CN112594802A

CN112594802A - Table type dehumidifier

Info

Publication number: CN112594802A
Application number: CN202011497550.0A
Authority: CN
Inventors: 叶建荣; 潘振豪; 王辉; 陈庚
Original assignee: Ningbo Aikete Environmental Electrical Appliances Co ltd
Current assignee: Ningbo Aikete Environmental Electrical Appliances Co ltd
Priority date: 2020-12-17
Filing date: 2020-12-17
Publication date: 2021-04-02

Abstract

The utility model relates to a desk-top dehumidifier relates to house equipment for solve ordinary dehumidifier and breed the problem of bacterium easily, it includes the casing, install dehydrating unit, air cycle device and the bacteria removing device in the casing, bacteria removing device is including installing the sterilization lamp plate in the casing, installing the UV purple light lamp on the sterilization lamp plate, the sterilization lamp plate is located between dehydrating unit and the air cycle device, and the UV purple light lamp supplies the passageway that the air flowed through towards in the casing. This application dehumidifier with bacteria removing device can disinfect to the air that gets into in the casing to reduce breeding of bacterium in the casing, and then make the dehumidifier when carrying out the dehumidification to the air, can also purify the air.

Description

Table type dehumidifier

Technical Field

The application relates to the field of household equipment, in particular to a table type dehumidifier.

Background

In rainy days, the humidity in the air is high, and bedding, towels, clothes and the like are easily wetted by moisture, thereby bringing troubles to owners. Under the circumstances, a dehumidifier capable of absorbing moisture in air is invented to reduce the humidity of indoor air.

At present, the dehumidifier mainly absorbs water vapor in air by means of a refrigerant, the water vapor is condensed in the dehumidifier to form water drops, and the inventor thinks that the dehumidifier has the defect of easy breeding of bacteria aiming at the related technology that the dehumidifier is in a wet state for a long time.

Disclosure of Invention

In order to reduce breeding of bacteria, the application provides a desk-top dehumidifier.

The application provides a desk-top dehumidifier adopts following technical scheme:

the utility model provides a desk-top dehumidifier, includes the casing, installs dehydrating unit, air cycle device and the bacteria removing device in the casing, bacteria removing device is including installing the sterilization lamp plate in the casing, installing the UV purple light lamp on the sterilization lamp plate, the sterilization lamp plate is located between dehydrating unit and the air cycle device, and the UV purple light lamp supplies the passageway that the air flowed through in the casing.

Through adopting above-mentioned technical scheme, air circulation device is with the air suction casing in, the air is back in getting into the casing, can handle through dehydrating unit earlier, get rid of the steam that wherein contains after, again through bacteria removal device, UV purple light lamp among the bacteria removal device sends the ultraviolet ray and kills the bacterium in the air, the bacterial content in the air that blows off in the casing at this moment is effectively reduced, can reduce the risk that the owner infects, simultaneously because being shone by UV purple light lamp in the casing all the time, consequently also be difficult for breeding the bacterium in the casing, so still have the effect that reduces the air peculiar smell.

Preferably, dehydrating unit includes compressor, condenser, evaporimeter, suction pipe and delivery pipe, link to each other in proper order and form closed circuit between compressor, delivery pipe, condenser, evaporimeter and the suction pipe, be provided with the dehumidification passageway that is used for supplying the air to pass through on condenser and the evaporimeter, the evaporimeter is arranged in condensing the steam in the air, and the condenser is located between air cycle device and the evaporimeter.

By adopting the technical scheme, the refrigerant flows in the closed loop formed among the compressor, the discharge pipe, the condenser, the evaporator and the suction pipe, the refrigerant is liquefied when flowing through the condenser under the action of the compressor, the liquefied refrigerant is contacted with air after reaching the evaporator, so that the water vapor in the air is liquefied, the heat released during the water vapor liquefaction promotes the vaporization of the refrigerant, and the vaporized refrigerant returns to the compressor through the suction pipe, so that the circulation is continuous, the evaporator can continuously liquefy the water vapor, and the dehumidification purpose is achieved.

Preferably, the air circulation device comprises an air plate and a fan arranged on the air plate, an air duct is formed in the air plate, and the fan is located in the air duct.

Through adopting above-mentioned technical scheme, the fan is used for ordering about the air flow, and the wind channel that forms on the aerofoil can retrain the flow direction of air, contracts the space of circulation of air simultaneously for the suction force that the fan produced concentrates more, and then makes the promotion air that the fan can be better produce the circulation.

