CN109110298A - Stored dry device - Google Patents

Abstract

The present invention provides a kind of stored dry device, including cabinet (10), chamber door (11) and insulating assembly, and the chamber door (11) and the cabinet (10) enclose jointly and be set as enclosure space；The insulating assembly, which is installed in the enclosure space and is divided into the enclosure space, is used to store the storage chamber (101) of article, the refrigerated dehumidification chamber (102) for dehumidifying to air cooling and the heating chamber (103) for heating to the air after refrigerated dehumidification, and airflow circulating channel is formed between the storage chamber (101), the refrigerated dehumidification chamber (102) and the heating chamber (103).On the one hand stored dry device of the invention guarantees that the temperature and humidity in storage chamber is maintained at OK range, achievees the purpose that dry by airflow circulating dehumidifying, heat treatment；On the other hand the efficiency of dehumidifying is promoted.

Description

Stored dry device

Technical field

The present invention relates to household appliance technical field more particularly to a kind of stored dry devices.

Background technique

Food storing is the very important component part in daily life.Numerous food product is both needed to protect in dry conditions It deposits, especially in the case where opening bag with greater need for kept dry, such as biscuit, noodles, dry fruit, medicinal material etc., is otherwise easy to become Matter influences mouthfeel even mould growth and cannot eat, and causes a large amount of wasting of resources.Refrigerator is existing Main Foods storage Mode is deposited, but refrigerator mainly reaches fresh-keeping purpose by low temperature, humidity cannot be controlled well, without functions/drying.

Summary of the invention

In view of this, storage temperature and humidity can be maintained to the dry of OK range an embodiment of the present invention is intended to provide a kind of Dry storage device.

In order to achieve the above objectives, the embodiment of the present invention provides a kind of stored dry device, including cabinet and insulating assembly, Enclosure space is formed in the cabinet；The insulating assembly is installed in the enclosure space and is divided into the enclosure space For storing the storage chamber of article, the refrigerated dehumidification chamber for dehumidifying to air cooling and for the sky after refrigerated dehumidification It is logical to form airflow circulating for the heating chamber that gas is heated between the storage chamber, the refrigerated dehumidification chamber and the heating chamber Road, so that the gas in the storage chamber successively returns to the storage chamber after the refrigerated dehumidification chamber and the heating chamber.

Further, corresponding side wall encloses and is set as the heating chamber insulating assembly with the cabinet.

Further, multiple heat bulges are formed on the side wall corresponding with the heating chamber.

Further, the insulating assembly includes the first thermal insulation board and the second thermal insulation board, first thermal insulation board and described Form the refrigerated dehumidification chamber between second thermal insulation board, first thermal insulation board be located at second thermal insulation board with it is corresponding described Between side wall, the heating chamber is formed between first thermal insulation board and the corresponding side wall.

Further, it is spaced apart from each other at the top of the top of second thermal insulation board and the cabinet, first thermal insulation board Top and the cabinet top between form return air hole；Alternatively, the top at the top of second thermal insulation board and the cabinet Portion abuts, and the top of first thermal insulation board is formed with return air hole；Air-flow in the heating chamber is back to through the return air hole The storage chamber.

Further, the part edge of first thermal insulation board is fixedly connected with the cabinet, first thermal insulation board Bottom and the bottom of the cabinet are spaced apart from each other, and the bottom of first thermal insulation board is connect with the bottom of the cabinet, the system Cold dehumidifying chamber is connected to by first thermal insulation board with the interval between the bottom of the cabinet with the heating chamber.

Further, the stored dry device includes the water removal portion for being set to the bottom of box, at least partly It removes through the condensed steam of the refrigerated dehumidification chamber or condensed water.

Further, the stored dry device includes for stopping the water conservancy diversion from the intracavitary air-flow of the refrigerated dehumidification Separating plate, the water conservancy diversion separating plate are set to the connectivity part of the refrigerated dehumidification chamber and the heating chamber.

