, and the upper end of entity plate 52 can To be connected to body frame 51, and entity plate 52 tilts down extension backward.

Bottom plate 53 can be connected between the lower end of entity plate 52 and body frame 51, and two side plates 54 can be connected to Between entity plate 52, bottom plate 53 and body frame 51.

Thus, it is possible to have door body 5 has three in vertical plane in the projection of general triangular, i.e. door body 5 Angular contour shape, so as to reduce because ice cube collide ice mouth 10 and caused by noise, furthermore it is also possible to effectively prevent Ice cube blocks ice mouth 10 because of excessive aggregation, beneficial to realizing out ice.

According to the door body 5 of the ice machine of the utility model embodiment, by by the upper end of frame body relative to going out ice Mouthfuls 10 are pivotably connected, and the upper end of entity plate 52 is connected into body frame 51 and tilts down extension backward, and by bottom plate 53 are connected between the lower end of entity plate 52 and body frame 51, and entity plate 52, bottom plate 53 are connected respectively using two side plates 54 It is simple and compact for structure with body frame 51, can not only reduce because ice cube collides ice mouth 10 and caused by noise, and can be with Effectively prevent ice cube from blocking ice mouth 10 because of excessive aggregation, beneficial to realizing out ice.

According to some embodiments of the utility model, bottom plate 53 extends downwardly forward from the lower end of entity plate 52, i.e. bottom plate 53 tilt extension, are blocked so as to avoid ice cube from being stuck in the bottom of bottom plate 53, it is ensured that ice mouth 10 can be opened normally, can be with Improve opening and closing stability.

According to some embodiments of the utility model, as shown in Figure 14 and Figure 16, door body 5 can also include being connected to this Top plate 55 between body plate 52 and body frame 51.Thus, top plate 55 can connect entity plate 52 and body frame 51, improve door The intensity of body 5, reduce the probability of damage.

Alternatively, as shown in figure 16, when door body 5 closes ice mouth 10, general parallel orientation between top plate 55 and horizontal plane. That is when door body 5 closes ice mouth 10, top plate 55 is horizontally extending, so as to realize the reasonable cloth of top plate 55 Office, simple and compact for structure, excellent noise reduction effect, can also save space-consuming.

In certain embodiments, can be with arc-shaped transition, i.e. entity plate 52 and body between entity plate 52 and body frame 51 Framework 51 is connected, and rounding off therebetween.So, the top plate being connected between entity plate 52 and body frame 51 is eliminated 55, it is easy to process, while stress concentration can be reduced, the intensity of door body 5 is improved, is increased the service life.

According to some embodiments of the utility model, as shown in Figure 13-Figure 15, the upper end of body frame 51 can be provided with level The pivotal axis 56 of extension, as shown in Figure 1 and Figure 5, shaft hole 20 can be provided with support 2, pivotal axis 56 is rotatably engaged In shaft hole 20, it is possible to achieve door body 5 relative to ice mouth 10 pivot, it is simple and compact for structure, be easy to process.

Alternatively, as shown in Figure 13-Figure 15, pivotal axis 56 can include two that horizontal direction is spaced apart, and two Pivotal axis 56 is coaxial.It is understood that now, the shaft hole 20 on support 2 is two.Thus, two pivotal axis 56 are distinguished Coordinate in corresponding shaft hole 20, so that it may which, so that door body 5 pivotally opens or closed ice mouth 10, rotational stability is good, can It is high by property, and uniform force.

As Figure 8-Figure 10, pivotal axis 56 can be connected by connecting plate 57 with the upper end of body frame 51, so as to To improve the bonding strength of pivotal axis 56 and body frame 51, the damage of pivotal axis 56 is avoided to come off, stability and reliability enter one Step lifting.

According to some embodiments of the utility model, as shown in Figure 8 and Figure 9, the upper surface of body frame 51 can have to Under recessed the first escape groove 510, to avoid the miscellaneous part on ice machine, avoid door body 5 from being sent out when pivoting with miscellaneous part Raw interference.

Alternatively, as shown in Figure 8 and Figure 9, the upper end of entity plate 52 can have connected with the first escape groove 510 second to keep away Allow groove 520.Advantageously, the first escape groove 510 and the second escape groove 520 can be deep-slotted chip breaker, and the first escape groove 510 and The center line of two escape groove 520 can be with the centerline collineation of body frame 51.Thus, it is good to avoid effect, also, once occurs dry Relate to, the groove face of arc can provide buffering, avoid hard collision, and reliability and stability can be made more excellent.

According to the ice machine of the utility model embodiment, including the door body 5 according to the utility model embodiment.

