CN205561391U - Refrigerator tuber pipe and air -cooled refrigerator - Google Patents

Abstract

The utility model discloses a refrigerator tuber pipe and air -cooled refrigerator relates to refrigerator technical field, can reduce cost of labor and material cost on basic guaranteeing that the epitheca body and housing seal down are good. The utility model discloses the refrigerator tuber pipe, include the tuber pipe body and locate the blast connection of this end of body of tuber pipe, the blast connection is formed by last casing and lower casing butt joint, go up the casing with the casing encloses into the wind channel chamber down, go up on the casing with the surface of casing butt joint is equipped with in sand grip and the recess down, down on the casing with the surface of going up the casing butt joint is equipped with in sand grip and the recess another, sand grip cooperation set up in in the recess, the sand grip is close to wind channel chamber one side be equipped with the fixture block on the surface, recessed wall with the position that the fixture block is relative is equipped with the draw -in groove, the fixture block with draw -in groove cooperation joint. The utility model is used for carry cold volume.

Description

A kind of refrigerator airduct and wind cooling refrigerator

Technical field

This utility model relates to refrigerator art, particularly relates to a kind of refrigerator airduct and air-cooled ice Case.

Background technology

In wind cooling refrigerator, it will usually use airduct that the cold in freezing air channel is delivered to cold preservation Air channel, or by cold room with food heat exchange after cold be delivered to vaporizer storehouse.

With reference to Fig. 1, airduct of the prior art includes airduct body 01 and is respectively arranged on airduct The blast connection 02a and blast connection 02b at body 01 two ends, wherein, blast connection 02b Docked by upper shell (not shown) and lower house (not shown) and form, described on Housing and described lower house surround chamber, air channel (not shown).

After described airduct is installed in refrigerator body, filling around this airduct is needed to send out Foam material, in order to prevent foamed material from entering at the gap that described upper shell and described lower house dock Chamber, described air channel and conveying to cold impact, and need at described upper shell in prior art After docking with described lower house, the special one procedure that increases is by this gap sealing, causes manually becoming This and material cost increase.

Utility model content

Embodiment of the present utility model provides a kind of refrigerator airduct and wind cooling refrigerator, is ensureing upper casing Cost of labor and material cost can be reduced on the basis of body and lower house good seal.

For reaching above-mentioned purpose, embodiment of the present utility model adopts the following technical scheme that

A kind of refrigerator airduct, connects including airduct body and the airduct being located at described airduct body end Head, described blast connection is docked by upper shell and lower house and forms, described upper shell and described under Housing surrounds chamber, air channel, the surface that described upper shell docks with described lower house be provided with raised line and In groove one, the surface that described lower house docks with described upper shell is provided with raised line and recessed Another in groove, described raised line is equipped with in described groove, and described raised line is near described The surface of side, chamber, air channel is provided with fixture block, the position that described groove inner wall is relative with described fixture block It is provided with draw-in groove, described fixture block and described card slot fit clamping.

This utility model embodiment provide refrigerator airduct, due to composition blast connection described on The surface docked with described lower house on housing is provided with one in raised line and groove, forms airduct The surface docked with described upper shell on the described lower house of joint is provided with in raised line and groove Another, described raised line is equipped with in described groove, and therefore, this refrigerator airduct is by convex The mode of bar and groove grafting extends foamed material and enters the path in chamber, air channel, thus by upper shell With the gap sealing of lower house joint, compared to existing technology, this utility model embodiment is upper Can be by this gap sealing while housing and lower house docking, therefore without special at upper shell Increase sealing process after docking with lower house, thus reduce cost of labor and material cost；

Further, since described raised line is provided with fixture block near the surface of side, chamber, described air channel, institute Stating the groove inner wall position relative with described fixture block and be provided with draw-in groove, described fixture block is joined with described draw-in groove Close clamping, therefore, when this refrigerator airduct is extruded by surrounding foamed material, fixture block and draw-in groove Clamping more firm, thus fixture block can be avoided to skid off in draw-in groove, so improve upper shell with The stability of lower house docking, extends the service life of refrigerator airduct；Meanwhile, fixture block and card The clamping of groove more firmly can also make raised line fit more with groove inner wall near the surface in chamber, air channel Closely, thus improve the sealing property to described gap.

