CN209857468U - Foaming cabinet body for refrigeration equipment and refrigeration equipment - Google Patents

Abstract

The utility model discloses a refrigeration plant is with foaming cabinet body and refrigeration plant. The foaming cabinet body for the refrigerating equipment comprises an outer shell and an inner container, wherein a foaming cavity is formed between the outer shell and the inner container, a plurality of cross beams are arranged on a container opening of the inner container, two side walls of the inner container are respectively provided with a protruding structure used for foaming support, the protruding structure protrudes towards the inner side of the inner container, and the protruding structure is located on the rear side corresponding to the cross beams. The foaming quality and the yield of the foaming cabinet body for the refrigeration equipment are improved.

Description

Foaming cabinet body for refrigeration equipment and refrigeration equipment

Technical Field

The utility model relates to an express delivery cabinet field especially relates to a refrigeration plant is with foaming cabinet body and refrigeration plant.

Background

At present, refrigeration equipment is widely applied to daily life of people, and along with the continuous development of the express delivery industry, an express delivery cabinet with a refrigeration function is widely used, the express delivery cabinet generally comprises a cabinet body and a cabinet door, a plurality of cross beams are arranged on an inner container of the cabinet body and are matched with partition plates to divide the inner container into a plurality of storage lattices, a cabinet door capable of being opened and closed is correspondingly arranged on each storage lattice, meanwhile, a central control panel is also arranged on the cabinet body, and relevant electrical components (such as an electronic lock, an electric control panel and the like) are installed on the inner side of the central control panel. For the cabinet body, in the foaming process, due to the influence of the cross beam arranged on the inner container, the part of the side wall of the inner container, which is positioned at the rear side of the cross beam, can not be supported by the foaming expansion and contraction mold, and is easily extruded and deformed by expanded foaming materials, so that the poor foaming quality and the low yield of the cabinet body are caused. How to design a technique that improves the foaming quality of the foaming cabinet body in order to improve the yield is the utility model aims to solve the technical problem.

Disclosure of Invention

The utility model provides a refrigeration plant is with foaming cabinet body and refrigeration plant realizes improving the foaming quality and the yield of the foaming cabinet body for the refrigeration plant.

In order to achieve the technical purpose, the utility model adopts the following technical scheme:

the utility model provides a refrigeration plant is with foaming cabinet body, includes shell and inner bag, the shell with form the foaming cavity between the inner bag, be provided with many crossbeams on the courage mouth of inner bag, the both sides wall of inner bag is provided with the protruding structure that is used for the foaming to support respectively, protruding structure to the inboard protrusion of inner bag, protruding structure is located and corresponds the rear side of crossbeam.

Furthermore, the thickness of the bulge structure protruding out of the side wall of the inner container is not less than 6 mm.

Further, the height value of the protruding structure is not greater than the height value of the cross beam.

Further, the beam comprises a shell and a heat-insulating filling block, wherein an installation cavity is formed in the shell, and the heat-insulating filling block is positioned in the installation cavity; the installation cavity is also communicated with the foaming cavity, and the installation cavity and the foaming cavity are both provided with foaming heat-insulating layers.

Furthermore, a plurality of mounting grooves are respectively formed in two side walls of the inner container, and the end portion of the shell is arranged in the corresponding mounting groove.

Furthermore, a through hole is formed in the mounting groove, and the material injection port is inserted into the through hole.

Furthermore, two ends of the shell are respectively provided with a drainage part extending towards the opposite direction, the drainage parts are arranged in a downward inclined mode, and the drainage parts are used for guiding water on the cross beam to flow towards the outer side.

Further, the shell comprises an upper shell and a lower shell, the upper shell and the lower shell are clamped together, and the drainage parts are arranged at two end parts of the lower shell.

Furthermore, a plurality of partition plates are arranged in the inner container and used for partitioning the inner cavity of the inner container to form a plurality of storage spaces; the side wall of the rear end part of the protruding structure is provided with a protruding block, the front end part of the partition board is arranged on the corresponding cross beam, and the rear end part of the partition board is lapped on the corresponding protruding block.

The utility model also provides a refrigeration plant, including the foaming cabinet body for the above-mentioned refrigeration plant.

Compared with the prior art, the utility model discloses an advantage is with positive effect: set up bellied protruding structure through the both sides wall at the inner bag, protruding structure is located the rear side of crossbeam, when foaming, the foaming harmomegathus mould enters into the cavity of inner bag and expandes the back, can carry out reliable support to protruding structure, and like this, make the region that the inner bag is located the crossbeam rear portion realize through protruding structure with the good contact of mould, ensure that each position of the lateral wall of inner bag obtains good support, can not produce too big deformation because of there being no support in the region that the lateral wall of guaranteeing the foaming in-process inner bag is located the crossbeam back, realize improving the foaming quality and the yield of the foaming cabinet body for refrigeration plant.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural diagram of the refrigeration equipment of the present invention;

FIG. 2 is an exploded view of the foaming cabinet of the refrigerating apparatus of the present invention;

FIG. 3 is an assembled exploded view of the housing, the inner container, the center sill and the center control panel of the refrigeration device of the present invention;

FIG. 4 is an enlarged view of a portion of area A of FIG. 3;

fig. 5 is a sectional view of the refrigerating apparatus of the present invention;

fig. 6 is another schematic structural diagram of the refrigeration equipment of the present invention;

fig. 7 is a schematic view of a partial structure of the refrigeration equipment of the present invention;

fig. 8 is a partial sectional view of the refrigeration apparatus of the present invention;

FIG. 9 is an assembly view of the inner container and the center sill of the refrigerating apparatus of the present invention;

FIG. 10 is an enlarged partial view of the area B in FIG. 9;

fig. 11 is a schematic view of a partial structure of an inner container in the refrigeration device of the present invention;

fig. 12 is a schematic structural view of a cross beam in the refrigeration apparatus of the present invention;

fig. 13 is an exploded view of a cross beam in the refrigeration apparatus of the present invention;

fig. 14 is an assembly view of the cross beam and the partition plate in the refrigeration apparatus of the present invention;

fig. 15 is an assembled cross-sectional view of a cross beam and a partition plate in the refrigeration apparatus of the present invention;

fig. 16 is an assembly view of the center sill and the lock assembly of the refrigerating apparatus of the present invention;

fig. 17 is an exploded view of a lock assembly in the refrigeration apparatus of the present invention;

fig. 18 is a partial assembly view of the center control housing and the center control panel of the refrigeration apparatus of the present invention;

