CN210199588U - Intelligent dehumidifying device - Google Patents

Abstract

The utility model aims at providing a simple structure and long service life's intelligent dehydrating unit. The utility model discloses a first cavity and second cavity, first cavity sets up the top of second cavity, electrical control mechanism sets up in the first cavity, dehumidification mechanism sets up in the second cavity, the front panel and the rear panel of machine case are provided with air outlet and air intake respectively, be provided with the air exhauster on the air outlet, dehumidification mechanism with be provided with hot air duct between the front panel of machine case, dehumidification mechanism with be provided with the cold wind passageway between the rear panel of machine case, electrical control mechanism with be provided with transition wind channel between the roof of machine case, hot air duct passes through transition wind channel with the cold wind passageway is linked together, dehumidification mechanism with electrical control mechanism signal connection. The utility model discloses be applied to the dehumidification field.

Description

Intelligent dehumidifying device

Technical Field

The utility model relates to an intelligence dehydrating unit.

Background

At present, the dehumidifier is used in most humid environments, because the oxidation reaction rate is accelerated and the rotting speed is accelerated in the humid environment, a lot of things are rotted and damaged due to the fact that the things are affected with damp, and the quality of the things affected with damp is reduced even if the things are dried again, so that the dehumidifier can play a great role, the environment with high humidity can be converted into the environment with normal humidity, and the value of the humidity can be stably maintained. However, in the conventional dehumidifier, since the dehumidifier is used in a humid environment for a long time, the components inside the dehumidifier are excessively heated and damaged, and the components are not surrounded by an insulating material, so that electric leakage or short circuit is easily caused. If an intelligent dehumidifying device with simple structure and long service life can be designed, the problems can be well solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, provide a simple structure and long service life's intelligent dehydrating unit.

The utility model adopts the technical proposal that: the utility model discloses a quick-witted case, dehumidification mechanism and electrical system, quick-witted case includes first cavity and second cavity, first cavity sets up the top of second cavity, electrical system sets up in the first cavity, dehumidification mechanism sets up in the second cavity, the front panel and the rear panel of machine case are provided with air outlet and air intake respectively, be provided with the air exhauster on the air outlet, dehumidification mechanism with be provided with hot air duct between the front panel of machine case, dehumidification mechanism with be provided with the cold wind passageway between the rear panel of machine case, electrical system with be provided with transition wind channel between the roof of machine case, hot air duct passes through transition wind channel with the cold wind passageway is linked together, dehumidification mechanism with electrical system signal connection.

It is thus clear from the above-mentioned scheme, when opening the device and begin the dehumidification, under the effect of air outlet department air exhauster, humid air gets into in the device by quick-witted case rear panel's air intake, after the cooling of dehumidification mechanism, humid air has become dry cold air, dry cold air is by cold wind passageway flow direction transition wind channel, and transition wind channel department is provided with electrical control mechanism, dry cold air just can absorb the heat that sends when falling electric control mechanism operation this moment, then flow to the hot-air passageway again, the air exhauster can discharge outside the environment dry cold air and the heat that the dehumidification mechanism gave out in the lump at last. Therefore, the device not only can cool the continuously running electric control mechanism, avoid the electric control mechanism from being damaged due to overheating, prolong the service life of the device, but also can discharge the heat emitted by the dehumidification mechanism together, prevent the dehumidification mechanism from influencing the effect of cooling the humid air due to overheating, and greatly improve the dehumidification efficiency.

Furthermore, the dehumidification mechanism comprises a semiconductor refrigeration sheet, heat insulation cotton, a hot end radiator and a cold end radiator, the hot end radiator is fixedly connected to the hot end of the semiconductor refrigeration sheet, the exhaust fan is arranged between the front panel of the case and the hot end radiator, two sides of the heat insulation cotton are respectively fixedly connected with the cold end of the semiconductor refrigeration sheet and the cold end radiator, and a water outlet is formed below the cold end radiator.