The sealing ring 7 according to the ice machine of the utility model embodiment is described in detail with reference to Figure 17-Figure 21, as Fig. 1- Shown in Fig. 7, ice machine can have the door component 3 for being used for opening or closing ice mouth 10, and annular groove can be provided with door component 3 50, sealing ring 7 is suitable in embedded annular groove 50, is sealed simultaneously so that door component 3 closes ice mouth 10.

As shown in Figure 17-Figure 21, sealing ring 7 includes：Embedded section 71 and only support segment 72, wherein, embedded section 71 can be formed For annular, and embedded section 71 can be embedded into annular groove 50, and sealing ring 7 is arranged on door component 3.

With reference to shown in Figure 20 and Figure 21, only support segment 72 can be connected to embedded section 71, and only support segment 72 can be towards going out Ice mouth 10 extends, and only support segment 72 is configurable to only support the perisporium or ice machine of ice mouth 10 when a component 3 closes ice mouth 10 Body 1 on circular ice mouth 10 part.That is, when door component 3 closes ice mouth 10, only support segment 72 can be supported only The internal perisporium of ice mouth 10, or, retaining part can only be against the front side wall of the part of the formation ice mouth 10 on body 1.

Thus, sealing ring 7 may be mounted between ice mouth 10 and door component 3, and only support segment 72 can deform, sealing Gap between ice mouth 10 and door component 3, so as to hinder the air inside and outside ice mouth 10 to flow mutually, slow down heat Exchange, and then ice melting, raising ice-making effect can be avoided, and the heat insulation effect of ice machine can be improved, reduce energy consumption, In addition, if ice cube collides with door component 3, sealing ring 7 can also provide cushioning effect, can not only prevent a component 3 It is damaged by collision, and collision noise can be reduced.

Therefore, according to the sealing ring 7 of the ice machine of the utility model embodiment, by the way that the insertion section 71 of annular is embedded into In the annular groove 50 of door component 3, and only support segment 72 it will be connected to embedded section 71 and extend towards ice mouth 10, sealing can be utilized Gap between the sealing ice mouth 10 of circle 7 and door component 3, can slow down the heat exchange at ice mouth 10, can slow down ice cube and melt Change, reduce energy consumption, and have the advantages that good seal, buffering excellent noise reduction effect, cost are cheap.

According to some embodiments of the utility model, as shown in Figure 20 and Figure 21, only support segment 72 can be connected to embedded section 71 radial inner end, and only support segment 72 can extend radially outwardly simultaneously along the direction towards ice mouth 10.In other words, only support Section 72 can be in horn-like extension from the radial inner end of embedded section 71.It is simple and compact for structure, can be with lift-off seal effect, beneficial to reality Existing energy-saving and noise-reducing.

Alternatively, as shown in figure 21, only the cross section of support segment 72 can be formed as arcuate shape, so as to which sealing ring 7 is installed After on door component 3, when door component 3 closes ice mouth 10, beneficial to the deformation for realizing only support segment 72, sealing effectiveness can be made more It is good.

In certain embodiments, as shown in figure 21, only the cross section of support segment 72 can be formed as the circular arc that radius is r, To facilitate processing and manufacturing.Advantageously, only the radius r of the cross section of support segment 72 can meet：1.5mm≤r≤3.7mm, on the one hand, Can make only support segment 72 there is preferably deformability, improve sealing effectiveness, on the other hand, difficulty of processing can be reduced, save Cost.For example, in example as shown in figure 21, the only radius r=2.6mm of the cross section of support segment 72, certainly, the utility model Structure not limited to this, r value is not limited to above description, can also be other values, such as 1.5,2,2.2,3 etc..This is right It will be understood by for those skilled in the art, be not described in detail herein.

According to some embodiments of the utility model, as shown in figure 21, only the free end of support segment 72 can diametrically prolong Extend over embedded section 71.In other words, only the outer end of support segment 72 is extended to outside the outer peripheral face of embedded section 71.Thus, it is possible to increase Only the contact with ice mouth 10 of support segment 72 only supports area, so as to optimize sealing effectiveness.

In certain embodiments, as shown in figure 21, the footpath of a side surface of the door cover plate 4 of the remote ice machine of embedded section 71 Inboard end can have gap slot 7101, and only support segment 72 can be connected in gap slot 7101, and only support segment 72 and embedded section 71 Between can have gap in the radial direction.So, deformed beneficial to only support segment 72, can when door component 3 closes ice mouth 10 Stop the contact surface between the surface of the circular ice mouth 10 on the perisporium or body 1 of support segment 72 and ice mouth 10 with further increase Product, makes sealing effectiveness further be lifted.

