CN215428139U

CN215428139U - Split type circulated physics dehumidifier

Info

Publication number: CN215428139U
Application number: CN202120053402.3U
Authority: CN
Inventors: 佘江法; 蔡梅兰
Original assignee: Shenzhen Reflying Intelligent Technology Co ltd
Current assignee: Shenzhen Reflying Intelligent Technology Co ltd
Priority date: 2021-01-08
Filing date: 2021-01-08
Publication date: 2022-01-07
Anticipated expiration: 2031-01-08

Abstract

The utility model discloses a split type recyclable physical dehumidifier which comprises a dehumidifying sheet, wherein dehumidifying particles are arranged in the dehumidifying sheet, and the dehumidifying sheet is provided with a through moisture-absorbing vent hole; a saturation indicating component is arranged on the dehumidifying sheet; the drying base is provided with a drying assembly, the top surface of the drying base is provided with a plurality of drying slots matched with the dehumidification sheets in shape and size, and drying air holes are formed in the drying slots. According to the utility model, the dehumidifying pieces can be inserted into the drying slots, and the drying air blown out from the drying base takes away the moisture absorbed by the dehumidifying particles, so that simultaneous drying of a plurality of dehumidifying pieces is realized, the drying requirements of a plurality of domestic dehumidifying areas are met, and the drying efficiency is improved. The dehumidification module adopts the sheet design, reduces the size of the space occupied by the dehumidification module, and avoids the storage capacity of the wardrobe and the drawer from being reduced due to the excessive occupied storage space. The dehumidification piece indicates the saturation degree of dehumidification granule through saturation indicating component, and the accuracy is high.

Description

Split type circulated physics dehumidifier

Technical Field

The utility model relates to the technical field of dehumidifiers, in particular to a split type recyclable physical dehumidifier.

Background

The most suitable relative humidity of human body is 45 ~ 65% RH, and indoor humidity is too high easily causes diseases such as eczema, and the clothing is in the environment that humidity is too high for a long time easily leads to clothing fibre impaired, influences the life-span of clothing, still breeds the mould easily. With the continuous innovation of dehumidification technology, the dehumidifier is more and more popular in the market.

At present, common dehumidifiers on the market are all indoor dehumidifiers suitable for being used in the whole indoor room, are large in size and are not suitable for narrow space in a wardrobe; and the indoor dehumidifier is provided with the open water storage box to recover moisture, and the moisture can be leaked along the water collecting pipe, so that the dehumidifying effect is influenced. In addition, the indoor dehumidifier is unstable to put and can overturn, so that the risk of wetting clothes exists.

Therefore, users usually select a dehumidifying bag or a dehumidifying box to dehumidify a small space such as a wardrobe. The dehumidification box mainly comprises substances such as calcium chloride and activated carbon particles, is used for removing moisture in humid indoor air and reducing air, and has a good dehumidification effect. However, the common dehumidification boxes or dehumidification bags in the market are disposable articles, and when calcium chloride in the dehumidification boxes or dehumidification bags is completely melted, the dehumidification effect is not achieved, the dehumidification boxes or dehumidification bags cannot be recycled, and the dehumidification cost is high.

Therefore, the chinese patent CN110454879A provides a separate physical dehumidification box and a dehumidification method, including a dehumidification module for performing dehumidification by physical characteristics of dehumidification particles; be linked together with the dehumidification module, realize that outside air becomes the heating module that hot-air evenly distributes from dehumidification module all around through the passageway. This disconnect-type physics dehumidification box has convenient, the reduction is fast, need not the circular telegram during dehumidification, and work safety, convenient to use, dehumidification module absorb saturation back, only need put into the product base of circular telegram with the dehumidification module, just can restore the dehumidification ability of dehumidification module fast.

However, the above-mentioned separate type physical dehumidifying cartridge has the following disadvantages:

(1) the dehumidifying modules are cylindrical, so that the occupied space is large in volume, and the storage capacity of the storage space is greatly reduced when the dehumidifying modules are placed in storage spaces such as a wardrobe or a drawer;

(2) heating module on the base can only dry to a dehumidification module at every turn, and general domestic dehumidification is regional more, and the heating module drying efficiency of base is low.

