CN220236038U - Maintenance storage box - Google Patents

Abstract

The utility model discloses a maintenance storage box, which comprises a storage box body, a temperature regulating system, a humidifying system and a dehumidifying system, wherein the storage box body is provided with a storage box body cover; a dehumidification installation position is arranged on the side wall of the storage box body, and a dehumidification system is arranged on the dehumidification installation position; the dehumidification system comprises a semiconductor refrigeration piece, a condensation component and a heat dissipation component, wherein the condensation component, the semiconductor refrigeration piece and the heat dissipation component are sequentially contained in a dehumidification installation position from inside to outside, the semiconductor refrigeration piece comprises a cold end face and a hot end face, the cold end face is mutually attached to the condensation component, and the hot end face is mutually attached to the heat dissipation component; the condensing assembly faces the storage cavity, the condensing assembly is provided with a dehumidifying inlet and a dehumidifying outlet, and the radiating assembly faces the outside of the storage box body. The maintenance storage box is beneficial to improving stability and controllability of dehumidification effect, meets use requirements of users, is simple and reasonable in structure, flexible and convenient to use, easy to clean and low in cost.

Description

Maintenance storage box

Technical Field

The utility model relates to the technical field of storage equipment, in particular to a maintenance storage box.

Background

With the increasing level of living, the number of people consuming tobacco products is increasing, and tobacco products generally include cigars and cigarettes, which are described herein as cigars.

In general, cigar storage and curing requires placing under specific temperature and humidity conditions, and in general, the cigar storage and curing conditions are that the temperature is between 16 ℃ and 20 ℃ and the humidity is between 60% and 70%. At present, most cigars are stored in wooden cigar boxes or wine cabinets, but the existing cigar boxes or wine cabinets cannot well control and regulate the temperature and humidity in the boxes or cabinets, so that the purpose of storing and maintaining the cigars for a long time cannot be achieved.

In order to preserve cigars for a long period of time, storage boxes for curing and storing cigars specially are developed on the market, and generally comprise a refrigerating system, a humidifying system and a dehumidifying system. The existing dehumidifying system in the cigar storage box generally adopts a physical dehumidifying mode, namely, dehumidifying materials such as a desiccant are adopted for dehumidification, the dehumidifying effect of the dehumidifying materials such as the desiccant is weakened along with the increase of the service time, and the dehumidifying effect is unstable, so that the desiccant in the dehumidifying component has to be replaced frequently in order to ensure the dehumidifying effect of the maintenance storage box; in addition, the dehumidification effect controllability of the dehumidification component utilizing the drying agent is poor, and the dehumidification effect of the storage box is difficult to adjust according to factors such as storage requirements, so that the use requirements are not met.

Disclosure of Invention

The utility model aims to provide a maintenance storage box which is beneficial to improving the stability and controllability of a dehumidification effect, meets the use requirements of users, has a simple and reasonable structure, is flexible and convenient to use, is easy to clean and has low cost, so that the defects in the prior art are overcome.

To achieve the purpose, the utility model adopts the following technical scheme:

the maintenance storage box comprises a storage box body, a temperature regulating system, a humidifying system and a dehumidifying system, wherein a storage cavity is formed in the storage box body, the temperature regulating system, the humidifying system and the dehumidifying system are all installed on the storage box body, an adjusting inlet and an adjusting outlet of the temperature regulating system are respectively communicated with the storage cavity, a humidifying air inlet and a humidifying air outlet of the humidifying system are respectively communicated with the storage cavity, and a dehumidifying inlet and a dehumidifying outlet of the dehumidifying system are respectively communicated with the storage cavity;

the side wall of the storage box body is provided with a dehumidification installation position, and the dehumidification system is installed at the dehumidification installation position; the dehumidification system comprises a semiconductor refrigeration piece, a condensation component and a heat dissipation component, wherein the condensation component, the semiconductor refrigeration piece and the heat dissipation component are sequentially contained in the dehumidification installation position from inside to outside, the semiconductor refrigeration piece comprises a cold end face and a hot end face, the cold end face is mutually attached to the condensation component, and the hot end face is mutually attached to the heat dissipation component; the condensing assembly faces the storage cavity, the condensing assembly is provided with the dehumidifying inlet and the dehumidifying outlet, and the heat dissipation assembly faces the outside of the storage box body.

Preferably, the dehumidification system further comprises a dehumidification cover, the dehumidification cover is detachably covered outside the condensation assembly, and the dehumidification cover and the storage box body jointly enclose a dehumidification cavity for accommodating the condensation assembly;

the outer plate surface of the dehumidification cover is provided with a dehumidification air inlet and a dehumidification air outlet, the dehumidification air inlet is close to the dehumidification inlet, and the dehumidification air outlet is close to the dehumidification outlet.

Preferably, the condensing assembly comprises a cold guide block, a condensing frame and a condensing fan which are sequentially connected from outside to inside, wherein the back surface of the cold guide block is mutually attached to the cold end surface, and the front surface of the cold guide block is mutually attached to the back surface of the condensing block; the condensing fan is erected on the front surface of the cold clot through the condensing frame;

the condensing block comprises a condensing plate and a plurality of condensing sheets, the back surface of the condensing plate is mutually attached to the front surface of the cold guide block, and the condensing sheets are connected to the front surface of the condensing plate in a spaced arrangement manner;

the heat dissipation assembly comprises a heat dissipation block and a heat dissipation fan, the front surface of the heat dissipation block is mutually attached to the hot end surface, and the heat dissipation fan is arranged on the side surface of the heat dissipation block;

the heat dissipation block comprises a heat dissipation plate and a plurality of heat dissipation fins, the front face of the heat dissipation plate is mutually attached to the hot end face, and the heat dissipation fins are connected to the back face of the heat dissipation plate in a spaced arrangement mode.