According to some embodiments of the utility model, as shown in figure 21, embedded section 71, which can have, to be suitable to import annular groove 50 Sealing ring 7, is assembled on a component 3 by interior lead-in chamfered 7103 with facilitating.For example, in example as shown in figure 21, it is embedding Entering all has lead-in chamfered 7103 on the two sides of section 71, under the guiding of lead-in chamfered 7103, can be embedded in embedded section 71 It is easy to assembly laborsaving to annular groove 50, efficiency of assembling can be improved, reduces cost.

As shown in figure 21, the remote ice mouth 10 of embedded section 71 a side surface (such as, it is illustrated that leading flank) there is work Skill groove 7102, the setting of technology groove 7102 can in processing uniform material position, be easy to walk material and cooling during processing and manufacturing, so as to To improve the thickness evenness of embedded section 71, machining accuracy is improved, and then make sealing effectiveness more excellent.

Alternatively, as shown in figure 21, technology groove 7102 can be located at the middle part of embedded section 71, also, in radial directions, work The width of skill groove 7102 can meet with the ratio between the width of embedded section 71 h：0.1≤h≤0.5.That is, technology groove 7102 Width can be in the width of embedded section 71 1/10th between half.Thus, easy to process, cost is cheap.

According to the ice machine of the utility model embodiment, including the sealing ring 7 according to the utility model above-described embodiment.

According to other compositions of the ice machine of the utility model embodiment and operate for those of ordinary skill in the art For be all known, be not detailed herein.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means to combine specific features, the knot that the embodiment or example describe Structure, material or feature are contained at least one embodiment or example of the present utility model.In this manual, to above-mentioned art The schematic representation of language is not necessarily referring to identical embodiment or example.Moreover, description specific features, structure, material or Person's feature can combine in an appropriate manner in any one or more embodiments or example.

While there has been shown and described that embodiment of the present utility model, it will be understood by those skilled in the art that： These embodiments can be carried out with a variety of changes, modification in the case where not departing from principle and objective of the present utility model, replaced And modification, the scope of the utility model are limited by claim and its equivalent.

Claims (11)

1. a kind of door component of ice machine, the ice machine have ice mouth, it is characterised in that including：

Door cover plate；

Door body, the door body are connected to the side of the door cover plate and limit receiving space between the door cover plate, There is annular groove on one side surface of the remote door cover plate of the door body, the annular groove is adjacent to the side of the door body Edge is set；

Insulating foam, the insulating foam are located in the receiving space；

Sealing ring, a part for the sealing ring are embedded in the annular groove so that the door component closes the ice mouth simultaneously Sealing.

2. according to claim 1 component, it is characterised in that the receiving space is configured to it in vertical plane Be projected as general triangular, the insulating foam is filled up completely with the receiving space.

3. according to claim 2 component, it is characterised in that the door body includes：

Body frame, the upper end of the body frame are pivotably connected relative to the ice mouth；

Entity plate, the upper end of the entity plate are connected to the body frame and tilt down extension backward；

Bottom plate, the bottom plate are connected between the lower end of the entity plate and the body frame；

Two side plates triangular in shape, described two side plates are connected between the entity plate, bottom plate and body frame.

4. according to claim 3 component, it is characterised in that the bottom plate is downward forward from the lower end of the entity plate Extension.

5. according to claim 3 component, it is characterised in that the door body also include be connected to the entity plate and Top plate between the body frame, general parallel orientation between the top plate and horizontal plane when the door component is closed.

6. according to claim 1 component, it is characterised in that the sealing ring includes：

Embedded section, the embedded section are formed as annular and are embedded into the annular groove；

Only support segment, the only support segment are connected to the embedded section and extended towards the ice mouth, and the only support segment is configured to When the door component closes the ice mouth only on the body of the perisporium to the ice mouth or the ice machine around described The part of ice mouth.

7. according to claim 6 component, it is characterised in that the footpath that the only support segment is connected to the embedded section is inside End, and extended radially outwardly simultaneously along the direction towards the ice mouth.

8. according to claim 7 component, it is characterised in that the cross section of the only support segment is formed as arcuate shape.

9. according to claim 7 component, it is characterised in that the free end of the only support segment diametrically extends beyond The embedded section.

10. according to claim 7 component, it is characterised in that the side of the remote door cover plate of the embedded section The radial inner end on surface has gap slot, and the only support segment is connected in the gap slot and has footpath between the embedded section To the gap on direction.

11. a kind of ice machine, it is characterised in that including the door component according to any one of claim 1-10.