CN207132606U - Cooling and/or freezing equipment - Google Patents
Cooling and/or freezing equipment Download PDFInfo
- Publication number
- CN207132606U CN207132606U CN201590000373.7U CN201590000373U CN207132606U CN 207132606 U CN207132606 U CN 207132606U CN 201590000373 U CN201590000373 U CN 201590000373U CN 207132606 U CN207132606 U CN 207132606U
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- China
- Prior art keywords
- ice
- cooling
- water
- equipment
- valve
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- 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
- F25C—PRODUCING, WORKING OR HANDLING ICE
- F25C5/00—Working or handling ice
- F25C5/20—Distributing ice
- F25C5/22—Distributing ice particularly adapted for household refrigerators
-
- 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
- F25D23/00—General constructional features
- F25D23/12—Arrangements of compartments additional to cooling compartments; Combinations of refrigerators with other equipment, e.g. stove
- F25D23/126—Water cooler
Abstract
It the utility model is related to a kind of cooling and/or freezing equipment, the ice machine (30) and/or water dispenser that the cooling and/or freezing equipment have the inner chamber of cooling and be arranged in the inner chamber of cooling, the inner chamber can be by door termination, wherein ice machine or water dispenser, which have, is used to exporting ice or water into the output device to user, and wherein output device is located within the inner chamber of the cooling of equipment and is configured to so that the automatic output of ice or water is carried out when operating output device.
Description
Technical field
A kind of cooling and/or freezing equipment are the utility model is related to, the cooling and/or freezing equipment have the interior of cooling
Chamber and the ice machine and/or water dispenser being arranged in the inner chamber of cooling, the inner chamber can be by door termination.
Background technology
Known cooling or freezing equipment have the output section for being used for ice or water through door from the prior art.Pass through door
In this output unit by ice cube or can also be when needed that water is exported to user.
In known equipment, output unit is located in door in itself.
In order to take out ice or water, for example glass is maintained at below the output hopper of output unit in user side.Herein
Operating lever, the lever cause the output of ice cube or water with regard to activating switch, the switch for it.
Necessary passage brings following shortcoming for exporting the ice cube in door:Pass through the passage correspondingly interrupt gate
In insulation.Although passage is closed by valve, this continuous heat input being induced in the inner chamber of cooling and then cause company
Continuous energy loss.
The further drawback of known device is that the device is with respect to consuming and costliness.
As an alternative, it is known that ice machine is arranged in the inner chamber of cooling and protects Manufactured ice cube
Exist in pallet.In this case, the user of equipment be switched on door and by pallet and ice from the inner chamber of cooling or from
Take out in refrigerator or pull out at least one section.This processing method is with respect to consuming.
Utility model content
Therefore, the utility model is based on following purpose:Cooling and/or the freezing equipment that type is mentioned when starting are improved, is made
It is relatively simple and in addition by minimally invasiveization in the inner chamber of heat to cooling to obtain its construction.
The purpose realizes that the cooling and/or freezing equipment have cooling by one kind cooling and/or freezing equipment
Inner chamber and with being arranged on ice machine and/or water dispenser in the inner chamber of the cooling, the inner chamber can by door termination,
Characterized in that, the ice machine or the water dispenser have for ice or water to be exported to the output device to user, and institute
State within the inner chamber for the cooling that output device is located at the equipment and be configured to so that when operating the output device
Carry out the automatic output of ice or water.
It is proposed accordingly, ice machine or water dispenser have for ice or water to be exported to the output device to user, and export
Device is fully located within the inner chamber of cooling and then is configured to so that the automatic of ice or water is carried out when operating the output device
Output.
Thus, the utility model is based on following idea:The output for being used for ice and/or water of ice machine or water dispenser is not filled
Put and be arranged in door so that the heat insulation of door is not because of ice machine and/or water dispenser variation or not because connected part becomes
Difference, the part are, for example, the passage for ice to be output.
Ice machine and/or water dispenser are fully located within the inner chamber of cooling.Thus, user can be according to the utility model
Cooling or freezing equipment in open door and then operate the output device of therefore output accessible, for ice or water.
Thus, in this preferable design of the present utility model, in the door of equipment without be used for take out ice or
The breach of water and without the output device for ice or water so that prevent hot defeated caused by being used to take out the passage of ice
Enter.
It is proposed breach be present in the door of equipment in embodiment as an alternative of the present utility model, wherein
Output device is located in the region at breach rear, and wherein breach can be closed by door or valve or other closure elements.Here, one
In individual preferable design, the closure elements are heat insulations.
Preferably, the breach has 40cm Breadth Maximum and height;Especially preferably, the Breadth Maximum of the breach
It is 30cm with height.
In this case, user through breach and then is operated in cooling after closure elements are opened with vessel
Output device in chamber, for ice or water.In this case, door in itself in be also not present for the defeated of ice and/or water
Go out device.
