CN103185441A - Refrigerating electric apparatus with two doors - Google Patents

Abstract

The invention relates to a refrigerating electric apparatus. The refrigerating electric apparatus (1) comprises a body (2) with an opening (3), as well as a first door (4) and a second door (5) which are opened against each other and fixed at the front side of the body (2), a beam (6) fixed at one edge of the first door (4) and a guide mechanism (7) used for guiding rotation of the beam (6), wherein the beam (6) can be pivoted between a regress position and the position where the first door (4) is extended out when being closed; the guide mechanism (7) comprises a guide convex part (10) arranged on the beam (6) or the body (2) and a guide groove (11) formed on the body (2) or the beam (6); and the guide convex part (10) can move in the guide groove (11) so as to drive the beam (6) to rotate. Based on the recommendation of the invention, the guide mechanism (7) is such arranged that the guide convex part (10) can enter into the guide groove (11) to close the first door (4) when the beam (6) is positioned at the extended position.

Description

The electric refrigerator that comprises two doors

[technical field]

The present invention is about a kind of electric refrigerator that comprises two doors, particularly household refrigerating appliance, for example refrigerator.

[background technology]

WO2007/115868 discloses a kind of refrigerating plant, comprises the door of splitting of body, a pair of opposite side that is connected body and rotatably is connected beam on first.When but can opening by means of the guiding protuberance that is shifted in the guide groove residing extended position and first when closing for first, beam pivots between the residing retracted position, residing position when closing for first, the edge that second the built-in edge with second is opposite is applied to beam, residing position when opening for first, beam can be by second of closing.The guiding protuberance can be along the direction of first pivot axis with respect to first displacement.Thereby, can guarantee to guide the top of protuberance and the bottom of guide groove contacts, making does not have air can enter the inside of refrigerating plant by the guiding protuberance.

Though by the cooperation of guiding protuberance and guide groove, when opening for first, beam can be via guiding protuberance moving and rotate to retracted position in guide groove, then, have such possibility: namely the user may rotate to extended position with beam by mistake.In this case, if the user firmly closes first, the cell wall generation sharp impacts of guiding protuberance and formation guide groove is also rebounded, and this may cause the damage of electric refrigerator.

[summary of the invention]

One object of the present invention is to overcome above-mentioned at least one technical problem, thereby a kind of electric refrigerator that is conducive to increase the service life and improves ease of use can be provided.

Therefore, an aspect of of the present present invention comprises about a kind of electric refrigerator: body, and front end has opening; First and second, first and second comprises first edge of the opposite side that is fixed to described opening and second edge opposite with described first edge respectively; Beam is fixed on second described first edge, and described beam can pivot between a retracted position and described first residing extended position when closing, and wherein when described beam is in described retracted position, described beam can be by being in second of closed condition; And in order to guide the guide mechanism of described beam rotation, described guide mechanism comprises first guide member that is arranged on the described beam and is arranged on second guide member at the edge of described opening, one of described first guide member and described second guide member comprise the guiding protuberance, in described first guidance part and described second guidance part another then comprises guide channel, described guiding protuberance can move to drive described beam rotation in described guide channel, it is characterized in that described guide mechanism so arranges so that described guiding protuberance can enter described guide channel and close described first when described beam is in described extended position.

Thereby, even beam is in extended position, also can close first smoothly, improved ease of use.In addition, when beam was in extended position and closes first, sharp impacts can not take place and cause damage in first guide member and second guide member, thereby is conducive to improve the service life of electric refrigerator.

Other are combined separately or with other features and the feature that is considered to characteristic of the present invention will be set forth in following additional claim.

Preferred embodiment according to the present invention, when closing described first being in extended position when described beam, the angle between described beam and described first is constant.This is conducive to simplify the structure of guide channel and guiding protuberance, for example, might keep the design of existing guide channel constant.

Preferred embodiment according to the present invention, when closing described first being in extended position when described beam, described relatively first of described guiding protuberance carries out linear movement.This is conducive to reduce the complexity of guide channel and guiding protuberance, and the design that might keep existing guide channel.

