CN209470409U - Refrigeration equipment - Google Patents

Abstract

The utility model discloses a kind of refrigeration equipments.Refrigeration equipment includes segmented cabinet body, and the segmented cabinet body includes shell, upper inner-liner, bottom inner container and connecting band component, and the connecting band component includes front panel and fixed installation bucket on the front panel, forms storing cavity in the installation bucket；The upper inner-liner and the bottom inner container linked together by the front panel and integral installation in the housing；The shell, the upper inner-liner, the bottom inner container, the front panel and the installation are barrel-shaped at foaming cavity, form insulating foam layer in the foaming cavity.The diversification of refrigeration equipment function of containing articles is realized, to improve user experience.

Description

Refrigeration equipment

Technical field

The utility model relates to refrigeration technology field more particularly to a kind of refrigeration equipments.

Background technique

Currently, the incubator of wine cabinet generally includes cabinet and door body, and multiple warm areas are conventionally divided into cabinet, usually In the case of, between different warm areas by keep the temperature partition carry out it is spaced apart, such as: China Patent No. CN200920038700 is disclosed A kind of double temperature zone wine freezers are mainly divided into two warm areas, having a single function by increasing thermal insulation board in cabinet body.How to set It is technical problem to be solved in the utility model that a kind of functional diversities, which are counted, with the refrigeration equipment for improving user experience.

Summary of the invention

The utility model provides a kind of refrigeration equipment, the diversification of refrigeration equipment function of containing articles is realized, to improve user's body The property tested.

To reach above-mentioned technical purpose, the utility model is implemented with the following technical solutions:

A kind of refrigeration equipment, including segmented cabinet body, the segmented cabinet body include shell, upper inner-liner, bottom inner container and company Tape splicing component, the connecting band component include front panel and fixed installation bucket on the front panel, shape in the installation bucket At storing cavity；The upper inner-liner and the bottom inner container are linked together by the front panel and integral installation is in the shell In；The shell, the upper inner-liner, the bottom inner container, the front panel and the installation are barrel-shaped at foaming cavity, the foaming Insulating foam layer is formed in cavity.

Further, the shell includes backboard, U shell and bottom plate, and the back of the U shell is arranged in the backboard, described The bottom of the U shell is arranged in bottom plate；The two sides of the U shell are respectively arranged with the first locating slot, the two sides of the front panel End is inserted in corresponding first locating slot.

Further, the lower edges of the front panel are provided with the second locating slot, and the lower edge of the upper inner-liner is inserted In corresponding second locating slot, the top edge of the bottom inner container is inserted in corresponding second locating slot.

Further, drawer is provided in the storing cavity, the drawer is slidably disposed in described by sliding rail It installs in bucket, the installation bucket is fixed on the front panel, and the front panel offers the through-hole passed through for the drawer.

Further, the two sides of the installation bucket are respectively arranged with installation slot, are fitted in each installation slot The sliding rail, the drawer are arranged between two sliding rails.

Further, limit tongue is provided on the sliding rail, the two sides of the drawer are respectively arranged with limit slot, institute Limit tongue is stated to be inserted in the corresponding limit slot.

Further, locating piece is additionally provided on the sliding rail, the locating piece is located at the front side of the limit tongue, institute It states locating piece and is provided with positioning claw, the two sides of the drawer are respectively arranged with locating groove, and the positioning claw is stuck in correspondence The locating groove in.

Further, sealing ring is provided on the front end-plate of the drawer, the sealing ring is provided with multiple connection claws, Multiple fixed card slots are provided on the front end-plate, the connection claw is installed in the fixed card slot.

Further, upper air duct component is provided in the upper inner-liner, the upper air duct component includes upper air duct and sets Set the upper fan in the upper air duct.

Further, lower air duct component is provided in the bottom inner container, the lower air duct component includes lower air duct and sets Set the lower blower in the lower air duct.

Compared with prior art, the advantages and positive effects of the utility model are as follows: by passing through company between two liners Tape splicing component is attached, on the one hand connecting band component can link together two liners are solid and reliable, meanwhile, connection It is also formed with storage space with the mounting cylinder in component, meets the diversified requirement of function of containing articles；Upper inner-liner as the area Chu Jiu, under Liner is separated into refrigerating chamber and freezing chamber by partition, and the foam component in lower air duct component is provided with for blowing and return air The requirement for meeting in lesser volume and having more wind is realized to meet the multiple air outlet cold air outlet air requirements of front shroud in channel, with Realize that the ducting assembly design of miniaturization meets the air-supply requirement of refrigeration equipment multi-temperature zone, to improve user experience