Preferably, the extending direction of the condensing sheet is vertically arranged, and the extending direction of the radiating sheet is horizontally arranged;

the inside of storage box body still is provided with and connects the water level, just connect the water level to be located the below of condensation piece.

Preferably, the dehumidification system further comprises a positioning heat preservation piece and a cold conduction heat preservation piece; the back of the positioning heat-insulating part is mutually attached to the front of the heat radiating component, and a positioning hole for accommodating the semiconductor refrigerating sheet is formed in the middle of the positioning heat-insulating part; the cold-conducting heat-insulating piece is propped between the cold clot and the positioning heat-insulating piece, and the middle part of the cold-conducting heat-insulating piece is provided with a mounting hole for accommodating the cold-conducting block.

Preferably, the humidifying system comprises a humidifying cover, a humidifying fan, a humidifying box and an atomizer, wherein the humidifying cover is arranged in the storage box body, and the dehumidifying cover and the storage box body jointly enclose a humidifying cavity for accommodating the humidifying fan, the humidifying box and the atomizer;

the humidifying cover is provided with a bearing position, the humidifying box is detachably arranged on the bearing position, and an outlet of the humidifying box is detachably connected with an inlet of the atomizer; the outer plate surface of the humidifying cover is provided with the humidifying air inlet and the humidifying air outlet, the humidifying air inlet is close to the outlet of the atomizer, and the humidifying fan is close to the humidifying air outlet.

Preferably, a positioning groove is formed in the inner side wall of the bearing position, positioning ribs are arranged on the outer side wall of the humidifying box in a protruding mode, and the positioning ribs are detachably installed in the positioning groove;

the outer plate surface of the humidifying cover is provided with a vertically extending avoiding hole, and the extending length of the avoiding hole is greater than or equal to the liquid level depth of the humidifying box.

Preferably, a temperature adjusting installation position is arranged on the side wall of the storage box body, and the temperature adjusting system is installed at the temperature adjusting installation position;

the temperature regulating system comprises a semiconductor refrigerating and heating element, a first conducting component and a second conducting component, wherein the first conducting component, the semiconductor refrigerating and heating element and the second conducting component are sequentially contained in the temperature regulating installation position from inside to outside, the semiconductor refrigerating and heating element comprises a first working end face and a second working end face, the first working end face is mutually attached to the first conducting component, and the second working end face is mutually attached to the second conducting component; the first conductive assembly faces the storage chamber, and is provided with the adjustment inlet and the adjustment outlet, and the second conductive assembly faces the outside of the storage case body.

Preferably, the temperature regulation system further comprises a regulation cover detachably covered outside the first conduction assembly, the regulation cover and the storage box body jointly enclose a temperature regulation cavity for accommodating the first conduction assembly, and the regulation cover and the dehumidification cover are positioned on the same side of the storage cavity;

an adjusting air inlet and an adjusting air outlet are formed in the outer plate surface of the adjusting cover, the adjusting air inlet is close to the adjusting inlet, and the adjusting air outlet is close to the adjusting outlet;

the first conduction assembly and the condensing assembly have the same structure, and the second conduction assembly and the heat dissipation assembly have the same structure;

the temperature regulating system also comprises a positioning heat insulating piece and a cold conducting heat insulating piece; the back surface of the positioning heat-insulating piece is mutually attached to the front surface of the second conduction component, and a positioning through hole for accommodating the semiconductor refrigerating and heating piece is formed in the middle of the positioning heat-insulating piece; the cold conduction heat insulation piece is propped between the cold clot of the first conduction assembly and the positioning heat insulation piece, and the middle part of the cold conduction heat insulation piece is provided with an installation through hole for accommodating the cold conduction block of the first conduction assembly.

Preferably, the storage box further comprises a storage rack, an adjusting panel, a temperature detection assembly and a humidity detection assembly, wherein the storage rack is detachably arranged in the storage cavity, the adjusting panel is arranged outside the storage box body, and the adjusting panel is respectively and electrically connected with the temperature adjusting system, the humidifying system, the dehumidifying system, the temperature detection assembly and the humidity detection assembly;

the temperature detection assembly comprises a first thermometer, a second thermometer, a third thermometer and a fourth thermometer; the first thermometer is arranged outside the storage box body and is used for detecting the external temperature of the storage box body; the second thermometer is arranged in the storage cavity and is used for detecting the internal temperature of the storage box body; the third thermometer is arranged close to the first conduction component and is used for detecting the regulating temperature of the temperature regulating system; the fourth thermometer is arranged close to the condensation assembly and is used for detecting the dehumidification temperature of the dehumidification system;

the humidity detection assembly comprises a first hygrometer and a second hygrometer; the first hygrometer is arranged outside the storage box body and is used for detecting the external humidity of the storage box body; the second hygrometer is installed in the storage cavity, and the second hygrometer is used for detecting the internal humidity of the storage box body.