This utility model embodiment additionally provides a kind of wind cooling refrigerator, including cold preservation air channel and freezing Air channel, also includes that institute is passed through in above-mentioned refrigerator airduct, described cold preservation air channel and described freezing air channel State the connection of refrigerator airduct.

The wind cooling refrigerator that this utility model embodiment provides, connects owing to forming airduct in refrigerator airduct The surface docked with described lower house on the described upper shell of head is provided with in raised line and groove Individual, the surface that the described lower house of composition blast connection docks with described upper shell is provided with raised line With another in groove, described raised line is equipped with in described groove, and therefore, this is air-cooled Refrigerator extends foamed material by the way of raised line with groove grafting and enters the path in chamber, air channel, from And by upper shell and the gap sealing of lower house joint, compared to existing technology, this utility model Embodiment can be by this gap sealing while upper shell and lower house dock, therefore without specially Door increases sealing process after upper shell and lower house dock, thus reduce cost of labor and Material cost；

Further, since described raised line is provided with fixture block near the surface of side, chamber, described air channel, institute Stating the groove inner wall position relative with described fixture block and be provided with draw-in groove, described fixture block is joined with described draw-in groove Close clamping, therefore, when the refrigerator airduct in this wind cooling refrigerator is extruded by surrounding foamed material, Fixture block is more firm with the clamping of draw-in groove, thus fixture block can be avoided to skid off in draw-in groove, and then improves The stability that upper shell docks with lower house, extends the service life of wind cooling refrigerator；Meanwhile, Fixture block more firmly can also make raised line in the surface and groove in chamber, air channel with the clamping of draw-in groove Wall laminating is tightr, thus improves the sealing property to described gap.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, The accompanying drawing used required in embodiment or description of the prior art will be briefly described below, It should be evident that the accompanying drawing in describing below is only embodiments more of the present utility model, right From the point of view of those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to Other accompanying drawing is obtained according to these accompanying drawings.

Fig. 1 is the structural representation of refrigerator airduct in prior art；

Fig. 2 is the structural representation of blast connection in this utility model embodiment refrigerator airduct；

Fig. 3 is the explosive view of Fig. 2；

Fig. 4 is the sectional view of Fig. 2；

Fig. 5 is the A portion enlarged drawing of Fig. 4.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, in this utility model embodiment Technical scheme be clearly and completely described, it is clear that described embodiment be only this One section of point of embodiment of utility model rather than the embodiment of full section.Based in this utility model Embodiment, those of ordinary skill in the art are obtained under not making creative work premise Every other embodiment, broadly falls into the scope of this utility model protection.

In description of the present utility model, it is to be understood that term " " center ", " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " push up ", " end ", " interior ", the orientation of the instruction such as " outward " or position relationship are based on attached Orientation shown in figure or position relationship, be for only for ease of description this utility model and simplification is retouched State rather than indicate or imply that the device of indication or element must have specific orientation, Yi Te Fixed azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.

In description of the present utility model, except as otherwise noted, " multiple " are meant that two Or two or more.

Fig. 2 to Fig. 5 is a specific embodiment of this utility model embodiment refrigerator airduct, this Refrigerator airduct in embodiment, including airduct body (not shown) and be located at described airduct The blast connection 1 of body end, blast connection 1 is docked by upper shell 2 and lower house 3 and forms, Upper shell 2 and lower house 3 surround chamber, air channel 4, the table that upper shell 2 docks with lower house 3 Face is provided with in raised line 5 and groove 6, the surface that lower house 3 docks with upper shell 2 Be provided with in raised line 5 and groove 6 another, raised line 5 is equipped with in groove 6, raised line 5 are provided with fixture block 7 near the surface of side, chamber, air channel 4, and groove 6 inwall is relative with fixture block 7 Position be provided with draw-in groove 8, fixture block 7 coordinates clamping with draw-in groove 8.