FIG. 19 is a cross-sectional view taken along line C-C of FIG. 18;

FIG. 20 is a sectional view taken along line D-D of FIG. 18;

fig. 21 is a schematic view of the structure of the diversion filling block in the refrigeration equipment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-20, the refrigeration apparatus of this embodiment includes a foaming cabinet body 1, a plurality of door bodies 2 and a refrigeration system, wherein the foaming cabinet body 1 includes an outer shell 1-1, an inner container 1-2 and a center sill 1-3, a foaming cavity is formed between the outer shell 1-1, the inner container 1-2 and the center sill 1-3, wherein a plurality of cross beams 10 are disposed on a container opening of the inner container 1-2, the plurality of cross beams 10 divide the container opening of the inner container 1-2 into a plurality of container opening structures, so that the inner container 1-2 can be divided into a plurality of storage spaces 11 by the cross beams 10, two adjacent storage spaces 11 are separated by a partition 7, a center control panel 3 is disposed on the center sill 1-3 of the foaming cabinet body 1, a center control cover 4 is disposed on the center control panel 33, and the refrigeration system includes a compressor 14, a plurality of storage spaces 11, and a refrigeration, A condenser 15, a throttle device and an evaporator 18. The foaming cabinet body 1 is provided with a door body 2 for opening and closing the storage space 11, the electric control lock 51 is arranged on the center sill 1-3, and the electric control board 6 is arranged on the center control cover shell 4, so that the electric control board 6 can control the electric control lock 51 to unlock the door body 2.

Wherein, this embodiment refrigeration plant improves to foaming heat preservation, well accuse waterproof and a plurality of aspects such as improve space utilization respectively, and the concrete description is as follows:

aiming at the improvement of the heat preservation of the foaming cabinet body 1, in order to improve the heat preservation performance of the foaming cabinet body 1 and avoid the phenomenon of the reduction of the heat preservation performance caused by the insufficient injection amount of foaming materials in the beam 10, the beam 10 comprises a shell 101 and a heat preservation filling block 102, an installation cavity is formed in the shell 101, and the heat preservation filling block 102 is positioned in the installation cavity; the installation cavity is also communicated with the foaming cavity, and the installation cavity and the foaming cavity are both provided with foaming heat-insulating layers. Specifically, before the beam 10 is installed on the inner container 1-2, a heat-insulating filling block 102 is installed in the outer shell 1-1 of the beam 10, the heat-insulating filling block 102 can ensure that the heat-insulating property of the beam 10 meets the requirement, after the beam 10 is installed on the inner container 1-2, the middle beam 1-3 and the outer shell 1-1 form a foaming cavity, in the foaming process, foaming materials in the foaming cavity can enter the installation cavity, so that the foaming materials entering the installation cavity can enable the beam 10 and the inner container 1-2 to be connected together more tightly and firmly, the outer shell 1-1, the middle beam 1-3, the inner container 1-2 and the beam 10 can be connected together firmly by the foaming materials, and gaps formed at the connection positions among all components can be filled by the foaming materials, the sealing performance is further improved. In order to facilitate the installation of the beam 10 on the inner container 1-2, a plurality of installation grooves 1-20 are respectively formed on two side walls of the inner container 1-2, the end portion of the shell 101 is arranged in the corresponding installation groove 1-20, two end portions of the shell 1-1 can be clamped in the corresponding installation grooves 1-20, so that an operator can conveniently and quickly assemble the beam 10 on the inner container 1-2, the end surface of the shell 101 is provided with a material injection interface 100 communicated with the installation cavity, the installation cavity is communicated with the foaming cavity through the material injection interface 100, a foaming material injected into the foaming cavity enters the installation cavity through the material injection interface 100, and the foaming material entering the installation cavity is filled in a gap between the heat insulation filling block 102 and the inner wall of the shell 1-1. Through holes 1-201 are formed in the mounting grooves 1-20, the material injection port 100 is inserted into the through holes 1-201, and the material injection port 100 penetrates through the through holes 1-201 to be communicated with the foaming cavity. Preferably, the surface of the insulating filling block 102 is further provided with a flow channel (not labeled) for flowing foaming material, and the foaming material entering into the mounting cavity can rapidly flow into the inner area of the mounting cavity through the guidance of the flow channel. In addition, in order to facilitate the installation of the heat preservation filling block 102 in the housing 101, the housing 101 includes an upper housing 1011 and a lower housing 1012, the upper housing 1011 and the lower housing 1012 are clamped together, specifically, a plurality of first claws (not marked) are provided at an edge of the upper housing 1011, a plurality of first clamping holes (not marked) are provided at an edge of the lower housing 1012, the first claws are clamped in the corresponding first clamping holes, when the cross beam 10 is assembled, the heat preservation filling block 102 is placed between the upper housing 1011 and the lower housing 1012, and then, the upper housing 1011 and the lower housing 1012 are clamped and connected by the matching of the first claws and the first clamping holes.

