CN209415879U - Load-bearing part, overturning beam assembly and refrigerator - Google Patents
Load-bearing part, overturning beam assembly and refrigerator Download PDFInfo
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- CN209415879U CN209415879U CN201822222740.6U CN201822222740U CN209415879U CN 209415879 U CN209415879 U CN 209415879U CN 201822222740 U CN201822222740 U CN 201822222740U CN 209415879 U CN209415879 U CN 209415879U
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Abstract
The utility model relates to load-bearing part, overturning beam assembly and refrigerators, including load-bearing part ontology, the load-bearing part ontology is cylindrical in shape, the inside of the load-bearing part offers cavity, the first threading hole and the second threading hole are offered on the load-bearing part ontology, first threading hole and second threading hole are connected to the cavity respectively.Since the wherein one end for avoiding from load-bearing part ontology penetrates terminal, and then the side wall for avoiding cavity is squeezed by terminal, that is, avoids load-bearing part body distortion, is able to maintain the bearing strength of load-bearing part ontology.Since change terminal wears mode, so that this physical efficiency of load-bearing part is made as tubular, the effect of power is dispersed to the outside of load-bearing part ontology by this physical efficiency of load-bearing part of tubular by the force dispersion on its own to the two sides of load-bearing part ontology, so that load-bearing part ontology is stronger.
Description
Technical field
The utility model relates to refrigerator arts, more particularly to load-bearing part, overturning beam assembly and refrigerator.
Background technique
Side by side combination refrigerator includes two door body being oppositely arranged, equipped with overturning in a wherein door body for side by side combination refrigerator
Beam.When shutdown state, flip beam is moved along scheduled track, so that flip beam is fitting in two door body respectively at closing time
On, the compartment of side by side combination refrigerator is separated with the external world, prevents cooling gas leakage.In the moving process of door body, the mobile need of flip beam
Other components in another door body are avoided, open and close the door body smoothly.
Current overturning beam assembly is made of front cover, heating device, bracket, foam, rear cover, torsional spring, load-bearing part and shaft-cup.
Front cover snaps connection on bracket by first, and bracket is snapped connection by second and covered after, heating device be located at front cover with
Between bracket, and heating device is adhesive on bracket, and foam is mounted between ontology and rear cover, and one end of torsional spring connects carrying
The other end of part, torsional spring connects rear cover.The material of front cover is the first magnetic part, is provided with the second magnetic part in the door seal of door body,
By the first magnetic part and the actuation of the second magnetic part so that front cover is connected in door seal, cooling gas leakage is prevented, furthermore, front cover is also made
For the heat-conducting medium of heating device, heating device is sent out heat thermogenetic and is conducted to front cover, so that front cover is generated heat and evaporates attached
In condensation or steam in front cover surface, avoid condensation or steam from freezing.Heater strip includes heating tube, harness and terminal three
Point, terminal is located at harness one end, and harness need to be connected in door body.Foam plays heat-blocking action, the isolation external world or heater strip and ice
Case compartment heat exchange.Bracket and rear cover play a supportive role, and are equivalent to the skeleton of flip beam, for installing above-mentioned other zero
Part.In flip beam rotation process, torque arm and torque change torsional spring, can store and discharge certain elastic potential energy, right
The rotation of flip beam works as a buffer.One torsional spring is set on each load-bearing part, and the partial denudation of load-bearing part is in door body or overturning
When except beam, the appearance of flip beam will affect, and the torsional spring on load-bearing part is also possible to hurt user, so passing through shaft-cup button
It is covered together in after, load-bearing part and torsional spring is avoided to be exposed on the outside of flip beam.
In flip beam moving process, flip beam smooth rotation can be enabled relative to the door body rotation of installation flip beam
Structure is shaft, and shaft includes torsional spring and load-bearing part, and one end of torsional spring is connect with flip beam, and the other end is connect with load-bearing part,
The rotation and reset of flip beam are realized by torsional spring, torsional spring is in deformed state Shi Huixiang load-bearing part force, the structure of load-bearing part
If insecure, it can be deformed because of effect by power for a long time, in addition, the heating device of flip beam includes that harness and setting exist at present
The terminal of harness one end is easy to cause the side wall of the inside of load-bearing part by terminal when terminal is penetrated from wherein one end of load-bearing part
It squeezes, causes load-bearing part to deform, reduce the bearing strength of load-bearing part.