Further, the stored dry device includes the spacer portion being set in the storage chamber, the storage chamber packet Include the second storage chamber positioned at the first storage chamber of the spacer portion side and positioned at the spacer portion other side, first storage It deposits chamber and second storage chamber is interconnected, be formed with the first air inlet between first storage chamber and the refrigerated dehumidification chamber Hole is formed with the second air inlet hole between second storage chamber and the refrigerated dehumidification chamber.

Further, the spacer portion is horizontal positioned, and the spacer portion is supported in the top of second thermal insulation board, and institute The end for stating spacer portion is abutted with first thermal insulation board；It is formed with first air inlet hole in the spacer portion, described first Air inlet hole is in the interval between second thermal insulation board and first thermal insulation board；It is formed on second thermal insulation board State the second air inlet hole.

Further, the stored dry device includes refrigerating plant, the refrigerating plant include semiconductor chilling plate, with The condensation part of the cold end connection of the semiconductor chilling plate and the radiating part being connect with the hot end of the semiconductor chilling plate, Mounting hole is formed on first thermal insulation board, the semiconductor chilling plate is embedded in the mounting hole, the condensation position Intracavitary in the refrigerated dehumidification, the radiating part is located in the heating chamber.

Further, it is spaced between the end and second thermal insulation board towards second thermal insulation board of the condensation part Setting.

Further, the end towards the corresponding side wall of the radiating part is abutted with the corresponding side wall.

Further, the stored dry device includes blower, and the blower is set in the heating chamber.

Further, the insulating assembly is set to the side opposite with the chamber door of the cabinet.

The stored dry device of the embodiment of the present invention, the gas of entrainment of moisture initially enters refrigerated dehumidification chamber in storage chamber, Dehumidification by condensation processing is carried out in refrigerated dehumidification chamber to reduce the moisture content of gas, enters back into heating chamber later, heating chamber is to warp The gas heating processing for crossing refrigerated dehumidification restores the temperature of gas to before not dehumidifying, and the gas after heating turns again to storage It is intracavitary, it loops back and forth like this, by airflow circulating dehumidifying, heat treatment, on the one hand guarantees that the temperature and humidity in storage chamber is protected It holds in OK range, achievees the purpose that dry；On the other hand the efficiency of dehumidifying is promoted.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the stored dry device of the embodiment of the present invention, wherein direction shown in arrow is air stream Dynamic direction.

Description of symbols

10, cabinet 11, chamber door 12, the first side wall 13, second sidewall

13a, heat bulge 101, storage chamber 101a, the first storage chamber 102, refrigerated dehumidification chamber

101b, the second storage chamber 103, heating chamber 10a, the first air inlet hole 10b, the second air inlet hole

10c, return air hole 21, the first thermal insulation board 22, the second thermal insulation board 30, refrigerating plant

31, semiconductor chilling plate 32, condensation part 33, radiating part 40, spacer portion

40a, through hole 50, water removal portion 60, water conservancy diversion separating plate 70, blower

Specific embodiment

For attached drawing 1, the top in attached drawing 1 is for noun of locality "upper" that the embodiment of the present invention uses, "lower" "upper", lower section are "lower".

The embodiment of the present invention provides a kind of stored dry device, referring to Fig. 1, the stored dry device include cabinet 10, Chamber door 11, insulating assembly and refrigerating plant 30, chamber door 11 can be opened and closed the side for being set to cabinet 10, cabinet 10 and chamber door 11 It encloses and is set in enclosure space jointly, insulating assembly is set in the enclosure space.Enclosure space is divided by insulating assembly to be used to deposit Put the storage chamber 101 of article, the refrigerated dehumidification chamber 102 for dehumidifying to air cooling and for the air after refrigerated dehumidification The heating chamber 103 heated forms airflow circulating channel between storage chamber 101, refrigerated dehumidification chamber 102 and heating chamber 103, So that the gas in storage chamber 101 successively returns to storage chamber 101 after refrigerated dehumidification chamber 102 and heating chamber 103.Specifically, it stores up The gas for depositing entrainment of moisture in chamber 101 initially enters refrigerated dehumidification chamber 102, carries out at dehumidification by condensation in refrigerated dehumidification chamber 102 It manages to reduce the moisture content of gas, enters back into heating chamber 103 later, 103 pairs of heating chamber are passed through at the gas heating of refrigerated dehumidification Reason restores the temperature of gas to before not dehumidifying, and the gas after heating turns again in storage chamber 101, loops back and forth like this, It is dehumidified and is heated by airflow circulating, on the one hand guaranteed that the temperature and humidity in storage chamber 101 is maintained at OK range, reach The purpose of drying；On the other hand the efficiency of dehumidifying is promoted.