Further, for the convenient installation of the door body 2, then the crossbeam 10 still includes the sheet metal decorative board 102, the sheet metal decorative board 102 sets up in the front of casing 101, a tip of sheet metal decorative board 102 is provided with the mounting hole (unmarked) that is used for installing the hinge, it is concrete, the last sheet metal decorative board 102 that has configured of crossbeam 10, the sheet metal component overall structure intensity of adoption of sheet metal decorative board 102 is higher, can guarantee the installation requirement of hinge, after long-time the use, the problem that the sheet metal decorative board 102 takes place to warp can not appear yet, in order to ensure the installation reliability of the door body 2. In order to improve the installation reliability of the sheet metal decorative plate 102, the sheet metal decorative plate 102 is clamped between the upper shell 1011 and the lower shell 1012, specifically, the upper edge and the lower edge of the sheet metal decorative plate 102 are respectively provided with a flanging structure (not marked), the flanging structure is provided with a second clamping hole (not marked), the upper shell 1011 and the lower shell 1012 are respectively provided with a second clamping jaw (not marked) matched with the second clamping hole, the second clamping jaw is clamped in the corresponding second clamping hole, the sheet metal decorative plate 102 is firmly clamped between the upper shell 1011 and the lower shell 1012 through the matching of the second clamping jaw and the second clamping hole, correspondingly, the installation cavity is formed between the upper shell 1011, the lower shell 1012 and the sheet metal decorative plate 102, so that a foaming material entering the installation cavity can further firmly connect the upper shell 1011, the lower shell and the sheet metal decorative plate 102 together, preferably, the upper shell and the lower shell 1012 are respectively provided with a slot structure 1016, the flange structure is inserted into the corresponding slot structure 1016 and the second catch is disposed in the slot structure 1016. In addition, in order to improve the structural strength better, a reinforcing iron 104 is further arranged in the mounting cavity, the reinforcing iron 104 is provided with a mounting surface and supporting surfaces located on two sides of the mounting surface, the reinforcing iron 104 is of a U-shaped structure, the mounting surface of the reinforcing iron 104 is attached to the sheet metal decoration plate 102, specifically, the reinforcing iron 104 is located in the mounting cavity and used for reinforcing the structural strength of the sheet metal decoration plate 102 at the position where a door hinge is mounted, and in the process of mounting the door hinge, a screw penetrates through a mounting hole in the door hinge and a mounting hole in the sheet metal decoration plate 102 and is connected to the reinforcing iron 104 in a threaded mode. Meanwhile, in order to improve the connection strength between the reinforcing iron 104 and the foam insulation layer formed in the mounting cavity, a plurality of openings (not marked) for allowing the foam material to flow through are formed on the supporting surface; the reinforcing iron 104 is located on one side of the material injection interface, after foaming, the reinforcing iron 104 is embedded in the foaming heat insulation layer in the cross beam 10, and the foaming material can firmly and reliably connect the shell 101, the heat insulation filling block 102, the sheet metal decorating plate 102 and the reinforcing iron 104 into an integral structure. The metal plate decorative plate 102 is characterized in that first folding edges 1021 are further arranged at two end portions of the metal plate decorative plate 102, second folding edges 1041 are arranged on the mounting surface, the first folding edges 1021 are overlapped at the side edges of the inner containers 1-2, the second folding edges 1041 are abutted against the corresponding first folding edges 1021, the folding edges can increase the connection area between the metal plate decorative plate 102 and the reinforcing iron 104, so that the connection reliability is improved, meanwhile, the first folding edges 1021 are overlapped at the side edges of the inner containers 1-2, and the side edges of the inner containers 1-2 can be protected. In order to avoid frosting of the sheet metal decorative plate 102 due to cold in the using process, a dew removing pipe is further arranged between the heat-insulating filling block 102 and the sheet metal decorative plate 102, the sheet metal decorative plate 102 is heated by heat generated by the dew removing pipe so as to avoid frosting formed on the sheet metal decorative plate 102, meanwhile, the heat generated by the dew removing pipe is blocked by the heat-insulating filling block and is transmitted into the inner container 1-2, and good refrigeration of articles in the inner container 1-2 is ensured.

Wherein, in the foaming process, because a plurality of beams 10 are arranged at the liner opening of the liner 1-2, the foaming cabinet body 1 needs to adopt an expansion and contraction mold to support the inner wall of the liner 1-2 in the foaming process, because the expansion and contraction mold needs to avoid opening the beams 10 to enter and exit the liner, the part of the side wall of the liner 1-2 adjacent to the beams 10 can not be supported by the foaming mold, in the foaming process, the area of the liner 1-2 close to the beams 10 can deform due to the extrusion of foaming materials, and convex structures 1-21 protruding inwards are formed on the two side walls of the liner 1-2, the convex structures 1-21 are positioned at the rear side of the corresponding beam 10, so that after the expansion and contraction mold enters the liner 1-2 to be expanded, the corresponding avoiding beam 10 and the convex structures 1-21 of the transversely expanded template in the expansion and contraction mold abut against the side walls of the liner 1-2, the longitudinally-extending template of the collapsible mould moves to the surface of a pile of the raised structures 1-21 at the positions of the raised structures 1-21 for supporting, so that the positions, located on the rear side of the cross beam 10, of the side walls of the inner containers 1-21 can be supported by the collapsible mould through the formed raised structures 1-21 in the foaming process, and the shape of the inner containers 1-2 can be ensured not to deform in the foaming process so as to improve the foaming quality, so that the problem that the deformation occurs due to the fact that the inner containers 1-2 are not supported in the foaming process of the area, located on the rear side of the cross beam 10, of the collapsible mould in the prior art because the collapsible mould avoids the cross beam 10 can be solved. The thickness of the protruding structures 1-21 protruding out of the side walls of the inner container 1-2 is not less than 6mm, and the side walls of the protruding structures 1-21 protruding out of the inner container 1-2 have sufficient height values, so that the transversely extending templates of the collapsible mold can be stretched and moved to the surfaces of the protruding structures 1-21 for supporting; meanwhile, the height value of the protruding structures 1-21 is not larger than that of the cross beam 10, so that the expansion and contraction mold is prevented from being blocked by the protruding structures 1-21 to move continuously after passing through the cross beam 10 in the process that the expansion and contraction mold extends into the inner container 1-2. The mounting grooves 1-20 on the two side walls of the inner container 1-2 are located on the front sides of the protruding structures 1-21, so that the protruding structures 1-21 are shielded from the front side after the beam 10 is mounted in the mounting grooves 1-20, meanwhile, in the foaming process, the foaming space at the protruding structures 1-21 is larger, more foaming materials enter, and the foaming materials at the protruding structures 1-21 can enter the beam 10 more easily through the through holes 1-201 of the mounting grooves 1-20, so that sufficient foaming materials for the beam 10 can be ensured. Preferably, in order to satisfy the positioning support of the partition 7, the side walls of the rear end portions of the protruding structures 1 to 21 are formed with projections, the front end portion of the partition 7 is supported by the cross member 10, and the rear end portion of the partition 7 is supported by the projections.