Preferably, be provided with the turn-over edge on the aerofoil, the turn-over edge forms the installing port on the aerofoil, dehydrating unit's condenser and evaporimeter are located the installing port and laminate mutually with the aerofoil.

Through adopting above-mentioned technical scheme, turn over along can supplying condenser and evaporimeter to connect for condenser, evaporimeter can be laminated inseparabler with the aerofoil, and the gap between condenser, evaporimeter and the aerofoil just is littleer this moment, so in the fan start-up process, the dehumidification passageway process on evaporimeter and the condenser can only be followed more to the air, and then improve the dehumidification effect of evaporimeter to the air.

Preferably, an electric air port is formed in the side wall of the air plate, a negative ion generator is arranged in the machine shell, and a discharge tip of the negative ion generator penetrates through the electric air port and then is located in the air channel.

Through adopting above-mentioned technical scheme, anion generator's discharge tip can produce the ionization to the air, makes to produce the anion in the air, and the anion has certain bactericidal action, and the anion is favorable to the health simultaneously, therefore the dehumidifier of this application can further purify indoor air.

Preferably, a drainage device for collecting condensed water is arranged in the casing, the drainage device comprises a water guide plate and a water storage device, a water collection tank and a lower water tank which are communicated with each other are arranged on the water guide plate, the water collection tank is positioned below the dehumidifying device, a sewer pipe communicated with the lower water tank is arranged on one side of the water guide plate, which is back to the lower water tank, and the water outlet end of the sewer pipe is positioned above the water storage device.

By adopting the technical scheme, the water guide plate is used for receiving condensed water drops on the dehumidifier and guiding the condensed water to the water storage device for storage, so that the condensed water is not easy to flow around, and the possibility of short circuit of a circuit of the dehumidifier is reduced.

Preferably, one end of the water collecting tank, which is connected with the lower water tank, is arranged in a sinking mode, a water guide strip is arranged in the water collecting tank, and a water guide opening is formed at the joint of the water collecting tank and the lower water tank by the water guide strip.

Through adopting above-mentioned technical scheme, the design of formula of sinking makes condensate water can flow into the basin down more fast after dropping on the water deflector to accelerate drainage device's drainage rate, the water guide strip can guide the flow direction of water simultaneously, makes the condensate water can flow into the basin down more accurately, in order to further accelerate drainage rate.

Preferably, the water guide plate is provided with water blocking strips, and the water blocking strips are distributed around the water collecting tank and surround the water collecting tank.

Through adopting above-mentioned technical scheme, it can form the rail at the water catch bowl edge to block the water strip for when ponding in the water catch bowl, be difficult to spill over the water deflector, and then make the circuit in the dehumidifier be difficult to produce the damage more.

Preferably, the water storage device comprises a water tank and a tank cover, wherein a diversion trench is formed in the tank cover in a concave manner, and a drainage port communicated with the water tank is formed in the diversion trench.

Through adopting above-mentioned technical scheme, the water tank is used for storing the comdenstion water, and the case lid can form the cover to establish to the water tank to stop the components and parts in the dehumidifier and fall into, simultaneously, the guiding gutter on the water tank lid can be collected the comdenstion water that falls, and the guide comdenstion water flows into the water tank better in, and then improves the collection efficiency of comdenstion water.

Preferably, the end of the diversion trench, which is provided with the drainage port, is arranged in a sinking manner.

Through adopting above-mentioned technical scheme, the slope of downward sloping can be formed in the guiding gutter to the formula of sinking design for the water that falls from the downcomer can flow into the water tank more fast in, and then reach the purpose of conveniently collecting the comdenstion water.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the dehumidifier with the sterilizing device can sterilize the air entering the casing and reduce the breeding of bacteria in the casing, so that the dehumidifier can purify the air while dehumidifying the air;

2. the air plate with the negative ion generator can generate negative oxygen ions in the air duct so as to improve the freshness of indoor air;

3. the drainage device can collect the water vapor absorbed by the dehumidifier and store the water vapor into the water tank, and meanwhile, the condensate water can be guided away in a mode of connecting the water guide pipe to the water discharge pipe, so that the condensate water is not easy to overflow, and the aim of conveniently using the dehumidifier is fulfilled.

Drawings

FIG. 1 is an exploded view of a table dehumidifier as disclosed herein;

FIG. 2 is a schematic view of the air circulation and drain arrangement of the table dehumidifier disclosed herein;

fig. 3 is an exploded view of the air circulation device and the drain device of the disclosed desk dehumidifier.