The shape of cabinet 10 can be various shape, for example, cube, cuboid, cylindrical body etc., the shape of chamber door 11 with Cabinet 10 matches.In the embodiment of the present invention, the shape of cabinet 10 is substantially in cuboid-type, and chamber door 11 is set to cabinet 10 Side.For convenience of description, in the embodiment of the present invention, the side wall of the installation chamber door 11 of cabinet 10 is the first side wall 12, with this first The opposite side wall of side wall 12 is second sidewall 13, and the side wall for being folded in two intervals between the first side wall 12 and second sidewall 13 is Third side wall (figure does not indicate).

In order to making the extra heat in heating chamber 103 radiate in time, between insulating assembly and the side wall of cabinet 10 It encloses and is set as above-mentioned heating chamber 103.That is, the side wall of cabinet 10 constitutes a part of the cavity wall of heating chamber 103, heating chamber Waste heat in 103 is effectively radiated by the side wall of cabinet 10, so that the gas temperature in heating chamber 103 is maintained at not Temperature before dehumidifying, so that the temperature in storage chamber 101 is not after the gas in heating chamber 103 is recycled into storage chamber 101 Become or variation is very small, so that the temperature in entire stored dry device is maintained at suitable range.It should be noted that every Hot component can be set close to second sidewall 13 or in third side-walls, the embodiment of the present invention, and insulating assembly is arranged In at second sidewall 13, that is, it is set to the side opposite with chamber door 11 of cabinet 10, in this way, the entirety of stored dry device Structure relative symmetry, integral layout is more reasonable, more attractive.

Insulating assembly includes the first thermal insulation board 21 and the second thermal insulation board 22, and the first thermal insulation board 21 is located at 22 He of the second thermal insulation board Between corresponding side wall, i.e., between the second thermal insulation board 22 and second sidewall 13.First thermal insulation board 21 and the second thermal insulation board 22 Either tabular, is also possible to the plate of bending, bending, herein with no restrictions.In the present embodiment, 21 He of the first thermal insulation board Second thermal insulation board 22 is substantially in tabular.The two sides of first thermal insulation board 21 are sealed against with third side wall respectively, at this point, first every Hot plate 21, two third side walls and second sidewall 13 enclose jointly and are set as heating chamber 103.In a unshowned embodiment, first Thermal insulation board 21 is bending plate, and two pairs of two sides of the first thermal insulation board 21 are sealed against with second sidewall 13, at this point, first is heat-insulated Plate 21 and second sidewall 13 are enclosed jointly is set as heating chamber 103.

Since the high gas collection of temperature is in the top of heating chamber 103, the present embodiment, the top of the first thermal insulation board 21 with The top of cabinet 10 is tightly connected, also, the top of first thermal insulation board 21 is formed with multiple return air hole 10c, circulating air circulation Road passes through return air hole 10c, that is to say, that the hot gas in heating chamber 103 flows through return air hole 10c and is back in storage chamber 101. In another unshowned embodiment, be spaced apart from each other between the top of the first thermal insulation board 21 and the top of cabinet 10, first every Above-mentioned return air hole 10c is formed between the top of hot plate 21 and the top of cabinet 10.The bottom of first thermal insulation board 21 and cabinet 10 Bottom be spaced apart from each other, i.e., the bottom of the first thermal insulation board 21 is in vacant state, convenient for the cold airflow in refrigerated dehumidification chamber 102 from The lower section of first thermal insulation board 21 enters in heating chamber 103, that is to say, that refrigerated dehumidification chamber 102 and heating chamber 103 by first every Interval between hot plate 21 and the bottom of cabinet 10 is connected to.