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is Some embodiments of the utility model, for those of ordinary skill in the art, in the premise of not making the creative labor property Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of the utility model refrigeration equipment embodiment;

Fig. 2 is the explosive view of the utility model refrigeration equipment embodiment；

Fig. 3 be in Fig. 1 E to cross-sectional view；

Fig. 4 is F-F refrigeration equipment into cross-sectional view in Fig. 1；

Fig. 5 is the portion G partial enlargement diagram refrigeration equipment in Fig. 3；

Fig. 6 is the assembling figure of upper inner-liner and upper air duct component in the utility model refrigeration equipment embodiment；

Fig. 7 is the assembling figure of bottom inner container and lower air duct component in the utility model refrigeration equipment embodiment；

Fig. 8 is the explosive view of lower air duct component in the utility model refrigeration equipment embodiment；

Fig. 9 is sectional view along A-A in Fig. 1；

Figure 10 is B-B direction cross-sectional view in Fig. 1；

Figure 11 be in Fig. 1 C-C to cross-sectional view；

Figure 12 be in Fig. 1 D-D to cross-sectional view；

Figure 13 is the explosive view of drawer appliance in the utility model refrigeration equipment；

Figure 14 is the cross-sectional view of drawer appliance in the utility model refrigeration equipment.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Based on the implementation in the utility model Example, every other embodiment obtained by those of ordinary skill in the art without making creative efforts belong to The range of the utility model protection.

As shown in Fig. 1-Figure 14, the present embodiment refrigeration equipment, including segmented cabinet body, wherein segmented cabinet body includes packet Shell, upper inner-liner 2-1, bottom inner container 1-1 and connecting band component 3-1, the upper inner-liner 2-1 and the bottom inner container 1-1 is included to pass through The connecting band component 3-1 links together, also, is provided with storing cavity in the connecting band component 3-1.Wherein, in upper It is (unmarked) for storing red wine configured with wine frame in gallbladder 2-1, be provided in upper inner-liner 2-1 upper air duct component carry out it is air-cooled, and It is air-cooled that bottom inner container 1-1 is provided with the progress of lower air duct component.

Specifically, the present embodiment refrigeration equipment passes through connecting band component 3-1 connection upper inner-liner 2-1 and bottom inner container 1-1, on The installation bucket 3-33 of liner 2-1, bottom inner container 1-1 and connecting band component 3-1 integral installation into shell, in connecting band component 3-1 The storing cavity of formation can be used for storing, to realize the function of containing articles design of cabinet body.Wherein, further, Connecting band component 3-1 further includes that front panel 3-31 and installation bucket 3-33, front panel 3-31 are installed on upper inner-liner 2-1 and bottom inner container 1- Between 1；The fixed 3-31 on the front panel of bucket 3-33 is installed, installs and forms storing cavity in bucket 3-33；Upper inner-liner 2-1, bottom inner container 1-1 links together simultaneously integral installation in the shell by front panel 3-31；Shell, upper inner-liner 2-1, bottom inner container 1-1, front panel 3-31 and installation bucket 3-33 form foaming cavity, form insulating foam layer in the cavity that foams.The storing formed in installation bucket 3-33 Cavity can be realized storage at room temperature article, refrigeration equipment function of containing articles diversification, to improve user experience；Meanwhile front panel 3-31 is spaced between bottom inner container, is on the one hand played the role of connecting upper bottom inner container, on the other hand can be reused front The height space of plate 3-31 forms additional storage space between two liners, improves ease of use.Wherein, shell packet Backboard 1-100, U shell 1-200 and bottom plate (not shown) are included, the back of the U shell 1-200 is arranged in the backboard 1-100, described The bottom of the U shell 1-200 is arranged in bottom plate；The two sides of the U shell 1-200 are respectively arranged with the first locating slot 1-201, institute The both side ends for stating front panel 3-31 are inserted in the corresponding first locating slot 1-201, and the both sides of front panel 3-31 are then It is plugged in together with the first locating slot 1-201 of U shell 1-200, and the lower edges of front panel 3-31 are provided with the second positioning Slot 3-311, the lower edge of the upper inner-liner 2-1 are inserted in the corresponding second locating slot 3-311, the bottom inner container 1- 1 top edge is inserted in the corresponding second locating slot 3-311.

