CN205536732U - Drive connection structure , play ice system, refrigerator - Google Patents

Abstract

The utility model belongs to the technical field of ice making equipment, a drive connection structure, play ice system, refrigerator is disclosed, drive connection structure realizes stirring the ice pole and is connected with the drive of motor shaft through adopting two joints that the axial was pegged graft in vertical orientation, being equipped with a set of first joint point on one of them connects, being equipped with at least a set of second joint point on another connects, first joint point can cooperate with arbitrary one second joint point, set up suitable the time when the quantity of first joint point and second joint point, as long as rotatoryly a little stir the ice pole once, can realize that the axial of two joints is pegged graft, convenient operation, the installation effectiveness height is saved time, through setting up guide slope at protruding end, can guide protruding the cunning to in the nearest clearance, the installation need not manually rotate the and stirs the ice pole, has further improved the installation effectiveness.

Description

A kind of drive connection structure, ice-discharging system, refrigerator

Technical field

This utility model relates to ice making equipment technical field, particularly to a kind of drive connection knot Structure, ice-discharging system, refrigerator.

Background technology

In going out icing equipment, the effect stirring ice bar is that the ice cube in drive ice bank moves to realize The purpose of transfer ice cube, but stir ice bar and it is frequently necessary to pull down with ice bank, so stirring ice bar and driving Galvanic electricity machine needs to connect removably.Stir ice bar to be usually rotatably connected on ice bank Together, stir ice bar when ice bank is installed to complete to install simultaneously；But for driving motor to arrange Structure below ice bank, owing to can't see the gyrobearing stirring ice bar during installation ice bank, Belong to blindmate, stir ice bar and be difficult to align with motor shaft, easily cause and phenomenon not in place is installed； Installation process needs to rotate stirs ice bar and repeatedly attempts the angle stirring ice bar with motor shaft of could aliging Degree, installs the longest, operates very inconvenient.

Utility model content

(1) to solve the technical problem that

The technical problems to be solved in the utility model is: stir ice bar when mounted for solution is existing, Connection with motor shaft is more difficult, needs repeatedly to attempt aliging, and installs time-consuming longer asking Topic.

(2) technical scheme

In order to solve above-mentioned technical problem, this utility model provides a kind of drive connection structure, Including respectively with motor shaft and stir ice bar connect and grafting vertically with realize around the most synchronize rotation Two joints turned；The described ice bar that stirs is vertically provided at the top of described motor shaft, described in stir ice Bar is coaxially disposed with motor shaft, one of them described joint be connected to described in stir the bottom of ice bar, Another described joint is connected to the top of described motor shaft；

One of them described joint is provided with one group of first card being uniformly distributed on same circumference Contact, another joint is provided with least one set the second card contact, and all second card contact are all located On same circumference, the first card contact described in a group can be with the second card contact phase described in any one group Coordinating, described first card contact can coordinate with any one the second card contact.

Wherein, the joint being connected with stirred ice bar is the first joint, the lower end of described first joint Face is provided with multiple projection downwardly extended, and leaves gap between adjacent protrusion；With described motor The joint that axle connects is the second joint, and the end face of described second joint is provided with multiple upwardly extending Projection, leave gap between adjacent protrusion；Being arranged on the projection on described first joint can be with Matching in any gap being arranged on described second joint, is arranged on described first joint Match with any projection being arranged on described second joint in gap.

Wherein, the protruding sum being arranged on described second joint is provided in described first joint On the positive integer times of protruding sum.

Wherein, the lobe terminus being arranged on described first joint and/or the second joint is provided with Inclined-plane, described inclined-plane slips in the gap being matched therewith for guide hump.

Wherein, the end of described projection is provided with two described inclined-planes, two described inclined-plane courts respectively Two gaps of described protruding both sides tilt.

Wherein, the width in any one of gap is more than the width of projection with matching.

Further, one of them joint be cross section be the cylinder of n-shaped, referred to as Four joints；Another joint matched with described 4th joint is referred to as the 3rd joint, and described The end of three joints is provided with the counterbore of circle, and the inwall of described counterbore is provided with least one set around institute The central shaft distribution stating counterbore and the groove axially extended, the energy respectively of groove described in each group N bar seamed edge clamping with described cylinder is spacing to realize circumference.