The refrigerator airduct that this utility model embodiment provides, owing to forming the upper casing of blast connection 1 The surface docked with lower house 3 on body 2 is provided with in raised line 5 and groove 6, forms wind The surface docked with upper shell 2 on the lower house 3 of pipe joint 1 is provided with in raised line 5 and groove 6 Another, raised line 5 is equipped with in groove 6, and therefore, this refrigerator airduct passes through raised line 5 extend foamed material with the mode of groove 6 grafting enters the path in chamber, air channel 4, thus by upper Housing 2 and the gap sealing of lower house 3 joint, compared to existing technology, this utility model is real Execute example while upper shell 2 and lower house 3 dock can by this gap sealing, therefore without After upper shell 2 and lower house 3 dock, increase sealing process specially, thus reduce artificial Cost and material cost；

Further, since raised line 5 is provided with fixture block 7, groove near the surface of side, chamber, air channel 4 The position that 6 inwalls are relative with fixture block 7 is provided with draw-in groove 8, and fixture block 7 coordinates clamping with draw-in groove 8, Therefore, when this refrigerator airduct is extruded by surrounding foamed material, fixture block 7 and the card of draw-in groove 8 Connect more firm, thus fixture block 7 can be avoided to skid off in draw-in groove 8, and then improve upper shell 2 The stability docked with lower house 3, extends the service life of refrigerator airduct；Meanwhile, fixture block 7 more firmly can also make raised line 5 near the surface in chamber, air channel 4 and groove with the clamping of draw-in groove 8 6 inwall laminatings are tightr, thus improve the sealing property to described gap.

It should be noted that fixture block 7 is not located at raised line 5 away from chamber, air channel 4 by this utility model The surface of side is the problem docking instability with lower house 3 in order to avoid upper shell 2.Specifically , it is assumed that fixture block 7 is located at the raised line 5 surface away from side, chamber, air channel 4, when refrigerator airduct is subject to During to the extruding of surrounding foamed material, owing to raised line 5 has certain elasticity, and the bullet of raised line 5 Property to compare the elasticity of groove 6 sidewall bigger, therefore, the fixture block 7 being located on raised line 5 is easy to Extruded in draw-in groove 8 by foamed material, cause upper shell 2 to dock instability with lower house 3, because of This, this utility model avoids being located at fixture block 7 raised line 5 surface away from side, chamber, air channel 4； It addition, upper shell 2 and lower house 3 can distinguish injection mo(u)lding.

Preferably, with reference to Fig. 5, draw-in groove 8 is deep gouge, and i.e. draw-in groove 8 is near the one of chamber, air channel 4 End does not connects with chamber, air channel 4, and foamed material thus can be prevented near the one of chamber, air channel 4 from draw-in groove 8 End enters chamber, air channel 4, thus reduces foamed material and enter the probability in chamber, air channel 4, also simultaneously Can prevent the cold in chamber, air channel 4 from being revealed by draw-in groove 8, thus decrease the loss of cold, Improve the refrigeration performance of refrigerator.

With reference to Fig. 5, the raised line 5 in the present embodiment includes the first end 51 of being oppositely arranged and the Two ends 52, the first end 51 is connected with upper shell 2 or lower house 3, and raised line 5 is near chamber, air channel The surface of 4 sides includes that first area 53, first area 53 are positioned at fixture block 7 and the second end 52 Between, fitting with the corresponding position of groove 6 inwall in first area 53, thus can carry further The high sealing property to gap.

Fixture block 7 in the present embodiment is multiple, and multiple fixture blocks 7 set along the length direction of raised line 5 Putting, the position that groove 6 inwall is relative with each fixture block 7 is equipped with draw-in groove 8, multiple fixture blocks 7 Coordinate clamping with multiple draw-in groove 8 one_to_one corresponding, thus can improve upper shell 2 right with lower house 3 The stability connect, thus extend the service life of refrigerator airduct.