Utility model content
Based on this, it is necessary to provide load-bearing part, overturning beam assembly and refrigerator.
A kind of load-bearing part, including load-bearing part ontology, the load-bearing part ontology is cylindrical in shape, and the inside of the load-bearing part offers
Cavity offers the first threading hole and the second threading hole on the load-bearing part ontology, and first threading hole and described second are worn
String holes is connected to the cavity respectively.
Above-mentioned load-bearing part since the wherein one end for avoiding from load-bearing part ontology penetrates terminal, and then avoids cavity
Side wall squeezed by terminal, that is, avoid load-bearing part body distortion, be able to maintain the bearing strength of load-bearing part ontology.Due to changing
Terminal wears mode, so that this physical efficiency of load-bearing part is made as tubular, this physical efficiency of load-bearing part of tubular will be on its own
The effect of power is dispersed to the outside of load-bearing part ontology to the two sides of load-bearing part ontology by force dispersion, so that load-bearing part ontology
It is stronger.
It in one of the embodiments, further include mounting blocks, the mounting blocks protrusion is set to the outside of the load-bearing part
Surface offers on the mounting blocks and plugs space.
The mounting blocks are located at one end of the load-bearing part ontology, the load-bearing part ontology in one of the embodiments,
Far from the mounting blocks outer surface on offer groove, the groove is connected to the cavity, one end of the groove and
The first threading hole connection, the other end of the groove are connected to the cavity far from one end of the mounting blocks.
The groove is at least partly in that bending or bending open up in one of the embodiments,.
Protrusion is provided with blocking portion on the side wall of the groove in one of the embodiments,.
The blocking portion, the groove are respectively arranged on the side wall of the groove two sides in one of the embodiments,
The wherein blocking portion in one side wall and the interlaced setting of the blocking portion on another side wall.
It in one of the embodiments, further include fixing piece, the fixing piece is connect with the load-bearing part ontology, described solid
Determine to offer third threading hole on part, second threading hole is connected to the third threading hole.
It in one of the embodiments, further include interconnecting piece, the inner hollow of the interconnecting piece, the fixing piece passes through institute
It states interconnecting piece to connect with the load-bearing part ontology, first threading hole, the cavity, second threading hole, the connection
It is sequentially communicated inside portion with the third threading hole.
A kind of overturning beam assembly, including flip beam and torsional spring further include the load-bearing part as described in above-mentioned any embodiment,
One end of the torsional spring plugs in space described in being inserted in, and the other end of the torsional spring is connect with the flip beam.
A kind of refrigerator, including door body further include such as above-mentioned overturning beam assembly as described in the examples, the load-bearing part ontology
Outer surface connect with the door body.
Detailed description of the invention
Fig. 1 is the schematic perspective view of the load-bearing part of one embodiment;
Fig. 2 is the schematic perspective view of the load-bearing part of another embodiment;
Fig. 3 is the structural schematic diagram in a direction of the load-bearing part of one embodiment;
Fig. 4 is the schematic perspective view of the overturning beam assembly of one embodiment;
Fig. 5 is the three-dimensional separate structure schematic diagram of the overturning beam assembly of one embodiment;
Fig. 6 is the partial schematic diagram of Fig. 5;
Fig. 7 is the schematic perspective view of the load-bearing part of one embodiment.
Specific embodiment
The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model,
It states.The better embodiment of the utility model is given in attached drawing.But the utility model can come in many different forms
It realizes, however it is not limited to embodiments described herein.On the contrary, the purpose of providing these embodiments is that making practical new to this
The disclosure of type understands more thorough and comprehensive.
Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model
The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be
The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein packet
Include any and all combinations of one or more related listed items.