Preferably, article is accessed in storing cavity in order to facilitate user, install in bucket 3-33 and be provided with drawer 3-34, institute It states drawer 3-34 to be slidably disposed in the installation bucket 3-33 by sliding rail 3-35, drawer 3-34 and installation bucket 3-33 composition Drawer appliance, the front panel 3-31 offer the through-hole passed through for the drawer 3-34.Specifically, being arranged on front panel 3-31 There is drawer appliance, storing is carried out using drawer 3-34, with user-friendly, wherein drawer 3-34 is configured with rammer structure 3- 352, by pressing drawer 3-34 rammer structure 3-352 is released drawer 3-34 from installation bucket 3-33.Preferably, in order to The structural strength of front panel 3-31 is improved, the two sides of front panel 3-31, which are respectively arranged with, reinforces iron 3-32, and screw sequentially passes through institute It states front panel 3-31 and the reinforcement iron 3-32 is fixed on support frame as described above 3-31, specifically, the both sides of front panel 3-31 It is each configured with and reinforces iron 3-32, reinforce iron 3-32 and be fixed on together with front panel 3-31 on corresponding support frame 3-31, reinforced Iron 3-32 can effectively enhance the structural strength of front panel 3-31, reliably to install drawer appliance.Wherein, for convenience By drawer 3-34 in being assembled into installation bucket 3-33, the two sides of the installation bucket 3-33 are respectively arranged with installation slot 3-330, institute It states sliding rail 3-35 to be mounted in the corresponding installation slot 3-330, the drawer 3-34 is arranged in two sliding rail 3-35 Between.Specifically, drawer appliance is in an assembling process, sliding rail 3-35 is first mounted on to the two sides of drawer 3-34, then, by sliding rail 3-35 inserting can be completed to assemble, so that sliding rail 3-35 can install without screw into installation slot 3-330 Into installation bucket 3-33, assembling process is simplified, to be conducive to improve packaging efficiency.The installation bucket 3-33 includes upper housing 3- 331 and lower case 3-332, the upper housing 3-331 are mounted on the lower case 3-332, upper housing 3-331 and lower case 3- 332 two sides are respectively arranged with sliding slot (unmarked), and positioned opposite two sliding slots form the installation slot 3- up and down 330, specifically, installation bucket 3-33 is adopted a split structure, assembled by upper housing 3-331 and lower case 3-332, and it is each Shell both sides are respectively arranged with sliding slot, positioned opposite up and down after upper housing 3-331 and lower case 3-332 link together Two sliding slots just form installation slot 3-330.And the installation of sliding rail 3-35 more convenient and quicker for convenience, outside are provided with Mounting bracket 3-351, the mounting bracket 3-351 are inserted in the installation slot 3-330.In addition, and for drawer 3-34 with The mounting means of sliding rail 3-35, specific as follows: limit tongue 3-352 is provided on the sliding rail 3-35, the drawer 3-34's Two sides are respectively arranged with limit slot (not shown), and the limit tongue 3-35 is inserted in the corresponding limit slot；Drawer Positioning is realized by limit tongue 3-35 and limit slot cooperation in the rear end of 3-34, further, also sets up on sliding rail 3-35 There are locating piece 3-353, the locating piece 3-353 to be located at the front side of the limit tongue 3-352, the locating piece 3-353 setting There is positioning claw, the two sides of the drawer 3-34 are respectively arranged with locating groove (not shown), and the positioning claw is stuck in correspondence The locating groove in, at the rear portion of drawer 3-34 by limiting after tongue 3-352 carries out limit prepackage, before drawer 3-34 Portion is stuck on the positioning claw of locating piece 3-353, so that operator be facilitated to assemble.And in order to improve the close of drawer 3-34 Sealing property is provided with sealing ring 3-343 on the front end-plate 3-341 of drawer 3-34, and the sealing ring 3-343 is provided with multiple connections Claw is provided with multiple fixed card slots on the front end-plate 3-341, and the connection claw is installed in the fixed card slot, tool Body, sealing ring is installed by the way of clamping, it is more advantageous to raising packaging efficiency, and can be with outside front end-plate 3-341 Configured with decorative panel 3-342 to optimize appearance.

It can be assembled using following processing method for above-mentioned segmented cabinet body, specifically, processing method includes:

The top edge of the lower edge of upper inner-liner 2-1 and bottom inner container 1-1 is installed on the second of front panel 3-31 and determines by step 1 On in the slot 3-311 of position.

U shell 1-200 is covered in the outside of upper inner-liner 2-1 and bottom inner container 1-1, and makes the two sides of front panel 3-31 by step 2 Portion is stuck in the first locating slot 1-201 of U shell 1-200.

Installation bucket 3-33 is fixed on front panel 3-31 by step 3, and then, bottom plate is mounted on U shell 1-200.Specifically , in assembling, segmented cabinet body integrally stands upside down placement, and bottom plate is installed from top.