In addition, in order to reduce the usage amount of foaming materials and reduce the manufacturing cost, a flow guide filling block 1-5 is arranged between the two inner containers 1-2, the flow guide filling block 1-5 can be made of materials with light weight and heat preservation performance such as plastic foam, the flow guide filling block 1-5 is positioned in the foaming cavity, specifically, as the middle beam 1-3 is arranged between the two inner containers 1-2, the distance between the two inner containers 1-2 is larger, more foaming materials are correspondingly injected to fill the area between the two inner containers 1-2, and the flow guide filling block 1-5 is additionally arranged between the two inner containers 1-2, on one hand, the usage amount of the foaming materials can be saved, on the other hand, the flow guide filling block 1-5 is arranged between the two inner containers 1-2, in the foaming process, the two inner containers 1-2 can be positioned so as to avoid displacement of the inner containers 1-2 caused by solidification of the foaming material. And there are many forms for the structure of the guide filling blocks 1-5.

For example: as shown in fig. 21, the diversion filling blocks 1-5 form a plurality of material channels for the flowing of foaming materials between the two inner containers 1-2; the foaming material injected into the foaming cavity can flow between the two inner containers 1-2 through the material channel, so that the foaming material in the area where the two inner containers 1-2 are located is uniformly distributed, and the heat insulation performance of the foaming heat insulation layer is improved. Wherein, the front surface of the diversion filling block 1-5 is provided with a plurality of diversion trenches 1-51 'which are transversely arranged, and the material channel is formed between the diversion trenches 1-51' and the middle beam 1-3. In addition, the back of the diversion filling block 1-5 is provided with a plurality of convex cushion blocks 1-52', the cushion blocks 1-52' are attached to the back plates 1-14 of the shell 1-1, and under the action of the cushion blocks 1-52', a gap is formed between the back plates 1-14 and the diversion filling block 1-5, so that foaming materials can smoothly fill the area between the back plates 1-14 and the diversion filling block 1-5. Preferably, in order to ensure that the foaming material can rapidly flow along the diversion filling blocks 1-5 and be uniformly distributed, the back surfaces of the diversion filling blocks 1-5 are provided with extension parts 1-53' extending towards the sides, the cushion blocks 1-52' are arranged on the extension parts 1-53', the extension parts 1-53' are also provided with notch structures 1-54', specifically, in the foaming process, the foaming material flows along the back surfaces of the diversion filling blocks 1-5, and can flow to the front surfaces of the diversion filling blocks 1-5 through the notch structures 1-54' and be uniformly distributed around the inner containers 1-2 at the two sides through the diversion grooves 1-51', so that the foaming material is uniformly distributed.

Based on the above technical solution, the foaming cabinet 1 can be assembled as follows. The method for assembling the foaming cabinet 1 comprises the following steps: the beam 10 is firstly installed on the inner containers 1-2, then the outer shell 1-1, the middle beam 1-3 and the two inner containers 1-2 are assembled together to form a foaming cavity, meanwhile, the diversion filling blocks 1-5 are placed between the two inner containers 1-2, finally, foaming materials are injected into the foaming cavity to form a foaming heat-insulating layer in the foaming cavity, and meanwhile, the foaming materials also flow into the beam 10 and form the foaming heat-insulating layer in a gap between the shell 101 and the heat-insulating filling blocks 102. Wherein, in the process of assembling the outer shell 1-1 before foaming, the assembling method also comprises the step of installing the diversion filling blocks 1-51-5 on the back of the center sill 1-3 and placing the diversion filling blocks between the two inner containers 1-2. Specifically, the top plate 1-11, the two side plates 1-12 and the bottom plate 1-13 are assembled together, the middle beam 1-3 is installed between the top plate 1-11 and the bottom plate 1-13, then the cabinet opening assembly is installed between the middle beam 1-3, the top plate 1-11, the side plates 1-12 and the bottom plate 1-13, then the flow guide filling block 1-5 can be installed between the two inner containers 1-2, and finally the back plate 1-14 is installed to form a foaming cavity.

Through configuration heat preservation filling block in the crossbeam, the foaming material that enters into in the crossbeam keeps warm with heat preservation filling block jointly after the foaming, and heat preservation filling block can ensure that the crossbeam has sufficient heat preservation performance, avoids appearing the phenomenon that local heat preservation effect is relatively poor because of foaming material distributes unevenly in the crossbeam and takes place. Meanwhile, the sheet metal decorative plate arranged on the cross beam can meet the requirement of the installation strength of the door hinge, the door body is prevented from being directly installed on the shell or the inner container, deformation is avoided, and the use reliability is improved.