In one of the embodiments, as depicted in figs. 1 and 2, a kind of load-bearing part 10, including load-bearing part ontology 100, it is described
Load-bearing part ontology 100 is cylindrical in shape, and the inside of the load-bearing part 10 offers cavity 101, specifically, the both ends of the load-bearing part 10
It is respectively provided with opening, two openings are connected to the cavity 101 respectively.Current terminal is penetrated from opening, load-bearing part
The cross-sectional width of the opening of ontology needs the section longest width greater than terminal, as shown in figures 1 to 6, described in the present embodiment
Load-bearing part ontology 100 offers the first threading hole 110 and the second threading hole (not shown) far from the position of the mounting blocks 200,
First threading hole 110 and second threading hole are connected to the cavity 101 respectively.In this way, terminal 820 is threaded from first
Hole 110 is protruded into, and is pierced by from the second threading hole, because load-bearing part ontology 100 itself has longer length, terminal 820
It the longer part of cross-sectional width can be by the longer part of the first threading hole 110, so the part that 820 cross-sectional width of terminal is shorter
By the shorter part of the first threading hole 110, if terminal 820 passes through the load-bearing part ontology 100, it is only necessary to load-bearing part ontology
100 width is greater than the width of the shorter part of 820 cross-sectional width of terminal, makes it possible to simplify load-bearing part ontology 100
Size.Furthermore since the wherein one end for avoiding from load-bearing part ontology 100 penetrates terminal 820, and then avoid cavity 101
Side wall squeezed by terminal, that is, avoid load-bearing part ontology 100 deformation, be able to maintain the bearing strength of load-bearing part ontology 100.Due to
Change terminal 820 wears mode, so that load-bearing part ontology 100 can be made as tubular, the load-bearing part ontology 100 of tubular
Load-bearing part ontology 100 can be dispersed to by the force dispersion on its own to the two sides of load-bearing part ontology 100, and by the effect of power
Outside, so that load-bearing part ontology 100 is stronger.
To install torsional spring, load-bearing part 10 further includes mounting blocks 200 in one of the embodiments, and the mounting blocks 200 are convex
The outer surface for being set to the load-bearing part 10 is acted, is offered on the mounting blocks 200 and plugs space 201, it is described to plug space
201 for plugging torsional spring.
It is noted that the space that plugs can be slot, or jack.In one of the embodiments,
The space that plugs is slot, and when one end of torsional spring is inserted in slot, the side wall of slot is supplied to the torsional-spring supported power,
And the torsional spring is inserted in one end of slot and is connected to the bottom of the slot, support force is obtained, so that torsional spring steadily plugs
In in slot.Jack is in the space that plugs in one of the embodiments, and in the present embodiment, one end of the torsional spring is plugged
In in the jack, and one end that the torsional spring is inserted in the jack is connect with the side wall of the jack.
As depicted in figs. 1 and 2, above-mentioned load-bearing part 10 plugs space 201 by being arranged on the outside of load-bearing part ontology 100
Fix torsional spring 21, when 21 deformation of torsional spring, torsional spring 21 exerts a force to the side wall for plugging space 201, so that mounting blocks 200 are to holding
Holder ontology 100 exerts a force, and since load-bearing part ontology 100 is cylindrical in shape, and the side wall of the cavity of load-bearing part ontology is enclosed construction, is made
Mounting blocks 200 when pressing to load-bearing part ontology 100, force dispersion on load-bearing part ontology 100 to the two of load-bearing part ontology 100
Side, and the effect of power is dispersed to the outside of load-bearing part ontology 100, so that load-bearing part ontology 100 is stronger.That is,
With outstanding pressure-resistant performance when the load-bearing part ontology 100 is cylindrical in shape, load-bearing part ontology 100 is enabled to bear stronger pressure
Power.