Backboard 1-100 is installed on U shell 1-200 by step 4, so that backboard 1-100, U shell 1-200, bottom plate, upper inner-liner 2-1, bottom inner container 1-1, front panel 3-31 and installation bucket 3-33 form foaming cavity, then, inject foaming material into foaming cavity Material carries out foaming and forms insulating foam layer.In this way, outside foaming layer and installation bucket in foaming layer, bottom inner container in upper inner-liner The foaming layer of package is integral foaming structure, is conducive to the structural strength for improving entire cabinet body.

By being attached between two cabinets by connecting band component, connecting band component on the one hand can be by two casees Body is solid and reliable to link together, meanwhile, it is also formed with storage space in connecting band component, it is diversified to meet function of containing articles It is required that；Upper inner-liner is separated into refrigerating chamber and freezing chamber, the foam group in lower air duct component by partition as the area Chu Jiu, bottom inner container Part is provided with for blowing and the channel of return air, to meet the multiple air outlet cold air outlet air requirements of front shroud, is realized lesser Meet the requirement for having more wind in volume, is wanted with the air-supply that the ducting assembly design of realization miniaturization meets refrigeration equipment multi-temperature zone It asks, to improve user experience.

Based on the above-mentioned technical proposal, optionally, for bottom inner container 1-1, lower air duct component is provided in bottom inner container 1-1 2, the lower air duct component 2 includes lower air duct and the lower blower 20 being arranged in the lower air duct, passes through lower blower 20 and drives Air circulation flow in bottom inner container 1-1 is air-cooled to realize.Specifically, in order to enrich the function of containing articles of refrigeration equipment, bottom inner container 1-1 is provided with partition, and the bottom inner container 1-1 is divided into refrigerating chamber 1-102 and freezing chamber 1- arranged up and down by the partition 101, and the lower air duct since bottom inner container 1-1 is by volumetric constraint, in order to make full use of internal storage space, in lower air duct component 2 Including front shroud 21, back shroud 22 and foam component 23；Air-out chamber is formed between the foam component 23 and the back shroud 22 Body 220 offers the first air outlet 221 on the front shroud 21, the first return air inlet 221 is provided on back shroud 22, first goes out Air port 211 is connected to the air-out cavity 220, and the back side of the back shroud 22 is formed with the installation for installing lower evaporator 1 Space after back shroud 22 is assembled on the liner 1-12 of bottom inner container 1-1, forms between the installation space and liner of back shroud 22 and steams Cavity 100 is sent out, lower evaporator 1 is located in evaporation cavity 100, and the connection evaporation cavity 100 is offered on the back shroud 22 Total air inlet (unmarked) and total return air inlet (unmarked), total air inlet is connected to the air-out cavity 220, under described Blower 20 is mounted on total air inlet, and first return air inlet 221 is connected to total return air inlet；In the foam component 22 It is formed with the air-supply passage 2201 for being connected to the air-out cavity 220, is also formed in the foam component 22 connection described total time The return air channel 2202 in air port is provided with the first air door 24 in the air-supply passage 2201, is additionally provided on the front shroud 21 It is connected to the second air outlet 212 of the air-supply passage 2201, the connection return air channel is additionally provided on the front shroud 21 2202 the second return air inlet 213；Wherein, the first air outlet 211 and first return air inlet 221 are located at the freezing chamber 1-101, Second air outlet 212 and second return air inlet 213 are located at the refrigerating chamber 1-102.And for bottom inner container 1-1, With freezing chamber 1-101 and refrigerating chamber 1-102, the temperature of freezing chamber 1-101 is lower, then the first air outlet on front shroud 21 221 and back shroud 22 on the first return air inlet 221 be located in freezing chamber 1-101, in this way, freezing chamber 1-101 can always with Air-out cavity 220 keeps connected state, so that it is guaranteed that the in liberal supply requirement to meet freezing of cooling capacity, and the second air outlet 212 Be located in refrigerating chamber 1-102 with return air inlet 213, adjusted by the switch of the first air door 24 in air-supply passage 2201 be sent to it is cold The cold blast rate in the 1-102 of room is hidden, to reach the cryogenic temperature adjusted in refrigerating chamber 1-102.Due to being used in lower air duct component 2 Air-out cavity 220 distribute unitedly cold wind, and using the air-supply