CN217722975U - Circulating intelligent dehumidifying wardrobe - Google Patents

Abstract

The utility model discloses a circulating intelligent dehumidification wardrobe relates to intelligent house technical field, aims at solving the not good problem of traditional wardrobe dehumidification performance. The key points of the technical scheme are as follows: including one side open-ended cabinet body, the opening part of the cabinet body articulates there is a plurality of cabinet doors of closed its open-ended, fixedly connected with hot-blast portion and condensation portion on the cabinet body, the air outlet of condensation portion and the inside intercommunication of hot-blast portion, the air outlet and the internal portion intercommunication of cabinet of hot-blast portion, the air outlet of the cabinet body and the inside intercommunication of condensation portion. The utility model discloses realize the internal circulation of air that flows, send the automatic row of leading of moisture that collects the condensation of condensation portion simultaneously to collect in collecting the liquid piece to discharge the outside to the cabinet body in collecting the liquid piece with the comdenstion water through the transfer line that sets up, reduce the air humidity in the air of internal circulation of cabinet gradually, more intelligence is high-efficient.

Description

Circulating intelligent dehumidifying wardrobe

Technical Field

The utility model relates to an intelligence house technical field, more specifically says, it relates to a circulating intelligent dehumidification wardrobe.

Background

The wardrobe is a cabinet for storing clothes, and is usually made of stainless steel, solid wood (costustoot plate, solid wood particle plate and medium density fiberboard), tempered glass and hardware fittings.

Through accomodating the clothes in the wardrobe realize the stable protection to the clothing, among the prior art, the clothing of depositing in the wardrobe receives the influence of moisture in the air and can become moist usually, and then can appear the phenomenon of mildening and rot, influences the normal use of clothing, therefore sets up a wardrobe structure that has good dehumidification ability and just is very necessary.

Therefore, a new solution is needed to solve this problem.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a circulating intelligent dehumidification wardrobe reaches the purpose that improves the whole dehumidification performance of wardrobe through the setting of structure.

The above technical purpose of the present invention can be achieved by the following technical solutions: this circulating intelligent dehumidification wardrobe, including one side open-ended cabinet body, the opening part of the cabinet body articulates there are a plurality of cabinet doors of closed its open-ended, fixedly connected with hot-blast portion and condensation portion on the cabinet body, the air outlet and the inside intercommunication of hot-blast portion of condensation portion, the air outlet and the internal portion intercommunication of cabinet of hot-blast portion, the air outlet and the inside intercommunication of condensation portion of the cabinet body.

Through adopting above-mentioned technical scheme, close the cabinet body through the cabinet door and realize the stable partition to the internal and external both sides of cabinet, reduce external environment to the influence of the internal portion of cabinet, let in the hot-air that flows to the inside of the cabinet body under the effect of hot-blast portion, realize the stable dehumidification to the internal portion of cabinet, the internal moist hot-air of cabinet lets in the condensation portion, realize the condensation to the gaseous liquid in the hot-air of flowing through under the effect of condensation portion, reduce the moisture in the air that flows back to in the hot-blast portion, realize the whole relative inside gas circulation of structure simultaneously, and then can reduce external environment to the influence of the internal portion of cabinet.

The utility model discloses further set up to: the hot air part comprises a first accommodating part fixedly connected with the position, close to the bottom, of the back of the cabinet body, a heating wire and a fan are fixedly connected in the first accommodating part, and a first air supply pipe communicated with the interior of the cabinet body is communicated with the first accommodating part.

Through adopting above-mentioned technical scheme, the fan effect produces mobile air, and mobile air is heated under the effect of heating wire and becomes hot-blast, and hot-blast lets in the inside of the cabinet body under the effect of first blast pipe, realizes the stable dehumidification of the internal portion of cabinet.

The utility model discloses further set up to: the cabinet is characterized in that a second air supply pipe communicated with the first air supply pipe is fixedly connected to the inner bottom surface of the cabinet body, a plurality of separation strips are distributed on the inner bottom surface of the cabinet body in an array mode, an air supply channel is arranged between every two adjacent separation strips in a surrounding mode, a screen plate is fixedly connected to the tops of the separation strips, and a plurality of third air supply pipes communicated with the air supply channels are communicated to the second air supply pipe.