Furthermore, in order to improve the space utilization rate and increase the storage volume in the foaming cabinet 1, a pressing cavity 13 is formed at the top of the foaming cabinet 1, a condenser 15 and a compressor 14 are arranged in the pressing cavity 13, and a condensing fan 16 is arranged between the condenser 15 and the compressor 14. Specifically, a compressor cavity 13 is formed at the top of the foaming cabinet body 1 for installing a compressor 14, a condenser 15 and a condensing fan 16, so that the top space of the foaming cabinet body 1 can be fully utilized by the compressor cavity 13, and the bottom space of the foaming cabinet body 1 can be fully utilized as a storage space 11, thereby effectively increasing the storage volume, meanwhile, an air inlet 131 and an air outlet 132 are arranged at the back of the foaming cabinet body 1, on one hand, the heat dissipation requirement of the compressor cavity 13 can be met, on the other hand, because the air inlet 131 and the air outlet 132 are arranged at the back of the foaming cabinet body 1, in actual use, a plurality of express cabinets are often arranged side by side, even if other express cabinets are arranged at two sides of the foaming cabinet body 1, the normal circulation ventilation of the air inlet 131 and the air outlet 132 cannot be influenced, wherein, in order to avoid the mutual influence of air inlet and outlet, the air outlet 131 is close to the other side portion of the foaming cabinet 1, and in order to improve the waterproof performance, the water baffles inclined downwards are respectively configured on the air inlet 131 and the air outlet 132, so that the rainwater is shielded by the water baffles in a rainy environment, the rainwater can be reduced or prevented from entering the press cavity 13 through the air inlet 131 and the air outlet 132, and the waterproof performance is more effectively improved. Further, in order to realize quick assembly and disassembly, a detachable mounting plate 130 is arranged in the press cavity 13, the compressor 14, the condenser 15 and the condensing fan 16 are arranged on the mounting plate 130, specifically, in the actual assembly process, the compressor 14, the condenser 15 and the condensing fan 16 are firstly mounted on the mounting plate 130, and then the compressor 14, the condenser 15 and the condensing fan 16 are uniformly mounted on the top of the foaming cabinet body 1 through the mounting plate 130, so that the assembly process is simplified and the assembly difficulty is reduced. Further, the back of the foaming cabinet body 1 is provided with the waterproof spool 17 that is used for arranging power cord and signal line and walk the line outside the foaming cabinet body 1, and is concrete, the foaming cabinet body 1 is connected to outside power cord and passes waterproof spool 17 and walk the line, equally, the communication line that the foaming cabinet body 1 is connected to outside also passes waterproof spool 17 and walks the line, waterproof spool 17 can carry out water proof to power cord and communication line on the one hand, on the other hand is located the relevant pencil in the foaming cabinet body 1 outside and all concentrates on walking the line in waterproof spool 17, make the pencil more regular, improve user experience nature and use reliability. Preferably, in order to fully utilize the top space of the foaming cabinet body 1, for the express delivery cabinet, the light box 18 is usually configured, so that the space occupied by the light box 18 can be utilized, a partition 181 is arranged in the light box 18, the light box 18 is divided into a lighting cavity 180 and a press cavity 13 which are arranged in front and back by the partition 181, and a lighting lamp and an electric control box are configured in the lighting cavity 180. Specifically, the space formed by the lamp box 18 is used for dividing the interior of the lamp box 18 into the lighting cavity 180 and the press cavity 13 through the partition 181, strong current accessories such as a lighting lamp and an electric control box are arranged on the front side in the lamp box 18, so that strong current is not easy to contact, the use safety is ensured, the condenser 15, the compressor 14 and the condensing fan 16 are arranged on the rear side in the lamp box 18, and the space of the lamp box 18 is effectively utilized.

Still further, for the evaporator 18, the installation manner of the evaporator and the cabinet body in the prior art may be adopted, so that the evaporator 18 is arranged in the foaming cabinet body 1 to refrigerate the storage space 11. Preferably, an air duct cover plate 1-22 is arranged in each inner container 1-2, an air duct is formed between the air duct cover plate 1-22 and the inner wall of the inner container 1-2, an evaporator 18 and an evaporation fan 19 are arranged in the air duct, and an air outlet (not marked) is arranged in each storage space 11 of the air duct cover plate 1-22. Specifically, each inner container 1-2 is respectively provided with an air duct cover plate 1-22 to form an independent air duct, so that air circulation can be independently performed in the corresponding inner container 1-2, wherein the two evaporators 18 can be arranged in series or in parallel, in order to improve the volume of the inner container 1-2, an installation groove (not marked) is formed at the back of the inner container 1-2, and the evaporators 18 and the evaporation fans 19 are positioned in the installation groove, so that the influence on the inner volume of the inner container 1-2 caused by the installation of the evaporators 18 and the evaporation fans 19 in the inner container 1-2 can be reduced, and a user can obtain a storage space with the maximum volume. Wherein, the bottom in wind channel is provided with the return air inlet and is used for realizing the return air, wherein, to each storing space 11, realizes that the mode of return air has two kinds, for example: an independent air return channel 1-25 can be configured for each inner container 1-2, an air port communicated with the air return channel 1-25 is arranged in each storage space 11, the air return channel 1-25 is connected with the air return port of the air channel, and the air return channel 1-25 can be further provided with an air return fan according to needs so as to improve the air return efficiency and accelerate the air circulation efficiency in the inner container 1-2; or, the bottom of the air duct cover plate 1-22 is provided with a main air return opening, the partition plate 7 is provided with vent holes, air after heat exchange in the upper storage space 11 flows into the lower storage space 11 through the vent holes in the partition plate 7, and finally, the air is collected into the bottommost storage space 11 and then flows back into the air duct from the main air return opening, specifically, a plurality of first vent holes 73 are formed in the partition plate 7, cold air in the upper storage space 11 flows into the lower storage space 11 from the first vent holes 73, in order to avoid that objects placed on the partition plate 7 block the first vent holes 73, so as to ensure smooth air circulation, a groove area 71 is formed in the partition plate 7, a plurality of support bars 72 are arranged in the groove area 71, and a plurality of first vent holes 73 distributed at the side portions of the support bars 72 are arranged in the groove area 71; specifically, the front end and the rear end of the partition board 7 form a first supporting surface 701, the two side portions of the partition board 7 form a second supporting surface 702, the upper surface of the supporting bar 72 forms a third supporting surface 703, the first supporting surface 701 is higher than the second supporting surface 702, the second supporting surface 702 is higher than the third supporting surface 703, in practical use, the sizes of the articles are different, the corresponding supporting surfaces are placed, and the first vent hole 73 is located on the surface 704 at the bottom of the groove area 71 and cannot be blocked by the articles above, so that the air can smoothly flow, and the temperature distribution uniformity is improved. In order to improve the ventilation efficiency, the front end and the rear end of the partition 7 are respectively provided with a second ventilation hole 74, for a plurality of storage spaces in the same liner 1-2, the return air in the storage space above flows into the storage space below through the first ventilation hole 73 and the second ventilation hole 74 of the corresponding partition 7, and preferably, the extension direction of the second ventilation hole 74 on the first supporting surface 701 is the same as the access direction of the articles, so that the second ventilation hole 74 can not scratch the articles when the articles are accessed. Wherein the front end of the partition board 7 is lapped on the beam 10, specifically, the beam 10 is formed with a sunken step surface 1013 at the rear of the upper surface of the casing 101, the front end of the partition board 7 is lapped on the step surface 1013, the step surface 1013 supports the partition board 7, so that the upper surface of the front end of the partition board 7 is flush with the upper surface of the casing 101, so as to facilitate the user to access the articles, in order to improve the connection reliability, a positioning column 1014 is arranged on the step surface 1013, a positioning hole 75 is arranged on the front end of the partition board 7, the positioning column 1014 is inserted in the positioning hole 75, in addition, a clamping groove 1015 is arranged on the rear of the casing 101, a third clamping claw 76 matched with the clamping groove 1015 is arranged on the front end of the partition board 7, the third clamping claw 76 is clamped in the clamping groove 1015, by the third clamping claw 76 matched with the clamping groove 1015, the firm connection between the partition board 7 and the beam 10 can be, the user can not easily detach the partition plate 7, so that articles in the storage cavities corresponding to other cabinet openings can not be taken, and the anti-theft function is achieved. Meanwhile, threaded holes are formed in the positioning columns 1014, and screws penetrate through the positioning holes 75 to be connected in the threaded holes, so that the partition plate 7 is fixed on the cross beam 10 more firmly.