The technical scheme provided by the embodiment of the utility model can have the following beneficial effects:

1. compared with the technical scheme that dehumidification materials such as a desiccant are adopted to dehumidify in the prior art, the technical scheme that the semiconductor refrigeration condensation mode dehumidifies the gas is more stable, and the situation that the dehumidification effect is weakened and even fails along with the increase of the service time does not exist.

2. The technical scheme of dehumidifying the gas in a semiconductor refrigeration condensation mode can adjust the refrigeration power of the semiconductor refrigeration piece according to factors such as the use environment and the storage requirement of the storage box, so that the dehumidification effect of the storage box is adjusted, and compared with the technical scheme of dehumidifying by adopting desiccant and other dehumidification materials in the prior art, the technical scheme of dehumidifying the gas in a semiconductor refrigeration condensation mode is more controllable.

Drawings

Fig. 1 is a schematic structural view of a curing storage box according to the present utility model.

Fig. 2 is an exploded view of a first view of a curing storage case according to the present utility model.

Fig. 3 is an exploded view of a second view of a curing storage case according to the present utility model.

Fig. 4 is a schematic view showing a partial structure of a curing storage box according to the present utility model.

Fig. 5 is a schematic view showing the structure of a curing storage box humidifying system according to the present utility model.

Wherein: the storage box comprises a storage box body 1, a storage cavity 101 and a water receiving level 102;

the temperature regulating system 2, the semiconductor refrigerating and heating element 21, the first conducting component 22, the second conducting component 23, the regulating cover 24, the regulating air inlet 241, the regulating air outlet 242, the positioning heat insulating element 25 and the cold conducting heat insulating element 26;

the humidifying system 3, the humidifying cover 31, the humidifying air inlet 311, the humidifying air outlet 312, the bearing position 313, the avoiding hole 314, the positioning groove 3131, the humidifying fan 32, the humidifying box 33, the positioning rib 331 and the atomizer 34;

the dehumidification system 4, the semiconductor refrigeration piece 41, the condensation assembly 42, the cold guide block 421, the condensation block 422, the condensation plate 4221, the condensation piece 4222, the condensation frame 423, the condensation fan 424, the heat dissipation assembly 43, the heat dissipation block 431, the heat dissipation plate 4311, the heat dissipation piece 4312, the heat dissipation fan 432, the dehumidification cover 44, the dehumidification air inlet 441, the dehumidification air outlet 442, the positioning heat preservation piece 45 and the cold guide heat preservation piece 46;

a storage rack 5 and an adjusting panel 6.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

The technical scheme provides a maintenance storage box, which comprises a storage box body 1, a temperature regulating system 2, a humidifying system 3 and a dehumidifying system 4, wherein a storage cavity 101 is formed in the storage box body 1, the temperature regulating system 2, the humidifying system 3 and the dehumidifying system 4 are all installed in the storage box body 1, an adjusting inlet and an adjusting outlet of the temperature regulating system 2 are respectively communicated with the storage cavity 101, a humidifying air inlet 311 and a humidifying air outlet 312 of the humidifying system 3 are respectively communicated with the storage cavity 101, and a dehumidifying inlet and a dehumidifying outlet of the dehumidifying system 4 are respectively communicated with the storage cavity 101;

a dehumidification installation position is arranged on the side wall of the storage box body 1, and the dehumidification system 4 is arranged on the dehumidification installation position;

the dehumidification system 4 comprises a semiconductor refrigeration sheet 41, a condensation assembly 42 and a heat dissipation assembly 43, wherein the condensation assembly 42, the semiconductor refrigeration sheet 41 and the heat dissipation assembly 43 are sequentially contained in the dehumidification installation position from inside to outside, the semiconductor refrigeration sheet 41 comprises a cold end face and a hot end face, the cold end face is mutually attached to the condensation assembly 42, and the hot end face is mutually attached to the heat dissipation assembly 43; the condensing unit 42 faces the storage chamber 101, and the condensing unit 42 is provided with the dehumidifying inlet and the dehumidifying outlet, and the heat dissipating unit 43 faces the outside of the storage case body 1.

The existing dehumidifying system in the cigar storage box generally adopts a physical dehumidifying mode, namely, dehumidifying materials such as a desiccant are adopted for dehumidification, the dehumidifying effect of the dehumidifying materials such as the desiccant is weakened along with the increase of the service time, and the dehumidifying effect is unstable, so that the desiccant in the dehumidifying component has to be replaced frequently in order to ensure the dehumidifying effect of the maintenance storage box; in addition, the dehumidification effect of the dehumidification component by utilizing the drying agent is not controllable, and cannot be adjusted according to the use environment, the storage requirement and other factors of the storage box, so that the use requirement is difficult to meet.

Therefore, in order to improve stability and controllability of dehumidification effect, the technical scheme provides a maintenance storage box convenient to flexibly control a dehumidification process, and adopts a semiconductor refrigeration condensation mode to dehumidify the gas in the storage cavity 101, so that a complex mechanical structure is omitted, the structure and the compression volume can be effectively simplified, mute refrigeration is convenient to realize, and the maintenance storage box is safe, reliable, convenient, practical, low in manufacturing cost and wide in application range.