Wherein, at the opening part of described counterbore and be positioned at the both sides of each groove and be equipped with for drawing The seamed edge leading described 4th joint slips into the inclined-plane in described groove or cambered surface.

Wherein, described 4th joint is connected to the top of described motor shaft, and described 3rd joint is even The bottom of ice bar is stirred described in being connected on.

A kind of ice-discharging system, has drive connection structure as above, described in stir ice bar and storage Ice chest is rotationally connected, and described ice bank is arranged on the top of motor by the way of vertical grafting.

A kind of refrigerator, including door body, described door body is provided with ice machine and as mentioned above Ice-discharging system, described ice bank is arranged on the lower section of described ice machine.

(3) beneficial effect

Technique scheme has the advantage that this utility model one drive connection structure, logical Cross the joint using two axial grafting of in the vertical direction, it is achieved stir driving of ice bar and motor shaft It is dynamically connected；One of them joint is provided with one group of first clamping being uniformly distributed on same circumference Point, another joint is provided with least one set the second card contact, one group of first card contact can with appoint One group of second card contact of anticipating matches, and the first card contact can be joined with any one the second card contact Close；When the quantity of the first card contact Yu the second card contact arranges suitable time, as long as somewhat revolving Turn and stir ice bar, the axial grafting of two joints can be realized, easy to operate, installation effectiveness Height, time-consuming；By arranging lead-in chamfered in lobe terminus, can slide to guide hump In a near gap, installation process stirs ice bar without manual rotation, further increases installation Efficiency；And use n-shaped and when coordinating of counterbore, owing to the seamed edge of n-shaped can be with Any one groove fit, when number of recesses is abundant when, stirs ice bar, rib as long as rotating Limit can be moved to the first of its front groove, when both align, at the gravity stirring ice bar Autopatching can be realized under Zuo Yong, complete axial limiting grafting.For having this drive connection The refrigerator of structure, the last action that ice bank and door body realize being connected be pedestal in door body to Lower slider, i.e. performs before final installation action at ice bank, stir ice bar already at motor shaft Coaxial vertical state, as long as the gyrobearing of two joints is suitable, is stirring ice bar and ice bank Action of gravity under, two joints can be automatically obtained axial grafting, completes to stir ice bar and motor The drive connection of axle, after not resulting in interference, ice bank installs phenomenon not in place.

Accompanying drawing explanation

Fig. 1 is the structural representation of refrigerator described in the utility model；

Fig. 2 is the explosive view of door body described in the utility model, pedestal and ice bank；

Fig. 3 is the blast stirring ice bar and motor connecting structure described in this utility model embodiment one Figure；

Fig. 4 is the cooperation signal of the first joint and the second joint described in this utility model embodiment one Figure；

Fig. 5 is the blast stirring ice bar and motor connecting structure described in this utility model embodiment two Figure；

Fig. 6 is the structural representation of the 3rd joint described in this utility model embodiment two；

When Fig. 7 is motor shaft described in this utility model embodiment two and the 3rd joint not yet coordinates Sectional view；

Fig. 8 is motor shaft described in this utility model embodiment two and the cross section after the cooperation of the 3rd joint Figure.

Wherein, 1, door body；2, ice machine；3, pedestal；4, motor；5, ice bank；6、 Stir ice bar；7, the first joint；8, the second joint；9, protruding；91, lobe terminus；10、 3rd joint；101, groove；11, the 4th joint；12, casing.

Detailed description of the invention

Below in conjunction with the accompanying drawings and embodiment, detailed description of the invention of the present utility model is made further Describe in detail.Following example are used for illustrating this utility model, but it is new to be not limited to this practicality The scope of type.