The semiconductor refrigeration piece is adopted, any refrigerant is not needed, no pollution can be caused to the environment, no moving part exists, the reliability is very high, the thermal inertia is very small, the refrigeration and the heating are very fast, the semiconductor refrigeration piece can reach the maximum temperature difference when being electrified for one minute under the conditions that the heat dissipation of the hot end of the semiconductor refrigeration piece is good and the cold end of the semiconductor refrigeration piece is unloaded, the dehumidification efficiency is very high, the humid air is cooled by the cold end radiator to become dry cold air, and water drops condensed on the cold end radiator can be discharged out of the device through the water outlet.

Furthermore, the electric control mechanism comprises a display panel, a control panel and a power panel, the display panel and the control panel are electrically connected with the power panel, an intelligent key, a display screen and a plurality of indicating lamps are arranged on the display panel, the intelligent key, the display screen and the indicating lamps are matched with the profiling hole of the front panel of the case, an RS485 communication interface is arranged on the control panel, and the RS485 communication interface is in signal connection with the display panel. Therefore, the intelligent keys on the display panel can control the device to work automatically or manually, so that the energy-saving effect is improved; the running state of the device can be clearly displayed by each indicator light, so that the use requirement of a user is met; and the display screen can display the humidity and the temperature of the current environment. In addition, the RS485 communication interface can realize the remote control of the dehumidification action of the device.

Still further, the dehumidification mechanism also comprises a temperature and humidity sensor, the temperature and humidity sensor is arranged at the periphery of the air inlet, and the temperature and humidity sensor is in signal connection with the control panel. Therefore, the temperature and humidity sensor is arranged at the air inlet, the temperature and the humidity in the current environment can be accurately sensed, intelligent automatic dehumidification is realized, and when the humidity is smaller than the lower limit of the threshold value, the dehumidification is stopped; when the humidity is larger than the upper threshold, the dehumidification is started, and the humidity threshold can be set by self. When the temperature is higher than the threshold value, the dehumidification can be stopped no matter the humidity condition, and the temperature threshold value can be set by self. Therefore, the device is energy-saving and efficient, not only has strong dehumidification capacity, but also effectively reduces the operation power consumption of the whole equipment.

Still further, an insulating film is arranged on the periphery of the electric control mechanism. Therefore, the periphery of the electric control mechanism is provided with the insulating film, so that the electric control mechanism can be prevented from being in contact with the metal shell, and the electric leakage condition is prevented.

Still further, a layer of high thermal conductivity silicon rubber sheet is arranged between the hot end radiator and the semiconductor refrigeration sheet and between the cold end radiator and the semiconductor refrigeration sheet. Therefore, a layer of high-thermal-conductivity silicon rubber sheet is arranged between the hot-end radiator and the cold-end radiator and the semiconductor refrigeration sheet respectively, so that the semiconductor refrigeration sheet can be tightly attached to the hot-end radiator and the cold-end radiator, the high-thermal-conductivity silicon rubber sheet has an ultrahigh thermal conductivity coefficient, and good thermal conductivity can be guaranteed.

Still further, a drain pipe is connected to the water outlet, and the drain pipe is made of food-grade silica gel. Therefore, the drain pipe can discharge water drops of the cold end radiator, the drain pipe is made of food-grade silica gel, and the food-grade silica gel has the advantages of high temperature resistance, flame retardance and environmental friendliness.

Furthermore, a plurality of Z-shaped supports are arranged on the rear panel of the case, and positioning holes are formed in the plurality of Z-shaped supports. Therefore, the device can be stably installed through the one-to-one matching of the screws and the positioning holes, and the Z-shaped support can guarantee the air inlet space of the air inlet of the rear panel.