Preferred embodiment according to the present invention, described guiding protuberance cross described guide channel towards the cell wall of described guiding protuberance and enter described guide channel.This provides a kind of great possibility, can keep the design of existing guiding groove, and can drop to low as far as possible to the change of existing guide mechanism.

At least one can be along relative described first displacement of the direction of described first pivot axis in preferred embodiment according to the present invention, described guiding protuberance and described cell wall.Thereby, when the guiding protuberance contacts with cell wall, can at least one can be mobile along the direction away from the other side in guiding protuberance and cell wall, and after removing contact, this also is conducive to displaceable parts reposition and prevents from being positioned at the guiding protuberance disengaging cell wall of cell wall.

Preferred embodiment according to the present invention, the terminal surface of at least one has guide ramp in described guiding protuberance and the described cell wall, and described guiding protuberance and/or described cell wall are just more little the closer to the other side at the height at corresponding guide ramp place.

Preferred embodiment according to the present invention, the whole terminal surface of at least one forms described guide ramp in described guiding protuberance and the described cell wall.So that more successfully striding across behaviour's wall, the guiding protuberance enters in the guide channel.

Preferred embodiment according to the present invention, described guide ramp has a plurality of juts.This is conducive to reduce the frictional force between guiding protuberance and the cell wall.

Preferred embodiment according to the present invention, described jut comprise the muscle that extends along the incline direction of described guide ramp.

Though when beam is in expanded position, also can close first, yet preferred embodiment according to the present invention, described guiding protuberance rotates and drives described beam along guide channel and rotates to retracted position, this makes beam be in retracted position at first automatically after opening, thereby under normal circumstances can close first by the mode that the guiding protuberance rotates along guide channel.

Structure of the present invention and its other goals of the invention and beneficial effect will be in conjunction with the drawings and description of preferred embodiments and becoming apparent more.

[description of drawings]

The part of book and in order to providing further understanding of the present invention as an illustration, the following drawings diagram the specific embodiment of the present invention, and be used for illustrating principle of the present invention with specification.Wherein,

Fig. 1 is the schematic perspective view of electric refrigerator in accordance with a preferred embodiment of the present invention.

Fig. 2 is the schematic perspective view that has second guide member of guide channel in accordance with a preferred embodiment of the present invention.

Fig. 3 is illustrated in the schematic partial perspective view that the beam that is in retracted position when closing left-hand door enters guide channel.

Fig. 4 illustrates the schematic partial perspective view of close second guide member of beam that is in extended position.

Fig. 5 illustrates the show in schematic partial sections of close second guide member of beam that is in extended position.

The guiding protuberance that Fig. 6 is illustrated in the beam that is in extended position when closing left-hand door is crossed the show in schematic partial sections towards the cell wall of beam of guide channel.

Fig. 7 illustrates the show in schematic partial sections that the guiding protuberance enters guide channel.

Fig. 8 illustrates the schematic diagram according to the relative position of another preferred embodiment of the present invention first guide member and second guide member, and its Central Left Gate is shown in an open position and beam is in extended position.

[specific embodiment]

Please refer to accompanying drawing, at first please especially referring to figs. 1 through Fig. 3.Electric refrigerator 1 comprises left-hand door 4 and the right door 5 of heat insulation body 2 and the relative both sides of being fixed in body 2.Body 2 has the storeroom 20 of front opening 3, and left-hand door 4 and right door 5 are connected the front side of body 2, to open and close storeroom 20 selectively.

Left-hand door 4 and right door 5 are fixed on the body 2 by corresponding hinge-unit 22 respectively, and can rotatablely move round the corresponding longitudinal axis.In Fig. 1, left-hand door 4 and right door 5 are shown in open position.

Left-hand door 4 and right door 5 comprise first edge 41,51 and and the second opposite edge 42,52 of corresponding first edge 41,51 of the left and right side that is respectively fixed to opening 3 respectively.When left-hand door 4 and right door 5 are all closed, there is the gap between second edge 42,52 of left-hand door 4 and right door 5.