passage 2201 and return air channel 2202 formed in foam component 23 come Air blow and return is completed, so that the design more compact to meet miniaturization of the overall structure of lower air duct component 2, reaches in small size Multi-temperature zone design is realized using air cooling way in refrigeration equipment.And in order to realize uniformity of temperature profile in freezing chamber 1-101, it is described First air outlet 211 is located at the top of first return air inlet 221, and the air-out direction of first air outlet 211 is horizontally disposed Or inclination is arranged upward, the opening direction of first return air inlet 221 is downward.Wherein, in order to facilitate the shape in foam component 23 At air-supply passage 2201 and return air channel 2202 and the first air door 24 of installation, the foam component 23 includes the first foam block 231 and second foam block 232, offer first through hole 2311 and the second through-hole 2312 on first foam block 231, described The whole inverted u-shaped structure of two foam block 232, second foam block 232 are arranged in first foam block 231 and the rear cover Between plate 22, first foam block 231, second foam block 232 and the back shroud 23 form the air-out cavity 220；The air-supply passage 2201 and the return air channel 2202 are by first foam block 231 and/or second foam block The groove opened up on 232 is constituted, in this way, when merging the first foam block 231 and second foam block 232, corresponding groove Just air-supply passage 2201 and the return air channel 2202 are formed, meanwhile, the first air door 24 is clipped in the first foam block 231 and described the Between two foam blocks 232, so that the first air door 24 is embedded into foam component 23, to reduce volume to the greatest extent；Described One through-hole 2311 is connected to second air outlet 212 and the air-supply passage 2201, and second through-hole 2312 is connected to described Two return air inlets 213 and the return air channel 2202.Specifically, foam component 23 passes through the first foam block 231 and the second foam block After 232 fit together, air-supply passage 2201 and the return air channel 2202 are formed, can be existed according to the needs of air-supply and return air The surface of first foam block 231 and/or the second foam block 232 opens up the groove of response curve shape, in this way, in the first foam block 231 and second foam block 232 assemble after, corresponding groove forms air-supply passage 2201 and the return air channel 2202 and is sent with meeting The requirement of return air, meanwhile, the design requirement of miniaturization can be better met.Wherein, the first through hole 2311 is arranged in institute State the top of the first foam block 231, second through-hole 2312 is arranged in the lower part of first foam block 231, and described first Through-hole 2311 and second through-hole 2312 are distributed along the diagonal line of first foam block 231, corresponding, on front shroud 21 The second air outlet 212 and the second return air inlet 213 is also corresponding arranges up and down in diagonal line, in this way, can make from the second outlet air Mouth 212 uniformly freezes to refrigerating chamber 1-102 using the decline of cold air gravity from the top releasing cool air of refrigerating chamber 1-102, And the air of the bottom refrigerating chamber 1-102 realizes that return air completes air circulation flow by the second return air inlet 213.Further, In order to compress the overall volume of lower air duct component 2 to greatest extent, the design of structure more compactization, first foam block are realized 231 bottom is provided with gap structure 2310, and the back shroud 22 is provided with the ventilation shaft 222 that inclination extends downward, described First return air inlet 221 is formed on the ventilation shaft 222, and the ventilation shaft 222 is successively inserted in second foam block 232 Opening and the gap structure 2310 opening in, the side wall of the gap structure 2310 and the ventilation shaft 222 it is outer The first interface channel 2110 for being connected to first air outlet 211 and the air-out cavity 220 is formed between wall.Specifically , the gap structure 2310 that the bottom of the first foam block 231 is formed can be used for placing ventilation shaft 222, in this way, to be connected to First interface channel 2110 of the first air outlet 211 and air-out cavity 220 is formed by ventilation shaft 222 and gap structure 2310, Without being additionally individually formed the channel in the first foam block 231, at the same time it can also utilize the installation ventilation of gap structure 2310 Pipeline 222 meets Miniaturization Design so that the overall structure of lower air duct component 2 is more compact small and exquisite to greatest extent It is required that.Further, in order to more segment storage area, meet the design requirement of refrigeration equipment three-temperature-zone, in refrigerating