In view of this, it is urgently needed to improve the structure of the existing separation type physical dehumidification box so as to meet the dehumidification requirements of a narrow storage space and a plurality of dehumidification areas and improve the drying efficiency of the base.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems that a dehumidification module of the existing separated physical dehumidification box occupies a large space, a heating module does not meet the drying requirements of multiple dehumidification areas, and the drying efficiency is low.

In order to solve the technical problems, the technical scheme adopted by the utility model is as follows:

a split-type, recyclable physical dehumidifier comprising:

the dehumidification sheet is internally provided with dehumidification particles, and the dehumidification sheet is provided with through moisture absorption ventilation holes; a saturation indicating component is arranged on the dehumidifying sheet;

the drying base is provided with a drying assembly, the top surface of the drying base is provided with a plurality of drying slots matched with the dehumidification sheets in shape and size, and drying air holes are formed in the drying slots.

In the scheme, the dehumidification sheet shell is a square shell, and the top surface, the bottom surface, the left side surface and the right side surface of the square shell are provided with the moisture absorption ventilation holes; the drying air holes comprise first drying air holes arranged on the side walls of the drying slots and second drying air holes arranged on the bottom surfaces of the drying slots; the second drying air hole is opposite to the moisture absorption air hole in the bottom surface of the dehumidification sheet shell.

In this scheme, the moisture absorption ventilation hole is parallel and crisscross slot hole that sets up, be equipped with the filter screen on the outer terminal surface in moisture absorption ventilation hole.

In this scheme, the stoving base includes base housing, base housing includes:

the drying slot is arranged on the top surface of the top shell, and the dehumidifying sheet can be inserted into the drying slot for drying;

the bottom shell is installed on the bottom surface of the top shell, and an air inlet hole is formed in the bottom shell.

In this scheme, the fresh air inlet sets up on the bottom surface of drain pan, still be equipped with the stabilizer blade on the bottom surface of drain pan.

In this scheme, still be equipped with in the stoving pedestal shell:

the heating assembly is arranged in the top shell and used for providing hot air for drying the dehumidifying sheets;

the fan assembly is arranged below the heating assembly and used for blowing hot air out along the drying air holes;

a power supply assembly for supplying power to the heating assembly and the fan assembly.

In this aspect, the saturation indicating component includes:

the sensor and the power supply assembly are arranged in the dehumidification slice shell, and the sensor is in contact with the dehumidification particles to detect the saturation of the dehumidification particles;

and the indicating lamp is connected with the sensor and changes the indicating state of the indicating lamp according to the detection signal of the sensor.

In the scheme, a power switch button connected with a power supply assembly is arranged on the side surface of the top shell.

In this scheme, still be equipped with on the dehumidification piece casing with supply the charging socket of some subassembly switch-on.

In the scheme, four side edges of the dehumidification sheet shell are provided with chamfers.

Compared with the prior art, the split type recyclable physical dehumidifier provided by the utility model has the advantages that the plurality of drying slots are formed in the dehumidifying base, the dehumidifying sheets can be inserted into the drying slots, and the moisture absorbed by dehumidifying particles is taken away by drying air blown out from the drying base, so that the dehumidifying sheets can be dried simultaneously, the drying requirements of a plurality of household dehumidifying areas are met, and the drying efficiency is improved. The dehumidification module adopts the sheet design, reduces the size of the space occupied by the dehumidification module, and avoids the storage capacity of the wardrobe and the drawer from being reduced due to the excessive occupied storage space. The dehumidification piece indicates the saturation degree of dehumidification granule through saturation indicating component, and the accuracy is high.

Drawings

FIG. 1 is a perspective view of a split type recyclable physical dehumidifier of the present invention;

FIG. 2 is a side view of the split type recyclable physical dehumidifier of the present invention;

FIG. 3 is a schematic view of the dehumidifier of the present invention.

The correspondence between the names and the reference numbers of the components in fig. 1 to 3 is as follows:

drying base 1, dehumidification piece 2, base casing 10, top shell 11, drain pan 12, stoving slot 111, stabilizer blade 122, switch 112, dehumidification piece casing 20, chamfer 201, moisture absorption ventilation hole 21, filter screen 22, pilot lamp 23, charging socket 24.