Through adopting above-mentioned technical scheme, under the combined action of first blast pipe, second blast pipe and third blast pipe for in the second holds the interior hot-air of piece lets in the air supply passageway, under the effect of air supply passageway and otter board, make hot-air can stretch on the interior bottom surface of the cabinet body better, and then can realize the dehumidification process to cabinet body inside more steadily.

The utility model discloses further set up to: the condensation portion includes the second hold the piece with the position fixed connection that cabinet body back is close to the top, fixedly connected with condensation piece and the water conservancy diversion swash plate that is located condensation piece below and offsets with one side of condensation piece in the second hold the piece, the intercommunication has the air inlet to be higher than the fourth blast pipe of water conservancy diversion swash plate top and with first hold the piece intercommunication on the second hold the piece.

Through adopting above-mentioned technical scheme, the second holds the stable support of piece realization to condensation piece and water conservancy diversion swash plate, and the condensation piece that sets up is arranged in realizing the condensation to liquid in the way gas, and the water after the condensation is collected under the effect of water conservancy diversion swash plate, makes the air in the second holds the piece can flow back to first holding in under the effect of fourth blast pipe, realizes the whole relatively confined inner loop of structure, reduces the external environment to the internal influence of cabinet.

The utility model discloses further set up to: the second accommodating part close to the bottom of the flow guide inclined plate is communicated with a liquid collecting part fixedly connected with the cabinet body, the bottom of the liquid collecting part is communicated with a liquid conveying pipe, the liquid outlet end of the liquid conveying pipe penetrates through the front end of the cabinet body, and the liquid outlet end of the liquid conveying pipe is fixedly connected with a valve body.

Through adopting above-mentioned technical scheme, collect liquid piece and realize the temporary storage to water for water in the collection liquid piece can be from collecting the interior outflow of liquid piece under the effect of transfer line, and the valve body is used for the regulation to the transfer line break-make.

The utility model discloses further set up to: the condensation piece is hollow, the refrigerant is filled in the condensation piece, and a plurality of liquefied balls penetrating out of the second accommodating piece are communicated with the upper portion of the condensation piece.

Through adopting above-mentioned technical scheme, through refrigerant heat absorption gasification for the water in the gas of flowing through liquefies gradually, and gaseous refrigerant is exothermic and liquefies gradually in the liquefaction ball, flows back to in the condensing part under the effect of refrigerant self gravity, realizes the circulation of refrigerant.

The utility model discloses further set up to: the central point of the internal top surface of cabinet puts and has seted up the gas outlet, the gas outlet intercommunication has the fifth blast pipe that communicates with the second holding member, be equipped with the first air inlet that central line level set up and communicate with the fifth blast pipe on the condensing member, be equipped with the condensation chamber with first air inlet intercommunication in the condensing member, be located water conservancy diversion swash plate top vertically on the condensing member be equipped with a plurality of liquid outlets with condensation chamber intercommunication, be located water conservancy diversion swash plate top be equipped with a plurality of inclined channels of intercommunication fourth blast pipe on the condensing member.

Through adopting above-mentioned technical scheme, under the effect of fifth blast pipe, make the condensation intracavity that lets in the condensing part from the internal gas that flows of cabinet, moist gas makes its inside water liquefy gradually and fall to the water conservancy diversion swash plate from the liquid outlet through the heat dissipation and get up by the drainage and collect on, gas continues to flow out the condensation chamber through the liquid outlet and crosses condensing part and water conservancy diversion swash plate and is sent into the fourth blast pipe from the slope passageway and send away, the in-process that the air current flows through the slope passageway is further condensed.

The utility model discloses further set up to: and an elastic sealing layer is fixedly connected to the surface of the cabinet door, which is attached to the cabinet body.

Through adopting above-mentioned technical scheme, the elastic sealing layer through elastic deformation realizes the stable seal to cabinet door and cabinet body seam crossing, and then can reduce the influence of the moisture among the external environment to the internal portion placing object article of cabinet.

To sum up, the utility model discloses following beneficial effect has:

close the cabinet body through the cabinet door and realize the stable partition to the internal and external both sides of cabinet, reduce the influence of external environment to the internal portion of cabinet, let in mobile hot-air to the inside of the cabinet body under the effect of hot-blast portion, realize the stable dehumidification to the internal portion of cabinet, the internal moist hot-air of cabinet lets in the condensation portion, realize the condensation to the gas liquid in the hot-air of flowing through under the effect of condensation portion, reduce the moisture in the air that flows back to in the hot-blast portion, realize the whole relative inside gas circulation of structure simultaneously, and then can reduce the influence of external environment to the internal portion of cabinet.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is an enlarged view at B of FIG. 1;

fig. 4 is a cross-sectional view of the present invention;

FIG. 5 is an enlarged view at C of FIG. 4;

FIG. 6 is an enlarged view at D of FIG. 4;

fig. 7 is an enlarged view at E in fig. 4.