chamber 102 Top again by partition formed third greenhouse 1-103, specifically, in bottom inner container 1 up to it is lower be configured with upper spacer 3 and lower clapboard 4, the lower section of lower clapboard 4 forms freezing chamber 1-101, and refrigerating chamber 1-102 is formed between upper spacer 3 and lower clapboard 4, upper spacer 3 Top forms third greenhouse 103；Foam component 2 further includes third foam block 233, the third foam block 233 and described second The second interface channel 2203 for being connected to the air-out cavity 220 is formed between foam block 232, in second interface channel 2203 It is provided with the second air door 25, the top of the back shroud 22 is provided with the auxiliary air-outlet for being connected to second interface channel 2203 223, auxiliary air duct 5 is connected on the auxiliary air-outlet 223, it is logical that the top of the front shroud 21 is provided with the connection return air The auxiliary return air inlet 214 in road 2202.Specifically, auxiliary air duct 5 includes the auxiliary cover plate to link together and auxiliary foam block, institute It states in auxiliary foam block and is formed with the ventilating duct for connecting the auxiliary air-outlet 223, it will be from auxiliary air-outlet by auxiliary air duct 5 The cold air of 223 outputs are sent in third greenhouse 103, and the auxiliary return air inlet 214 of 21 upper end of front shroud setting will be used for the Three greenhouses 103 carry out return air to meet the requirement that wind circulates.And refrigerating chamber 1-102 is made in order to more uniform Cold, so that cold air is evenly distributed, upper spacer 3 is provided with hollow cavity 31, and it is hollow that the lower surface of upper spacer 3 is provided with several connections The exhaust vent 32 of cavity 31, the rear end of upper spacer 3 are provided with the connector (unmarked) of connection hollow cavity 31；On described every After plate 3 is installed in the bottom inner container 1-1, the connector is connect with second air outlet 212.Specifically, refrigerating chamber 1- It is introduced into from the cold air that the second air outlet 212 exports into the hollow cavity 31 of upper spacer 3 in 102, then, by upper spacer 3 Several exhaust vents 32 of lower surface setting uniformly export, in order to achieve the purpose that cold air is evenly distributed, the following table of upper spacer 3 Face can form several exhaust vents 32 of array arrangement, and exhaust vent 32 can cover the entire cross section of refrigerating chamber 1-102, this Sample, can from each position releasing cool air in the top of refrigerating chamber 1-102, so that the cooling capacity of refrigerating chamber 1-102 is evenly distributed, To obtain more refrigeration effect.Wherein, in order to avoid the temperature of adjacent compartment interacts, the upper spacer 3 and lower clapboard 4 For thermal-insulation baffle plate.And for the connection gap of better seal separator edge, the temperature control accuracy of each warm area is improved, upper spacer 3 rear end forms end slot 301, corresponding, and the top on front shroud 21 positioned at the second air outlet 212 is provided with cutting 201, cutting 201 is inserted into end slot 301, it is ensured that is tightly connected between upper spacer 3 and lower air duct component 2；On meanwhile every The both sides of plate 3 can also form side slot 302, corresponding, and the liner two sides of bottom inner container 1-1 form gallbladder muscle knot outstanding Structure 101, gallbladder muscle structure 101 are inserted in corresponding side slot 302, so that the liner two sides of upper spacer 3 and bottom inner container 1-1 It is tightly connected, and upper spacer 3 in order to facilitate the installation of, the lower edge of side slot 302 are provided with multiple claws 303, claw 303 blocks In the downside of gallbladder muscle structure 101, during actual assembled, end slot 301 and cutting 201 are first plugged on one by operator It rises, then, presses down on upper spacer 3, so that claw 303 is stuck in the lower part of gallbladder muscle structure 101, to realize gallbladder muscle structure 101 It snaps fitted in side slot 302.Likewise, the sealing for lower clapboard 4 is installed, the liner two sides of bottom inner container 1-1 form sliding slot 102, the both sides of lower clapboard 4 are inserted in sliding slot 102, and the rear end of lower clapboard 4 is formed with overlap joint table top 41, corresponding, It is provided with step surface structure 202 on front shroud 21, overlap joint table top 41 is against being overlapped in step surface structure 202；And in order to improve The bonding strength between table top 41 and step surface structure 202 is overlapped, is additionally provided with locating piece 203, locating piece 203 on front shroud 21 Positioned at the top of step surface structure 202, overlaps table top 41 and be clipped between locating piece 203 and step surface structure 202.