Thus, proposed in a design of the present utility model, user opens door and for example started with glass
Therefore output mechanism accessible, for ice and/or water.If enough ice cube or water in glass be present, then move
Except the glass and stop the output of ice or water.
Glass need not be surrendered in this user and ice cube or water are directly received in glass.Because output is only lasting
Several seconds, so while the door opened and the heat input that enters in equipment is relatively small.
Anyway, with known to from the prior art through the continuous loss caused by the ice passage of door compared with, lead to
It is smaller to cross and with relatively little take out ice or energy loss caused by water.
As explained hereinbefore, the taking-up of the water or ice that have cooled down can be also carried out as follows:According to " door in door
(door-in-door) solution ", in the original door of cooling or freezing equipment using small door or other realize with
The closure elements of the contact of the output unit of water and/or ice.With it is known for ice maker or water dispenser in used in door
Output valve compare, the closure elements can preferably insulate in terms of energy.
It is contemplated that ice machine and output device are located in the refrigeration lattice or cooling segment of equipment.It is also contemplated that
, on the inner side for the door that ice machine or water dispenser are arranged on to equipment or can also be arranged in the frozen portions of equipment.
Itd is proposed in one of the present utility model preferable design, at least ice machine and if necessary miscellaneous part example
Such as water pot and output device are located in housing or in module, and the housing or module can be taken out from the inner chamber of cooling
And it can be plugged into the inner chamber so that user can use ice machine as needed or can be otherwise utilized by space.
It can also propose water pot and/or the pulverizing unit for ice in the housing also be present.
It is proposed the storage for ice in the housing being previously mentioned be present in another preferable design of the present utility model
Hide container, the preferably helically supply unit of conveyer form and the if necessary pulverizing unit for ice.
Brief description of the drawings
Other details and advantage of the present utility model elaborate according to the embodiment being shown in the drawings.Accompanying drawing shows
Go out:
Fig. 1 to 4 shows the three-dimensional view of ice making unit;
Fig. 5 shows the three-dimensional view of the amplification of the upper area of the ice making unit with water receptacle;
Fig. 6 shows the longitudinal section through ice making unit;
Fig. 7,8 are shown with the ice making unit of the water receptacle inserted and with the water receptacle when being pushed into
The three-dimensional view of the amplification of the upper area of ice making unit;
Fig. 9,10 are shown with the water receptacle inserted and with the ice making unit of the valve closed and with having inserted
Water receptacle and with open valve ice making unit upper area other zoomed-in views, the valve be used for by water from
Exported in part container;
Figure 11 shows the three-dimensional view of the upper area of internal container, and the internal container has the ice making unit inserted
With the storage part being not inserted into;
Figure 12 shows the three-dimensional view of the upper area of internal container, and the internal container has the system when being removed
Ice unit;
Figure 13 shows the three-dimensional view of the upper area of internal container, and the internal container has the storage part inserted;
Figure 14 to 16 shows the three-dimensional view and sectional view through cooling device, and the cooling device has the second embodiment party
The cooling unit of formula;
Figure 17 shows the three-dimensional view of the internal container with stamped area, and the stamped area is used for adaptation board;
Figure 18 shows the three-dimensional view of the internal container with the adaptation board from inner side insertion;
Figure 19 shows the three-dimensional view of the internal container with the adaptation board from foam side insertion;
Figure 20 shows the three-dimensional view of the internal container with the ice making unit inserted;
Figure 21 shows the ice making unit in height before reaching final position, to be applied in conveying worm and passed through
Wear the viewgraph of cross-section of adaptation board;And
Figure 22 shows the ice making unit in height after reaching final position, to be applied in printed circuit board (PCB) and passed through
Wear the viewgraph of cross-section of adaptation board.
Embodiment
Fig. 1 and 2 is shown below the three-dimensional view of unit, and the unit has housing or framework 10, in the housing or frame
Exist in frame such as lower component, i.e., water receptacle 20, the ice machine 30 with pallet 32, the tank 40 for Manufactured ice,
Output device 50 for the water that comes from water receptacle 20 and the output device 60 for ice to be exported from tank 40.
The unit is hereinafter also referred to as " module " or " ice making unit ".Module or unit can substantially include above-mentioned portion
One or more of part or all above-mentioned parts.
Fig. 1 shows that unit and Fig. 2 show unit from such as downside from the inner chamber of cooling, and the unit is in the shape having been charged into
Abut on internal container or abut in other shell areas by means of the side in state.
Reference 52 represents the valve opening mechanism of the valve for opening water receptacle 20.Valve opening mechanism 52 is configured to, and makes
Valve must mechanically be opened by motion or pressure upwards.User can pass through vessel operation valve opening mechanism 52 so that water is with such as
The desired duration of customer-side is flowed into vessel through valve.As an alternative, it is it is also contemplated that electrically operated simultaneously to valve progress
And included together in the utility model.
