CN211372847U

CN211372847U - Logistics supply refrigerator

Info

Publication number: CN211372847U
Application number: CN202020105292.6U
Authority: CN
Inventors: 赵源钊; 张宝华; 尉凯婉; 宋珍欢
Original assignee: Henan Vocational College of Water Conservancy and Environment
Current assignee: Henan Vocational College of Water Conservancy and Environment
Priority date: 2020-01-17
Filing date: 2020-01-17
Publication date: 2020-08-28
Anticipated expiration: 2030-01-17

Abstract

The utility model relates to a logistics supply fridge, which effectively solves the problems that ice blocks in the fridge melt to cause ice water leakage, the ice water can not be reused and the fixity of articles on a goods shelf is poor in the current logistics transportation process; the technical scheme includes that the refrigerator comprises a shell and a refrigerator door, wherein a storage bin is fixedly connected in the shell, an upper ice storage bin, a left ice storage bin and a right ice storage bin are respectively formed in the upper end of the storage bin, the outer wall surfaces of the left side and the right side of the storage bin and the inner wall of the shell in a clearance fit mode, a plurality of guide plates are fixedly connected in the left ice storage bin and the right ice storage bin respectively, a plurality of guide channels are respectively formed in the left side and the right side of the storage bin and are communicated with water storage bags fixedly connected to the left inner side wall and the right inner side wall of the storage bin, a material frame fixedly connected in the storage bin is arranged at the lower end of each water storage bag, a floating sealing; the utility model discloses the structure is succinct stable, and the practicality is strong.

Description

Logistics supply refrigerator

Technical Field

The utility model relates to a have fridge technical field, specifically be commodity circulation supply fridge.

Background

In the logistics transportation process, articles such as meat products, fruits and vegetables, seafood and the like all need to be refrigerated and transported, so that ice blocks need to be placed in the refrigerating box to keep food and vegetables fresh and frozen.

However, the existing logistics supply refrigeration box has the following problems:

1. ice blocks can be melted into ice water in the transportation process and overflow along the inner wall of the refrigerating box, so that the refrigerating effect is reduced, the ice water cannot be reused, and the heat preservation effect of the box body is poor;

2. in the process of transporting food and vegetables, the problem that the food collides and falls from a shelf easily occurs due to different road conditions in the transportation process.

Therefore, the utility model provides a logistics supply fridge solves above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a commodity circulation supply fridge, effectual solution is at the present in the commodity circulation transportation, and the ice-cube in the fridge melts and causes the frozen water exosmosis, can not be poor to the article fixity on frozen water recycle and the goods shelves, and the problem that collision and drop easily appear and current fridge is single-layer structure, the poor problem of cold-stored effect.

The utility model relates to a logistics supply fridge, which comprises a shell and a box door, and is characterized in that the shell is internally fixedly connected with a storage bin, the upper end of the storage bin, the outer wall surfaces of the left side and the right side and the inner wall of the shell are in clearance fit to form an upper ice storage bin, a left ice storage bin and a right ice storage bin respectively, a plurality of guide plates are fixedly connected in the left ice storage bin and the right ice storage bin, and the guide plates are in a shape close to one end of the shell and high and the other end is low;

the left side and the right side of the storage bin are respectively provided with a plurality of flow guide channels with lower ends flush with the flow guide plates, the flow guide channels are respectively communicated with water storage bags fixedly connected to the left inner side wall and the right inner side wall of the storage bin, and the lower end of each water storage bag is provided with a material rack fixedly connected in the storage bin;

each water storage bag is internally and vertically connected with a floating sealing strip in a sliding mode, and one end of the floating sealing strip is tightly attached to the inner wall face of the storage bin.

Preferably, each material rack is connected with a fixed air bag with the front end fixedly connected with an inflation inlet in a left-right sliding manner, a locking sliding chute is arranged on the front side of the fixed air bag, locking wedge-shaped teeth are connected in the locking sliding chute in an up-down sliding manner, and the upper ends of the locking wedge-shaped teeth are fixedly connected with compression springs with the other ends fixedly connected with the locking sliding chute;

the upper end of each material rack is provided with a locking rack matched with the locking wedge-shaped teeth;

the front end of the fixed air bag is provided with a locking slide rail, and a locking button is connected in the locking slide rail in a front-back sliding manner.