Second thermal insulation board 22 is substantially parallel with the first thermal insulation board 21, and the opposite sides of the second thermal insulation board 22 is respectively at second side Wall 13 seals against, and the bottom of the second thermal insulation board 22 is abutted with the sealed bottom of cabinet 10, the first thermal insulation board 21, second every Hot plate 22 and two third thermal insulation boards enclose jointly and are set as refrigerated dehumidification chamber 102.Shape between refrigerated dehumidification chamber 102 and storage chamber 101 At there is air inlet hole, the gas in storage chamber 101 enters in refrigerated dehumidification chamber 102 through air inlet.The top of second thermal insulation board 22 is outstanding Sky is abutted with the first thermal insulation board 21, and in the present embodiment, the top of the second thermal insulation board 22 is hanging, i.e. the top of the second thermal insulation board 22 Portion is not abutted at the top of cabinet 10, is not also abutted with the first thermal insulation board 21, the top of the second thermal insulation board 22 and the first thermal insulation board 21 Between gap can form air inlet, it is of course also possible to form air inlet on the second thermal insulation board 22.

For the space utilization rate convenient for promoting storage chamber 101, in the embodiment of the present invention, stored dry device includes spacer portion 40, storage chamber 101 is divided into the first storage chamber 101a being positioned above by spacer portion 40 and second be disposed below stores Chamber 101b is formed with multiple through hole 40a, the first storage chamber 101a and the second storage chamber 101b in spacer portion 40 and passes through through hole 40a is interconnected, and the first air inlet hole 10a, the second storage chamber are formed between the first storage chamber 101a and refrigerated dehumidification chamber 102 The second air inlet hole 10b is formed between 101b and refrigerated dehumidification chamber 102.For the installation convenient for spacer portion 40, spacer portion 40 is substantially In plate with holes, be interconnected convenient for the first storage chamber 101a and the second storage chamber 101b, the two sides of spacer portion 40 respectively with The connection of third side wall, and spacer portion 40 is supported in the top of the second thermal insulation board 22, is increased using the supporting role of the second thermal insulation board 22 The installation reliability of strong spacer portion 40.Further, the end of spacer portion 40 is abutted with the first thermal insulation board 21, is formed in spacer portion 40 There is the first air inlet hole 10a, the first air inlet hole 10a in the interval between the second thermal insulation board 22 and the first thermal insulation board 21；Second The second air inlet hole 10b is formed on thermal insulation board 22.

It is understood that more spacer portions 40 can also be set as needed in storage chamber 101.Spacer portion 40 can To be horizontally arranged, it is also possible to place vertically.

Refrigerating plant 30 include semiconductor chilling plate 31, the condensation part 32 that is connect with the cold end of semiconductor chilling plate 31 and The radiating part 33 being connect with the hot end of semiconductor chilling plate 31.The lower part of first thermal insulation board 21 is formed with mounting hole (not shown), Semiconductor chilling plate 31 is embedded in the mounting hole, and condensation part 32 convexedly stretches in refrigerated dehumidification chamber from the cold end of semiconductor chilling plate 31 In 102, radiating part 33 convexedly stretches in heating chamber 103 from the hot end of semiconductor chilling plate 31, the knot of condensation part 32 and radiating part 33 Configuration formula is unlimited, such as can be fin structure, walled structure, heat pipe structure etc., herein with no restrictions.Further, Semiconductor chilling plate 31 with a thickness of 3-10mm, when semiconductor chilling plate 31 is powered, the temperature of cold end can be down to subzero 10 ~20 DEG C, the temperature in hot end is absorbed the low temperature of its cold end by condensation part 32, meets low temperature dehumidification enough up to 30~60 DEG C Effect；Radiating part 33 absorbs the high temperature in its hot end, meets enough to the atmosphere temperature rising after low temperature dehumidification to predetermined temperature, realizes The air drying of stored dry device stores.Furthermore the heat-proof quality of the first thermal insulation board 21, so that semiconductor chilling plate 31 is cold The preferable temperature difference is maintained between end and hot end, promotes condensation and the heat dissipation effect of refrigerating plant 30.The drying of the embodiment of the present invention Storage device structure is simple, ingenious in design, realizes refrigerated dehumidification and heating by the cold and hot both ends of semiconductor chilling plate 31 Effect.