Specifically, as shown in fig. 1-5, the maintenance storage box of this scheme includes storage box body 1, temperature regulation system 2, humidification system 3 and dehumidification system 4, and wherein, temperature regulation system 2 is used for carrying out the intensification and cooling to the temperature of storing chamber 101, is convenient for carry out adaptive adjustment to the inside temperature of maintenance storage box, and humidification system 3 is used for increasing the inside humidity of storing chamber 101, and dehumidification system 4 is used for reducing the inside humidity of storing chamber 101, is convenient for carry out adaptive adjustment to the inside humidity of maintenance storage box.

More specifically, the dehumidification system 4 of the present embodiment includes a semiconductor refrigeration sheet 41, a condensation assembly 42 and a heat dissipation assembly 43, where the cold end surface of the semiconductor refrigeration sheet 41 is attached to the condensation assembly 42, and the hot end surface of the semiconductor refrigeration sheet 41 is attached to the heat dissipation assembly 43. When the dehumidification system 4 is started, the gas to be dehumidified positioned in the storage cavity 101 enters the condensation assembly 42 through the dehumidification inlet, so that the water vapor in the gas to be dehumidified is condensed into liquid beads due to low-temperature cooling, the purpose of condensation and dehumidification is achieved, and then the dehumidified dry air is discharged out of the condensation assembly 42 through the dehumidification outlet and flows back to the storage cavity 101. It should be noted that, the semiconductor refrigeration piece 41 of the present embodiment is made by using the peltier effect, which refers to a phenomenon that when a direct current passes through a couple composed of two semiconductor materials, one end of the couple absorbs heat and the other end releases heat; in other words, the semiconductor refrigerator piece 41 is made of two semiconductor materials, forming a hot end and a cold end, and the cold end continuously absorbs heat to realize refrigeration; the hot end continuously releases heat, and the technical scheme dehumidifies the gas in a semiconductor refrigeration condensation mode, so that a complex mechanical structure is omitted, the structure and the compression volume can be effectively simplified, mute refrigeration is convenient to realize, and the device is safe, reliable, convenient, practical, low in manufacturing cost and wide in application range.

Compared with the technical scheme of dehumidifying by adopting desiccant and other dehumidifying materials in the prior art, the technical scheme of dehumidifying gas in a semiconductor refrigeration condensation mode has higher stability, and the situation that the dehumidifying effect is weakened and even fails along with the increase of the service time does not exist; in addition, the present solution can also adjust the refrigeration power of the semiconductor refrigeration sheet 41 according to the use environment of the storage box, storage requirements, and other factors, so as to adjust the dehumidification effect of the storage box, so that compared with the technical solution of dehumidification using desiccant and other desiccant materials to dehumidify in the prior art, the technical solution of dehumidification of gas in a semiconductor refrigeration condensation mode has more controllability.

Further describing, the dehumidification system 4 further includes a dehumidification cover 44, the dehumidification cover 44 is detachably covered on the outside of the condensation assembly 42, and the dehumidification cover 44 and the storage box body 1 together enclose a dehumidification cavity for accommodating the condensation assembly 42;

the outer plate surface of the dehumidifying cover 44 is provided with a dehumidifying air inlet 441 and a dehumidifying air outlet 442, the dehumidifying air inlet 441 is close to the dehumidifying inlet, and the dehumidifying air outlet 442 is close to the dehumidifying outlet.

In an embodiment of the present disclosure, the dehumidification system 4 is further provided with a dehumidification cover 44, which can protect the semiconductor refrigeration sheet 41 and the condensation component 42 in the dehumidification system 4 effectively and effectively, and can enclose a relatively fixed dehumidification chamber in the storage chamber 101, so that the air to be dehumidified enters the dehumidification chamber for dehumidification through the dehumidification air inlet 441 and is discharged through the dehumidification air outlet 442, thereby further improving the dehumidification effect of the dehumidification system 4.

To further illustrate, the condensation assembly 42 includes a cold guide block 421, a condensation block 422, a condensation rack 423 and a condensation fan 424 sequentially connected from outside to inside, wherein a back surface of the cold guide block 421 is attached to the cold end surface, and a front surface of the cold guide block 421 is attached to a back surface of the condensation block 422; the condensing fan 424 is erected on the front surface of the condensing block 422 through the condensing frame 423;

the condensation block 422 includes a condensation plate 4221 and a plurality of condensation plates 4222, wherein the back surface of the condensation plate 4221 is attached to the front surface of the cold guide block 421, and the plurality of condensation plates 4222 are connected to the front surface of the condensation plate 4221 in a spaced arrangement;

the heat dissipation assembly 43 includes a heat dissipation block 431 and a heat dissipation fan 432, wherein the front surface of the heat dissipation block 431 is mutually attached to the hot end surface, and the heat dissipation fan 432 is mounted on the side surface of the heat dissipation block 431;

the heat dissipation block 431 includes a heat dissipation plate 4311 and a plurality of heat dissipation fins 4312, wherein the front surface of the heat dissipation plate 4311 is attached to the hot end surface, and the plurality of heat dissipation fins 4312 are connected to the back surface of the heat dissipation plate 4311 in a spaced arrangement.