Preferably, the front ends of the water storage bags are provided with an upper water outlet and a lower water outlet which are communicated through a soft conduit.

Preferably, the rear end of the storage bin is provided with a diversion chamber, the diversion chamber is communicated with the upper ice storage bin, and the lower end of the diversion chamber is fixedly communicated with a liquid storage chamber fixedly connected to the lower end of the storage bin;

the bottom surface of the upper ice storage bin is in an inclined plane shape inclined towards the rear end.

Preferably, the liquid storage chamber is internally provided with a water absorption sponge, and the water absorption sponge is attached to the inner wall surface of the liquid storage chamber.

Preferably, the rear side of the box door is fixedly connected with a sealing block, and the side wall of the sealing block is tightly attached to the inner surface of the outer shell.

Preferably, the side wall of the shell is hollow with two layers, and the hollow part of the shell is a vacuum chamber.

The utility model discloses improve to current commodity circulation supply fridge, collect the frozen water after melting through the water storage bag and be used for the fridge inner wall and the shock attenuation of article, through the fixed gasbag of slidable effectual fixed the problem of the fixed to article of different volume sizes, solved the frozen water exosmosis and the problem that storing storehouse humidity keeps through setting up the sponge that absorbs water; and the structure is simple and stable, and the universality is extremely high.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a schematic perspective view of the internal mechanism of the present invention.

Fig. 3 is a schematic perspective sectional view of the present invention.

Fig. 4 is a schematic sectional view of the water storage device of the water storage bag of the present invention.

Fig. 5 is a schematic view of the locking structure of the fixing airbag of the present invention.

Fig. 6 is a schematic sectional view of the locking structure of the fixing airbag of the present invention.

Fig. 7 is a schematic sectional view of the ice storage bin diversion structure of the present invention.

Fig. 8 is a perspective view of the door of the present invention.

Detailed Description

The foregoing and other technical matters, features and effects of the present invention will be apparent from the following detailed description of the embodiments, which is to be read in connection with the accompanying drawings of fig. 1 to 8. The structural contents mentioned in the following embodiments are all referred to the attached drawings of the specification.

Exemplary embodiments of the present invention will be described below with reference to the accompanying drawings.

An embodiment, the utility model discloses a logistics supply fridge, including shell 1, chamber door 2, shell 1 provide fixed basis for follow-up structure, chamber door 2 rotate to be connected shell 1 front end, chamber door 2 for two divisions of doors, lock through conventional lock, the lock is prior art, no longer gives details here, its characterized in that, shell 1 in fixedly connected with storing storehouse 3, storing storehouse 3 upper end and left and right sides outer wall and shell 1 inner wall clearance fit, form respectively and go up ice storage storehouse 4, left ice storage storehouse 5 and right ice storage storehouse 6, last ice storage storehouse 4, left ice storage storehouse 5 and right ice storage storehouse 6 be used for storing the ice-cube, right article in storing storehouse 3 cool down, last storing storehouse 4, left ice storage storehouse 5 and right ice storage storehouse 6 upper end all seted up the ice hole, through throw the ice hole to last ice storage storehouse 4, last ice storage storehouse 4, Ice blocks are added into the left ice storage bin 5 and the right ice storage bin 6, valves are fixedly connected to the three ice throwing holes, the opening and closing of the ice throwing holes are controlled through the opening and closing of the valves, a plurality of guide plates 7 are fixedly connected into the left ice storage bin 5 and the right ice storage bin 6, the guide plates 7 are in a shape that one end of the shell 1 is high and the other end of the shell is low, the guide plates 7 on the same side are distributed from top to bottom, the left ice storage bin 5 and the right ice storage bin 6 are divided into a plurality of different areas, and each guide plate 7 guides ice water in the corresponding small area to enable the ice water to flow to one side of the storage bin 3;

the left side and the right side of the storage bin 3 are respectively provided with a plurality of flow guide channels 8 with lower ends parallel to the flow guide plate 7, so that ice water guided by the flow guide plate 7 smoothly enters the flow guide channels 8, the flow guide channels 8 are respectively communicated with water storage bags 9 fixedly connected to the left inner side wall and the right inner side wall of the storage bin 3, the lower end of each water storage bag 9 is provided with a material rack 10 fixedly connected to the storage bin 3, namely each water storage bag 9 corresponds to one layer of the material rack 10, the ice water enters the water storage bags 9 through the flow guide channels 8, the ice water enters the water storage bags 9 to support the water storage bags 9 to a certain degree, articles on the material racks 10 are protected, and the articles are prevented from colliding with the inside of the storage bin 3;