In the figure: 1. a cabinet body; 2. a cabinet door; 3. a first receiving member; 4. an electric heating wire; 5. a fan; 6. a first blast pipe; 7. a second blast pipe; 8. a dividing strip; 9. an air supply channel; 10. a screen plate; 11. a third blast pipe; 12. a second receiving member; 13. a condensing member; 14. a flow guiding sloping plate; 15. a fourth blast pipe; 16. a liquid collecting member; 17. a transfusion tube; 18. a valve body; 19. liquefying the balls; 20. an air outlet; 21. a fifth blast pipe; 22. a first air inlet; 23. a condensation chamber; 24. a liquid outlet; 25. an inclined channel; 26. and an elastic sealing layer.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

This circulating intelligent dehumidification wardrobe, as shown in fig. 1-4, including one side open-ended cabinet body 1, the opening part of the cabinet body 1 articulates there are a plurality of cabinet doors 2 of closed its open-ended, the separation to 1 inner space of the cabinet body and 1 outer space of the cabinet body is realized through the opening of the closed cabinet body 1 of cabinet door 2, reduce external environment to the influence of the internal portion placing object article of the cabinet body 1, fixed connection elastic sealing layer 26 on the face of cabinet door 2 and the 1 laminating of the cabinet body, elastic sealing layer 26's material is elastic rubber, the stable sealing to cabinet door 2 and the 1 seam crossing of the cabinet body is realized to elastic deformation's elastic sealing layer 26, strengthen cabinet door 2 to the degree of sealing of the cabinet body 1, and then reduce the influence of external environment to the 1 inside of the cabinet body.

As shown in fig. 1-7, fixedly connected with hot-blast portion and condensing unit on the cabinet body 1, the air outlet of condensing unit and the inside intercommunication of hot-blast portion, the air outlet of hot-blast portion and the inside intercommunication of the cabinet body 1, the air outlet of the cabinet body 1 and the inside intercommunication of condensing unit, this setting realizes the relatively confined inner loop of flowing air in the cabinet body 1 inside, further reduce the influence of external environment to the inside deposit article of the cabinet body 1, hot-blast portion produces high temperature mobile gas and sends into the cabinet body 1 in, realize the drying process to the cabinet body 1 inside, the heat of the cabinet body 1 and the air that has water let into in the condensing unit, under the effect of condensing unit, make the water condensation liquefaction in the hot-blast, make the moisture content in the flowing air still less, ensure that the moisture in the air that lets into in the hot-blast portion still less.

As shown in fig. 4-6, the hot air portion includes a first accommodating part 3 fixedly connected to a position near the bottom of the back of the cabinet 1, an electric heating wire 4 and a fan 5 are fixedly connected to the inside of the first accommodating part 3, the electric heating wire 4 and the fan 5 can be in a relatively sealed environment through isolation of the first accommodating part 3, stable protection of the fan 5 and the electric heating wire 4 is achieved, a first air supply pipe 6 communicated with the inside of the cabinet 1 is communicated with the first accommodating part 3, a second air supply pipe 7 communicated with the first air supply pipe 6 is fixedly connected to the inner bottom surface of the cabinet 1, the fan 5 acts to generate flowing air, the flowing air is heated to flowing hot air when passing through the electric heating wire 4, the hot air is introduced into the second air supply pipe 7 and the cabinet 1 under the action of the first air supply pipe 6, a plurality of partition strips 8 are distributed in an array on the inner bottom surface of the cabinet 1, air supply passage holes 9 are defined between two adjacent partition strips 8, top portions of the plurality of partition strips 8 are fixedly connected to 10, a plurality of third air supply passages 9 are communicated with the second air supply pipe 7 and a plurality of partition strips 11, and wet screen strips 11 are communicated with the inner bottom surface of the cabinet 1, and the cabinet, and the wet screen plates can be transported to the wet screen plates in a common transportation process of the cabinet, and wet air board 1, and wet air can be transported to the wet air board.