In order to keep the condensation part 32 in refrigerated dehumidification chamber 102 topical hypothermia condensation effect, the direction of condensation part 32 It is spaced setting between the end of second thermal insulation board 22 and the second thermal insulation board 22, prevents the part low-temperature heat quantity of condensation part 32 by second Thermal insulation board 22 absorbs to influence condensation effect.In order to accelerate distributing for the waste heat in heating chamber 103, the court of radiating part 33 It is abutted to the end of second sidewall 13 with second sidewall 13, the partial heat of radiating part 33 is passed into second sidewall 13, by force Change the heat sinking function of second sidewall 13.

In the present embodiment, stored dry device includes water conservancy diversion separating plate 60, blower 70 and removing positioned at 10 bottom of cabinet Water portion 50.Water removal portion 50 is on the airflow circulating channel between condensation part 32 and radiating part 33, the gas in storage chamber 101 After refrigerated dehumidification chamber 102, the part steam being mixed in gas forms condensed water under the low temperature environment of condensation part 32, condensation Water converges into 10 bottom of cabinet naturally, eliminates through water removal portion 50.Water conservancy diversion separating plate 60 is set to refrigerated dehumidification chamber 102 and heating chamber 103 connectivity part specifically in the present embodiment, is set between the bottom of the first thermal insulation board 21 and the bottom of cabinet 10 to hinder The condensing gas stream in refrigerated dehumidification chamber 102 is kept off, gas-liquid separation is facilitated, reinforces the effect on moisture extraction of stored dry device.Wind Machine 70 is set on airflow circulating channel, for accelerating gas flow rate to form effective gas circulation, specifically, the present embodiment In, blower 70 is set in heating chamber 103.

The foregoing is only a preferred embodiment of the present invention, is not intended to limit the scope of the present invention.

Claims (15)

1. stored dry device, which is characterized in that including cabinet (10) and insulating assembly, form closing in the cabinet (10) Space；The insulating assembly is installed in the enclosure space and the enclosure space is divided into the storage for being used to store article Chamber (101), the refrigerated dehumidification chamber (102) for dehumidifying to air cooling and for adding to the air after refrigerated dehumidification The heating chamber (103) of heat, shape between the storage chamber (101), the refrigerated dehumidification chamber (102) and the heating chamber (103) At airflow circulating channel, so that the gas in the storage chamber (101) is successively through the refrigerated dehumidification chamber (102) and the heating Chamber (103) returns to the storage chamber (101) afterwards.

2. stored dry device according to claim 1, which is characterized in that the insulating assembly and the cabinet (10) Corresponding side wall, which encloses, is set as the heating chamber (103).

3. stored dry device according to claim 2, which is characterized in that corresponding with the heating chamber (103) described Multiple heat bulges (13a) is formed on side wall.

4. stored dry device according to claim 2, which is characterized in that the insulating assembly includes the first thermal insulation board (21) and the second thermal insulation board (22) refrigeration, is formed between first thermal insulation board (21) and second thermal insulation board (22) to remove Wet chamber (102), first thermal insulation board (21) is between second thermal insulation board (22) and the corresponding side wall, and described The heating chamber (103) are formed between one thermal insulation board (21) and the corresponding side wall.