a floating sealing strip 11 is connected in each water storage bag 9 in an up-down sliding manner, the density of the material of the floating sealing strip 11 is less than that of the ice-water mixture, and the floating sealing strip 11 can be ensured to float on the ice water;

the embodiment provides a specific up-down sliding connection mode, specifically, the front and back sides of the water storage bag 9 are both provided with T-shaped sliding rails, the front end and the rear end of the floating sealing strip 11 are fixedly connected with T-shaped sliding blocks matched with the T-shaped sliding rails, the two ends of the T-shaped sliding rails are closed, the up-and-down sliding position of the T-shaped sliding block is limited, one end of the floating sealing strip 11 is tightly attached to the inner wall surface of the storage bin 3, so that the flow guide channel 8 can be sealed in the up-and-down sliding process of the floating sealing strip 11, the water in the water storage bag 9 is ensured not to be acted by external force, flows back into the left ice storage bin 5 or the right ice storage bin 6 through the diversion channel 8, meanwhile, the phenomenon that water is extruded out of the water storage bag 9 in the process that the articles are extruded to the water storage bag 9 so that the articles collide with the inner wall of the storage bin 3 is avoided;

the lower end of the water storage bag 9 is provided with a water discharge hole, so that ice water in the water storage bag 9 can be discharged in time;

in the embodiment, when the device is used, articles are placed on the material rack 10 by opening the box door 2, the box door 2 is closed after the articles are placed, then ice cubes are put into the upper ice storage bin 4, the left ice storage bin 5 and the right ice storage bin 6 by opening the valve through the ice putting hole, and the valve is closed after the ice cubes are put into the ice cubes, so that the device is subjected to logistics transportation;

in the transportation process, ice water on the left side and the right side after ice cubes are melted enters the water storage bag 9 through the flow guide channels 8 under the action of the plurality of flow guide plates 7, the ice water entering the water storage bag 9 props up the water storage bag 9, so that the water storage bag 9 is separated from the contact with the inner wall of the storage bin 3 through the ice water, articles are only contacted with the water storage bag 9 under the action of external force and cannot collide with the inner wall surface of the storage bin 3, when the road condition is not good in the material transportation process, water in the water storage bag 9 can slide, the articles can extrude the water storage bag 9, the ice water in the water storage bag 9 drives the floating sealing strip 11 to synchronously slide up and down in the shaking process, and when the ice water reaches the opening of the flow guide channel 8, the floating sealing strip 11 can be driven to seal the flow guide channel 8, prevent water in the water storage bag 9 through water conservancy diversion passageway 8 flow out the water storage bag 9, simultaneously right article buffer, avoided article with the storing storehouse 3 inner wall bump.

Second embodiment, on the basis of the first embodiment, when an article is placed on the material rack 10, and only the water storage bag 9 is used for buffering and protecting the article, the article can only be prevented from colliding with the inner wall of the storage bin 3, and the article can not be better fixed and protected in other directions, the embodiment provides a device for fixing and protecting the article, specifically, each material rack 10 is connected with a fixed air bag 13 with an inflation inlet 12 at the front end in a left-right sliding manner, the fixed air bag 13 can be pressurized and inflated through the inflation inlet 12, the embodiment provides a specific left-right sliding connection manner, specifically, sliding rails are arranged on the front side and the rear side of the material rack 10, and a rectangular sliding block matched with the sliding rails is fixedly connected at the lower end of the fixed air bag 13, in order to ensure the stability of the fixed air bag 13 in the sliding process, the lower end of the rectangular sliding block is fixedly connected with a rectangular limiting block, the upper end of the rectangular limiting block is attached to the lower end of the material frame 10, so that the fixed air bag 13 is prevented from being inclined and deviated in the sliding process, a locking chute 14 is arranged on the front side of the fixed air bag 13, locking wedge-shaped teeth 15 are vertically and slidably connected in the locking chute 14, and a compression spring 16 fixedly connected with the other end of the locking wedge-shaped teeth 15 and the locking chute 14 is fixedly connected at the upper end of the locking wedge-shaped teeth 15;