As shown in fig. 4-7, the condensing portion includes a second container 12 fixedly connected to a position close to the top of the back of the cabinet 1, a condenser 13 and a diversion tilted plate 14 located below the condenser 13 and abutting against one side of the condenser 13 are fixedly connected to the inside of the second container 12, the second container 12 is configured to create a relatively closed condensing space, so as to ensure the stability of the condensing process of the condenser 13, the water of the flowing hot air is liquefied by heat when passing through the condenser 13, the liquid water drops on the diversion tilted plate 14 under the action of its own gravity, the water flows downward and is collected under the action of its own gravity along the plate surface of the diversion tilted plate 14, a fourth air supply pipe 15 having an air inlet higher than the top of the diversion tilted plate 14 and communicating with the first container 3 is communicated to the second container 12, and the flowing air subjected to condensation process in the second container 12 flows back into the first container 3 under the action of the fourth air supply pipe 15.

As shown in fig. 1-7, a liquid collecting part 16 fixedly connected with the cabinet body 1 is communicated with the second accommodating part 12 close to the bottom of the flow guide sloping plate 14, condensed liquid in the second accommodating part 12 flows into the liquid collecting part 16 under the action of self gravity and is temporarily stored, the bottom of the liquid collecting part 16 is communicated with a liquid outlet end of a liquid conveying pipe 17 penetrating to the front end of the cabinet body 1, water in the liquid collecting part 16 is discharged under the action of the liquid conveying pipe 17, so that residual moisture in the structure is reduced, the continuity and stability of the whole dehumidifying function of the structure are ensured, a valve body 18 is fixedly connected to the liquid outlet end of the liquid conveying pipe 17, the valve body 18 is set as a faucet, and the on-off adjustment of the liquid conveying pipe 17 is realized through the valve body 18.

As shown in fig. 4-7, the condensing element 13 is hollow and filled with a refrigerant therein, the condensing element 13 is made of aluminum alloy, the stability of the heat conductivity of the condensing element 13 is ensured by utilizing the characteristics of light weight and good heat conductivity of the aluminum alloy, the refrigerant is freon, a plurality of liquefied balls 19 penetrating through the second accommodating element 12 are communicated above the condensing element 13, the refrigerant in the condensing element 13 absorbs heat in air and is gasified to enter the liquefied balls 19, the gaseous refrigerant in the liquefied balls 19 gradually releases heat and is liquefied into liquid refrigerant, the liquid refrigerant flows back to the condensing element 13 under the action of gravity applied to the liquid refrigerant, an air outlet 20 is arranged at the center of the inner top surface of the cabinet 1, the air outlet 20 is communicated with a fifth air supply pipe 21 communicated with the second accommodating element 12, the condensing element 13 is provided with a first air inlet 22 horizontally arranged with a central line and communicated with the fifth air supply pipe 21, a condensing cavity 23 communicated with the first air inlet 22 is arranged in the condensing element 13, flowing hot air enters the fifth air supply pipe 21 through the air outlet 20, the inclined plate 14, the condensing element 14 is arranged above the inclined plate 14, the condensing cavity 14 and is arranged to transmit heat to the condensing element 14, the flowing air further contacts with the condensing part 13 and is condensed again in the process of flowing through the inclined passage 25, the liquid water flows onto the flow guide sloping plate 14 under the flow guide effect of the inclined passage 25, and simultaneously the flowing air passes through the condensing part 13 and the flow guide sloping plate 14 through the inclined passage 25 and flows into the fourth blast pipe 15.