Description of reference numerals: 1. a housing; 11. a front panel; 12. a top cover plate; 13. a rear upper cover plate; 14. a power line limiting plate; 15. a left side plate; 151. buckling; 152. a clamping block; 16. a screen frame; 17. a filter screen; 18. a right side plate; 19. a base; 2. drawing the opening; 3. a dehumidifying device; 31. a compressor; 32. a condenser; 33. an evaporator; 34. a suction tube; 35. a discharge pipe; 4. an air circulation device; 41. a wind plate; 411. turning over edges; 412. an air duct; 413. positioning the opening; 414. a lamp emitting port; 415. an electric port; 42. a fan; 5. a drainage device; 51. a water guide plate; 511. positioning blocks; 512. a water collection tank; 513. a water discharging tank; 514. a sewer pipe; 515. a water conducting strip; 516. a water guide port; 517. a water-retaining strip; 52. a water reservoir; 521. a water tank; 522. a box cover; 523. a diversion trench; 524. a water outlet; 6. a bacteria removal device; 61. a sterilizing lamp panel; 62. a UV ultraviolet lamp; 7. a negative ion generator; 71. a pulser; 72. a discharge tip; 8. a WiFi module; 9. and (5) a digital frame.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses desk-top dehumidifier, refer to fig. 1, including casing 1, dehydrating unit 3, air circulation device 4, drainage device 5 and bacteria removing device 6, casing 1 includes front panel 11, lamina tecti 12, back upper cover plate 13, power cord limiting plate 14, left side board 15, filter screen frame 16, filter screen 17, right side board 18 and base 19, all be provided with buckle 151 and fixture block 152 on front panel 11, lamina tecti 12, back upper cover plate 13, power cord limiting plate 14, left side board 15, right side board 18 and the base 19, have intensive wind hole on left side board 15 and the right side board 18 simultaneously.

During installation, the four parts of the front panel 11, the top cover plate 12, the rear upper cover plate 13 and the base 19 are sequentially connected end to end through the buckles 151 and the clamping blocks 152 to form a square frame-shaped structure, after the square frame-shaped structure is formed, the front panel 11, the top cover plate 12, the rear upper cover plate 13 and the base 19 are mutually fixed by taking bolts as fasteners, and at the moment, the drawing opening 2 for the water discharging device 5 to go in and out is formed between the rear upper cover plate 13 and the base 19.

A space (not shown) for placing the power line is formed between the upper back cover 13 and the base 19, and the power line limiting plate 14 is buckled in the space to hide the power line.

The dehumidifying device 3, the water discharging device 5, the air circulating device 4 and the sterilizing device 6 are installed in the square frame-shaped structure, then the filter screen 17 is installed at the air inlet end of the square frame-shaped structure and is pressed and positioned by the filter screen frame 16, and then the left side plate 15 and the right side plate 18 are respectively spliced into the two sides of the square frame-shaped structure so as to seal the square frame-shaped structure to form the box-shaped machine shell 1.

The dehumidifying device 3 comprises a compressor 31, a condenser 32, an evaporator 33, a suction pipe 34 and a discharge pipe 35, wherein the condenser 32 and the evaporator 33 are mainly composed of a plurality of mutually parallel metal fins on which copper pipes are arranged in a penetrating way, and the copper pipes on the radiating fins are connected at intervals end to form a wavy one-way pipeline. The output end of the compressor 31 is connected with the condenser 32 through the discharge pipe 35, the condenser 32 is connected with the evaporator 33 through a pipeline, the evaporator 33 is connected with the input end of the compressor 31 through the suction pipe 34, the compressor 31, the discharge pipe 35, the condenser 32, the evaporator 33 and the suction pipe 34 are sequentially connected to form a closed loop, and the closed loop is filled with a refrigerant, so that the compressor 31 compresses the refrigerant and transmits the refrigerant to the condenser 32 through the discharge pipe 35 to liquefy the refrigerant, and the liquefied refrigerant flows through the evaporator 33 and can refrigerate air when contacting with the air, so that the moisture in the air is liquefied, and the aim of dehumidification is achieved.

Referring to fig. 1 and 2, the air circulation device 4 includes an air plate 41 and a fan 42, a turned edge 411 perpendicular to the surface of the air plate 41 is integrally provided on the air plate 41, the turned edge 411 forms an installation opening on the air plate 41, the air plate 41 is fastened to the condenser 32 and the evaporator 33 when installed, at this time, the left side plate 15, the filter screen frame 16, the filter screen 17, the evaporator 33, the condenser 32 and the sealing plate are sequentially arranged along the horizontal direction, and the above components are attached to each other, so that the air can sequentially pass through the above components in the process of entering the cabinet 1. The air duct 412 is arranged on the air plate 41, and the fan 42 is fixed on the air plate 41 and located in the air duct 412, so that when the fan 42 is started, a suction force can be generated to suck outside air into the machine shell 1 through the air holes in the left side plate 15, and meanwhile, the filter screen 17 can intercept particles in the air in the suction process.