Further, the condensing assembly 42 of the present embodiment includes a cooling block 421, a condensing block 422, a condensing rack 423 and a condensing fan 424 sequentially connected from outside to inside (i.e. from the outside of the storage box body 1 to the inside of the storage box body 1); the cold guide block 421 is directly attached to the cold end surface of the semiconductor refrigeration sheet 41, and is used for guiding the cold generated by the semiconductor refrigeration sheet 41 to the condensation block 422, the condensation block 422 comprises a condensation plate 4221 and a plurality of condensation sheets 4222, and through flow channels are formed among the condensation sheets 4222 to guide air, so that the contact area between the gas to be dehumidified and the condensation block 422 is increased, and the dehumidification effect is improved; the condensing fan 424 installed on the condensing block 422 through the condensing frame 423 is used for guiding the gas to be dehumidified to enter the dehumidifying system 4, so that the gas flow is accelerated, and the dehumidifying rate is improved.

Furthermore, the heat dissipating component 43 of the present embodiment includes a heat dissipating block 431 and a heat dissipating fan 432, wherein the heat dissipating block 431 is directly attached to the hot end surface of the semiconductor cooling fin 41 for conducting away the heat generated by the semiconductor cooling fin 41, and the heat dissipating fan 432 is away from the dehumidification system 4, which is beneficial to improving the flow velocity of air in the dehumidification system 4, thereby improving the dehumidification efficiency of the dehumidification system 4.

Further, the extending direction of the condensing fins 4222 is vertical, and the extending direction of the heat dissipating fins 4312 is horizontal;

the storage box body 1 is further provided with a water receiving level 102, and the water receiving level 102 is located below the condensation plate 4222.

As an advantage of the foregoing embodiment, the condensation plate 4222 extends vertically in this embodiment, so that the condensed water after the gas to be dehumidified is dehumidified, so as to quickly separate from the condensation plate 4222 and fall into the water receiving level 102 under the action of gravity, so as to ensure stable dehumidification of the condensation assembly 42. In this embodiment, the cooling fins 4312 extend horizontally, so that the dehumidification system 4 can dissipate heat rapidly, and the dehumidification effect and efficiency of the dehumidification system 4 can be guaranteed.

Further illustratively, the dehumidification system 4 further includes a positioning thermal insulation 45 and a cold-conducting thermal insulation 46; the back surface of the positioning heat-insulating member 45 is attached to the front surface of the heat dissipation assembly 43, and a positioning hole for accommodating the semiconductor refrigeration sheet 41 is formed in the middle of the positioning heat-insulating member 45; the cold-conducting heat-insulating member 46 abuts against between the condensation block 422 and the positioning heat-insulating member 45, and a mounting hole for accommodating the cold-conducting block 421 is formed in the middle of the cold-conducting heat-insulating member 46.

In another embodiment of the present technical solution, the dehumidification system 4 is further provided with a positioning heat-preserving member 45 and a cold-conducting heat-preserving member 46, which can perform a positioning function on the installation of the semiconductor refrigeration sheet 41 to ensure the installation stability of the semiconductor refrigeration sheet 41, and can also prevent the cooling capacity and heat generated by the semiconductor refrigeration sheet 41 from dissipating sideways, so as to ensure the sufficient transfer of the cooling capacity to the cold-conducting block 421 and the heat to the heat-dissipating block 431.

To further illustrate, the humidification system 3 includes a humidification hood 31, a humidification fan 32, a humidification tank 33, and an atomizer 34, wherein the humidification hood 31 is installed inside the storage box body 1, and the dehumidification hood 44 and the storage box body 1 together enclose a humidification chamber for accommodating the humidification fan 32, the humidification tank 33, and the atomizer 34;

the humidification hood 31 is provided with a bearing position 313, the humidification tank 33 is detachably mounted on the bearing position 313, and an outlet of the humidification tank 33 is detachably connected with an inlet of the atomizer 34; the outer plate surface of the humidifying cover 31 is provided with the humidifying air inlet 311 and the humidifying air outlet 312, the humidifying air inlet 311 is close to the outlet of the atomizer 34, and the humidifying fan 32 is close to the humidifying air outlet 312.

In order to simplify the structure of the humidifying system 3, the scheme adopts the atomizer 34 (such as an ultrasonic atomizer and the like) to humidify the gas, thereby being beneficial to reducing the occupied space of the humidifying system 3, reducing the volume of a maintenance storage box and being convenient to carry.

Further, this scheme still adds in humidification cover 31 to enclose into the inside humidification chamber of gas flow direction relatively fixed of storage chamber 101, make gaseous entering humidification chamber through humidification air intake 311, atomizer 34 atomizes the humidification water that stores in the humidification case 33 and spouts, and after the humidification to gas, drive the gaseous discharge by humidification air outlet 312 after the humidification by humidification fan 32 again, in order to promote the humidification effect of humidification system 3.

Further, a positioning groove 3131 is formed in the inner side wall of the supporting seat 313, a positioning rib 331 is formed on the outer side wall of the humidifying box 33 in a protruding manner, and the positioning rib 331 is detachably mounted in the positioning groove 3131;

the outer plate surface of the humidification hood 31 is provided with a vertically extending avoidance hole 314, and the extending length of the avoidance hole 314 is greater than or equal to the liquid level depth of the humidification case 33.