In order to seal this gap, electric refrigerator 1 has the beam 6 at second edge 42 that is fixed on left-hand door 4.Should be appreciated that beam 6 also can be fixed on the right door 5.

Beam 6 is pivotally connected to left-hand door 4, can rotate round vertical axis (not shown).Beam 6 can pivot between extended position and retracted position.Under normal circumstances, when left-hand door 4 was in open mode, cross section was that the beam 6 of rectangle is return, and its narrow side is towards body 2.At this moment, beam 6 does not stretch out second edge 42 of left-hand door 4 on side direction.Work as right door 5 so in off position down, if close left-hand door 4, beam 6 just can be crossed right 5.

When closing left-hand door 4, beam 6 is nipped in the inside of body 2, and in this process, rotate around vertical axis, make the interface that is formed on wide side 61 of beam 6 enter body 2 backs and body 2 can with the left-hand door 4 of closed condition and right 5 liner 43, the front end face of the framework 21 of 53 butts is concordant, and this moment, beam 6 was in extended position.In this position, framework 21 and interface 61 form the butting surface that can cover the gap between left-hand door 4 and the right door 5, and the liner 43,53 of left-hand door 4 and right door 5 is connected on this stayed surface with sealing means.

Electric refrigerator 1 comprises the guide mechanism 7 in order to guide bars 6 rotations.Guide mechanism 7 comprises first guide member 8 of at least one end that is arranged on beam 6 and is arranged on second guide member 9 at the edge of opening 3.In Fig. 1, only in the upper end of beam 6 and the top edge of opening 3 first guide member 8 and second guide member 9 are set respectively.Should be appreciated that and between the lower limb of the lower end of beam 6 and opening 3, guide mechanism to be set.Between two ends of beam 6 and body 2 guide mechanism being set all also is fine.

Please refer to Fig. 2, Fig. 3 and Fig. 5, first guide member 8 comprises that 9 of guiding protuberance 10, the second guidance parts comprise guide channel 11.Guiding protuberance 10 can move to drive beam 6 rotations in guide channel 11.Guiding protuberance 10 has the cross section of arc.

Guiding protuberance 10 can move relative to left-hand door 4 along the direction of the pivot axis of left-hand door 4, can move in the vertical in present embodiment.In the present embodiment, guiding protuberance 10 can move relative to beam 6.The end of beam 6 can be provided with in order to the otch 63 of guiding protuberance 10 to be installed, and guiding protuberance 10 is guided in the mode that can vertically be shifted in otch 63.

The inboard of guiding protuberance 10 is provided with sleeve pipe 102, and sleeve pipe 102 is enclosed within on the pin 62 that is positioned at beam 6.Guide mechanism 7 also comprises and being positioned on the pin 62 in order to support the helical spring 71 of guiding protuberance 10.Do the time spent not being subjected to external force, helical spring 71 can up push up guiding protuberance 10.

The terminal surface of guiding protuberance 10 forms first guide ramp 101.On the direction perpendicular to interface 61, the height of guiding protuberance 10 at corresponding first guide ramp 101 places more leans on the back side 64 that deviates from mutually with interface 61 more little, and the edge of consequently guiding the most close back side 64 of terminal surface of protuberance 10 has minimum height.When beam 6 was in extended position, as shown in Figure 4 and Figure 5, guiding protuberance 10 had minimum height in the edge of the most close second guide member 9 of correspondence.

Please refer to Fig. 2 to Fig. 5, the guide channel 11 of second guide member 9 has curved shape.Guide channel 11 has the entrance 110 towards first guide member 8.Second guide member 9 comprises towards first cell wall 12 of first guide member 8 and second cell wall 14 that deviates from first guide member 8.For the guide channel 11 on being arranged on body 2, first cell wall 12 is positioned at the place ahead of guide channel 11, and second cell wall 14 is positioned at the rear of guide channel 11.