In description of the present utility model, it should be noted that except as otherwise noted, " multiple " It is meant that two or more；Term " on ", D score, "left", "right", " interior ", The orientation of the instruction such as " outward ", " front end ", " rear end ", " head ", " afterbody " or position relationship For based on orientation shown in the drawings or position relationship, be for only for ease of description this utility model and Simplify and describe rather than indicate or imply that the device of indication or element must have specific side Position, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model. Additionally, term " first ", " second ", " the 3rd " etc. are only used for describing purpose, and can not manage Solve as instruction or hint relative importance.

In description of the present utility model, in addition it is also necessary to explanation, unless otherwise clear and definite regulation And restriction, term " is installed ", " being connected ", " connection " should be interpreted broadly, for example, it is possible to It it is fixing connection, it is also possible to be to removably connect, or be integrally connected；Can be to be mechanically connected, It can also be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary. For the ordinary skill in the art, visual concrete condition understands that above-mentioned term is in this reality With the concrete meaning in novel.

The utility model discloses a kind of drive connection structure, including respectively with motor shaft and stir ice Bar 6 connects and grafting vertically is to realize two joints around axial synchronous rotary；Described stir Ice bar 6 is vertically provided at the top of described motor shaft, described in stir ice bar 6 and coaxially set with motor shaft Put, one of them described joint be connected to described in stir the bottom of ice bar 6, another described joint It is connected to the top of described motor shaft；One of them described joint is provided with one group and is uniformly distributed in The first card contact on same circumference, another joint is provided with least one set the second card contact, All second card contact are on same circumference, and the first card contact described in a group can be with any one Organizing described second card contact to match, described first card contact can be with any one the second card contact Coordinate.During installation, stir ice bar 6 and the most vertically install and center superposition with motor shaft, treat that two connect After head alignment, axial grafting can be realized under the action of gravity stirring ice bar 6, complete circumference limit Position connects.Owing to the first card contact, the second card contact are all equally distributed, when there being one When one card contact is alignd with any one second card contact, remaining first card contact is also simultaneously with same The second card contact alignment in one group, then will stir ice bar 6 and be pressed downward against realizing two joints Grafting；If the first card contact quantity is abundant, as long as stirring in pressure of exerting oneself slightly during installation While ice bar 6, rotate a angle the least by stirring ice bar 6, it is possible to realize the first clamping Point coordinates with the second nearest card contact；The quantity of the first card contact is the most, and stirring ice bar 6 needs Angle to be rotated is the least, and alignment speed is the fastest；During installation, stir ice bar even if can't see The orientation of 6, in time, somewhat to rotate, it is possible to realizes blindmate, it is achieved drive connection, peace Dress is convenient, and speed is fast.

Embodiment one:

Concrete, as shown in Figures 3 and 4, the joint being connected with stirred ice bar 6 is the first joint 7, the lower surface of described first joint 7 is provided with multiple projection 9 downwardly extended, adjacent convex Rise and leave gap between 9；The joint being connected with described motor shaft is the second joint 8, described The end face of two joints 8 is provided with multiple upwardly extending protruding 9, leaves between adjacent protrusion 9 Gap；Be arranged on the projection 9 on described first joint 7 can be arranged on described second joint 8 On any gap match, the gap being arranged on described first joint 7 be arranged on described Match on second joint 8 the most protruding 9.Projection 9 and gap corresponding first clamping respectively Point and the second card contact.During installation, first that two joints are relative up and down, if protruding 9 fail with The gap of another joint is relative, rotates and stirs ice bar 6, until projection 9 is relative with gap, then exists Under the effect of gravity or manually push down on and stir ice bar 6, make the first joint 7 move down, insert Second joint 8, it is achieved circumferential spacing grafting, i.e. realizes stirring the driving of ice bar 6 and motor 4 even Connect.

Projection 9 sum being arranged on described second joint 8 is provided in described first joint 7 On the positive integer times of projection 9 sum.Preferably, as shown in Figure 4, described first joint 7 It is three with projection 9 quantity on the second joint 8, if during installation on the first joint 7 Protruding 9 just with the gap on the second joint 8 relative to time, then stir ice bar 6 without rotation Realize grafting；If not alignment, the most somewhat rotate and stir ice bar 6, as long as at most turning 120 degree i.e. Can align, then grafting downwards；Installation process is easy and simple to handle, and installation rate is fast.Certainly, Can also arrange two or more groups projection 9 on second joint 8, protruding 9 quantity are the most, peace Dress needs the angle rotated the least, installs the most convenient, time-consuming.