On the basis of above-described embodiment, the multiple fixture blocks 7 in the present embodiment are uniformly distributed in convex Bar 5 is on the surface of side, chamber, air channel 4, thus, along the bearing of trend of blast connection 1, The clamping of upper shell 2 and lower house 3 diverse location evenly, thus further increases upper casing The stability that body 2 docks with lower house 3.

With reference to Fig. 3, the surface that upper shell 2 and lower house 3 are mutually butted is two groups, and it is right often to organize A surface in the surface connect is provided with raised line 5, and another surface is provided with groove 6, and two groups convex Fixture block 7 on bar 5 can be arranged by one_to_one corresponding, it is also possible to setting of staggering, this utility model is to this Do not limit.

The adjacent distance between two fixture blocks 7 can affect the number that arranges of fixture block 7, and distance is more Little, fixture block 7 to arrange number the most, the stability that upper shell 2 docks with lower house 3 is then got over Height, but, apart from too small meeting make fixture block 7 to arrange number too much, cause the structure mistake of mould In complexity, and then the manufacturing cost of mould is caused to increase, therefore, the most adjacent in the present embodiment Two fixture blocks 7 between distance be 80～120mm, thus can make fixture block 7 arranges number Moderate, it is possible not only to ensure the stability that upper shell 2 docks with lower house 3, moreover it is possible to reduce mould The manufacturing cost of tool.

It should be noted that with reference to Fig. 5, when upper shell 2 docks with lower house 3, raised line 5 and fixture block thereon 7 gradually stretch in groove 6, along with stretching into of fixture block 7, raised line 5 can Extruded by fixture block 7 and bend to the direction away from chamber, air channel 4, when fixture block 7 and draw-in groove 8 clamping After, raised line 5 resiliency is to initial position.

And the thickness of raised line 5 can affect the elasticity of raised line 5, thickness is the least, the elasticity of raised line 5 The biggest, upper shell 2 is the most convenient with docking of lower house 3, but the too small meeting of thickness makes raised line The structural strength of 5 is too small, and the stability after causing upper shell 2 to dock with lower house 3 reduces, Therefore, in the present embodiment, the thickness of preferred raised line 5 is 2～4mm, thus can make raised line 5 Thickness is moderate, is possible not only to facilitate docking of upper shell 2 and lower house 3, moreover it is possible to ensure upper casing Body 2 dock with lower house 3 after stability；It addition, in order to improve the sealing to described gap Performance, in the present embodiment, the degree of depth of preferred groove 6 is more than or equal to 5mm, thus can enter one Step extends foamed material and enters the path in chamber, air channel 4, thus improves the sealing property to gap.

With reference to Fig. 2 and Fig. 3, the two ends of blast connection 1 are respectively provided with interface 9, raised line 5 and recessed Groove 6 is between the interface 9 at two ends, and raised line 5 and groove 6 are positioned on blast connection 1 Partial-length between the interface 9 at two ends is equal, thus can make to be positioned at two ends on blast connection 1 Interface 9 between gap be fully sealed, thus farthest reduce foamed material enter wind The probability in chamber, road 4.

Concrete, described airduct body is straight tube, and described airduct body is preferably extrusion molding, Blast connection 1 away from described airduct body one end deviate described airduct body bearing of trend, So that this refrigerator airduct can be used in two air ports connected the most on the same line.

This utility model embodiment additionally provides a kind of wind cooling refrigerator, including cold preservation air channel (in figure Not shown) and freezing air channel (not shown), also include described in any of the above-described embodiment Refrigerator airduct, described cold preservation air channel is connected by described refrigerator airduct with described freezing air channel.