As a preferable example of the above embodiment, the inner side wall of the supporting seat 313 is provided with a positioning groove 3131, the outer side wall of the humidifying box 33 is provided with a positioning rib 331 in a protruding manner, and the positioning groove 3131 and the positioning rib 331 are installed in a matching manner, so as to facilitate the installation stability of the humidifying box 33 on the humidifying cover 31. In addition, the outer plate surface of the humidification hood 31 is provided with a vertically extending avoidance hole 314, and the avoidance hole 314 can enable a user to clearly observe the liquid condition of the humidification water stored in the humidification tank 33, so that the humidification water can be added or replaced in time.

Further, a temperature adjusting installation position is formed on the side wall of the storage box body 1, and the temperature adjusting system 2 is installed at the temperature adjusting installation position;

the temperature regulation system 2 comprises a semiconductor refrigerating and heating element 21, a first conduction assembly 22 and a second conduction assembly 23, wherein the first conduction assembly 22, the semiconductor refrigerating and heating element 21 and the second conduction assembly 23 are sequentially contained in the temperature regulation installation position from inside to outside, the semiconductor refrigerating and heating element 21 comprises a first working end face and a second working end face, the first working end face is mutually attached to the first conduction assembly 22, and the second working end face is mutually attached to the second conduction assembly 23; the first conductive assembly 22 is directed towards the storage chamber 101 and the first conductive assembly 22 is provided with the adjustment inlet and the adjustment outlet and the second conductive assembly 23 is directed towards the outside of the storage box body 1.

Further, the temperature regulating system 2 in this scheme includes the semiconductor refrigerating and heating piece 21, the first conduction subassembly 22 and the second conduction subassembly 23, because the semiconductor refrigerating and heating piece 21 of this scheme also utilizes the peltier effect to make, the peltier effect is when the direct current passes through the thermocouple that two kinds of semiconductor materials constitute, the phenomenon that thermocouple one end absorbs heat, one end is exothermic, with the regulation mode of semiconductor refrigeration and heating to the gas intensify and cool down, can effectively simplify structure and compression volume, be convenient for realize the temperature regulation of silence, and safe and reliable, convenient and practical, low in manufacturing cost, application scope is wide. It should be noted that, the cold end and the hot end of the semiconductor refrigerating and heating element 21 can be replaced simply, conveniently and quickly by changing the positive and negative directions of the incoming current.

Further describing, the temperature adjusting system 2 further includes an adjusting cover 24, where the adjusting cover 24 is detachably covered on the outside of the first conductive component 22, the adjusting cover 24 and the storage box body 1 together enclose a temperature adjusting cavity for accommodating the first conductive component 22, and the adjusting cover 24 and the dehumidifying cover 44 are located on the same side of the storage cavity 101;

an adjusting air inlet 241 and an adjusting air outlet 242 are formed in the outer plate surface of the adjusting cover 24, the adjusting air inlet 241 is arranged close to the adjusting inlet, and the adjusting air outlet 242 is arranged close to the adjusting outlet;

the first conduction assembly 22 and the condensing assembly 42 have the same structure, and the second conduction assembly 23 and the heat dissipation assembly 43 have the same structure;

the temperature regulating system 2 further comprises a positioning heat insulating member 25 and a cold conducting heat insulating member 26; the back surface of the positioning heat-insulating member 25 is attached to the front surface of the second conductive component 23, and a positioning through hole for accommodating the semiconductor refrigerating and heating member 21 is formed in the middle of the positioning heat-insulating member 25; the cold-conducting heat-insulating member 26 is abutted between the cold clot of the first conductive component 22 and the positioning heat-insulating member 25, and an installation through hole for accommodating the cold-conducting block of the first conductive component 22 is formed in the middle of the cold-conducting heat-insulating member 26.

As a preferable way of the above embodiment, the temperature adjusting system 2 is further provided with the adjusting cover 24, which can protect the semiconductor cooling and heating element 21 and the first conductive component 22 in the temperature adjusting system 2 effectively, and can enclose a relatively fixed temperature adjusting cavity in the storage cavity 101, so that the air enters the temperature adjusting cavity through the adjusting air inlet 241 for heating or cooling, and is discharged through the adjusting air outlet 242, thereby further ensuring the temperature adjusting effect of the temperature adjusting system 2.

As another preferable example of the above embodiment, the temperature adjusting system 2 is further provided with a positioning heat insulating member 25 and a cold conducting heat insulating member 26, which can perform positioning function on the installation of the semiconductor refrigerating and heating member 21 to ensure the installation stability of the semiconductor refrigerating and heating member 21, and can prevent the heat and the cold generated by the semiconductor refrigerating and heating member 21 from being dissipated sideways, so as to ensure the sufficient transfer of the heat and the cold.

Further, the storage rack 5, the adjusting panel 6, the temperature detecting component and the humidity detecting component are further included, the storage rack 5 is detachably installed in the storage cavity 101, the adjusting panel 6 is installed outside the storage box body 1, and the adjusting panel 6 is electrically connected to the temperature adjusting system 2, the humidifying system 3, the dehumidifying system 4, the temperature detecting component and the humidity detecting component respectively;

the temperature detection assembly comprises a first thermometer, a second thermometer, a third thermometer and a fourth thermometer; the first thermometer is installed outside the storage box body 1 and is used for detecting the external temperature of the storage box body 1; the second thermometer is installed in the storage chamber 101, and is used for detecting the internal temperature of the storage box body 1; the third thermometer is disposed proximate to the first conductive component 22 and is configured to detect a regulated temperature of the temperature regulation system 2; the fourth thermometer is disposed near the condensation assembly 42, and is used for detecting the dehumidification temperature of the dehumidification system 4;

the humidity detection assembly comprises a first hygrometer and a second hygrometer; the first hygrometer is mounted outside the storage box body 1 and is used for detecting the external humidity of the storage box body 1; the second hygrometer is mounted in the storage cavity 101, and is used for detecting the internal humidity of the storage box body 1.