Further, the protruding end being arranged on described first joint 7 and/or the second joint 8 End 91 is provided with inclined-plane, and described inclined-plane slips in the gap being matched therewith for guide hump 9. Preferably, described lobe terminus 91 is provided with two described inclined-planes, two described inclined-plane courts respectively Two gaps of described protruding 9 both sides tilt.As shown in Figure 4, arrange in lobe terminus 91 Inclined-plane slides to gap guiding the projection 9 on another joint；Can be only the most wherein on a joint Inclined-plane is set, it is also possible to both arrange；Inclined-plane can be to arrange along a direction, installs Time slide more easily into along corresponding direction；Certainly two sides as shown in Figure 4 it are preferably provided to To inclined-plane, during installation unless the top of two projections 9 is just relative, is otherwise stirring ice bar 6 Under action of gravity with the first joint 7, stir ice bar 6 and the first joint 7 can rotate along inclined-plane, Automatically slide in the gap of the second joint 8, stir ice bar 6 with little need for rotation during installation, put It is pressed downward against up can realizing installing, further increases installation rate, improve efficiency, convenient Operation.

Preferably, the width in any one of gap is more than the width of protruding 9 with matching Degree.As long as protruding 9 slide into gap just can realize grafting, protruding 9 and the interference fits in gap Without considering, motor shaft can make two joints be close to after rotating, it is possible to achieve drive connection.

Embodiment two:

The present embodiment is incomplete same with embodiment one structure, but the problem solved is identical；Such as figure Shown in 5 to 8, in two joints being respectively provided with the first card contact and the second card contact, its In joint be cross section be the cylinder of n-shaped, the referred to as the 4th joint 11；With described Another joint that 4th joint 11 matches is referred to as the 3rd joint 10, described 3rd joint 10 End be provided with circle counterbore, the inwall of described counterbore is provided with least one set around described counterbore Central shaft distribution and the groove 101 that axially extends, groove 101 described in each group is respectively Can be spacing to realize circumference with the N bar seamed edge clamping of described cylinder.The seamed edge of n-shaped with Groove 101 in counterbore corresponding first card contact and the second card contact respectively.During installation, as long as Somewhat rotate and stir ice bar 6, n-shaped can be made to snap in any one group of groove 101, it is achieved 3rd joint 10 and the axial grafting of the 4th joint 11, i.e. realizes stirring ice bar 6 and motor shaft Drive connection.The limit number of N limit shape is the most, and the group number of groove 101 is the most, and stirring ice bar 6 needs The angle rotated is the least, and the probability that the 3rd joint 10 is inserted directly into the 4th joint 11 is bigger, Convenient installation.Described groove 101 is preferably the angle structure being made up of two planes, two faces Angle less than the 3rd joint 10 adjacent surface between angle, the limit phase of adjacent angle structure Handing over, form seamed edge in the both sides of angle structure respectively, the adjacent surface of N limit shape is stuck in angle On the two seamed edge of structure both sides, it is achieved circumference is spacing.

Preferably, at the opening part of described counterbore and be positioned at the both sides of each groove 101 and be equipped with Seamed edge for guiding described 4th joint 11 slips into the inclined-plane in described groove 101 or cambered surface. The seamed edge guiding the 3rd joint 10 slides in nearest groove 101, makes the 4th joint as far as possible 11 complete axial grafting with the 3rd joint 10 under stirring the ice bar 6 effect with self gravitation automatically. Reduce and rotate the operation stirring ice bar 6, save the operating time, improve efficiency.

Concrete, described 4th joint 11 is connected to the top of described motor shaft, and the described 3rd Joint 10 stirs the bottom of ice bar 6 described in being connected to.Top inherently positive N when motor shaft During the shape of limit, the 4th joint 11 is exactly motor shaft.