Further, in order to enable each storage space 11 to obtain uniform cold, an intermediate partition 1-23 is further arranged in the air duct, an evaporation cavity is formed between the intermediate partition 1-23 and the inner wall of the inner container 1-2, the evaporator 18 and the evaporation fan 19 are located in the evaporation cavity, the air duct cover plate 1-22 comprises an upper cover plate 1-221 and a lower cover plate 1-222 which are connected together, an upper air supply channel is formed between the upper cover plate 1-221 and the inner wall of the inner container 1-2, a lower air supply channel is formed between the lower cover plate 1-222 and the intermediate partition 1-23, an air outlet of the evaporation fan 19 is respectively communicated with the upper air supply channel and the lower air supply channel, specifically, the intermediate partition 1-23 is added in the air duct to form an evaporation cavity for installing the evaporator 18 and the evaporation fan 19 in the air duct, in this way, the cold air formed by the heat exchange of the evaporator 18 is respectively conveyed to the upper air supply channel and the lower air supply channel through the evaporation fan 19, the upper air supply channel conveys the cold air to the storage space 11 above, and the lower air supply channel conveys the cold air to the storage space 11 below, so that the cold quantity in each storage space 11 in the inner containers 1-2 is uniformly distributed. Meanwhile, the air outlet in each storage space 11 can be provided with a fan 1-24, and the fans 1-24 can actively supply air to the corresponding storage space 11, so that the distribution uniformity of the cooling capacity is more effectively improved. In order to further control the temperature in each storage space 11, a temperature sensor is arranged in each storage space 11, specifically, different storage spaces 11 may have different required refrigeration temperatures according to different storage, and then the corresponding storage space 11 is controlled by the temperature sensor to detect a specific temperature value according to the required refrigeration temperature to start the fans 1 to 24, so that the temperature in the storage space 11 reaches a required refrigeration temperature value.

Based on the above technical solution, optionally, when the refrigerator is used outdoors, sealing treatment is required for the connection between the inner container 1-2 and the door body 2, the connection between the central control panel 3 and the foaming cabinet body 1, and the connection between the central control panel 3 and the central control cover 4, and a sealing treatment manner of each part is described below with reference to the accompanying drawings.

In order to reduce the rainwater from permeating into the inner container 1-2 from the connection between the door body 2 and the cross beam 10, drainage parts 1010 extending towards the upper part are arranged at two end parts of the lower shell 1012 in the cross beam 10, the drainage parts 1010 are arranged in a downward inclined mode, and the drainage parts 1010 are used for guiding water to flow towards the outer side. Specifically, the rainwater flows downwards along the surface and two sides of the door body 2, and when the rainwater flows to the connecting part of the door body 2 and the cross beam 10, the rainwater smoothly flows to the outside of the foaming box body 1 through the drainage parts 1010 on the two sides, so that the rainwater is prevented from entering the inner part of the inner container 1-2 due to the fact that the rainwater cannot be discharged in time.