The utility model also provides a kind of assemble method of above-mentioned refrigeration equipment ducting assembly, comprising: lower air duct component Assembling and the assemble method between lower air duct component, evaporator and bottom inner container 1-4.

Wherein, the assembling steps in relation to ducting assembly include:

Step 1: lower blower is mounted on back shroud.Specifically, lower blower border snaps on back shroud after gluing PE In total air inlet.

Step 2: the first air door and the installation of the second air door are embedded into foam component.Specifically, the first air door is clipped in Between one foam block and the second foam block, and the first foam block and the second foam block are linked together, meanwhile, the second air door folder It links together between the second foam block and third foam block, and by the second foam block and third foam block.

Step 3: foam component is encased on front shroud, it is mounted on back shroud by front shroud.Specifically, will bubble After foam component enters onto front shroud, front shroud is installed on back shroud；Further, it for the assembling in auxiliary air duct, then needs After wanting back shroud to be mounted in cabinet, then the top that air duct will be assisted to be mounted on back shroud, complete the assembling of ducting assembly.

In addition, then needing for lower evaporator 1 and lower air duct component 2 to be installed to down after assembling lower air duct component 2 successfully In liner 1-1, the specific steps are as follows:

Step 101, lower evaporator are installed on bottom inner container rear wall；

Back shroud connection front shroud and foam component are mounted on the rear wall of bottom inner container by step 102 together, and back shroud hides Lower evaporator is covered, forms evaporation cavity between back shroud and bottom inner container；

Auxiliary air duct is installed on the rear wall of bottom inner container by auxiliary cover plate, and to assist in foam block by step 103 Ventilating duct and back shroud on auxiliary air-outlet connection；

Step 104, installation upper spacer and lower clapboard, to form freezing chamber, refrigerating chamber and third greenhouse in bottom inner container.

By the way that foam component is being arranged between front and rear cover plate, foam component will form air-out cavity between back shroud, It is entered by the cold air that evaporator heat exchange is formed and concentrates conveying in air-out cavity, meanwhile, it is provided in foam component for sending The channel of wind and return air, to meet the multiple air outlet cold air outlet air requirements of front shroud, realization meets in lesser volume to be had more The requirement of wind, to realize that the ducting assembly design of miniaturization meets the air-supply requirement of refrigeration equipment multi-temperature zone, to improve user's body The property tested.

Based on the above-mentioned technical proposal, optionally, for upper inner-liner 2-1, upper air duct component is provided in upper inner-liner 2-1 6, the upper air duct component 6 includes upper air duct and the upper fan 60 being arranged in the upper air duct, is driven by upper fan 60 Air circulation flow in upper inner-liner 2-1 is air-cooled to realize.Specifically, the longitudinal direction in order to utilize upper inner-liner 2-1 to greatest extent Dimensional space holds wine, and upper evaporator 1 ' for freezing to upper inner-liner 2-1 is then positioned at the outside of upper inner-liner 2-1 and patch At the back of upper inner-liner 2-1, and upper air duct includes air duct cover board 61, and the air duct cover board 61 is located on the inside of the upper inner-liner 2-1 And the back of upper inner-liner 2-1 is set, upper air duct, the windward are formed between the air duct cover board 61 and the upper inner-liner 2-1 Road is additionally provided with the upper return air inlet 611 for return air, and the upper air duct is additionally provided with the upper air outlet 612 for outlet air, described Upper fan 60 is located in upper air duct, specifically, by the outside that upper evaporator 1 ' is mounted on to upper inner-liner 2-1, due to upper evaporation Device 1 ' is attached to the back of upper inner-liner 2-1, in this way, cooling capacity directly the freezing to upper inner-liner 2-1 that upper evaporator 1 ' generates, makes The temperature for obtaining the back upper inner-liner 2-1 reduces, and the back of upper inner-liner 2-1 inner wall cooperatively forms upper air duct with air duct cover board 61, It is in the wind under the action of machine 60, the back heat of the air and upper inner-liner 2-1 inner wall that enter in upper air duct from upper return air inlet 611 is handed over It changes, is output to the outside of upper air duct from upper air outlet 612 after being freezed to freeze to the article stored in upper inner-liner 2-1, And since the outside that upper evaporator 1 ' is located at upper inner-liner 2-1 is not take up the storage space in upper inner-liner 2-1, can effectively it increase The longitudinal size of storage space in upper inner-liner 2-1, simultaneously as upper evaporator 1 ' is placed outside upper air duct, without considering air duct Safe distance between cover board 61 and upper evaporator 1 ' can make maximum limit under the premise of meeting wind circulation of air duct cover board 61 The back installation of the close upper inner-liner 2-1 of degree, the further storing volume for improving upper inner-liner 2-1.Wherein, upper fan 60 can be with Using centrifugal blower, upper fan 60 is mounted on air duct cover board 61 and covers in return air inlet 611, is additionally provided with outside upper fan 60 Blower housing 62 is provided with exhaust outlet (unmarked) on blower housing 62, and in actual use, the upper configuration of return air inlet 611 is in wind The bottom of road cover board 61, and the two sides and/or top of air duct cover board 61 are provided with air outlet 612, are located at from upper air outlet 612 The top of upper return air inlet 611, in this way, the principle sunk using cold air, can make the cooling capacity of upper inner-liner 2-1 be evenly distributed.Its In, it is additionally provided with antibacterial module 63 in upper air duct, antibacterial module 63 is located at the side of upper fan 60, and the two sides of blower housing 62 It is respectively arranged with exhaust outlet, wherein an exhaust outlet is dried towards antibacterial module 63.Further, in order to save peace to greatest extent Space is filled, the top of air duct cover board 61 is provided with headlamp 7, specifically, headlamp 7 includes lamp bracket 71, LED light bar 72 and lampshade 73, the LED light bar 72 is mounted on the lamp bracket 71, and lampshade 73 covers in the LED light bar and is mounted on the lamp bracket 71 On.Headlamp 7 is mounted on the top of air duct cover board 61 by lamp bracket 71, in this way, can reduce headlamp 7 simultaneously from overhead illumination Influence to storage space.Preferably, in order to facilitate the installation of, lamp bracket 71 is mounted on air duct cover board 61 by the way of clamping, Specifically, installation card slot 613 is formed on the top of air duct cover board 61, lamp bracket 71 is installed in installation card slot 613 and realizes installation.Separately Outside, in order to increase the contact area between upper evaporator 1 ' and upper inner-liner 2-1, upper evaporator 1 ' can use plate-type evaporator.