the upper end of the material rack 10 is provided with locking racks 17 matched with the locking wedge-shaped teeth 15, the locking wedge-shaped teeth 15 are tightly attached to the locking racks 17 under the action of compression springs 16, when the fixed air bag 13 needs to slide, the fixed air bag 13 is pushed to adjust the position of the fixed air bag 13, and as the locking wedge-shaped teeth 15 are matched with the locking racks 17 in an inclined plane, when the fixed air bag 13 is pushed, the locking wedge-shaped teeth 15 can compress the compression springs 16 under the action of the locking racks 17 to enable the locking wedge-shaped teeth 15 to slide upwards so that the fixed air bag 13 can slide freely;

the front end of the fixed air bag 13 is provided with a locking slide rail 18, a locking button 19 is connected in the locking slide rail 18 in a front-back sliding manner, in this embodiment, a front-back sliding connection manner is provided, specifically, rectangular slide grooves are formed in the left side and the right side of the locking slide rail 18, rectangular slide blocks are fixedly connected to the right side and the right side of the locking button 19, the front end of each local slide block is connected with the rectangular slide groove through a spring, and the spring is constantly in a compression state, so that the locking button 19 locks the locking wedge-shaped teeth 15, the locking wedge-shaped teeth 15 are limited and fixed, the locking wedge-shaped teeth 15 are ensured to be in a state of being matched with the locking rack 17, and the locking wedge-shaped teeth 15 are ensured not to slide up and down;

in this embodiment, in an initial state, the locking button 19 is in a state of contacting the lower end with the upper end of the locking wedge 15, that is, the locking wedge 15 and the locking rack 17 are in a locked state, when the position of the fixing air bag 13 needs to be adjusted, the locking button 19 is pulled forward to make the locking button 19 slide forward while being out of contact with the locking wedge 15, and then the fixing air bag 13 is pushed to slide left and right, when the fixing air bag 13 is pushed, the locking wedge 15 compresses the compression spring 16 under the action of the locking rack 17 to make the locking wedge 15 slide upward so that the fixing air bag 13 can slide freely, after the adjustment is completed, the locking wedge 15 is engaged with the locking rack 17 under the action of the compression spring 16, loosen locking button 19 simultaneously, locking button 19 slide to the rear under the effect of spring and reset, right locking wedge go on spacingly soon, pass through simultaneously as required inflation inlet 12 right fixed spring pressurize and aerify the completion fixed to article.

In the third embodiment, on the basis of the first embodiment, after ice water enters the water storage bag 9, the water in the water storage bag 9 needs to be cleaned at regular time, and when water is discharged only through the water discharge hole, the ice water needs to be squeezed out by pressing the water storage bag 9, this embodiment provides an automatic water discharge manner, specifically, the front ends of a plurality of water storage bags 9 are respectively provided with an upper water discharge hole 20 and a lower water discharge hole 21, the upper water discharge hole 20 and the lower water discharge hole 21 are respectively located at the uppermost end and the lowermost end of the water storage bag 9, the upper water discharge hole 20 and the lower water discharge hole 21 are communicated through a soft pipe, when the water storage bag 9 is not used, the water storage bag is sealed through the soft pipe, when water is required to be discharged through the water storage bag 9, one end of the soft pipe and one end of the upper water discharge hole 20 are pulled out, due to the principle of a communicating device, the ice water in the water storage bag 9 is discharged to the outside through the lower water discharge hole 21 and, the water storage bag 9 does not need to be pressed again.

In the fourth embodiment, on the basis of the first embodiment, the ice cubes in the upper ice storage bin 4 can be retained in the upper ice storage bin 4 after being melted, meanwhile, the rear side of the storage bin 3 has no influence on the refrigeration effect due to the fact that no ice cubes are placed, the embodiment provides a mode that the ice water in the upper ice storage bin 4 is used for further cooling the storage bin 3 through the rear end of the storage bin 3, in particular, a diversion chamber 22 is arranged at the rear end of the storage bin 3, the diversion chamber 22 is communicated with the upper ice storage bin 4, the lower end of the diversion chamber 22 is fixedly communicated with a liquid storage chamber 23 fixedly connected with the lower end of the storage bin 3, ice water after the ice cubes in the upper ice storage bin 4 are melted enters the liquid storage chamber 23 through the diversion chamber 22, meanwhile, the rear end of the storage bin 3 is cooled, and the liquid storage chamber 23 stores the ice water flowing down;

the bottom surface of the upper ice storage bin 4 is in an inclined plane shape inclined towards the rear end, so that the ice water in the upper ice storage bin 4 can directly enter the diversion chamber 22 and cannot be retained in the upper ice storage bin 4.