Further, in order to carry out waterproof treatment on the connecting part between the center sill 1-3 and the central control panel 3, the center sill 1-3 comprises a coaming 1-31 and two connecting plates 1-32, the cross section of the coaming 1-31 is of a U-shaped structure, first flanges which are turned outwards are arranged on two side edges of the coaming 1-31, second flanges which are turned backwards are arranged on the inner side edges of the connecting plates 1-32, the second flanges are arranged on the connecting plates 1-32, and side diversion grooves 1-30 are formed between the first flanges and the corresponding connecting plates 1-32; the foaming cabinet body 1 also comprises upper end covers 1-33, the upper end covers 1-33 cover the tops of the coamings 1-31, the upper surfaces of the upper end covers 1-33 are provided with upper guide grooves 1-331, and two end parts of the upper guide grooves 1-331 are respectively connected with corresponding side guide grooves 1-30; the central control panel 3 covers the front sides of the coamings 1-31 and forms an electric control cavity, and the central control panel 3 also covers the upper diversion trenches 1-331 and the side diversion trenches 1-30. Specifically, the upper end covers 1 to 33 can prevent rainwater from entering the electric control cavity from the top of the coaming 1 to 31, the rainwater is collected by the upper diversion grooves 1 to 331 and is discharged to the side diversion grooves 1 to 30 at two sides, the side diversion grooves 1 to 30 can guide rainwater to flow downwards to avoid entering the electric control cavity from a side door, and therefore a waterproof design is achieved, wherein an upper flanging is arranged at the upper part of the central control panel 3 and covers the upper part of the upper diversion grooves 1 to 331, side flanging is arranged at two side parts of the central control panel 3 and covers the side part of the corresponding side diversion groove, the coaming 1 to 31 is shielded from the outer side by the central control panel 3 to prevent most of rainwater from entering, and water flowing in from the edge of the central control panel 3 is collected in the upper diversion grooves 1 to 331 and the side diversion grooves 1 to 30, the rainwater is smoothly discharged, and the waterproof performance is improved. Two sides of the upper end cover 1-33 are respectively provided with an upper guide column 1-332 extending downwards, the upper guide column 1-332 is positioned in the side guide groove 1-30, a guide channel communicated with the side guide groove 1-30 and the upper guide groove 1-331 is arranged in the upper guide column 1-332, rainwater collected by the upper guide groove 1-331 is guided into the side guide groove 1-30 through the upper guide column 1-332, rainwater collected by the upper guide groove 1-331 is ensured not to flow disorderly, and a better waterproof effect is achieved. In addition, in order to avoid rainwater from splashing at the bottom of the foaming cabinet body 1 and entering the electric control cavity, the foaming cabinet body 1 further comprises lower end covers 1-34, the lower end covers 1-34 cover the bottoms of the middle beams 1-3, two side parts of the lower end covers 1-34 are respectively provided with a lower guide column (not marked) extending downwards, the lower guide columns are positioned in the side guide grooves 1-30, a drainage channel communicated with the side guide grooves 1-30 is arranged in each of the lower guide columns, the structure of the lower end covers 1-34 and the structure type of the upper end covers 1-33, and the lower end covers 1-34 are used for performing waterproof treatment on the bottom parts of the enclosing plates 1-31 and the middle control panel 3. Preferably, the shell 1-1 further comprises upper beams 1-15 and lower beams 1-16, the upper beams 1-15 and the lower beams 1-16 are arranged above and below and are arranged between the two side plates 1-12, the top plates 1-11 are arranged at the tops of the upper beams 1-15 and the side plates 1-12, the bottom plates 1-13 are arranged at the bottoms of the lower beams 1-16 and the side plates 1-12, and the back plates 1-14 are arranged at the backs of the side plates 1-12; the upper end cover 1-33 is provided with a first inserting tongue 1-333, the first inserting tongue 1-333 is positioned at the rear side of the upper diversion trench 1-331, the lower end cover 1-34 is provided with a second inserting tongue (not marked), the upper beam 1-15, the lower beam 1-16 and the side plate 1-12 are respectively provided with a first mounting slot, the outer side edge of the connecting plate 1-32 is provided with a second mounting slot, the outer side edge, the upper side edge and the lower side edge of the inner container 1-2 are inserted into the corresponding first mounting slots, the first inserting tongue 1-333 and the second inserting tongue are also inserted into the corresponding first mounting slots, the inner side edge of the inner container 1-2 is inserted into the corresponding second mounting slots, specifically, the edge of the inner container 1-2 is inserted into the corresponding mounting slots, and simultaneously, the inserting tongues of the upper end cover and the lower end cover are also inserted into the corresponding mounting slots, after foaming, the insertion part formed at the installation slot can be sealed by foaming materials, and the waterproof performance is further improved. In order to facilitate the line connection between the electric control cavity and the outside, the top plate 1-11 is further provided with a line routing hole, the upper end cover 1-33 is further provided with a line routing pipe 1-334 communicated with the electric control cavity, and the line routing pipe 1-334 is inserted into the line routing hole, so that the electric control cavity can be connected with the outside through the line routing pipe 1-334. In addition, the lower beam 1-16 is also provided with a support frame 1-161, the bottom of the central control panel 3 is abutted against the support frame 1-161, and the central control panel 3 is supported from the bottom by the support frame 1-161.

In order to facilitate an operator to rapidly mount the electric control lock 51 on the center sill 1-3, the lock assembly 5 includes the electric control lock 51 and a lock box 52, the electric control lock 51 is disposed in the lock box 52, two sides of the center sill 1-3 are respectively provided with a plurality of assembly openings, and the lock box 52 is mounted on the assembly openings from the outer side of the center sill 1-3. Specifically, the electric control lock 51 is installed in the lock box 52, the electric control lock 51 is installed on the center sill from the outer side of the center sill through the lock box 52, so that the electric control lock 51 can be installed in an electric control cavity formed by the center sill without the need of installing the electric control lock in the center sill, meanwhile, the lock assembly 5 is installed on the center sill 1-3 before the center sill 1-3 is assembled on the shell 1-1, in order to facilitate later maintenance, the electric control lock 51 is installed in the lock box 52 in a clamping mode, specifically, the lock box 52 is provided with the limiting jaw 53, the electric control lock 51 is clamped in the lock box 52 through the limiting jaw 53, the limiting jaw 53 can be of a split structure, and the limiting jaw 53 is installed in the lock box 52 through a screw, so that in later maintenance, only the limiting jaw 53 needs to be detached, and the electric control lock 51 can be detached from the lock box. In order to facilitate an operator to quickly mount the lock box 52 on the center sill 1-3, a plurality of positioning notches are formed in the assembly port, positioning claws 54 matched with the positioning notches are arranged on the edge of the lock box 52, and the positioning claws 54 are clamped in the positioning notches. In addition, in order to facilitate the matching between the lock nose on the door body 2 and the electric control lock 51, the connecting plate is further provided with first insertion holes 1-321 for the lock nose of the door body 2 to pass through, and the lock box 52 is correspondingly provided with second insertion holes 521 for the lock nose of the door body 2 to insert into.