The wind cooling refrigerator that this utility model embodiment provides, connects owing to forming airduct in refrigerator airduct The surface docked with lower house 3 on the upper shell 2 of 1 is provided with in raised line 5 and groove 6 Individual, the surface that the lower house 3 of composition blast connection 1 docks with upper shell 2 is provided with raised line 5 With another in groove 6, raised line 5 is equipped with in groove 6, therefore, and this air-cooled ice Case extends foamed material by the way of raised line 5 with groove 6 grafting and enters the road in chamber, air channel 4 Footpath, thus by upper shell 2 and the gap sealing of lower house 3 joint, compared to existing technology, This utility model embodiment can be by close for this gap while upper shell 2 and lower house 3 dock Envelope, therefore without increasing sealing process after upper shell 2 and lower house 3 dock specially, from And reduce cost of labor and material cost；

Further, since raised line 5 is provided with fixture block 7, groove near the surface of side, chamber, air channel 4 The position that 6 inwalls are relative with fixture block 7 is provided with draw-in groove 8, and fixture block 7 coordinates clamping with draw-in groove 8, Therefore, when the refrigerator airduct in this wind cooling refrigerator is extruded by surrounding foamed material, fixture block 7 Clamping with draw-in groove 8 is more firm, thus fixture block 7 can be avoided to skid off in draw-in groove 8, Jin Erti The stability that high upper shell 2 docks with lower house 3, extends the service life of wind cooling refrigerator； Meanwhile, fixture block 7 more firmly can also make raised line 5 near chamber, air channel 4 with the clamping of draw-in groove 8 Surface is tightr with the laminating of groove 6 inwall, thus improves the sealing property to described gap.

Other compositions of wind cooling refrigerator about this utility model embodiment etc. have been this area Known to technical staff, no longer describe in detail at this.

The above, detailed description of the invention the most of the present utility model, but guarantor of the present utility model The scope of protecting is not limited thereto, and any those familiar with the art is at this utility model In the technical scope disclosed, change can be readily occurred in or replace, all should contain at this utility model Protection domain within.Therefore, protection domain of the present utility model should be with described claim Protection domain is as the criterion.

Claims (10)

1. a refrigerator airduct, including airduct body and the airduct being located at described airduct body end Joint, described blast connection is docked by upper shell and lower house and forms, described upper shell and described Lower house surrounds chamber, air channel, it is characterised in that dock with described lower house on described upper shell Surface is provided with one in raised line and groove, the table that described lower house docks with described upper shell Face is provided with another in raised line and groove, and described raised line is equipped with in described groove, institute Stating raised line and be provided with fixture block near the surface of side, chamber, described air channel, described groove inner wall is with described The position that fixture block is relative is provided with draw-in groove, described fixture block and described card slot fit clamping.

Refrigerator airduct the most according to claim 1, it is characterised in that described draw-in groove is heavy Groove.

Refrigerator airduct the most according to claim 1, it is characterised in that described raised line includes The first end being oppositely arranged and the second end, described first end and described upper shell or described lower house Connecting, described raised line includes first area near the surface of side, chamber, described air channel, described first Region between described fixture block and described second end, described first area and described groove inner wall The laminating of corresponding position.

Refrigerator airduct the most according to claim 1, it is characterised in that described fixture block is many Individual, multiple described fixture blocks are arranged along the length direction of described raised line, and described groove inner wall is with each The position that described fixture block is relative is equipped with described draw-in groove, multiple described fixture blocks and multiple described draw-in grooves One_to_one corresponding coordinates clamping.

Refrigerator airduct the most according to claim 4, it is characterised in that multiple described fixture blocks It is uniformly distributed in described raised line on the surface of side, chamber, described air channel.

Refrigerator airduct the most according to claim 5, it is characterised in that two adjacent institutes Stating the distance between fixture block is 80～120mm.

Refrigerator airduct the most according to claim 1, it is characterised in that the thickness of described raised line Degree is 2～4mm, and the degree of depth of described groove is more than or equal to 5mm.

Refrigerator airduct the most according to claim 1, it is characterised in that described blast connection Two ends be respectively provided with interface, described raised line and described groove between the described interface at two ends, And on described raised line and described groove and described blast connection between the described interface at two ends Partial-length is equal.

Refrigerator airduct the most according to claim 1, it is characterised in that described airduct body For straight tube, described blast connection deviates described airduct body away from one end of described airduct body Bearing of trend.

10. a wind cooling refrigerator, including cold preservation air channel and freezing air channel, it is characterised in that also Including the refrigerator airduct according to any one of claim 1～9, described cold preservation air channel and described cold Frostbite road is connected by described refrigerator airduct.