In order to which vessel are introduced into the region of the lower section of valve opening mechanism 52, portion 70 of leaving blank is provided with the cells, it is described to leave blank
Portion is in lower section by the gauge of the storage face for vessel 72.
Ice machine 30 below water receptacle 20 be present, the ice machine has the support for being used for accommodating the water for coming from water receptacle 20
Disk 32, such as plastic pallet, the pallet can be rotated by means of axis of the drive mechanism 34 around preferred levels.Drive mechanism 34
Formed by motor, the motor causes the rotation of pallet 32 according to signal so that pallet 32 it is superposed in fig. 2
Upside rotates down.While pallet 32 rotates or from the specific anglec of rotation of pallet 32, the torsion of pallet 32 can occur
Turn, the torsion causes established ice cube to be come off from pallet 32.
The tank 40 for established ice is fallen into ice cube pallet 32 unlimited downwards from the state of overturning
In.Tank 40 is connected with output device 60, and the output device has lever 62, and the lever for example can be by means of device
Ware backward, i.e. presses towards unit.Operation to lever 62 can trigger switch, it is described to switch the rotation for causing conveying worm
Ice is delivered to the opening in the region of lever 62 by (referring to Fig. 3), the conveying worm from tank 40.
The air duct not being shown specifically is provided with below pallet 32, the air duct is used for cold air is targeted
Ground is guided to the downside of the pallet 32 in following location, the position figure 1 illustrates.Air duct and cold air source,
Such as it is connected with refrigerating chamber and cold air is fed by the refrigerating chamber.
In the air duct being previously mentioned to prevent the ice cube fallen in reversible tray 32 from the pallet from falling into so as to
It can not reach in storage container 40 or only partially reach in storage container 40 and propose, the motion of pallet 32 and air duct
Motion ordinatedly carry out.It is contemplated that when pallet 32 is in it and emptied in position, air duct is for example from horizontal position
Be moved in putting in vertical position so that ice unilaterally or bilateral approach air duct fall into tank 40.
It is also contemplated that when pallet 32 is moved to it and emptied in position, air duct holds from pallet 32 and storage
Removed in region between device 40, it is described emptying position in as can be seen from Fig. 2, it is above, insert side for water
It is inclined or accurately toward lower section.Obtained the position that the position is shown from Fig. 1 by 180 ° by pallet rotation.
This removal can realize that air duct has identical run-on point with pallet 32 in the following way.Such as hypocarp
Disk 32 then rotates, then while carry out the rotation of air duct so that the air duct, which discharges for ice cube, extremely storage, to be held
The path of device 40.
Tank 40 can be formed by the container that can be taken off.A however, preferable design of the present utility model
It is related to the mode of being implemented as follows, in said embodiment, container is regularly integrated, i.e., container can not take out.This increases
Big storage volume and unit is set to become less expensive.
In order to which air duct is positioned as close to pallet 32, the air duct is slightly wider than pallet 32.Thus, it is possible to
Pallet 32 is set to be stretched into when reversing (" Twisten ") in air duct.Air duct can be also designed as so that by means of air
Air is not introduced only into pallet 32 by passage for example from the Background Region of unit, and is led back again in the air passageway.This band
Carry out following advantage:The thermal current of cooling or freezing equipment is not affected or is almost not affected.
Fig. 3 shows the longitudinal section for running through the unit according to Fig. 1 and 2.Removed from Fig. 4 side and front side
The view of the unit of baffle plate.
In figures 3 and 4 and in subsequent accompanying drawing, identical or function identical element are provided with and phase in fig 1 and 2
Same reference.
As can be seen from Fig. 3, water receptacle 20 has the first valve 90 and the second valve 100 on its underside, and second valve enters one
Step is set towards front side.
As described in Figure 1 on like that, the second valve 100 is connected with valve opening mechanism 52, and the valve opening mechanism is formed
For so that the valve opening mechanism opens the second valve 100 in upward motion and is always maintained at opening, until valve opening mechanism
52 are moved down into the initial position of loading spring again.The user for wishing to take out the water cooled down from water receptacle 20 is in institute
Operation valve opening mechanism 52 in the desired time, the valve opening mechanism for example can also be configured to lever.The lever machinery
Open the second valve 100 and move the water to flow into vessel.The behaviour of valve opening mechanism 52 by the way that vessel are taken away and with its generation
The termination of work, it is again switched off the second valve 100.Water can be taken out in the case where not conveying electric energy by this way.However, base
It is also contemplated that for example passing through the electrically operated of switch triggering valve 100 in sheet.
First valve 90 is connected with valve opening mechanism 54, equally moves mechanically or electricly the valve opening mechanism.At this
Itd is proposed in one admissible design of utility model, according to the turned position operation valve opening mechanism 54 of pallet 32 or
Person operates the drive mechanism 34 of pallet 32.