Further, the maintenance storage box of this scheme still is provided with the storage frame 5 that is used for storing cigar, and the cigar of being convenient for is placed in order in maintenance storage box inside to ensure that it realizes even temperature and humidity control to cigar.

Furthermore, in order to promote the controllability of maintenance storage box, this scheme still adds temperature detection component and humidity detection component, is convenient for detect the temperature and humidity inside and outside the maintenance storage box to and the temperature of temperature regulation system 2 and dehumidification system 4 output to storage chamber 101 to make the user can be according to factors such as the service environment of storage box, storage demand, adjust temperature regulation system 2, humidification system 3 and dehumidification system 4's output effect through adjusting panel 6, in order to satisfy the user demand.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments in accordance with the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

The relative arrangement of the components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present utility model unless it is specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective parts shown in the drawings are not drawn in actual scale for convenience of description. Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but should be considered part of the specification where appropriate. In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further discussion thereof is necessary in subsequent figures.

In the description of the present utility model, it should be understood that the azimuth or positional relationships indicated by the azimuth terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal", and "top, bottom", etc., are generally based on the azimuth or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and these azimuth terms do not indicate and imply that the apparatus or elements referred to must have a specific azimuth or be constructed and operated in a specific azimuth, and thus should not be construed as limiting the scope of protection of the present utility model; the orientation word "inner and outer" refers to inner and outer relative to the contour of the respective component itself.

Spatially relative terms, such as "above … …," "above … …," "upper surface at … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial location relative to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "over" other devices or structures would then be oriented "below" or "beneath" the other devices or structures. Thus, the exemplary term "above … …" may include both orientations of "above … …" and "below … …". The device may also be positioned in other different ways (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

In addition, the terms "first", "second", etc. are used to define the components, and are only for convenience of distinguishing the corresponding components, and the terms have no special meaning unless otherwise stated, and therefore should not be construed as limiting the scope of the present utility model.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the present application described herein may be implemented in sequences other than those illustrated or described herein.

The technical principle of the present utility model is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the utility model and should not be taken in any way as limiting the scope of the utility model. Other embodiments of the utility model will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (10)

1. A maintenance storage box which is characterized in that: the humidifying device comprises a storage box body, a temperature regulating system, a humidifying system and a dehumidifying system, wherein a storage cavity is formed in the storage box body, the temperature regulating system, the humidifying system and the dehumidifying system are all installed on the storage box body, an adjusting inlet and an adjusting outlet of the temperature regulating system are respectively communicated with the storage cavity, a humidifying air inlet and a humidifying air outlet of the humidifying system are respectively communicated with the storage cavity, and a dehumidifying inlet and a dehumidifying outlet of the dehumidifying system are respectively communicated with the storage cavity;

the side wall of the storage box body is provided with a dehumidification installation position, and the dehumidification system is installed at the dehumidification installation position; the dehumidification system comprises a semiconductor refrigeration piece, a condensation component and a heat dissipation component, wherein the condensation component, the semiconductor refrigeration piece and the heat dissipation component are sequentially contained in the dehumidification installation position from inside to outside, the semiconductor refrigeration piece comprises a cold end face and a hot end face, the cold end face is mutually attached to the condensation component, and the hot end face is mutually attached to the heat dissipation component; the condensing assembly faces the storage cavity, the condensing assembly is provided with the dehumidifying inlet and the dehumidifying outlet, and the heat dissipation assembly faces the outside of the storage box body.

2. A curing storage case according to claim 1, characterized in that: the dehumidification system further comprises a dehumidification cover, the dehumidification cover is detachably covered outside the condensation assembly, and the dehumidification cover and the storage box body jointly enclose a dehumidification cavity for accommodating the condensation assembly;

the outer plate surface of the dehumidification cover is provided with a dehumidification air inlet and a dehumidification air outlet, the dehumidification air inlet is close to the dehumidification inlet, and the dehumidification air outlet is close to the dehumidification outlet.

3. A curing storage case according to claim 1, characterized in that: the condensing assembly comprises a cold guide block, a condensing frame and a condensing fan which are sequentially connected from outside to inside, wherein the back surface of the cold guide block is mutually attached to the cold end surface, and the front surface of the cold guide block is mutually attached to the back surface of the condensing block; the condensing fan is erected on the front surface of the cold clot through the condensing frame;

the condensing block comprises a condensing plate and a plurality of condensing sheets, the back surface of the condensing plate is mutually attached to the front surface of the cold guide block, and the condensing sheets are connected to the front surface of the condensing plate in a spaced arrangement manner;

the heat dissipation assembly comprises a heat dissipation block and a heat dissipation fan, the front surface of the heat dissipation block is mutually attached to the hot end surface, and the heat dissipation fan is arranged on the side surface of the heat dissipation block;

the heat dissipation block comprises a heat dissipation plate and a plurality of heat dissipation fins, the front face of the heat dissipation plate is mutually attached to the hot end face, and the heat dissipation fins are connected to the back face of the heat dissipation plate in a spaced arrangement mode.