Preferably, as Fig. 6 is to shown in 8, and the cross section of the 4th joint 11 is regular hexagon, the The groove 101 of two groups of angle structure shapes is set in the counterbore of three joints 10；Institute fluted 101 All central shafts around counterbore are evenly distributed on same circumference, and often group groove 101 includes six, Distinguish the most corresponding and hexagonal six seamed edge clampings.Central angle between adjacent grooves 101 is 30 degree；In installation process, as it is shown in fig. 7, stir ice bar 6 to withstand on the end of the 3rd joint 10, Cannot insert counterbore, the most somewhat rotate and stir ice bar 6, the angle of rotation is no more than 30 Degree, i.e. can reach aligned condition as shown in Figure 8, can carry out axial grafting action, grafting Speed is fast.If the 3rd joint 10 uses the groove 101 of more than three groups, then the 4th joint certainly 11 are easier to insert this counterbore completes grafting.

Embodiment three:

As Fig. 2 is to shown in 8, and the present embodiment discloses a kind of ice-discharging system, has such as embodiment One or embodiment two described in drive connection structure, described in stir ice bar 6 and rotate even with ice bank 5 Connecing, described ice bank 5 is arranged on the top of motor 4 by the way of vertical grafting.At motor Under 4 pairs of driving effects stirring ice bar 6, the ice cube in ice bank 5 is stirred, is rotated, until Transfer out.When ice bank 5 being installed, first ice bank 5 is put into the top of installation site every time, After two joint alignment, the pedestal 3 being mounted opposite in door body by ice bank 5 is overall downwards Slide, two joints can be plugged in together, it is achieved stir driving between ice bar 6 and motor shaft It is dynamically connected；The alignment of two joints can utilize the inclined-plane guide hump 9 of lobe terminus 91 to slide Enter in gap, it is also possible to manually rotate and stir the mode of ice bar 6 and make seamed edge right with groove 101 Neat grafting again.

Embodiment four:

As it is shown in figure 1, the present embodiment discloses a kind of refrigerator, including being arranged on refrigerator body Door body 1 on 12, described door body 1 is provided with ice machine 2 and as described in embodiment three Ice-discharging system, described ice bank 5 is arranged on the lower section of described ice machine 2.Ice machine 2 is made The ice gone out falls into ice bank 5 soon and stores, and starts motor 4, stir ice bar 6 and start when taking ice Rotate, the ice cube in ice bank 5 is transferred out.Owing to ice bank 5 realizes even with door body 1 The last action connect is pedestal 3 slide downward in door body, i.e. performs finally at ice bank 5 Before installation action, stir ice bar 6 already at the vertical state coaxial with motor shaft, as long as two The gyrobearing of joint is suitable, and under stirring the ice bar 6 action of gravity with ice bank 5, two connect Head can be automatically obtained axial grafting, completes the drive connection stirring ice bar 6 with motor shaft.

As can be seen from the above embodiments, this utility model is by using two in the vertical directions The axially joint of grafting, it is achieved stir the drive connection of ice bar 6 and motor shaft；One of them joint Being provided with one group of first card contact being uniformly distributed on same circumference, another joint is provided with Least one set the second card contact, one group of first card contact can match with any one group of the second card contact Closing, the first card contact can coordinate with any one the second card contact；When the first card contact and second Time the quantity of card contact arranges suitable, stir ice bar 6, Ji Keshi as long as somewhat rotating The axial grafting of existing two joints, easy to operate, installation effectiveness is high, time-consuming；By Lobe terminus 91 arranges lead-in chamfered, can slide in a nearest gap with guide hump 9, Installation process stirs ice bar 6 without manual rotation, further increases installation effectiveness；And just use N limit shape and when coordinating of counterbore, owing to the seamed edge of n-shaped can be with any one groove 101 Coordinating, when groove 101 quantity is abundant when, stirring ice bar 6 as long as rotating, seamed edge can be to First groove 101 in its front moves, when both align, in the action of gravity stirring ice bar 6 Under can realize autopatching, complete axial limiting grafting.For having this drive connection structure Refrigerator, the last action that ice bank 5 and door body 1 realize being connected be pedestal 3 in door body to Lower slider, i.e. before ice bank 5 performs final installation action, stir ice bar 6 already at motor The vertical state that axle is coaxial, as long as the gyrobearing of two joints is suitable, is stirring ice bar 6 and storage Under the action of gravity of ice chest 5, two joints can be automatically obtained axial grafting, completes to stir ice bar 6 With the drive connection of motor shaft, after not resulting in interference, ice bank 5 installs phenomenon not in place.