Referring to fig. 2 and 3, the drainage device 5 includes a water guide plate 51 and a water reservoir 52, the water guide plate 51 is mainly composed of a flat plate and support legs at two ends of the flat plate, the combination of the flat plate and the support legs makes the water guide plate 51 to be a gantry structure, when the drainage device is installed, the water guide plate 51 is placed in the machine case 1 and is located below the wind plate 41, the evaporator 33 and the condenser 32, and the compressor 31 of the dehumidification device 3 is located in a gantry structure frame formed by the water guide plate 51. The surface of the water guide plate 51 facing the wind plate 41 is provided with a positioning block 511, the wind plate 41 is provided with a positioning opening 413 at a corresponding position, and the positioning block 511 is inserted into the positioning opening 413 so as to limit the relative movement between the wind plate 41 and the water guide plate 51. Specifically, screws may be used as fasteners to fix the wind plate 41 and the water guide plate 51.

A water collecting tank 512 is integrally arranged at the position of the water guide plate 51 below the condenser 32 and the evaporator 33, a lower water tank 513 communicated with the water collecting tank 512 is arranged at one side of the water guide plate 51, the sinking amount of the lower water tank 513 is larger than that of the water collecting tank 512, and the end, connected with the lower water tank 513, of the water collecting tank 512 is inclined downwards, so that water in the water collecting tank 512 can better flow to the lower water tank 513 under the action of gravity. The bottom of the lower water tank 513 is recessed downward, and a lower water pipe 514 communicating with the recessed portion of the lower water tank 513 is integrally provided on the surface of the water guide plate 51 on the side opposite to the lower water tank 513.

In other embodiments, a water guiding strip 515 may be disposed in the water collecting tank 512, and the water guiding strip 515 forms a water guiding opening 516 at an end where the water collecting tank 512 meets the lower water tank 513, so as to better guide the condensed water to flow into the lower water tank 513.

In another embodiment, in order to reduce the overflow of the condensed water in the water collecting tank 512, a water blocking strip 517 extending along the edge of the water collecting tank 512 may be integrally disposed on the water guide plate 51, and the water blocking strip 517 surrounds the water collecting tank 512. Specifically, the water blocking strips 517 can be arranged in multiple stages, and the heights of the water blocking strips 517 are gradually increased from inside to outside, so that an overflow space for temporary storage of overflowed water can be formed between every two adjacent water blocking strips 517, and meanwhile, the overflow space can be communicated with the lower water tank 513, so that overflowed water can flow into the lower water tank 513 and be discharged.

The reservoir 52 includes a water tank 521 and a tank cover 522, and one of legs of the water guide plate 51 is recessed inward to form a space in which the water supply tank 521 is installed, and the water tank 521 is embedded in the space and positioned below the lower pipe 514. The tank cover 522 is covered on the water tank 521 in a buckling manner, a diversion trench 523 is formed on the tank cover 522 in a concave manner, one end of the tank bottom of the diversion trench 523 is arranged in a downward-inclined manner, and a water outlet 524 communicated with the inner cavity of the water tank 521 is formed in the downward-inclined end of the diversion trench 523.

In other embodiments, in order to facilitate the drainage of the dehumidifier, a pipe insertion opening is formed on the side wall of the water tank 521, so that a user can insert a pipe from the pipe insertion opening to form a connection with the sewer pipe 514, and further, the condensed water discharged from the sewer pipe 514 can be directly led out of the cabinet 1.

Sterilizing equipment 6 includes sterilization lamp plate 61, UV purple light lamp 62 is arranging along the length direction of sterilization lamp plate 61, seted up on aerofoil 41 with the communicating shot-light mouth 414 of wind channel 412, sterilization lamp plate 61 is fixed in on aerofoil 41, and UV purple light lamp 62 is located shot-light mouth 414, and then carries out ultraviolet sterilization to the air in wind channel 412 of flowing through for the air is more fresh, reduces breeding of bacterium in the dehumidifier simultaneously.

In order to further enhance the freshness of air, an anion generator 7 may be additionally installed in the machine case 1, specifically, the anion generator 7 includes a pulser 71 and two discharge tips 72 electrically connected to the pulser 71 through a conducting wire, the pulser 71 is installed on an inner side wall of one of the support legs of the water deflector 51, an electrical port 415 communicated with the air duct 412 is opened on a side wall of the air deflector 41, the discharge tip 72 of the anion generator 7 is inserted into the electrical port 415 and extends into the air duct 412, so that the discharge tip 72 can ionize air flowing through the air duct 412 to generate negative oxygen ions, thereby making indoor air more beneficial to living health.