The terminal surface of first cell wall 12 has second guide ramp 122 corresponding to first guide ramp 101.On the direction perpendicular to framework 21, first cell wall 12 is more little the closer to guiding protuberance 10 at the height at corresponding second guide ramp 122 places, so that first cell wall 12 is in the height minimum at the forward edge place of respective ends face.When beam 6 was in as shown in Figure 4 and Figure 5 extended position, first cell wall 12 had minimum height in the edge of the most close guiding protuberance 10 on perpendicular to the direction of framework 21/ interface 61.

Under normal circumstances, as shown in Figure 3, when closing left-hand door 4, an end that is in the close narrow side of the guiding protuberance 10 on the beam 6 of retracted position enters the entrance 110 of guide channel 11, and protruding lateral edges 15 beginnings of guiding protuberance 10 contact with second cell wall 14 of guide groove 11.Along with further closing of left-hand door 4, protruding lateral edges 15 pivots around vertical axis thereby drive beam 6 along the side slip towards guide channel 11 of second cell wall 14, is in extended position until beam 6, and this moment, interface 61 was concordant with framework 21.

Similarly, when opening left-hand door 4, guiding protuberance 10 is also in guide channel 11 inward turnings then drive beam 6 and rotate to retracted position, and makes the beam 6 can be by the right door 5 of closing, and then can be at right door 5 and open left-hand door 4 under the situation of closing.

As mentioned above, under normal circumstances, after left-hand door 4 is opened, beam 6 namely rotate automatically to retracted position not interfere with right door 5.Yet the user may maloperation and beam 6 is rotated to extended position.

According to the present invention, even beam 6 is in extended position, guiding protuberance 10 also can enter guide channel 11 and close left-hand door 4.The pass closed procedure of left-hand door 4 when Fig. 4 to 7 is illustrated schematically in beam 6 and is in extended position.

As shown in Figure 4 and Figure 5, when the beam 6 that is in extended position during near body 2, the guide ramp 101 of guiding protuberance 10 near a side of body 2 in the vertical a shade below the front side of the terminal surface of first cell wall 12, so the two is overlapping in the vertical.If continue to promote left-hand door 4, the terminal surface of guiding protuberance 10 and the terminal surface crimping of first cell wall 12 and compress spring 71, the guiding protuberance 10 that is supported by spring 71 moves down, as shown in Figure 6.

As shown in Figure 7, guiding protuberance 10 has been crossed first cell wall 12 and has been entered guide channel 11.Removed with first cell wall, 12 crimped status after, the guiding protuberance 10 under the support of spring 71, move towards the diapire of guide channel 11.Guiding protuberance 10 and first cell wall 12 are overlapping on the direction perpendicular to interface 61, withdraw from guide channel 11 to stop guiding protuberance 10 to cross first cell wall 12.

In this process, when namely closing left-hand door 4 being in extended position when beam 6, guiding protuberance 10 does not have relative first 4 rotation, and only is that relative left-hand door 4 carries out linear movement.Therefore, when closing left-hand door 4 being in extended position when beam 6, the angle between beam 6 and the left-hand door 4 is constant, and beam 6 is gone in the body 2 by horizontal sliding.

For the friction between the terminal surface that reduces guiding protuberance 101 and first cell wall 12, first guide ramp 101 is provided with a plurality of juts 13.The muscle that jut 13 can be extended by the incline direction along first guide ramp 101 forms.In an alternative embodiment, jut 13 also can be arranged on second guide ramp 122.

In addition, wearing layer can also be set to reduce wearing and tearing at the terminal surface of guiding protuberance 10 and first cell wall 12.

In above embodiment, the whole terminal surface of guiding protuberance 10 forms first guide ramp 101, yet in the embodiment that replaces, first inclined-plane 101 also can only be formed by the part terminal surface of guiding protuberance 10.Similarly, second guide ramp 121 also can be formed by the whole or part terminal surface of first cell wall 12.