For filled trays 32, valve 90 is opened electricly or mechanically within the specific time.Because water receptacle 20 is positioned at support
The fact that on disk 32, the height of ground static pressure can be utilized, so as to filled trays 32.What pump was not required to.
Valve 90 and/or 100 can be hose valves.
As this will it is described in detail below as, exist in water receptacle 20 and match somebody with somebody part container 22, it is described with part appearance
Utensil has the volume or water capacity for solely filled trays 32.Via the operation to existing drive mechanism 34 so that via
The rotation of pallet 32, the first valve 90 are opened by moving up within specific, the default time, until water flows into pallet 32
In.After the stuffing process, pallet 32 is pivoted in horizontal level again, the horizontal level for example figure 2 illustrates.
Operation example to valve 90 via pallet 32 by means of gearbox or by means of gearbox body if carry out.
Pallet 32 can form heater, such as composition has negative temperature coefficient (NTC) heater.It is contemplated that
, pallet, which is formed, the negative temperature coefficient position of optimization.In addition, seal can be integrated on pallet 32.If necessary, it is right
For pallet 32 is changed, negative temperature coefficient mechanism can be installed individually or plugged.
Obtained from Fig. 3, water receptacle 20 is provided with two valves 90,100, i.e., connects provided with two dump valves or with the two valves
Connect, one of valve with part container 22 with being connected and other in which valve is connected with remaining region of water receptacle 20.With part container
22 can for example have in 30ml to 100ml scope and preferred 65ml volume.
Water receptacle 20 can be configured to be can be taken off and in embodiment shown here can forward, i.e. towards shell
The front side of body pulls out.In the state of push-in, the water receptacle such as can via lever locking, so as to prevent operation arrange
Water receptacle 20 is lifted when going out valve 90,100.
Reference 110 represents the level detector of machinery, and the level detector measures ice cube in storage container 40
Packed height.As seen in Fig. 3 and 4, the level detector can be integrated in the side wall of housing or
It is additionally provided in side wall.
Ice is caused to be delivered to out from tank 40 by the rotation of auger conveyor 120 caused by operating lever 62
Mouth 130, the opening can be closed by valve 140.When not operating lever 62, valve is located in its closed position.
For optimal productivity ratio, formed with motor come the conveying screw rod 120 driven in the case of shaftless.
As further learnt from Fig. 3, the region in the front of opening 130 is configured to be to tilt to decline, thus
Last ice cube still is able to be slipped to the closing without stopping valve 140 in vessel.
When the lever is operated, can manually, mechanically move valve 140.Electrically operated valve 140 is also that can contemplate
And its together be included in the utility model in.
Valve 140 or following region can be heated, valve 140 is in its closed position in this region, to prevent
Stagnant ice adheres to.
This correspondingly can be suitable for one or two valve the valve 90,100 being previously mentioned.
Obtained from Fig. 4, lever 62 is connected with following mechanism, and the mechanism is reaching the specific of lever 62 for it
Position, preferably final position when Operation switch, the switch connection conveying worm 120 so that the conveying worm perform turn
It is dynamic to move and be transported to ice from tank 40 in the region of opening 130.
Fig. 5 shows the sectional view of the upper part of penetrating element, and illustrates:Valve opening mechanism 54 is formed by funnel, institute
Stating funnel can vertically move back and forth, and the funnel opens the first valve 90 in upward motion.This is correspondingly applicable
In valve opening mechanism 52 and valve 100.
As can see from Figure 6 penetrating element, sectional view in plane in the front side parallel to unit or narrow side.
Obtained from the view, unit has an elongated, upright extension, and housing 10 according to Fig. 6 on right side
There is heat insulation portion 140 on the side shown, be input in the compartment of the heat insulation portion prevention heat slave unit in housing or defeated
Enter into the part in housing, the compartment is, for example, the cooling segment or frozen portions of equipment.Such as from Fig. 6 further
As learning, the heat insulation portion 140 extends along side and on the downside of housing 10 so that the heat insulation portion is in vertical profile
Formed to L-shaped in face.
Unit or housing are for example by opposite side, i.e. to be adjacent to the internal container of equipment in Fig. 6 in the side shown in left side
Wall portion.
Fig. 7 shows water receptacle 20 and the three-dimensional view with part container 22 located therein or thereon.Have with part container 22
The volume being engaged with the packing volume of pallet 32.Preferably, the volume with part container 22 is defined as so that be emptied completely
It is described when matching somebody with somebody part container, fully or as much as possible filled trays 32.
In embodiment shown here, flatly formed with part container 22 and preferably have 30ml and 100ml it
Between scope in volume.It is integrated in part container 22 in water receptacle 20.Substantially it is also contemplated that, with part container 22
It is configured to single component with water receptacle 20 and is connected to each other in running status so that with part container 22 by water receptacle 20
Filling.