After making terminal pass through load-bearing part ontology 100, harness 810 can be contained in load-bearing part ontology 100, such as Fig. 7
Shown, the mounting blocks are located at one end of the load-bearing part ontology, the load-bearing part ontology 100 in one of the embodiments,
Groove 111 is offered on outer surface far from the mounting blocks 200, specifically, the groove 111 is close to the carrying
Part ontology 100 is arranged far from one end of the mounting blocks 200, and the groove 111 is connected to the cavity 101, the groove 111
One end be connected to first threading hole 110, the other end of the groove 111 and the cavity 101 are far from the mounting blocks
200 one end connection.In the present embodiment, the cavity of the load-bearing part ontology has the first opening and the second opening, and described the
One opening and the second opening are separately positioned on the both ends of the load-bearing part ontology, and the mounting blocks 200 are close to first opening
Setting, the one end of the cavity far from the mounting blocks are second opening, the groove and second open communication.End
After son passes through load-bearing part ontology 100 by the first threading hole 110 and the second threading hole, part can be extended out in flip beam 22
Harness 810 pass through groove 111 and be arranged in cavity 101, and one end of harness 810 passes through the of the load-bearing part ontology 100
Two openings, so that axial direction setting of the harness 810 along the load-bearing part ontology 100, in this way, harness 810 can be arranged in load-bearing part
In ontology 100, harness 810 is damaged when load-bearing part ontology 100 being avoided to rotate.
To be contained in harness in cavity, avoid that harness is enabled to deviate from from groove in 22 rotation process of flip beam, wherein
In one embodiment, the groove is at least partly opened up in bending or bending.Groove is opened up in bending or bending, and harness
General linearly, when harness is located at groove, linear harness is difficult to from being bent or curved under the intervention not by external force
Deviate from the groove of folding, so that harness is more stable in cavity.As shown in Figure 1, described in one of the embodiments,
Groove 111 is opened up in bending.The groove is in that bending opens up in one of the embodiments,.
To be contained in harness in cavity 101, avoid that harness is enabled to deviate from from groove 111 in 22 rotation process of flip beam,
As shown in Figure 1, protrusion is provided with blocking portion 400 on the side wall of the groove 111 in one of the embodiments,.Work as flip beam
When 22 rotation, harness is also rotated with flip beam 22 and is moved, and in harness moving process, is connected on blocking portion, is played block line
The effect of beam avoids harness from deviating from from groove 111.
In order to further prevent harness from deviating from from groove 111, as shown in Figure 1, the ditch in one of the embodiments,
The blocking portion is respectively arranged on the side wall of 111 two sides of slot.Multiple blocking portions can further prevent harness from groove 111
Abjection.Specifically, the interlaced setting of the blocking portion 400 on the side wall of 111 two sides of groove, that is to say, that described
The wherein interlaced setting of the blocking portion on the blocking portion and another side wall in one side wall of groove 111.Specifically, institute
The gap that bending or bending setting are formed between the blocking portion on the side wall of 111 two sides of groove is stated, when installation, harness passes through
The gap of bending or bending is filled in the cavity 101 of the load-bearing part ontology 100, when harness is rotated with flip beam 22, it is difficult to
Deviate from from the groove 111 that bending or bending are arranged, so that harness be avoided to deviate from from groove 111.In the present embodiment, the ditch
The interlaced setting of the blocking portion 400 on the side wall of the two sides of slot 111, so that forming institute between blocking portion and blocking portion
State the groove of bending or bending.As shown in figure 3, in one of the embodiments, on the side wall of the two sides of the groove 111
The blocking portion include the first blocking portion 410 being set on 111 one end side wall of groove and be set to the groove 111
The second blocking portion on other end side wall, between formation is described between first blocking portion 410 and second blocking portion 420
Gap, first blocking portion 410 have the first barrier 411 and the second barrier 412, first barrier 411 and described
Second barrier 412 is obliquely installed, and second blocking portion 420 has third barrier 421 and the 4th barrier 422, described
Third barrier 421 and the 4th barrier 422 are obliquely installed, first barrier 411 and the third barrier 421
It is arranged in parallel, second barrier 412 and the 4th barrier 422 are arranged in parallel, and first barrier 411 arrives institute
The distance for stating third blocking is less than the cross-sectional width of the groove 111.So that harness is in the first blocking portion 410 and the second resistance
Pass through in gap between stopper, and harness is installed in cavity 101, harness is avoided to deviate from out of cavity 101.
In one embodiment, the material integrated injection molding of the load-bearing part ontology 100.