Detailed Description

The utility model provides a split type recyclable physical dehumidifier, which is characterized in that a dehumidifying sheet is inserted into a drying slot on a drying base, drying air enters a moisture absorption ventilation hole to take away moisture absorbed by dehumidifying particles, so that the dehumidifying particles are dried, and excessive storage space is avoided; the drying of a plurality of dehumidification pieces is realized, and the drying requirement of a plurality of domestic dehumidification areas is satisfied. The utility model is described in detail below with reference to the drawings and the detailed description.

As shown in fig. 1, 2 and 3, the split type recyclable physical dehumidifier provided by the utility model comprises a drying base 1 and a dehumidifying sheet 2.

The drying base 1 comprises a base shell 10, and a drying component is arranged in the base shell 10. The base shell 10 includes a top shell 11 and a bottom shell 12, a plurality of drying slots 111 are provided on the top surface of the top shell 11, and drying air holes are provided on the drying slots 111. The drying air holes comprise first drying air holes and second drying air holes, the first drying air holes are formed in the side walls of the drying slots, and the second drying air holes are formed in the bottom surfaces of the drying slots.

Bottom case 12 is mounted on the bottom surface of top case 11, and air inlet holes and support legs 122 are formed on the bottom surface of bottom case 12 to facilitate the external air to enter into base housing 10 through the air inlet holes.

The drying base 1 is also internally provided with a heating component, a fan component and a power supply component (not shown in the figure), and the heating component is arranged in the top shell 11 and used for providing hot drying air. The fan assembly is arranged below the heating assembly and used for blowing hot drying air out of the drying air holes. The power supply assembly is used for supplying power to the heating assembly and the fan assembly, is communicated with a power switch 112 arranged on the side surface of the top shell 11, and is controlled to be switched on and off through the power switch 112.

The dehumidifying sheet 2 comprises a dehumidifying sheet shell 20, and dehumidifying particles are arranged in the dehumidifying sheet shell 20. The dehumidifying sheet housing 20 is a square housing, and is adapted to the shape and size of the drying slot 111. The four side edges of the dehumidification sheet shell 20 are provided with chamfers 201, so that collision when the dehumidification sheet 2 is inserted into the drying slot 111 is avoided, and the service life of the dehumidification sheet 2 is prolonged.

The top and bottom surfaces and the left and right side surfaces of the dehumidifying sheet housing 20 are provided with moisture absorbing vent holes 21 therethrough. The moisture absorption vent holes 21 are long holes which are arranged in parallel and in a staggered manner, and the outer end faces of the moisture absorption vent holes 21 are provided with filter screens 22, so that the dehumidification particles in the dehumidification sheet shell 20 are prevented from being polluted.

The dehumidification sheet housing 20 is further provided with a saturation indication assembly. The saturation indicating component comprises a sensor, a power supply component and an indicating lamp 23, the sensor and the power supply component are arranged in the dehumidifying sheet shell 20, and the sensor is in contact with the dehumidifying particles to detect the saturation degree of the dehumidifying particles. The indicator lamp 23 is provided on the dehumidifying sheet housing 20, and changes its indicating state according to the detection signal of the sensor. The power supply assembly is in communication with the sensor and indicator light 22 and supplies power to the sensor and indicator light 23. The dehumidifier housing 20 is also provided with a charging socket 24 which is connected to the power supply module and can be used to charge the power supply module.

The working process of the utility model is as follows:

the user places the dehumidifying sheet 2 in a storage space such as a wardrobe, a drawer and the like for moisture absorption and dehumidification according to the indoor humidity condition. The moisture absorption vent holes 21 on the dehumidification sheet shell 20 are long holes, which can improve the contact surface between dehumidification particles and air, and carry out rapid dehumidification. The sensor real-time detection dehumidification granule's in dehumidification piece 2 saturation, when the dehumidification granule reached saturation state, the sensor passed through control circuit to pilot lamp 22 signals, and pilot lamp 22 instructs the state change, and the user knows the dehumidification granule according to the state change of pilot lamp 22 and reaches saturation state, can utilize stoving base 1 stoving dehumidification granule.