Match somebody with somebody to realize that water enters from water receptacle 20 in part container 22, can propose, there is one or more with part container
Individual opening, preferred diffusion opening, the opening are dimensioned so as to so as to the filling with part container and via the second valve 90
It is carried out to empty to compare and carried out significantly slowerly.It is contemplated that the scope with part container 22 at 10 minutes to 30 minutes
In timeslice in be filled, but be drained in the timeslice of 5 seconds to 20 seconds.Thus, in emptying with during part container 22
The volume subsequently flowed into from water receptacle 20 is considerably less and for example in 1ml scope.
Second valve 90 is also preferably configured as simple guiding valve as the first valve 100.Guiding valve have O-ring sealing between and
It is padded.Second valve 90 is opened by funnel, i.e. valve opening mechanism 54, and its mode is:The funnel is rotated due to pallet 32
And move up.In order to open valve 90, the protuberance 55 of funnel 54 is joined in the groove 91 of valve so as to push up valve body, made
Valve is obtained to be opened.The slide of funnel 54 is placed in the framework of ice machine 30.
Funnel 54 is activated when pallet 32 rotates via the pallet again.It can surround what axis 151 pivoted for this use
The rotational motion of pallet 32 is delivered in valve 90 or funnel 54 operation by intermediate lever 150, the intermediate lever.In order to
Emptied, pallet 32 moves along the first rotation direction, and for operating lever 150, and pallet is along opposite rotation side
To motion, more precisely, motion always is until water is flowed into pallet 32 from part container 22.
Therefore, in filled trays 32, pallet is inclined and only just entered after filled trays in horizontal level,
Ice cube can be equably freezed in the horizontal level.In the horizontal level of pallet 32, valve 90 is to close so that is prohibited
Sealing is flowed into pallet 32 from part container 22 again.
Single funnel 54 or 52 has the following advantages that:Can make water receptacle 20 decouple so that can by the water receptacle from
Pulled out in unit.
Embodiment above correspondingly applies to the first valve 100 and the valve opening mechanism in the form of funnel 52.With it is rear
The difference of valve opening mechanism 54 of side is, the mobile decoupling of funnel 52 and pallet 32 and is activated by vessel, described
Vessel are pressed on funnel from below by user.
Fig. 8 discloses water receptacle 20 and the two funnels 52 and 54, and the water receptacle, which has, to be set on its underside
Valve 90,100, the funnel are used for operation valve 90,100.
When by being pushed into the left according to Fig. 8 water receptacle 20, the two valves 90,100 automatically with valve opening mechanism 52,54
Contact so that when water receptacle 20 is located in the position being pushed completely into, funnel 52,54 surrounds valve 90,100.
With part container 22 preferably by a region of water receptacle 20, preferably formed by lower region thereof.It is described to match somebody with somebody part container
There can be one or more be used for by water pot in the boundary element by plate or other boundary element gauges on the upside of it
20 openings of the filling with part container 22.
Substantially it is also included within the utility model, is configured to single vessel, the vessel and water with part container
Container connects so that is filled with part container by water receptacle.
Fig. 9 shows the three-dimensional view with part container 22 with plate 21, limit of the plate shape into the top with part container 22
Portion of boundary.As seen in Fig. 9, just what a opening 22 ' or just what a diffusion openings 22 ' in plate 21 be present,
The water for coming from the water receptacle volume of the top of plate 21 is flowed into in part container 22 by the opening or diffusion openings.
Such as further learnt from Fig. 9, valve 90 at an upper portion thereof, towards with part container 22 region in there is seal
23rd, preferred O-ring packing 23, the seal when valve is closed (according to Fig. 9 position) relative to water receptacle 20 or match somebody with somebody
The bottom surface of part container is sealed.Thus, in the position, no water is flowed out in valve 90 from part container 22.And described
Valve position split shed 22 ' is unlimited.
If operation valve 90, then valve tappet direction is moved with part container 22 and seal 23 is with the valve tappet
Direction is moved with part container 22 so that no water can be subsequently flowed into in part container 22 from water receptacle 20.Scheming the position
Shown in 10.Here, seal is abutted in the section of tubulose, the sealing device is positioned on the downside of part 21.Simultaneously
Release is with the opening between part container 22 and valve 90 so that water can be flowed out in pallet 32 from part container 22 through valve 90.
This feature is not limited to match somebody with somebody part container 22 with what a firm diffusion openings, but also includes having multiple expansions
That scatters mouth matches somebody with somebody part container.
Figure 11 shows the upper section of the internal container 200 according to cooling of the present utility model or freezing equipment.
Such as learn internally first area be present in container 200 from Figure 11, exist in the first area it is multiple that
This storage bottom surface 210 overlapped up and down, the storage bottom surface is on the fin of the internally placed container 200 in side and another
Side is fixed on the pillar of vertical partition wall 220.
Free space R be present between the partition wall 220 and another side wall 230 of internal container 200, such as the institute from Figure 12
As learning.