5. stored dry device according to claim 4, which is characterized in that the top of second thermal insulation board (22) and institute It states and is spaced apart from each other at the top of cabinet (10), formed between the top of first thermal insulation board (21) and the top of the cabinet (10) Return air hole (10c)；Alternatively, the top of second thermal insulation board (22) is abutted with the top of the cabinet (10), described first every The top of hot plate (21) is formed with return air hole (10c)；Air-flow in the heating chamber (103) flows back through the return air hole (10c) To the storage chamber (101).

6. stored dry device according to claim 4, which is characterized in that the part edge of first thermal insulation board (21) It being fixedly connected with the cabinet (10), the bottom of first thermal insulation board (21) and the bottom of the cabinet (10) are spaced apart from each other, The bottom of first thermal insulation board (21) is connect with the bottom of the cabinet (10), and the refrigerated dehumidification chamber (102) adds with described Hot chamber (103) is connected to by first thermal insulation board (21) with the interval between the bottom of the cabinet (10).

7. stored dry device according to claim 4, which is characterized in that the stored dry device includes being set to institute The water removal portion (50) of cabinet (10) bottom is stated, at least partly to remove through the condensed steam of the refrigerated dehumidification chamber (102) Or condensed water.

8. stored dry device according to claim 4, which is characterized in that the stored dry device includes for stopping The water conservancy diversion separating plate (60) of air-flow in the refrigerated dehumidification chamber (102), the water conservancy diversion separating plate (60) are set to described The connectivity part of refrigerated dehumidification chamber (102) and the heating chamber (103).

9. stored dry device according to claim 4, which is characterized in that the stored dry device includes being set to institute The spacer portion (40) in storage chamber (101) is stated, the storage chamber (101) includes the first storage positioned at the spacer portion (40) side Deposit chamber (101a) and be located at the spacer portion (40) other side the second storage chamber (101b), first storage chamber (101a) and Second storage chamber (101b) is interconnected, shape between first storage chamber (101a) and the refrigerated dehumidification chamber (102) At having the first air inlet hole (10a), be formed between second storage chamber (101b) and the refrigerated dehumidification chamber (102) second into Air holes (10b).

10. stored dry device according to claim 9, which is characterized in that the spacer portion (40) is horizontal positioned, described Spacer portion (40) is supported in the top of second thermal insulation board (22), and the end of the spacer portion (40) and described first heat-insulated Plate (21) abuts；First air inlet hole (10a) is formed on the spacer portion (40), first air inlet hole (10a) is located at In interval between second thermal insulation board (22) and first thermal insulation board (21)；It is formed on second thermal insulation board (22) Second air inlet hole (10b).

11. stored dry device according to claim 4, which is characterized in that the stored dry device includes refrigeration dress It sets (30), the refrigerating plant (30) includes semiconductor chilling plate (31), connect with the cold end of the semiconductor chilling plate (31) Condensation part (32) and the radiating part (33) that is connect with the hot end of the semiconductor chilling plate (31), first thermal insulation board (21) mounting hole is formed on, the semiconductor chilling plate (31) is embedded in the mounting hole, and the condensation part (32) is located at In the refrigerated dehumidification chamber (102), the radiating part (33) is located in the heating chamber (103).

12. stored dry device according to claim 11, which is characterized in that the condensation part (32) towards described Setting is spaced between the end of two thermal insulation boards (22) and second thermal insulation board (22).

13. stored dry device according to claim 11, which is characterized in that the radiating part (33) towards corresponding The end of the side wall is abutted with the corresponding side wall.

14. -13 described in any item stored dry devices according to claim 1, which is characterized in that the stored dry device packet It includes blower (70), the blower (70) is set in the heating chamber (103).

15. -13 described in any item stored dry devices according to claim 1, which is characterized in that the insulating assembly is set to The side opposite with the chamber door (11) of the cabinet (10).