In other embodiments, the WiFi module 8 may be additionally installed in the casing 1, so that a user may perform remote control through a mobile phone, and the digital frame 9 may be installed on the casing 1 to display data parameters of the dehumidifier during operation in real time.

The implementation principle of the desk type dehumidifier in the embodiment of the application is as follows: after the dehumidifier is started, air is sucked from one side of the machine shell 1 under the suction action of the fan 42 and then flows out from the other side, in the process, the evaporator 33 cools and cools the air flowing through the machine shell 1 to condense water vapor in the air and collect the water vapor into the water tank 521, the UV ultraviolet lamp 62 irradiates and sterilizes the air, the anion generator 7 ionizes the air to generate negative oxygen ions, and the purposes of dehumidifying, sterilizing and refreshing the indoor air are achieved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A desk dehumidifier which is characterized in that: including casing (1), install dehydrating unit (3), air cycle device (4) and bacteria removing device (6) in casing (1), bacteria removing device (6) are including installing sterilization lamp plate (61) in casing (1), installing UV purple light lamp (62) on sterilization lamp plate (61), sterilization lamp plate (61) are located between dehydrating unit (3) and air cycle device (4), and UV purple light lamp (62) are towards the passageway that supplies the air current to flow through in casing (1).

2. The desk dehumidifier of claim 1, wherein: dehumidification device (3) include compressor (31), condenser (32), evaporimeter (33), suction pipe (34) and delivery pipe (35), link to each other in proper order and form closed circuit between compressor (31), delivery pipe (35), condenser (32), evaporimeter (33) and suction pipe (34), be provided with the dehumidification passageway that is used for supplying the air to pass through on condenser (32) and evaporimeter (33), evaporimeter (33) are arranged in condensing to the steam in the air, and condenser (32) are located between air cycle device (4) and evaporimeter (33).

3. The desk dehumidifier of claim 1, wherein: the air circulation device (4) comprises an air plate (41) and a fan (42) arranged on the air plate (41), an air channel (412) is formed in the air plate (41), and the fan (42) is located in the air channel (412).

4. A bench dehumidifier as claimed in claim 3, wherein: be provided with on aerofoil (41) and turn over along (411), turn over along (411) and form the installing port on aerofoil (41), condenser (32) and evaporimeter (33) of dehydrating unit (3) are located the installing port and laminate mutually with aerofoil (41).

5. A table dehumidifier according to either of claims 3 or 4 wherein: an electric air port (415) is formed in the side wall of the air plate (41), a negative ion generator (7) is arranged in the machine shell (1), and a discharge tip (72) of the negative ion generator (7) penetrates through the electric air port (415) and then is located in the air channel (412).

6.[CC1]

The desk dehumidifier of claim 1, wherein: the water-saving dehumidifying machine is characterized in that a drainage device (5) used for collecting condensed water is arranged in the machine shell (1), the drainage device (5) comprises a water guide plate (51) and a water storage device (52), a water collecting tank (512) and a water draining tank (513) which are communicated with each other are arranged on the water guide plate (51), the water collecting tank (512) is located below the dehumidifying device (3), a sewer pipe (514) communicated with the water draining tank (513) is arranged on one side, back to the water draining tank (513), of the water guide plate (51), and a water outlet end of the sewer pipe (514) is located above the water storage device (52).

7. The desk dehumidifier of claim 6, wherein: the water collecting tank (512) is arranged in a sinking mode with one end connected with the lower water tank (513), a water guide strip (515) is arranged in the water collecting tank (512), and a water guide opening (516) is formed in the connecting position of the water collecting tank (512) and the lower water tank (513) by the water guide strip (515).

8. A table dehumidifier according to either of claims 6 or 7 wherein: the water guide plate (51) is provided with water blocking strips (517), and the water blocking strips (517) are distributed around the water collecting tank (512) and surround the water collecting tank (512).

9. The desk dehumidifier of claim 6, wherein: the water storage device (52) comprises a water tank (521) and a tank cover (522), a flow guide groove (523) is formed in the tank cover (522) in a concave mode, and a water outlet (524) communicated with the water tank (521) is formed in the flow guide groove (523).

10. The desk dehumidifier of claim 9 wherein: the end of the diversion trench (523) provided with the drainage port (524) is arranged in a sinking manner.