CN211953061U - Dehumidifier - Google Patents

Abstract

The utility model discloses a dehumidifier, include: a body for accommodating a compressor for supplying a high-temperature and high-pressure compressed refrigerant to the heat exchanger module, a heat exchanger module, and a fan motor for forcibly flowing air so that the air passes through the heat exchanger module; the top cover component is used for forming the upper surface of the body and forming an air supply outlet for annular air outlet at the top; the base disc is used for forming the bottom end surface of the body and is used for installing and fixing the compressor; the whole body is in a cylindrical shape, and is combined with the disc-shaped top cover assembly to form a cylindrical dehumidifier, so that the dehumidifier is compact in structure, attractive in appearance and convenient to move; the top cover assembly adopts annular large tracts of land air supply, and the heat exchanger module of usefulness of exchanging heat adopts the design of C type, and increase heat transfer area reaches better dehumidification effect.

Description

Dehumidifier

[ technical field ] A method for producing a semiconductor device

The utility model relates to an air conditioning technology especially relates to a dehumidifier.

[ background of the invention ]

A dehumidifier is an air conditioning apparatus for adjusting air temperature and humidity, and its operating principle is that a liquid refrigerant is evaporated in an evaporator to take heat from ambient air, and as the refrigerant is evaporated, the temperature of the evaporator is lowered and the temperature of air passing through the evaporator is also lowered. Therefore, as the temperature around the evaporator decreases, moisture contained in the air is condensed and is collected on the surface of the evaporator as dew, and the dehumidified air is discharged into the room, thereby reducing the humidity of the indoor space. Moreover, most of the evaporators and condensers of the existing dehumidifier are arranged together in parallel, air firstly passes through the evaporators to condense water in the air into liquid water, the liquid water flows into a water pan along with fins of the evaporators, and the air absorbs heat after passing through the condensers after the temperature of the air is reduced; the existing dehumidifier has the characteristic of a heat pump, can cool and dehumidify air by using the refrigerating capacity of an evaporator, can heat the air with reduced moisture content by using the heat released by a condenser, has the characteristic of temperature and humidity regulation, and is widely applied to occasions with various requirements on temperature and humidity.

However, with the improvement of living standard of people, the requirements of people on indoor living environment are higher and higher, and the requirements of people on the dehumidifier as a device for adjusting air humidity are also improved. In the traditional dehumidifier, internal components are unreasonably distributed, so that the internal structure of the dehumidifier body is not compact, and the utilization rate of space is low; the appearance and the shape of the dehumidifier are usually square or rectangular, the interior of the dehumidifier is usually a centrifugal wind wheel, the air outlet is usually positioned at the top and is also square, and the dehumidifier is limited by the centrifugal wind wheel, so that other air outlet modes cannot be realized, and the whole shape design of the dehumidifier is limited.

[ Utility model ] content

The utility model provides a realize the annular air supply of top large tracts of land, overall structure is compact, the product is small, is convenient for remove and has the dehumidifier of better dehumidification effect.

The utility model provides a technical scheme that its technical problem adopted is:

a dehumidifier comprising:

a body for accommodating a compressor for supplying a high-temperature and high-pressure compressed refrigerant to the heat exchanger module, a heat exchanger module, and a fan motor for forcibly flowing air so that the air passes through the heat exchanger module;

the top cover component is used for forming the upper surface of the body and forming an air supply outlet for annular air outlet at the top;

a base disk for forming a bottom end face of the body and for mounting and securing the compressor.

Further, the dehumidifier further includes:

an air inlet is formed in the wall surface of the body, an air supply outlet on the top cover assembly and the air inlet are arranged at intervals, and an air channel communicated with the air inlet and the air supply outlet is formed in the body;

the fan motor is partially arranged in the air duct, introduces airflow into the air duct from the air inlet, blows the airflow in the air duct out from the air supply outlet, and is arranged close to the air supply outlet;

the heat exchanger module is located along vertical direction distribution fan motor with between the compressor, and set up in being close to in the wind channel of air intake, the heat exchanger module includes that two are C shape and the condenser and the evaporimeter that the closely adjacent coincide of each other set up, just the convex arc face of evaporimeter is closely adjacent the air intake sets up.

Furthermore, an air duct volute which guides air passing through the heat exchanger module and is blown out of the air supply outlet by the fan motor is formed between the fan motor and the heat exchanger module in the body.

Furthermore, the air duct volute extends downwards and is provided with a partition plate used for blocking an opening of the C-shaped heat exchanger module, the partition plate is convenient for the center of the heat exchanger module to form an internal flow channel entering the air duct volute, and the peripheral air of the body is controlled to enter from the air inlet corresponding to the heat exchanger module.