In the fifth embodiment, on the basis of the fourth embodiment, after ice water enters the liquid storage chamber 23, the ice water may shake during transportation of an article to cause splashing of the liquid, and this embodiment provides a device for qualifying the ice water in the liquid storage chamber 23, specifically, a water absorption sponge 24 is arranged in the liquid storage chamber 23, the water absorption sponge 24 is attached to the inner wall surface of the liquid storage chamber 23, the ice water entering the liquid storage chamber 23 is absorbed by the water absorption sponge 24, so that splashing of the ice water during transportation is avoided, meanwhile, the water absorption sponge 24 locks the ice water in the liquid storage chamber 23, so that the ice water is prevented from leaking out, and after the water absorption sponge 24 washes water, water is provided for the storage chamber 3, so that humidity in the storage chamber 3 is ensured.

Sixth embodiment, on the basis of first embodiment, in order to guarantee the cold-stored temperature in the storing storehouse 3, strengthen the cold-stored effect of storing storehouse 3, the phenomenon that the gap can appear and cause the energy to scatter and disappear in ordinary chamber door 2, this embodiment provides a chamber door 2 sealing method, 2 rear side fixedly connected with seal block 25 of chamber door, the seal block 25 lateral wall with shell 1 inside face closely laminate, seal block 25 be the rubber material in the in-process that chamber door 2 closed, seal block 25 with the inner wall of shell 1 closely laminate, increase the inside heat preservation effect of shell 1.

Seventh embodiment, on the basis of the first embodiment, the side wall of the housing 1 is hollow with two layers, the hollow part of the housing 1 is a vacuum chamber 26, and the vacuum chamber 26 is arranged to reduce dissipation of cold air in the housing 1 and enhance the heat preservation effect of the housing 1.

When the material rack is used, articles are placed on the material rack 10 by opening the box door 2, when the position of the fixed air bag 13 needs to be adjusted, the locking button 19 is pulled towards the front side to enable the locking button 19 to be separated from the locking wedge-shaped teeth 15 while sliding towards the front side, then the fixed air bag 13 is pushed to slide left and right, when the fixed air bag 13 is pushed, the locking wedge-shaped teeth 15 can compress the compression spring 16 under the action of the locking teeth 17 to enable the locking wedge-shaped teeth 15 to slide upwards so that the fixed air bag 13 can slide freely, after the adjustment is completed, the locking wedge-shaped teeth 15 are matched with the locking teeth 17 under the action of the compression spring 16, the locking button 19 is released at the same time, the locking button 19 slides backwards and resets under the action of the spring to limit the locking wedge-shaped fast, and the fixed spring is pressurized and inflated through the inflation inlet 12 to complete the fixation of the articles as required, after the articles are placed, the box door 2 is closed, then the valve is opened, ice cubes are put into the upper ice storage bin 4, the left ice storage bin 5 and the right ice storage bin 6 through the ice putting hole, and the valve is closed after the ice cubes are put into the box, so that the device is subjected to logistics transportation;

in the transportation process, ice water after ice cubes on the left side and the right side are melted enters the water storage bag 9 through the flow guide channels 8 under the action of the flow guide plates 7, the ice water entering the water storage bag 9 supports the water storage bag 9, so that the water storage bag 9 is separated from contact with the inner wall of the storage bin 3 through the ice water, articles are only contacted with the water storage bag 9 under the action of external force and cannot collide with the inner wall surface of the storage bin 3, when the road condition is not good in the material transportation process, water in the water storage bag 9 can slide, meanwhile, the articles can extrude the water storage bag 9, the ice water in the water storage bag 9 drives the floating sealing strip 11 to synchronously slide up and down in the shaking process, when the ice water reaches the opening of the diversion channel 8, the floating sealing strip 11 is driven to seal the diversion channel 8, so that the water in the water storage bag 9 is prevented from flowing out of the water storage bag 9 through the diversion channel 8, and meanwhile, the articles are buffered, so that the articles are prevented from colliding with the inner wall of the storage bin 3;

meanwhile, ice water after ice cubes in the upper ice storage bin 4 are melted enters the liquid storage chamber 23 through the flow guide chamber 22, the rear end of the storage bin 3 is cooled, the liquid storage chamber 23 stores the ice water flowing down, and the ice water entering the liquid storage chamber 23 is absorbed by the water absorption sponge 24.