Furthermore, the central control cover 4 is used for installing the electric control board 6, and for the convenience of user operation, an installation opening (not marked) is formed on the central control panel 3; the center control housing 44 includes an outer housing 41 and an inner housing 42, the inner housing 42 is installed in the installation opening from the inner side of the center control panel 33, the outer housing 41 is installed on the outer side of the center control panel 33 and covers the inner housing 42, an installation area (not labeled) is formed between the outer housing 41 and the inner housing 42, a drainage passage 40 is formed between the outer housing 41 and the center control panel 33, and the drainage passage 40 surrounds the outer side of the installation area; an electric control plate 6 is arranged on the inner side of the inner cover shell 42; the bottom of the outer casing 41 is provided with a drain hole 421 communicating with the drain passage 40. Specifically, the central control housing 4 adopts a front and rear housing design, and the outer housing 41 and the inner housing 42 both form a cavity structure extending towards the outside on the inner surface, wherein the inner housing 42 is installed in the installation opening from the inner side of the central control housing 4, and the outer housing 41 shields the inner housing 42 from the outer side of the central control panel 3, and a drainage channel 40 is formed between the outer housing 41 and the central control panel 3, so that rainwater enters the drainage channel 40 in the rain showering process, flows in the drainage channel 40 and is drained from the drainage hole 421, and since the electric control board 6 is installed on the inner side of the inner housing 42, and the installation area is isolated from the drainage channel 40, the influence of the rainwater on the electric control board 6 can be effectively avoided. Wherein, an operation window (not marked) is arranged on the outer casing 41, a transparent plate 43 is arranged on the operation window in a sealing way, and the transparent plate 43 is positioned in the installation area. Specifically, the transparent plate 43 seals the operation window of the outer housing 41, so that the user can conveniently operate through the transparent plate 43, the inner housing 42 is provided with an installation window (not marked) arranged opposite to the operation window, the electric control board 6 is provided with the display screen 61 and the touch key 62, the display screen 61 and the touch key 62 are located at the rear side of the transparent plate 43, specifically, the display screen 61 and the touch key 62 are located at the rear side of the transparent plate 43, the display screen 61 and the touch key 62 are protected from water through the transparent plate 43 from the front, and the main control board 6 is still located at the back of the inner housing 42 for installation, so that the waterproof performance is ensured. Preferably, in order to improve the waterproof performance of the installation area, an annular retaining ring 421 protruding outward is formed on the end surface of the inner housing 42, an installation area is formed between the annular retaining ring 421 and the inner surface of the outer housing 41, the transparent plate 43 is located in the annular retaining ring 421, specifically, the annular retaining ring 421 can further block water entering the drainage channel 40 from flowing into the installation area, further, the outer housing 41 is clamped on the inner housing 42, annular grooves (not labeled) are formed on the peripheral wall of the inner housing 42, a clamping sleeve 412 is arranged on the inner surface of the outer housing 41, the clamping sleeve 412 is sleeved outside the peripheral wall of the inner housing 42 and clamped in the annular grooves, specifically, after the inner housing 42 is installed on the central control panel 3, the outer housing 41 is clamped on the inner housing 42 from the outside through the clamping sleeve 412 and the annular grooves in a matching manner, on the one hand, the fast assembly is facilitated, on the other hand, the clamping sleeve 412 of the outer housing 41 surrounds the peripheral outer wall of the inner housing 42, so that the drainage channel 40 is more effectively isolated from the installation area, and the improvement of the mode performance is more facilitated. Furthermore, the inner cover 42 is provided with the locating plate 422 all around, be provided with the second sealing strip 44 between the internal surface of locating plate 422 and central control panel 33, it is specific, the second sealing strip 44 can be further from the inboard sealed inner cover 42 and the junction of central control panel 3, like this, can ensure to install and can not wet the damage by the rainwater at the inboard automatically controlled board 6 of inner cover 42, improve automatically controlled security and waterproof performance. In addition, one end of the second sealing strip 44 is provided with a second slot (not marked), the other end of the second sealing strip 44 is provided with a plurality of second sealing fins (not marked), the positioning plate 422 is inserted into the second slot, the second sealing fins are attached to the central control panel 33, and a second water blocking area is formed between two adjacent second sealing fins.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides a refrigeration plant is with foaming cabinet body, includes shell and inner bag, the shell with form the foaming cavity between the inner bag, be provided with many crossbeams on the courage mouth of inner bag, its characterized in that, the both sides wall of inner bag is provided with the protruding structure that is used for the foaming to support respectively, protruding structure to the inboard protrusion of inner bag, protruding structure is located and corresponds the rear side of crossbeam.

2. The foaming cabinet body for the refrigerating equipment as recited in claim 1, wherein the thickness of the bulge structure protruding from the side wall of the inner container is not less than 6 mm.

3. The foaming cabinet for a refrigerating apparatus as recited in claim 1, wherein a height value of the convex structure is not greater than a height value of the cross beam.

4. The foaming cabinet body for the refrigerating equipment as recited in claim 1, wherein the beam comprises a shell and a heat-insulating filling block, a mounting cavity is formed in the shell, and the heat-insulating filling block is positioned in the mounting cavity; the installation cavity is also communicated with the foaming cavity, and the installation cavity and the foaming cavity are both provided with foaming heat-insulating layers.

5. The foaming cabinet body for the refrigerating equipment as claimed in claim 4, wherein a plurality of mounting grooves are respectively formed on two side walls of the inner container, and the end part of the shell is arranged in the corresponding mounting groove.

6. The foaming cabinet for a refrigerating device as recited in claim 5, wherein an injection port communicating with the mounting cavity is formed on an end surface of the housing, a through hole is formed in the mounting groove, and the injection port is inserted into the through hole.

7. The cabinet body according to claim 4, wherein the two ends of the housing are respectively provided with a flow guide portion extending in a forward direction, the flow guide portions are disposed in a downward inclined manner, and the flow guide portions are configured to guide water on the cross member to flow in an outward direction.

8. The foaming cabinet for a refrigerating apparatus as recited in claim 7, wherein the housing comprises an upper shell and a lower shell, the upper shell and the lower shell are clamped together, and the drainage parts are provided at two ends of the lower shell.

9. The foaming cabinet body for the refrigeration equipment as claimed in any one of claims 1 to 8, wherein a plurality of partition plates are arranged in the inner container, and the partition plates are used for partitioning the inner cavity of the inner container to form a plurality of storage spaces; the side wall of the rear end part of the protruding structure is provided with a protruding block, the front end part of the partition board is arranged on the corresponding cross beam, and the rear end part of the partition board is lapped on the corresponding protruding block.

10. Refrigeration appliance, characterized in that it comprises a foaming cabinet for a refrigeration appliance according to any one of claims 1 to 9.