Furthermore, an electric appliance control box for controlling the whole machine to work is arranged at the position of the partition plate.

Furthermore, a water pan which is arranged and fixed on the base plate, has the upper side supported at the bottom end of the heat exchanger module and is used for collecting condensed water is also arranged in the body, a containing cavity is formed between the upper side of the water pan and the base plate, the compressor is arranged in the containing cavity, and a water tank which is arranged on the body in a pulling manner and is used for containing the condensed water flowing down from the water pan is also arranged in the containing cavity; and at least three universal casters which are convenient for the complete machine to move are arranged on the periphery of the outer edge of the base plate.

Further, the dehumidifier further includes: and the circular arc front shell and the circular arc rear shell are respectively arranged on the front side and the rear side of the body to form the front surface and the back surface of the body, and are butted to form a cylindrical shell.

Further, be provided with on the convex backshell with the corresponding air intake of heat exchanger module, air intake department is provided with and sets up with convex backshell cambered surface parallel and level, is used for filtering the arc air inlet filter screen that gets into the air, and the inboard air intake department of arc air inlet filter screen still is provided with arc HEPA filter screen.

Further, cylindric top cap subassembly has been covered with to convex preceding shell of cylindric casing and convex back shell top buckle, top cap subassembly includes top cap and the motor cabinet of cartridge on cylindric casing, the top cap is discoid and forms the supply-air outlet of annular air-out around the periphery, and the fan ring shape supply-air hole that link up with supply-air outlet and the wind channel of downside and downside are formed around the motor cabinet that corresponds, and the fan motor is installed to the downside center correspondence of motor cabinet.

Furthermore, a rear centrifugal fan is adopted on the fan motor.

The utility model has the advantages that:

the utility model discloses an on top cap subassembly, fan motor, wind channel spiral case, heat exchanger module, compressor and base dish along the vertical direction of body lamellar distribution in proper order, simultaneously, be equipped with the air intake on the wall of the convex backshell of body, supply-air outlet and air intake interval on the top cap subassembly set up, and this internal wind channel that passes through heat exchanger module, passes wind channel spiral case intercommunication air intake and supply-air outlet that forms. The whole body is in a cylindrical shape, and an annular large-area air supply mode is adopted by combining the disc-shaped top cover assembly and the top of the disc-shaped top cover assembly to form the cylindrical dehumidifier, so that the dehumidifier is compact in overall structure, attractive in appearance and convenient to move.

The heat exchanger module is positioned between the fan motor and the compressor and arranged in the air channel close to the air inlet, the heat exchanger module comprises a condenser and an evaporator which are in a C shape and are closely adjacent and overlapped, and the convex cambered surface of the evaporator is closely adjacent to the air inlet; the air channel volute is arranged between the fan motor and the heat exchanger module, guides air passing through the heat exchanger module, and is blown out of the air supply outlet by the fan motor; the whole air channel is reasonable in structure, all the parts are connected compactly, the air channel is completely suitable for the cylindrical body, and the heat exchanger module for heat exchange is designed in a C shape, so that the heat exchange area can be effectively increased, and a better dehumidification effect is achieved.

[ description of the drawings ]

Fig. 1 is a schematic diagram of the explosion structure of the present invention;

fig. 2 is a schematic perspective view of the present invention;

FIG. 3 is an enlarged schematic view of the three-dimensional structure of the volute of the air duct of the present invention;

FIG. 4 is an enlarged schematic view of the three-dimensional structure of the water pan of the present invention;

fig. 5 is a schematic side view of the cross-sectional structure of the present invention;

fig. 6 is a schematic sectional structure view of another cutting position in side view.

[ detailed description ] embodiments

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

A kind of dehumidifier, as shown in fig. 1 to 6, including top cover assembly 1, body 2, fan motor 3, heat exchanger module 4, compressor 5 and base plate 6, the body 2 is made up of circular arc front casing 20 and circular arc back casing 21 that set up symmetrically each other, circular arc front casing 20 and circular arc back casing 21 dispose in the front side and rear side of the body 2 separately, form the front and back of the body 2, and form the cylindrical body after the two are snapped and butted, the base plate 6 is circular and mounted to the bottom end of the body 2, and is used for the installation of the compressor 5 to fix; the main body 2 forms a cylindrical case for accommodating the compressor 5, the heat exchanger module 4, and the fan motor 3, the compressor 5 supplies high-temperature and high-pressure compressed refrigerant to the heat exchanger module 4, and the fan motor 3 forcibly flows air so that the air passes through the heat exchanger module 4.