Unit including housing 10 can be pushed into free space R.As described in the foregoing, in housing
It is middle water receptacle 20 to be present, there is the ice machine 30 of pallet 32, the tank 40 for Manufactured ice, for coming from water receptacle
Water output device 50 and for from tank 40 export ice output device 60 or also include these parts in
Only one is multiple.
The push-in motion of unit is carried out by means of slide guiding device 240 and is pulled out, and is carried out by locking buckle 250
Fixation of the unit in the position having been pushed into.If unit is not needed, then the unit (reference can be taken out from the R of space
Figure 12) and for example replaced with storage part 300, the storage part is internally shown and in Figure 13 beside container in fig. 11
In shown with the state of loading.
Another embodiment of cooling of the present utility model or freezing equipment is obtained from Figure 14.Such as the institute in Fig. 1 to 13
In the embodiment shown like that, the unit with ice machine abuts directly against in the fringe region of the inner chamber of cooling and at that
In the wall portion of internal container.
Glass door equipment is related to according to Figure 14 equipment.However, the embodiment is not limited to this equipment.
Figure 15 shows the longitudinal section run through in height equipment, in unit according to Figure 14.Figure 16 is said with enlarged drawing
The setting of bright part in the cells.
Water receptacle is represented with reference 20, the water receptacle is for example with 2 liters of volume and the water receptacle is at this
Positioned at the lower section of ice machine 30 in embodiment.Water is delivered in ice machine or its pallet 32 by means of pump.Reference 33 represents
Water to ice machine flows into.
Opening in the region of the dorsal part of ice machine 30 be present, cold air is for example led through the opening from frozen portions
In the region for entering pallet 32 so that the water in pallet is frozen.After the rotation of pallet 32, the ice cube freezed falls into use
In the tank 40 of Manufactured ice.When the purpose for output ice is operated the lever being pivotally arranged by user
When 62, the ice cube is delivered to opening via conveying worm 120 in this place.
Reference 50 represents the output device of the water for coming from water receptacle 20, and reference 60 represents to be used for ice
The output device exported from tank 40.Output device 50 equally has a lever, the lever be pivotally arranged and
Valve is opened during operation, the valve is realized exports water from water receptacle 20.
This is in figure 16 as indicated in arrow, cold air not only overflows pallet 32, and overflows and have spiral shell
The tank 40 of conveyer 120 is revolved so as to be discharged in the region of dorsal part from unit, wherein the pallet can for example have
There is 60ml capacity.
It is preferably simply being constructed according to unit of the present utility model or module and sane, and preferably setting
It is suitable for being optionally loaded in cooling and/or freezing equipment in meter scheme.The cooling and/or freezing equipment preferably have very
Small space requirement and do not have installation requirements, because in one of the present utility model preferable design, installing
Institute's interface in need is automatically connected during unit.
Unit can abut in right side or left side the side wall of internal container in the space surrounded by internal container
And/or the mode on rear wall and/or bottom surface and/or top surface is set or is also disposed in the optional position between these walls.
As this is hereinbefore described, in one of the present utility model preferable design, individually take
Water outlet is feasible.
In a particularly preferred design of the present utility model, exist in the housing or in the module self-sufficient
, i.e. independently of cooling and/or the control device that is operated of freezing equipment or adjusting means, the control device or regulation dress
Put the function of at least one part in the part that control or regulation are located in housing and preferably control or adjust and be all these
The function of part.In such a case it is not necessary to it is connected with plant control unit or adjusting means.
However, it is possible to consider and be included in the utility model also have following situation:Plant control unit or tune
Regulating device also controls or adjusted the function of the part set in part in the cells, multiple parts or all parts, makes
Housing or module self-centered control and adjustment unit can be abandoned by obtaining.
During housing can be arranged on cooling segment in itself together with the part being disposed therein, wherein it is preferred that proposing, via logical
Come from the cold air of the frozen portions of equipment to module supply in road etc..The utility model also includes housing setting in frozen portions
Put or also include housing the setting on the door of cooling and/or freezing equipment, by means of the door can close cooling segment or
Frozen portions.
By using housing or unit it is possible that being connected to the housing or unit are autonomous different equipment and becoming
In type and its electronic instrument.
It is contemplated that same module is used for into different device variations, this is combined with corresponding cost advantage.
If water receptacle can be taken off, this is a preferable design of the present utility model, then the water receptacle
" vial " can be used as simultaneously.
If housing is fitted into cooling or frozen portions, then preferred to propose:When door opens 90 °, the housing can also hold
Easily enter.Preferably, housing is dimensioned so as to so that inside door, which is formed, one or more door frames.
If unit is not resided in door, then this brings following advantage:Door supply line voltage need not be given.Except this it
Outside, design and embodiment do not have an impact housing on the door in this case.