4. A curing storage case according to claim 3, characterized in that: the extending direction of the condensing sheet is vertical, and the extending direction of the radiating sheet is horizontal;

the inside of storage box body still is provided with and connects the water level, just connect the water level to be located the below of condensation piece.

5. A curing storage case according to claim 3, characterized in that: the dehumidification system also comprises a positioning heat preservation piece and a cold conduction heat preservation piece; the back of the positioning heat-insulating part is mutually attached to the front of the heat radiating component, and a positioning hole for accommodating the semiconductor refrigerating sheet is formed in the middle of the positioning heat-insulating part; the cold-conducting heat-insulating piece is propped between the cold clot and the positioning heat-insulating piece, and the middle part of the cold-conducting heat-insulating piece is provided with a mounting hole for accommodating the cold-conducting block.

6. A curing storage case according to claim 2, characterized in that: the humidifying system comprises a humidifying cover, a humidifying fan, a humidifying box and an atomizer, wherein the humidifying cover is arranged in the storage box body, and the dehumidifying cover and the storage box body jointly enclose a humidifying cavity for accommodating the humidifying fan, the humidifying box and the atomizer;

the humidifying cover is provided with a bearing position, the humidifying box is detachably arranged on the bearing position, and an outlet of the humidifying box is detachably connected with an inlet of the atomizer; the outer plate surface of the humidifying cover is provided with the humidifying air inlet and the humidifying air outlet, the humidifying air inlet is close to the outlet of the atomizer, and the humidifying fan is close to the humidifying air outlet.

7. A curing storage case as defined in claim 6, wherein: the inner side wall of the bearing position is provided with a positioning groove, the outer side wall of the humidifying box is provided with a positioning rib in a protruding mode, and the positioning rib is detachably arranged in the positioning groove;

the outer plate surface of the humidifying cover is provided with a vertically extending avoiding hole, and the extending length of the avoiding hole is greater than or equal to the liquid level depth of the humidifying box.

8. A curing storage case according to claim 2, characterized in that: the side wall of the storage box body is provided with a temperature regulation installation position, and the temperature regulation system is installed at the temperature regulation installation position;

the temperature regulating system comprises a semiconductor refrigerating and heating element, a first conducting component and a second conducting component, wherein the first conducting component, the semiconductor refrigerating and heating element and the second conducting component are sequentially contained in the temperature regulating installation position from inside to outside, the semiconductor refrigerating and heating element comprises a first working end face and a second working end face, the first working end face is mutually attached to the first conducting component, and the second working end face is mutually attached to the second conducting component; the first conductive assembly faces the storage chamber, and is provided with the adjustment inlet and the adjustment outlet, and the second conductive assembly faces the outside of the storage case body.

9. A curing storage case according to claim 8, characterized in that: the temperature regulation system further comprises a regulation cover, the regulation cover is detachably covered outside the first conduction assembly, the regulation cover and the storage box body jointly enclose a temperature regulation cavity for accommodating the first conduction assembly, and the regulation cover and the dehumidification cover are positioned on the same side of the storage cavity;

an adjusting air inlet and an adjusting air outlet are formed in the outer plate surface of the adjusting cover, the adjusting air inlet is close to the adjusting inlet, and the adjusting air outlet is close to the adjusting outlet;

the first conduction assembly and the condensing assembly have the same structure, and the second conduction assembly and the heat dissipation assembly have the same structure;

the temperature regulating system also comprises a positioning heat insulating piece and a cold conducting heat insulating piece; the back surface of the positioning heat-insulating piece is mutually attached to the front surface of the second conduction component, and a positioning through hole for accommodating the semiconductor refrigerating and heating piece is formed in the middle of the positioning heat-insulating piece; the cold conduction heat insulation piece is propped between the cold clot of the first conduction assembly and the positioning heat insulation piece, and the middle part of the cold conduction heat insulation piece is provided with an installation through hole for accommodating the cold conduction block of the first conduction assembly.

10. A curing storage case according to claim 8, characterized in that: the storage rack is detachably arranged in the storage cavity, the adjusting panel is arranged outside the storage box body, and the adjusting panel is respectively and electrically connected with the temperature adjusting system, the humidifying system, the dehumidifying system, the temperature detecting assembly and the humidity detecting assembly;

the temperature detection assembly comprises a first thermometer, a second thermometer, a third thermometer and a fourth thermometer; the first thermometer is arranged outside the storage box body and is used for detecting the external temperature of the storage box body; the second thermometer is arranged in the storage cavity and is used for detecting the internal temperature of the storage box body; the third thermometer is arranged close to the first conduction component and is used for detecting the regulating temperature of the temperature regulating system; the fourth thermometer is arranged close to the condensation assembly and is used for detecting the dehumidification temperature of the dehumidification system;

the humidity detection assembly comprises a first hygrometer and a second hygrometer; the first hygrometer is arranged outside the storage box body and is used for detecting the external humidity of the storage box body; the second hygrometer is installed in the storage cavity, and the second hygrometer is used for detecting the internal humidity of the storage box body.