As shown in fig. 1, 5 and 6, the top cover assembly 1 includes a top cover 1a and a motor base 1b inserted on the cylindrical housing, the top cover 1a is disc-shaped and forms an annular air outlet 7 around the outer circumference, and a display 70 for displaying the working state and performing mode control is further disposed in the center of the annular air outlet 7; the top cover 1a is mounted on the motor base 1b, and then is covered on the top of the cylindrical shell formed by buckling and butting the arc-shaped front shell 20 and the arc-shaped rear shell 21, the corresponding motor base 1b is provided with a fan annular air supply hole 8 which is communicated with the air supply outlet 7 on the upper side and the lower side and the air duct inside the body 2 on the periphery, the lower center of the motor base 1b is correspondingly provided with a driving motor 30 of the fan motor 3, and the fan 31 on the fan motor 3 adopts a rear centrifugal fan.

As shown in fig. 1 to 6, the peripheral wall of the main body 2 is provided with a plurality of circular air inlets 9 uniformly distributed and arranged for allowing outside air to enter the main body 2, and the middle of the circular rear shell 21 corresponding to the back of the main body 2 is provided with an air inlet 10 corresponding to the heat exchanger module 4 for allowing outside air and a part of the air inside the main body 2 to enter. The air supply outlet 7 on the top cover component 1 and the air inlet 10 are arranged at intervals, and an air channel for communicating the air inlet 10 and the air supply outlet 7 is formed in the body 2; moreover, the fan motor 3 is partially arranged in the air duct, air flow is introduced into the air duct from the air inlet 10 and blown out from the air supply outlet 7, and the fan motor 3 is arranged close to the air supply outlet 7; an air duct volute 11 for guiding air passing through the heat exchanger module 4 and blowing out the air blowing port 7 by the fan motor 3 is formed between the fan motor 3 and the heat exchanger module 4. An arc air inlet filter screen 12 which is arranged in parallel and level with the arc surface of the arc rear shell 21 and used for filtering the entering air is further arranged at the air inlet 10, an arc HEPA filter screen 13 is further arranged at the air inlet 10 at the inner side of the arc air inlet filter screen 12, and a circular air inlet hole 9 is also formed in the corresponding arc air inlet filter screen 12.

As shown in fig. 1, 5 and 6, the heat exchanger module 4 is located between the fan motor 3 and the compressor 5 distributed along the vertical direction and is disposed in the air duct near the air inlet 10, the heat exchanger module 4 includes two C-shaped condensers 40 and evaporators 41 disposed adjacent to each other and stacked, and the convex arc surfaces of the evaporators are disposed adjacent to the air inlet 10; the air duct volute 11 extends downwards to form a partition 14 for blocking an opening of the C-shaped heat exchanger module 4, the partition 14 is convenient for the center of the heat exchanger module 4 to form an internal flow channel entering the air duct volute 11, air at the periphery of the control body 2 enters from an air inlet 10 corresponding to the heat exchanger module 4, and an electrical control box 15 for controlling the whole machine to work is further installed between the outer side of the partition 14 and the arc-shaped front shell 20.

As shown in fig. 1 to 6, a water pan 16 having an upper side supported at the bottom end of the heat exchanger module 4 and used for collecting condensed water is further mounted and fixed on the base plate 6 in the body 2, a containing cavity 17 is formed between the upper side of the water pan 16 and the base plate 6, the compressor 5 is mounted in the containing cavity 17, a water tank 18 which is installed by pulling from the lower side of the circular arc rear shell 21 and used for containing the condensed water flowing down from the water pan 16 is further provided in the corresponding containing cavity 17, and four universal casters 19 which are uniformly distributed and convenient for the complete machine to move are further mounted on the periphery of the base plate 6.

The top cover component 1, the fan motor 3, the air duct volute 11, the heat exchanger module 4, the compressor 5 and the base plate 6 are sequentially distributed in a layered mode along the vertical direction of the body 2, the whole body 2 is in a cylindrical shape, the disc-shaped top cover component 1 and the disc-shaped top are combined to form a large-area annular air supply mode, a cylindrical dehumidifier is formed, the whole structure is compact, the appearance is attractive, and the movement is convenient.