The utility model discloses improve to current commodity circulation supply fridge, collect the frozen water after melting through the water storage bag and be used for the fridge inner wall and the shock attenuation of article, through the fixed gasbag of slidable effectual fixed the fixed problem of article to different volume sizes, solved the frozen water and leaked and the problem that storing storehouse humidity keeps through setting up the sponge that absorbs water; and the structure is simple and stable, and the universality is extremely high.

Claims

1. The logistics supply refrigeration box comprises a shell (1) and a box door (2), and is characterized in that a storage bin (3) is fixedly connected in the shell (1), the upper end, the outer wall surfaces of the left side and the right side of the storage bin (3) and the inner wall of the shell (1) are in clearance fit to form an upper ice storage bin (4), a left ice storage bin (5) and a right ice storage bin (6) respectively, a plurality of guide plates (7) are fixedly connected in the left ice storage bin (5) and the right ice storage bin (6), and the guide plates (7) are in a shape close to one end of the shell (1) and high and the other end of the shell (1);

the left side and the right side of the storage bin (3) are respectively provided with a plurality of flow guide channels (8) with lower ends parallel to the flow guide plate (7), the flow guide channels (8) are respectively communicated with water storage bags (9) fixedly connected to the left inner side wall and the right inner side wall of the storage bin (3), and the lower end of each water storage bag (9) is provided with a material rack (10) fixedly connected in the storage bin (3);

every water storage bag (9) in all sliding connection have unsteady sealing strip (11) from top to bottom, unsteady sealing strip (11) one end with storing storehouse (3) internal wall closely laminate.

2. The logistics supply refrigeration box according to claim 1, wherein each material shelf (10) is connected with a fixed air bag (13) with a front end fixedly connected with an inflation inlet (12) in a left-right sliding manner, a locking sliding groove (14) is formed in the front side of the fixed air bag (13), locking wedge-shaped teeth (15) are connected in the locking sliding groove (14) in a vertical sliding manner, and the upper ends of the locking wedge-shaped teeth (15) are fixedly connected with compression springs (16) with the other ends fixedly connected with the locking sliding groove (14);

the upper end of each material rack (10) is provided with a locking rack (17) matched with the locking wedge-shaped teeth (15);

the front end of the fixed air bag (13) is provided with a locking slide rail (18), and a locking button (19) is connected in the locking slide rail (18) in a front-back sliding manner.

3. The logistics cold storage box of claim 1, wherein the plurality of water storage bags (9) are provided with an upper drainage hole (20) and a lower drainage hole (21) at the front ends thereof, and the upper drainage hole (20) and the lower drainage hole (21) are communicated through a soft pipe.

4. The logistics supply refrigeration container as claimed in claim 1, wherein a diversion chamber (22) is provided at the rear end of the storage bin (3), the diversion chamber (22) is communicated with the upper ice storage bin (4), and the lower end of the diversion chamber (22) is fixedly communicated with a liquid storage chamber (23) fixedly connected to the lower end of the storage bin (3);

the bottom surface of the upper ice storage bin (4) is in an inclined plane shape inclined towards the rear end.

5. The box as claimed in claim 4, wherein a water absorbing sponge (24) is disposed in the storage chamber (23), and the water absorbing sponge (24) is attached to an inner wall surface of the storage chamber (23).

6. The logistics refrigerator of claim 1, wherein a sealing block (25) is fixedly connected to the rear side of the door (2), and the side wall of the sealing block (25) is tightly attached to the inner surface of the outer casing (1).

7. The logistics refrigerated container of claim 1 wherein the side wall of the outer shell (1) is hollow with two layers, and the hollow part of the outer shell (1) is a vacuum chamber (26).