After the drying base 1 is powered on, the heating assembly is driven to heat the air in the base shell 10, and the hot drying air is blown out by the fan assembly. A plurality of dehumidification pieces 2 can the cartridge in stoving slot 111, the stoving wind enters into dehumidification piece 2 along the first stoving wind hole on the stoving slot 111 lateral wall and the dehumidification piece 2 on the side hole 21 that absorbs moisture on the left and right sides, the second stoving wind hole on the stoving slot 111 bottom surface sets up with the moisture absorption ventilation hole 21 on the dehumidification piece casing 20 bottom surface relatively, can take the stoving wind that gets into in the dehumidification piece 2 fast away from dehumidification piece 2, the flow efficiency of stoving wind in dehumidification piece 2 has been improved, the efficiency of drying is improved. When the dehumidification granule is dried and is accomplished, the sensor is proofreaded that the dehumidification granule reaches the service standard, sends signal to pilot lamp 22 through control circuit, and pilot lamp 22 state changes, and the user can obtain dehumidification piece 2 according to its change and dry and accomplish, can continue the dehumidification.

Compared with the prior art, the split type recyclable physical dehumidifier provided by the utility model has the advantages that the plurality of drying slots are formed in the top surface of the drying base, so that the plurality of drying sheets can be dried simultaneously, and the drying requirements of a plurality of dehumidification areas are met. The dehumidification module adopts the slice design, has reduced the space size that occupies, avoids the dehumidification module to occupy too much storage space, reduces the storage capacity of wardrobe, drawer. And the saturation degree indicating component is adopted to indicate the saturation degree of the dehumidifying particles, so that the accuracy is high.

In the scheme, the dehumidification ventilation holes on the dehumidification sheet are long holes which are arranged in parallel and staggered, so that the contact area of dehumidification particles and air is increased, and the dehumidification efficiency is improved; meanwhile, drying air can conveniently and quickly enter the dehumidification slice shell, and drying efficiency is improved.

In this scheme, stoving wind hole is including setting up the first stoving wind hole on stoving slot lateral wall and setting up the second stoving wind hole on stoving slot bottom surface, and second stoving wind hole sets up with the ventilation hole that absorbs moisture on the dehumidification piece casing bottom surface relatively, has improved the flow speed of the stoving wind that the stoving base produced in the dehumidification piece, has improved the efficiency of drying.

The present invention is not limited to the above-mentioned preferred embodiments, and any structural changes made under the teaching of the present invention shall fall within the scope of the present invention, which is similar or similar to the technical solutions of the present invention.

Claims

1. A split-type recyclable physical dehumidifier comprising:

the dehumidification sheet comprises a dehumidification sheet shell, dehumidification particles are arranged in the dehumidification sheet, and the dehumidification sheet is provided with a through moisture absorption vent hole; a saturation indicating component is arranged on the dehumidifying sheet;

2. The split physical dehumidifier of claim 1 wherein the dehumidification sheet housing is a square housing, the top and bottom surfaces and the left and right side surfaces of the square housing having the moisture absorption vents; the drying air holes comprise first drying air holes arranged on the side walls of the drying slots and second drying air holes arranged on the bottom surfaces of the drying slots; the second drying air hole is opposite to the moisture absorption air hole in the bottom surface of the dehumidification sheet shell.

3. The split type recyclable physical dehumidifier of claim 1 wherein the moisture absorption vent is a long hole arranged in parallel and staggered, and a filter screen is arranged on the outer end face of the moisture absorption vent.

4. The split physical dehumidifier of claim 1, wherein the drying base comprises a base housing comprising:

5. The split physical dehumidifier of claim 4, wherein the air inlet holes are formed in a bottom surface of the bottom casing, and support legs are further formed on the bottom surface of the bottom casing.

6. The split physical dehumidifier of claim 4, wherein the drying base housing further comprises:

the heating assembly is arranged in the top shell and used for providing hot drying air for drying the dehumidifying sheet;

the fan assembly is arranged below the heating assembly and used for blowing hot drying air out along the drying air holes;

7. The split programmable physical dehumidifier of claim 1, wherein the saturation indication assembly comprises:

8. The split physical dehumidifier of claim 7, wherein the dehumidification sheet housing further comprises a charging socket connected to the power supply module.

9. The split physical dehumidifier of claim 4 wherein the top shell is provided with a power switch button on a side thereof to which the power supply module is connected.

10. The split physical dehumidifier of claim 1 wherein the dehumidification sheet housing is chamfered at four lateral edges.