The fan motor 3 is close to the air supply outlet 7 and is partially arranged in the air duct, airflow is introduced into the air duct from the air inlet 10, and the airflow in the air duct is blown out from the air supply outlet 7, the heat exchanger module 4 is positioned between the fan motor 3 and the compressor 5 and is arranged in the air duct close to the air inlet 10, the heat exchanger module 4 adopts two condensers and evaporators which are in a C shape and are arranged close to and overlapped with each other, and the convex cambered surface of each evaporator is arranged close to the air inlet 10; the air duct volute 11 is arranged between the fan motor 3 and the heat exchanger module 4, guides air passing through the heat exchanger module 4, and is blown out of the air supply outlet 7 by the fan motor 3; whole wind channel is rational in infrastructure, connects compactly between each part, is applicable to cylinder body 2 completely, and because the heat exchanger module 4 of usefulness of exchanging heat adopts the design of C type, can increase heat transfer area effectively, reaches better dehumidification effect.

In the description of the present invention, it should be noted that the terms "front", "back", "left", "right", "inner", "outer", etc. indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship that the products of the present invention are usually placed when used, and are only for the convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element to which the term refers must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

The above-mentioned embodiments are only preferred embodiments of the present invention, not limiting the scope of the present invention, and all equivalent changes made by the shape, structure and principle of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. A dehumidifier, comprising:

a body for accommodating a compressor for supplying a high-temperature and high-pressure compressed refrigerant to the heat exchanger module, a heat exchanger module, and a fan motor for forcibly flowing air so that the air passes through the heat exchanger module;

the top cover component is used for forming the upper surface of the body and forming an air supply outlet for annular air outlet at the top;

a base disk for forming a bottom end face of the body and for mounting and securing the compressor.

2. A dehumidifier according to claim 1 wherein: the dehumidifier further comprises:

an air inlet is formed in the wall surface of the body, an air supply outlet on the top cover assembly and the air inlet are arranged at intervals, and an air channel communicated with the air inlet and the air supply outlet is formed in the body;

the fan motor is partially arranged in the air duct, introduces airflow into the air duct from the air inlet, blows the airflow in the air duct out from the air supply outlet, and is arranged close to the air supply outlet;

the heat exchanger module is located along vertical direction distribution fan motor with between the compressor, and set up in being close to in the wind channel of air intake, the heat exchanger module includes that two are C shape and the condenser and the evaporimeter that the closely adjacent coincide of each other set up, just the convex arc face of evaporimeter is closely adjacent the air intake sets up.

3. A dehumidifier according to claim 2 wherein: an air channel volute which guides air passing through the heat exchanger module and is blown out of the air supply outlet by the fan motor is formed between the fan motor and the heat exchanger module in the body.

4. A dehumidifier according to claim 3 wherein: the air duct volute extends downwards and is provided with a partition plate used for blocking an opening of the C-shaped heat exchanger module, the partition plate is convenient for the center of the heat exchanger module to form an internal flow channel entering the air duct volute and controlling peripheral air of the body to enter from the air inlet corresponding to the heat exchanger module.

5. The dehumidifier of claim 4, wherein: and an electric appliance control box for controlling the whole machine to work is arranged at the clapboard.

6. A dehumidifier according to claim 2 wherein: a water receiving tray which is arranged and fixed on the base plate, has the upper side supported at the bottom end of the heat exchanger module and is used for collecting condensed water is also arranged in the body, a containing cavity is formed between the upper side of the water receiving tray and the base plate, the compressor is arranged in the containing cavity, and a water tank which is arranged on the body in a pulling way and is used for containing the condensed water flowing down from the water receiving tray is also arranged in the containing cavity; and at least three universal casters which are convenient for the complete machine to move are arranged on the periphery of the outer edge of the base plate.

7. A dehumidifier according to claim 2 wherein: the dehumidifier further comprises: and the circular arc front shell and the circular arc rear shell are respectively arranged on the front side and the rear side of the body to form the front surface and the back surface of the body, and are butted to form a cylindrical shell.

8. The dehumidifier of claim 7, wherein: be provided with on the convex backshell with the corresponding air intake of heat exchanger module, air intake department is provided with and sets up, is used for filtering the arc air inlet filter screen that gets into the air with convex backshell cambered surface parallel and level, and the inboard air intake department of arc air inlet filter screen still is provided with arc HEPA filter screen.

9. The dehumidifier of claim 7, wherein: the utility model discloses a cylindrical motor casing, including cylindric casing, cylindrical shell, motor cabinet, air supply opening, fan ring shape blast hole, fan motor that the downside center of motor cabinet corresponds and install fan motor, the convex preceding shell of cylindric casing and convex back shell top buckle closure have and be cylindric top cap subassembly, the top cap subassembly includes top cap and the motor cabinet of cartridge on cylindric casing, the top cap is discoid and forms the air supply opening of annular air-out around the periphery, and the motor cabinet that corresponds forms the fan ring shape blast hole that link up with air supply opening and the wind.

10. A dehumidifier according to claim 9 wherein: and a rear centrifugal fan is adopted on the fan motor.

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