Still further, be provided with the guide rail buckle on the rear panel of quick-witted case, the guide rail buckle includes buckle mounting panel and buckle, the buckle mounting panel with the buckle cooperatees. Therefore, the device can be stably and firmly hung by using the buckle type installation, the installation and the disassembly are very convenient and fast, and the air inlet space of the air inlet of the rear panel can be ensured.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a side view of the present invention;

fig. 3 is a schematic diagram of the explosion structure of the present invention;

fig. 4 is a schematic perspective view of the rail clip.

Detailed Description

As shown in fig. 1 to 4, in the present embodiment, the present invention includes a cabinet 1, a dehumidifying mechanism 2 and an electric control mechanism 3, the cabinet 1 includes a first chamber and a second chamber, the first chamber is disposed above the second chamber, the electric control mechanism 3 is arranged in the first chamber, an insulating film 24 is arranged on the periphery of the electric control mechanism 3, the electric control mechanism 3 comprises a display panel 15, a control panel 16 and a power panel 17, the display panel 15 and the control panel 16 are both electrically connected with the power panel 17, the display panel 15 is provided with intelligent keys 18, a display screen 19 and a plurality of indicator lights 20, the intelligent key 18, the display screen 19 and the plurality of indicator lights 20 are all matched with the profiling hole 21 of the front panel of the case 1, the control panel 16 is provided with an RS485 communication interface 22, and the RS485 communication interface 22 is in signal connection with the display panel 15.

In this embodiment, dehumidification mechanism 2 sets up in the second cavity, dehumidification mechanism 2 includes semiconductor refrigeration piece 10, thermal-insulated cotton 11, hot junction radiator 12 and cold junction radiator 13, hot junction radiator 12 fixed connection be in the hot junction of semiconductor refrigeration piece 10, air exhauster 6 sets up the front panel of machine case 1 with between the hot junction radiator 12, thermal-insulated cotton 11 both sides respectively with the cold junction of semiconductor refrigeration piece 10 with cold junction radiator 13 fixed connection, the below of cold junction radiator 13 is provided with outlet 14, be connected with drain pipe 25 on the outlet 14, the material of drain pipe 25 adopts food level silica gel.

In this embodiment, a layer of high thermal conductivity silicone rubber 31 is disposed between the hot end heat sink 12 and the cold end heat sink 13 and the semiconductor chilling plate 10.

In this embodiment, the dehumidifying mechanism 2 further includes a temperature and humidity sensor 23, the temperature and humidity sensor 23 is disposed at the periphery of the air inlet 5, and the temperature and humidity sensor 23 is in signal connection with the control board 16.

In this embodiment, a plurality of Z-shaped brackets 26 are disposed on the rear panel of the chassis 1, and each of the plurality of Z-shaped brackets is provided with a positioning hole 27. In addition, a guide rail buckle 28 may also be adopted on the rear panel of the chassis 1, the guide rail buckle 28 includes a buckle mounting plate 29 and a buckle 30, and the buckle mounting plate 29 is matched with the buckle 30.

In this embodiment, the front panel and the rear panel of machine case 1 are provided with air outlet 4 and air intake 5 respectively, be provided with air exhauster 6 on the air outlet 4, dehumidification mechanism 2 with be provided with hot air duct 7 between the front panel of machine case 1, dehumidification mechanism 2 with be provided with cold wind passageway 8 between the rear panel of machine case 1, electrical control mechanism 3 with be provided with transition wind channel 9 between the roof of machine case 1, hot air duct 7 passes through transition wind channel 9 with cold wind passageway 8 is linked together, dehumidification mechanism 2 with electrical control mechanism 3 signal connection. Therefore, when the device is started to dehumidify, under the action of the exhaust fan 6 at the air outlet 4, wet air enters the device from the air inlet 5 of the rear panel of the case 1, and after being cooled by the cold-end radiator 13, the wet air is changed into dry cold air, the dry cold air flows to the transition air duct 9 from the cold air duct 8, the electric control mechanism 3 is arranged at the transition air duct 9, at this time, the dry cold air can absorb heat generated when the electric control mechanism 9 operates, and then flows to the hot air duct 7, and finally, the exhaust fan 6 can discharge the dry cold air and the heat emitted by the hot-end radiator 12 out of the environment. Therefore, the device not only can cool the electric control mechanism 3 which continuously operates, avoid the electric control mechanism from being damaged due to overheating, prolong the service life of the device, but also can discharge the heat emitted by the hot-end radiator 12, prevent the effect of the hot-end radiator 12 on cooling the wet air due to overheating, and greatly improve the dehumidification efficiency.