The above is only preferred implementation of the present utility model, it is noted that for this skill For the those of ordinary skill in art field, in the premise without departing from this utility model know-why Under, it is also possible to making some improvement and replacement, these improve and replace and also should be regarded as this practicality newly The protection domain of type.

Claims (11)

1. a drive connection structure, it is characterised in that include respectively with motor shaft and stir ice Bar connects and grafting vertically is to realize two joints around axial synchronous rotary；Described stir ice Bar is vertically provided at the top of described motor shaft, described in stir ice bar and be coaxially disposed with motor shaft, its In a described joint be connected to described in stir the bottom of ice bar, another described joint is connected to institute State the top of motor shaft；

One of them described joint is provided with one group of first card being uniformly distributed on same circumference Contact, another joint is provided with least one set the second card contact, and all second card contact are all located On same circumference, the first card contact described in a group can be with the second card contact phase described in any one group Coordinating, described first card contact can coordinate with any one the second card contact.

2. drive connection structure as claimed in claim 1, it is characterised in that with stirred ice The joint that bar connects is the first joint, and the lower surface of described first joint is provided with multiple to downward The projection stretched, leaves gap between adjacent protrusion；The joint being connected with described motor shaft is second Joint, the end face of described second joint is provided with multiple upwardly extending projection, adjacent protrusion it Between leave gap；Be arranged on the projection on described first joint can be arranged on described second joint On any gap match, the gap being arranged on described first joint be arranged on described Any projection on two joints matches.

3. drive connection structure as claimed in claim 2, it is characterised in that be arranged on institute Just state protruding sum that the protruding sum on the second joint is provided on described first joint Integral multiple.

4. drive connection structure as claimed in claim 2 or claim 3, it is characterised in that arrange Lobe terminus on described first joint and/or the second joint is provided with inclined-plane, described inclined-plane Slip in the gap being matched therewith for guide hump.

5. drive connection structure as claimed in claim 4, it is characterised in that described projection End be provided with two described inclined-planes, two described inclined-planes are respectively towards two of described protruding both sides Gap tilts.

6. drive connection structure as claimed in claim 2 or claim 3, it is characterised in that arbitrarily The width in one described gap is more than the width of projection with matching.

7. drive connection structure as claimed in claim 1, it is characterised in that one of them Joint be cross section be the cylinder of n-shaped, the referred to as the 4th joint；With described 4th joint Another joint matched is referred to as the 3rd joint, and the end of described 3rd joint is provided with circle Counterbore, the inwall of described counterbore be provided with least one set around described counterbore central shaft be distributed and The groove axially extended, groove described in each group respectively can be with the N bar seamed edge of described cylinder Clamping is spacing to realize circumference.

8. drive connection structure as claimed in claim 7, it is characterised in that described heavy The opening part in hole and be positioned at the both sides of each groove and be equipped with for guiding described 4th joint Seamed edge slips into the inclined-plane in described groove or cambered surface.

9. drive connection structure as claimed in claim 7 or 8, it is characterised in that described 4th joint is connected to the top of described motor shaft, described 3rd joint be connected to described in stir ice bar Bottom.

10. an ice-discharging system, it is characterised in that have such as any one of claim 1-9 institute The drive connection structure stated, described in stir ice bar and be rotationally connected with ice bank, described ice bank passes through The mode of vertical grafting is arranged on the top of motor.

11. 1 kinds of refrigerators, it is characterised in that include door body, described door body is provided with ice making Machine and ice-discharging system as claimed in claim 10, described ice bank is arranged on described system The lower section of ice maker.