Itd is proposed in another design of the present utility model, be provided with fan in the module.The fan can form and
It is arranged to so that air is targetedly transported in one or more desired regions of pallet and is preferably supplied to hold in the palm
Water cooling is frozen into the region of ice by disk, or is transported in the air duct for guiding cold air towards pallet.
Another favourable design of the present utility model is, is provided with " electronic instrument " in the module, i.e., for mould
Block or control device or adjusting means for setting part in the housing so that the corresponding self-centered method of operation is can
Capable.
As described in the foregoing, in addition it is contemplated that when unit is pushed into carry out and electric supply installation
With the automatic connection of air duct, the air duct is used to cold air being introduced to ice machine and is especially introduced to the system
The pallet of ice maker is to form ice.
In addition, the unit can be configured to so that be changed in other words with door shield with door shield in the loading place of the unit
It is unrelated.
In a preferable design, air guiding device is integrated with the module and prevents heat from entering exhausted
Edge device.
As described in the foregoing, the unit is preferably placed in the space by the internal container encirclement of equipment.
Herein it is contemplated that the unit directly for example pastes with side and/or with dorsal part and/or with top surface and/or base surface area
Lean against on internal container.
Because conventional internal container is poorly suited for the interface as unit, proposed in another design,
Internal container be stamped to form and insert, such as plastics die casting be inserted into the region being stamped and load insert.
The advantages of this embodiment, is that following multiple functions can be integrated into the insert:Insert is used for solid
Fixed shell;Insert is used for seal casinghousing;Can be provided with insert (such as voltage and/or air) one or
Multiple interfaces;The integrated feasibility of bearing frame for housing is provided;And can be original with relatively small consuming repacking
Equipment.
Figure 17 shows the view of the side of internal container 200 from cooling chamber side.As learnt from Figure 17,
It is stamped with the region that reference 201 represents.
After punching press, equipment foaming before by adaptation board 202, the insert being described above insert and it is excellent
Choosing is adhered in the region 210 being stamped to form.But also include other fixed forms of adaptation board 202 in the utility model.
Figure 18 shows the state inserted of adaptation board 202.
As learnt from Figure 18, adaptation board 202 has multiple connection openings for ice making unit 10, passes through
The connection opening can be with devices exchange one or more material, i.e. electric current, data etc., that is to say, that along one or two side
To the transmission material.Substantially, the utility model also includes this connection opening of only one.
Connection opening be preferably configured as so that be pushed into or insert ice making unit 10 when carry out adaptation board connection opening with
The corresponding opening of ice making unit and/or the automatic connection of contact site.
In the embodiment illustrated, reference 203 is exhaust port, and 204 be air inlet openings, and 205 be to be used for
Contact the opening of ice making unit 10.Thus, adaptation board can be used for air duct with one or more (may live with divulging information
Door) integrated interface, and/or with one or more electric supply unit or electronics supply units for being used to connect with ice making unit 10
Electric interface or electronic interface.
One or more sealing surfaces or seal can be also arranged on ice making unit 10 and/or on adaptation board 202, wherein
The sealing surface or seal are used to ice making unit being sealingly attached to adaptation board.In addition it is contemplated that by one
Or multiple seals are arranged on ice making unit and one or more seals are arranged on adaptation board.
Figure 19 shows to show the ice making unit in insert state according to Figure 18 set-up mode and Figure 20 from foam side.
As can see from Figure 21 before ice making unit 10 is disposed entirely within final position, through with adaptation board
Equipment and the sectional view through ice making unit 10.
Ice making unit 10 is pushed into equipment first.Figure 21 illustrates position in also produce ice making unit 10 and adaptation board
Spacing (such as 7mm) between 202.
As further learnt from Figure 21, divide in being adjacent on the both sides of adaptation disk 202 for ice making unit 10
Seal D1 and D2 not be present.Preferably, one or two in the two seals D1, D2 is configured to the seal of annular.
Figure 21 illustrates position in, ice making unit 10 is abutted in relative to the face 202 ' obliquely stretched of push-in direction
On.The plane of the rake 202 ' is for example stretched relative to push-in direction with 30 ° of angle.If ice making unit 10 is by means of it
Side is pushed further into advance, i.e., according to Figure 21 to left movement, then the motion is due to rake 202 ' and ice making unit 10
Towards side wall, be superimposed according to the downward motions of Figure 21.
In the state being pushed further into, the position according to Figure 22 is obtained.In the position, seal D1 and D2 are abutted in
On adaptation board 202 or it is pressed on the adaptation board.
Figure 22 illustrates the electronic instrument circuit board 251 of ice making unit 10, the electronic instrument circuit board has contact
Portion 252, the contact site contact with the contact site 253 extended through opening 205 of adaptation board 202.Pushed away in order to follow
The lateral movement caused by rake 202 ' carried out during entering ice making unit 10 and ice making unit 10, the contact of adaptation board
Portion 253 is movably disposed on the lateral direction, as represented by fig. 22 by double-head arrow.