The utility model discloses be applied to the dehumidification field.

Claims (9)

1. The utility model provides an intelligent dehumidifying device, it includes quick-witted case (1), dehumidification mechanism (2) and electrical control mechanism (3), quick-witted case (1) includes first cavity and second cavity, first cavity sets up the top of second cavity, electrical control mechanism (3) set up in the first cavity, dehumidification mechanism (2) set up in the second cavity, its characterized in that: the utility model discloses a dehumidification machine, including quick-witted case (1), dehumidification mechanism (2), hot-blast passageway (7), dehumidification mechanism (2) and be provided with cold wind passageway (8) between the rear panel of quick-witted case (1), electric control mechanism (3) with be provided with transition wind channel (9) between the roof of quick-witted case (1), hot-blast passageway (7) are passed through transition wind channel (9) with cold wind passageway (8) are linked together, dehumidification mechanism (2) with electric control mechanism (3) signal connection.

2. The intelligent dehumidifying device of claim 1, wherein: dehumidification mechanism (2) include semiconductor refrigeration piece (10), thermal-insulated cotton (11), hot junction radiator (12) and cold junction radiator (13), hot junction radiator (12) fixed connection be in the hot junction of semiconductor refrigeration piece (10), air exhauster (6) set up the front panel of quick-witted case (1) with between hot junction radiator (12), the both sides of thermal-insulated cotton (11) respectively with the cold junction of semiconductor refrigeration piece (10) with cold junction radiator (13) fixed connection, the below of cold junction radiator (13) is provided with outlet (14).

3. The intelligent dehumidifying device of claim 1, wherein: the electric control mechanism (3) comprises a display panel (15), a control panel (16) and a power panel (17), the display panel (15) and the control panel (16) are electrically connected with the power panel (17), an intelligent key (18), a display screen (19) and a plurality of indicator lamps (20) are arranged on the display panel (15), the intelligent key (18), the display screen (19) and the indicator lamps (20) are matched with an imitated hole (21) of a front panel of the case (1), an RS485 communication interface (22) is arranged on the control panel (16), and the RS485 communication interface (22) is in signal connection with the display panel (15).

4. An intelligent dehumidifying device as claimed in claim 3, wherein: the dehumidification mechanism (2) further comprises a temperature and humidity sensor (23), the temperature and humidity sensor (23) is arranged on the periphery of the air inlet (5), and the temperature and humidity sensor (23) is in signal connection with the control panel (16).

5. An intelligent dehumidifying device as claimed in claim 3, wherein: and an insulating film (24) is arranged on the periphery of the electric control mechanism (3).

6. The intelligent dehumidifying device of claim 2, wherein: a layer of high heat conduction silicon rubber sheet (31) is arranged between the hot end radiator (12) and the cold end radiator (13) and the semiconductor refrigeration sheet (10).

7. The intelligent dehumidifying device of claim 2, wherein: the water outlet (14) is connected with a water outlet pipe (25), and the water outlet pipe (25) is made of food-grade silica gel.

8. The intelligent dehumidifying device of claim 1, wherein: a plurality of Z-shaped supports (26) are arranged on the rear panel of the case (1), and positioning holes (27) are formed in the plurality of Z-shaped supports.

9. The intelligent dehumidifying device of claim 1, wherein: the rear panel of the case (1) is provided with a guide rail buckle (28), the guide rail buckle (28) comprises a buckle mounting plate (29) and a buckle (30), and the buckle mounting plate (29) is matched with the buckle (30).

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