In addition, In an alternative embodiment, only the terminal surface one of in guiding protuberance 10 and first cell wall 12 forms guide ramp, and another whole height that reduces then also is possible, as shown in Figure 8 in guiding protuberance 10 and first cell wall 12.

In addition, in above embodiment, guiding protuberance 10 can be mobile along the direction of the pivot axis of left-hand door 4 under spring 17 supports, yet In an alternative embodiment, also can make the whole of the guide member that is provided with guide channel or only wherein first cell wall can stride across first cell wall and gone in the guide channel by horizontal sliding so that be in the beam of extended position under spring supports and but in the vertical direction moves.

In addition, in above embodiment, be installed in first guide member 8 on the beam 6 and be provided with guiding protuberance 10, be positioned at second guide member 9 on the body 2 and then be provided with and guide the guide channel 11 that protuberance 10 cooperates.Yet the present invention should not be subject to this, but other embodiment can be arranged, and for example, In an alternative embodiment, guide channel are arranged on the guide member that is positioned on the beam, and the guiding protuberance that cooperates with guide channel is arranged on the body.

Claims (10)

1. an electric refrigerator (1) comprising:

Body (2), front end have opening (3);

First (4) and second (5), first (4) and second (5) comprise first edge (41,51) of the opposite side that is fixed to described opening (3) and second edge (42,52) opposite with described first edge (41,51) respectively;

Beam (6), be fixed on second edge (42) of described first (4), described beam (6) can pivot between the residing extended position when closing at a retracted position and described first (4), wherein when described beam (6) when being in described retracted position, described beam (6) can be by being in second (5) of closed condition; And in order to guide described beam, (6) Xuan Zhuan guide mechanism, (7), described guide mechanism, (7) comprise and be arranged on described beam, (6) first guide member on, (8) and be arranged on described opening, second guide member at edge (3), (9), described first guide member, (8) and described second guide member, one of (9) comprise the guiding protuberance, (10), described first guidance part, (8) and described second guidance part, (9) another in then comprises guide channel, (11), described guiding protuberance, (10) can be at described guide channel, (11) mobile to drive described beam in, (6) rotation

It is characterized in that described guide mechanism (7) so arranges so that described guiding protuberance (10) can enter described guide channel (11) and close described first (4) in described beam (6) when being in described extended position.

2. electric refrigerator as claimed in claim 1 is characterized in that, when closing described first (4) being in extended position when described beam (6), the angle between described beam (6) and described first (4) is constant.

3. electric refrigerator as claimed in claim 1 or 2 is characterized in that, when closing described first (4) being in extended position when described beam (6), described guiding protuberance (10) described relatively first (4) carries out linear movement.

4. as the described electric refrigerator of claim 1,2 or 3, it is characterized in that, described guiding protuberance (10) cross described guide channel (11) towards the cell wall (12) of described guiding protuberance (10) and enter described guide channel (11).

5. electric refrigerator as claimed in claim 4 is characterized in that, at least one can be along direction relative described first (4) displacement of the pivot axis of described first (4) in described guiding protuberance (10) and the described cell wall (12).

6. electric refrigerator as claimed in claim 4, it is characterized in that, the terminal surface (101 of at least one in described guiding protuberance (10) and the described cell wall (12), 121) has guide ramp (101,122), the height that described guiding protuberance (10) and/or described cell wall (12) are located in corresponding guide ramp (101,122) is just more little the closer to the other side.

7. refrigerating appliance as claimed in claim 6 is characterized in that, the whole terminal surface of at least one forms described guide ramp (101) in described guiding protuberance (10) and the described cell wall (12).

8. refrigerating appliance as claimed in claim 6 is characterized in that, described guide ramp (101) has a plurality of juts (13).

9. refrigerating appliance as claimed in claim 8 is characterized in that, described jut (13) comprises the muscle that extends along the incline direction of described guide ramp (101).

10. refrigerating appliance as claimed in claim 1 is characterized in that, when opening the door, described guiding protuberance (10) rotates and drives described beam (6) along guide channel (12) and rotates to retracted position.

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