To install the load-bearing part 10 in door body, as depicted in figs. 1 and 2, the carrying in one of the embodiments,
Part 10 further includes fixing piece 300, and the fixing piece 300 is connect with the load-bearing part ontology 100, is opened up on the fixing piece 300
There is third threading hole 301, second threading hole is connected to the third threading hole 301.Specifically, the harness sequentially passes through
First threading hole 110, cavity 101, the second threading hole and third threading hole 301 are arranged, and fixing piece 300 is installed in door body.Value
It obtains one and is mentioned that fixing piece 300 can be connected by a snap in door body, can also be fixed in door body by spiro connection structure.
As shown in Fig. 2, the fixing piece 300 is arranged away from the one side of the load-bearing part 10 in one of the embodiments,
There is fastener 310.Specifically, the fastener 310 includes insertion section and hook, one end of the insertion section and the fixing piece
300 connections, the other end of the insertion section are connect with the hook.
As shown in Fig. 2, offering fixation hole 320, the fixation on the fixing piece 300 in one of the embodiments,
Hole 320 is for wearing spiro connecting piece.Internal screw thread is provided on the side wall of the fixation hole 320 in one of the embodiments,.This
Sample, by installing spiro connecting piece in fixation hole, so that fixing piece is capable of fixing in the door body of refrigerator.
It is noted that the fixing piece 300 can both be connect with the load-bearing part ontology 100, a reality wherein
Apply in example, the fixing piece 300 is snapped connection with the load-bearing part ontology 100, be also possible to the fixing piece 300 with it is described
100 integrated injection molding of load-bearing part ontology.
It is noted that the load-bearing part ontology can be cylindrical shape, or square tube shape, or be polygon cylinder
Shape.I.e. the section of the load-bearing part ontology can be round, rectangular or polygon.The cavity runs through the both ends of load-bearing part ontology,
And the side wall of cavity is in closed.
For the compressive property for improving the load-bearing part ontology 100, as depicted in figs. 1 and 2, in one of the embodiments,
The load-bearing part ontology 100 is cylindrical, i.e., the section of the load-bearing part ontology is circle, and in other words, which is middle part tool
There is the cylindrical body of hollow structure, which is cavity.Cylindrical shape setting can more facilitate by load-bearing part ontology 100 by
Power is evenly distributed to the outer surface of the load-bearing part ontology 100, to improve the compressive property of load-bearing part ontology 100.
It is as depicted in figs. 1 and 2, described in one of the embodiments, to hold to realize that fixing piece is connected with load-bearing part ontology
Holder further includes interconnecting piece 500, the inner hollow of the interconnecting piece 500, the fixing piece 300 by the interconnecting piece 500 with
The load-bearing part ontology 100 connects, first threading hole 110, the cavity 101, second threading hole, the interconnecting piece
The internal and described third threading hole 301 is sequentially communicated, to realize that fixing piece is connected with load-bearing part ontology.In the present embodiment, institute
It states terminal and sequentially passes through first threading hole, the cavity, second threading hole, interconnecting piece inside and the third
Threading hole, so that terminal traction harness is set to the one side that fixing piece deviates from the interconnecting piece.
It is noted that firstly, be limited to plastic parts moulding condition, the thickness between the outside and inside of load-bearing part ontology
For 0.8mm~3mm, the thickness being further added by between load-bearing part outer body and inside, it may be difficult to forming defect is formed or had completely,
So load-bearing part ontology compressive property cannot be increased simply by increasing the mode of material.Secondly, load-bearing part sheet must when body formed
It must allow mold that can deviate from from opening, so the opening cannot be closed, therefore carrying cannot be increased simply by closing opening
Part ontology compressive property.Again, the inside of load-bearing part ontology can not add reinforcing rib, add reinforcing rib will lead to end cannot be at
Type can not play booster action, because the reinforcing rib that load-bearing part ontology is axially arranged not can increase end compression strength, unless will
The opening is closed by lid, and reinforcing rib is connect with the lid, but opening cannot be closed, this scheme is in above-mentioned conclusion
It excludes.And the reinforcing rib being arranged radially makes mold can not be successfully demoulding, can not make load-bearing part ontology injection molding.And it will carrying
Part ontology, which is set as deformable, will lead to load-bearing part ontology failure even fracture, can not play a supporting role, if load-bearing part sheet
Body is deformable, and the power of other forms is also easy to cause load-bearing part body distortion, so that the service life of load-bearing part ontology declines.