Claims (10)
1. one kind cooling and/or freezing equipment, the cooling and/or freezing equipment have the inner chamber of cooling and are arranged on described cold
But the ice machine and/or water dispenser in inner chamber, the inner chamber can be by door termination, it is characterised in that the ice machine or institute
Stating water dispenser has for ice or water to be exported to the output device to user, and the output device is located at the institute of the equipment
State within the inner chamber of cooling and be configured to so that the automatic output of ice or water is carried out when operating the output device.
2. cooling according to claim 1 and/or freezing equipment, it is characterised in that in the door of the equipment not
In the presence of for taking out the breach of ice or water and in the absence of the output device for ice or water.
3. cooling according to claim 1 and/or freezing equipment, it is characterised in that deposited in the door of the equipment
In breach, wherein the output device is located in the region at the breach rear, wherein the breach can be sealed by door or valve
Close.
4. cooling according to claim 3 and/or freezing equipment, it is characterised in that the breach has 40cm maximum
Width and height.
5. cooling according to claim 3 and/or freezing equipment, it is characterised in that the Breadth Maximum and height of the breach
Spend for 30cm.
6. cooling and/or freezing equipment according to any one of claim 3 to 5, it is characterised in that the door is described
Valve is heat insulation.
7. cooling according to any one of claim 1 to 5 and/or freezing equipment, it is characterised in that the ice machine
And/or the water dispenser and the output device are located in the cooling segment or refrigeration lattice of the equipment.
8. cooling according to any one of claim 1 to 5 and/or freezing equipment, it is characterised in that the ice machine
And/or the water dispenser and the output device are located in the frozen portions of the equipment or on the inner side of the door.
9. cooling according to any one of claim 1 to 5 and/or freezing equipment, it is characterised in that the ice machine and
The output device is located in housing or module, and the housing or module integrally can be taken out from the inner chamber of the cooling.
10. cooling according to claim 9 and/or freezing equipment, it is characterised in that water pot also be present in the housing
And/or the pulverizing unit for ice.
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE102014004169.7 | 2014-03-21 | ||
DE102014004169 | 2014-03-21 | ||
DE102014008667.4 | 2014-06-16 | ||
DE102014008667.4A DE102014008667A1 (en) | 2014-03-21 | 2014-06-16 | Fridge and / or freezer |
PCT/EP2015/000466 WO2015139817A1 (en) | 2014-03-21 | 2015-02-27 | Refrigerating and/or freezing device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207132606U true CN207132606U (en) | 2018-03-23 |
Family
ID=54053380
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201590000373.7U Active CN207132606U (en) | 2014-03-21 | 2015-02-27 | Cooling and/or freezing equipment |
Country Status (3)
Country | Link |
---|---|
CN (1) | CN207132606U (en) |
DE (1) | DE102014008667A1 (en) |
WO (1) | WO2015139817A1 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2020007298A1 (en) * | 2018-07-03 | 2020-01-09 | Qingdao Haier Refrigerator Co.,Ltd | Double row barrel ice maker with overhead extraction |
Family Cites Families (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
NL73102C (en) * | ||||
US4227383A (en) * | 1979-05-04 | 1980-10-14 | General Electric Company | Refrigerator including through-the-door ice service |
US4306757A (en) * | 1980-05-27 | 1981-12-22 | General Electric Company | Refrigerator including through-the-door ice service |
US6574984B1 (en) * | 2002-02-07 | 2003-06-10 | Camco Inc. | Refrigerator door mounted water dispensing assembly |
DE202006008250U1 (en) * | 2006-05-23 | 2007-10-04 | Liebherr-Hausgeräte Lienz Gmbh | Fridge and / or freezer |
KR101410462B1 (en) * | 2007-02-26 | 2014-06-30 | 삼성전자주식회사 | Refrigerator |
KR20120012230A (en) * | 2010-07-30 | 2012-02-09 | 엘지전자 주식회사 | Refrigerator with ice dispenser |
US8959943B2 (en) * | 2012-05-22 | 2015-02-24 | Sub-Zero, Inc. | Ice agitator |
US9291382B2 (en) * | 2013-01-18 | 2016-03-22 | Sub-Zero, Inc. | Control system for a door of an ice dispenser chute |
-
2014
- 2014-06-16 DE DE102014008667.4A patent/DE102014008667A1/en active Pending
-
2015
- 2015-02-27 WO PCT/EP2015/000466 patent/WO2015139817A1/en active Application Filing
- 2015-02-27 CN CN201590000373.7U patent/CN207132606U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2020007298A1 (en) * | 2018-07-03 | 2020-01-09 | Qingdao Haier Refrigerator Co.,Ltd | Double row barrel ice maker with overhead extraction |
Also Published As
Publication number | Publication date |
---|---|
WO2015139817A1 (en) | 2015-09-24 |
DE102014008667A1 (en) | 2015-09-24 |
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