Finally, it should be noted that above embodiments are only to illustrate the technical solution of the utility model, rather than its limitations； Although the utility model is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: It is still possible to modify the technical solutions described in the foregoing embodiments, or part of technical characteristic is carried out etc. With replacement；And these are modified or replaceed, the utility model embodiment technology that it does not separate the essence of the corresponding technical solution The spirit and scope of scheme.

Claims (10)

1. a kind of refrigeration equipment, which is characterized in that including segmented cabinet body, the segmented cabinet body include shell, upper inner-liner, under Liner and connecting band component, the connecting band component include front panel and fixed installation bucket on the front panel, the peace Storing cavity is formed in barrelling；The upper inner-liner and the bottom inner container are linked together by the front panel and integral installation exists In the shell；The shell, the upper inner-liner, the bottom inner container, the front panel and it is described installation it is barrel-shaped at foaming cavity, Insulating foam layer is formed in the foaming cavity.

2. refrigeration equipment according to claim 1, which is characterized in that the shell includes backboard, U shell and bottom plate, described The back of the U shell is arranged in backboard, and the bottom of the U shell is arranged in the bottom plate；The two sides of the U shell are respectively arranged with One locating slot, the both side ends of the front panel are inserted in corresponding first locating slot.

3. refrigeration equipment according to claim 2, which is characterized in that it is fixed that the lower edges of the front panel are provided with second Position slot, the lower edge of the upper inner-liner are inserted in corresponding second locating slot, and the top edge of the bottom inner container is inserted in In corresponding second locating slot.

4. refrigeration equipment according to claim 1, which is characterized in that be provided with drawer, the pumping in the storing cavity Drawer is slidably disposed in the installation bucket by sliding rail, and the installation bucket is fixed on the front panel, the front panel Offer the through-hole passed through for the drawer.

5. refrigeration equipment according to claim 4, which is characterized in that the two sides of the installation bucket are respectively arranged with installation and insert Slot, the sliding rail is fitted in each installation slot, and the drawer is arranged between two sliding rails.

6. refrigeration equipment according to claim 4, which is characterized in that be provided with limit tongue, the pumping on the sliding rail The two sides of drawer are respectively arranged with limit slot, and the limit tongue is inserted in the corresponding limit slot.

7. refrigeration equipment according to claim 6, which is characterized in that locating piece is additionally provided on the sliding rail, it is described fixed Position part is located at the front side of the limit tongue, and the locating piece is provided with positioning claw, and the two sides of the drawer are respectively arranged with Locating groove, the positioning claw are stuck in the corresponding locating groove.

8. refrigeration equipment according to claim 4, which is characterized in that it is provided with sealing ring on the front end-plate of the drawer, The sealing ring is provided with multiple connection claws, and multiple fixed card slots are provided on the front end-plate, and the connection claw clamps In the fixed card slot.

9. refrigeration equipment according to claim 1, which is characterized in that be provided with upper air duct component, institute in the upper inner-liner State the upper fan that upper air duct component includes upper air duct and is arranged in the upper air duct.

10. refrigeration equipment according to claim 1, which is characterized in that be provided with lower air duct component, institute in the bottom inner container State the lower blower that lower air duct component includes lower air duct and is arranged in the lower air duct.