In one of the embodiments, as shown in Figure 4 and Figure 5, a kind of overturning beam assembly 20, including 22 He of flip beam are provided
Torsional spring 21, further includes the load-bearing part 10 as described in any one of above-described embodiment, and one end of the torsional spring 21 is inserted in described insert
If in space 201, the other end of the torsional spring 21 is connect with the flip beam 22, to realize load-bearing part 10 and the flip beam 22
It relatively rotates.
A kind of refrigerator, including door body are provided in one of the embodiments, further include as described in the examples being turned over as above-mentioned
Turn beam assembly 20, the outer surface of the load-bearing part ontology 100 is connect with the door body.It is described in one of the embodiments,
The outer surface of load-bearing part ontology 100 is connect by the fixing piece 300 with the door body.
It is provided with supporting element in the cavity in one embodiment to improve the compressive property of the load-bearing part ontology,
The supporting element filling provides support force in the cavity, to the side wall of the cavity, improves the anti-of the load-bearing part ontology
Press performance.In one embodiment, the supporting element is rubber parts, and the rubber parts is abutted with the side wall of the cavity.
Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality
It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited
In contradiction, all should be considered as described in this specification.
Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed,
But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field
For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to
The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.
Claims (10)
1. a kind of load-bearing part, which is characterized in that including load-bearing part ontology, the load-bearing part ontology is cylindrical in shape, the load-bearing part
Inside offers cavity, offers the first threading hole and the second threading hole on the load-bearing part ontology, first threading hole and
Second threading hole is connected to the cavity respectively.
2. load-bearing part according to claim 1, which is characterized in that further include mounting blocks, the mounting blocks protrusion is set to
The outer surface of the load-bearing part offers on the mounting blocks and plugs space.
3. load-bearing part according to claim 2, which is characterized in that the mounting blocks are located at the one of the load-bearing part ontology
It holds, offers groove on the outer surface of the load-bearing part ontology far from the mounting blocks, the groove is connected to the cavity,
One end of the groove is connected to first threading hole, and the other end of the groove and the cavity are far from the mounting blocks
One end connection.
4. load-bearing part according to claim 3, which is characterized in that the groove is at least partly opened in bending or bending
If.
5. load-bearing part according to claim 3, which is characterized in that protrusion is provided with blocking portion on the side wall of the groove.
6. load-bearing part according to claim 5, which is characterized in that be respectively arranged on the side wall of the groove two sides described
Blocking portion, the groove wherein interlaced setting of the blocking portion on the blocking portion and another side wall in one side wall.
7. load-bearing part according to claim 1, which is characterized in that it further include fixing piece, the fixing piece and the carrying
Part ontology connects, and offers third threading hole on the fixing piece, second threading hole is connected to the third threading hole.
8. load-bearing part according to claim 7, which is characterized in that it further include interconnecting piece, the inner hollow of the interconnecting piece,
The fixing piece is connect by the interconnecting piece with the load-bearing part ontology, first threading hole, the cavity, described second
It is sequentially communicated inside threading hole, the interconnecting piece with the third threading hole.
9. a kind of overturning beam assembly, including flip beam and torsional spring, which is characterized in that further include such as any one of claim 1-8
The load-bearing part, one end of the torsional spring be inserted in it is described plug in space, the other end of the torsional spring and the flip beam
Connection.
10. a kind of refrigerator, including door body, which is characterized in that it further include overturning beam assembly as claimed in claim 9, it is described to hold
The outer surface of holder ontology is connect with the door body.
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CN201822222740.6U CN209415879U (en) | 2018-12-27 | 2018-12-27 | Load-bearing part, overturning beam assembly and refrigerator |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112648778A (en) * | 2019-10-10 | 2021-04-13 | 惠而浦(中国)股份有限公司 | Refrigerator door with foldable turnover beam |
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2018
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112648778A (en) * | 2019-10-10 | 2021-04-13 | 惠而浦(中国)股份有限公司 | Refrigerator door with foldable turnover beam |
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