The working principle is as follows: the cabinet door 2 is closed, the fan 5 is started and the electric heating wire 4 is electrified, the fan 5 drives air to flow through the electric heating wire 4 and be heated into flowing hot air, the hot air enters the cabinet body 1 through the first air supply pipe 6 and the second air supply pipe 7, the hot air is led into the plurality of air supply channels 9 under the drainage action of the second air supply pipe 7 and the third air supply pipe 11, the hot air is led along the inner bottom surface of the cabinet body 1 under the common limiting action of the air supply channels 9 and the screen plate 10, the hot air is led upwards to realize the dehumidification process in the cabinet body 1, the hot air with moisture is led into the second accommodating part 12 under the action of the air outlet 20 and the fifth air supply pipe 21, the hot air led into the second accommodating part 12 is led into the first air inlet 22, after carrying out the heat exchange, water in the hot air and condensation chamber 23 liquefy into liquid and fall into inclined channel 25 through liquid outlet 24, under the effect of inclined channel 25 water conservancy diversion, make water flow to in collecting liquid piece 16, water in collecting liquid piece 16 is discharged under the effect of transfer line 17, the air that flows in the condensation chamber 23 flows out condensation piece 13 and flows into inclined channel 25 through liquid outlet 24 in, the air that flows in inclined channel 25 is further condensed, liquid flows back to on water conservancy diversion swash plate 14 along inclined channel 25, the air that flows in the second holder 12 flows back to first holder 3 through fourth blast pipe 15 in, repeat above-mentioned process and realize the stable dehumidification of cabinet 1 inside, the aforesaid is just so the utility model discloses an theory of operation.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a circulating intelligent dehumidification wardrobe, includes one side open-ended cabinet body (1), the opening part of the cabinet body (1) articulates there are a plurality of cabinet doors (2) of its open-ended of closure, its characterized in that: fixedly connected with hot-blast portion and condensation portion on the cabinet body (1), the air outlet of condensation portion and the inside intercommunication of hot-blast portion, the air outlet and the inside intercommunication of the cabinet body (1) of hot-blast portion, the air outlet of the cabinet body (1) and the inside intercommunication of condensation portion, hot-blast portion includes the first holding member (3) that is close to the fixed position of bottom with the cabinet body (1) back, fixedly connected with heating wire (4) and fan (5) in first holding member (3), the intercommunication has first blast pipe (6) with the inside intercommunication of the cabinet body (1) on first holding member (3).

2. The circulating intelligent dehumidifying wardrobe of claim 1, wherein: fixedly connected with second blast pipe (7) with first blast pipe (6) intercommunication on the interior bottom surface of the cabinet body (1), array distribution has a plurality of parting bead (8) on the interior bottom surface of the cabinet body (1), and adjacent two enclose between parting bead (8) and be equipped with air supply passageway (9), a plurality of top fixedly connected with otter board (10) of parting bead (8), intercommunication has a plurality of third blast pipe (11) with a plurality of air supply passageway (9) intercommunication on second blast pipe (7).

3. The circulating intelligent dehumidifying wardrobe of claim 2, wherein: the condensation portion includes and holds piece (12) with cabinet body (1) back near the second of the fixed position of top connection, fixedly connected with condensation piece (13) and be located condensation piece (13) below and water conservancy diversion swash plate (14) that offset with one side of condensation piece (13) in second hold piece (12), intercommunication has air inlet to be higher than water conservancy diversion swash plate (14) top and fourth blast pipe (15) with first hold piece (3) intercommunication on second hold piece (12).

4. The circulating intelligent dehumidifying wardrobe of claim 3, wherein: the second accommodating part (12) close to the bottom of the flow guide sloping plate (14) is communicated with a liquid collecting part (16) fixedly connected with the cabinet body (1), the bottom of the liquid collecting part (16) is communicated with a liquid conveying pipe (17) with a liquid outlet end penetrating to the front end of the cabinet body (1), and the liquid outlet end of the liquid conveying pipe (17) is fixedly connected with a valve body (18).

5. The circulating intelligent dehumidifying wardrobe of claim 3, wherein: the condensing part (13) is hollow and filled with a refrigerant, and a plurality of liquefying balls (19) penetrating through the second accommodating part (12) are communicated above the condensing part (13).

6. The circulating intelligent dehumidifying wardrobe of claim 3, wherein: the central point of the top surface puts and has seted up gas outlet (20) in the cabinet body (1), gas outlet (20) intercommunication has fifth blast pipe (21) with second holding member (12) intercommunication, be equipped with first air inlet (22) that the central line level set up and communicate with fifth blast pipe (21) on condensing member (13), be equipped with in condensing member (13) condensation chamber (23) with first air inlet (22) intercommunication, be located water conservancy diversion swash plate (14) top vertically be equipped with a plurality of liquid outlets (24) with condensation chamber (23) intercommunication on condensing member (13), be located water conservancy diversion swash plate (14) top be equipped with a plurality of slope passageways (25) of intercommunication fourth blast pipe (15) on condensing member (13).

7. The circulating intelligent dehumidifying wardrobe of claim 1, wherein: and an elastic sealing layer (26) is fixedly connected on the surface of the cabinet door (2) which is attached to the cabinet body (1).

Images