CN118111039A - Household rotating wheel type molecular sieve dehumidifier - Google Patents

Abstract

The invention belongs to the technical field of dehumidifiers, in particular to a household rotating wheel type molecular sieve dehumidifier which comprises a shell, wherein an air inlet is formed in the middle position of one side of the shell, an air outlet is formed in the top position of the shell, a dust removing filter element is fixedly arranged in the air inlet, a regenerative condenser is fixedly arranged in the shell and positioned on one side of the dust removing filter element, a rotating wheel is rotatably arranged on one side of the regenerative condenser, a molecular sieve is arranged in the rotating wheel and fixedly connected with the rotating wheel, a rotating motor is arranged on the outer side of the rotating wheel, a pinion is fixedly connected with an output shaft of the rotating motor, the outer side of the pinion is meshed and connected with the rotating wheel, air passes through the rotating wheel and enters the interior of the molecular sieve, so that moisture in the air is adsorbed, and then the drying air is discharged into a room through a drying air outlet channel by a dehumidification driving wind wheel, thereby achieving the purposes of indoor dehumidification and improving the dehumidification efficiency.

Description

Household rotating wheel type molecular sieve dehumidifier

Technical Field

The invention belongs to the technical field of dehumidifiers, and particularly relates to a household rotary wheel type molecular sieve dehumidifier.

Background

The dehumidifier is also called dehumidifier, drier, dehumidifier, can divide into two general categories of domestic dehumidifier and industry dehumidifier generally, belongs to a part in the air conditioner family, and generally, conventional dehumidifier comprises compressor, heat exchanger, fan, water container, casing and controller, and its theory of operation is: the moist air is pumped into the machine by the fan and passes through the heat exchanger, water molecules in the air are condensed into water drops, the treated dry air is discharged out of the machine, and the indoor humidity is kept at the proper relative humidity by circulation.

Compared with the traditional refrigeration type dehumidifier, the molecular sieve dehumidifier does not need to consume a large amount of electricity or other energy sources to realize dehumidification operation, so that the energy consumption is low, the operation cost is low, meanwhile, no chemical substances are discharged in the molecular sieve dehumidification process, the environment is not polluted, the traditional molecular sieve dehumidifier needs to be stopped for replacing the molecular sieve after working for a period of time, the working efficiency is influenced, and the self-recycling of the molecular sieve cannot be realized;

The utility model discloses a molecular sieve runner-type dehumidification desiccator among the prior art, publication number CN210292133U discloses a molecular sieve runner-type dehumidification desiccator, including dehumidification drying shell, the inside of dehumidification air-supply line just is located the left side fixedly connected with primary dehumidification filter cloth of dust removal filter screen, the inside of dehumidification drying shell just is located the left side rotation of dehumidification air-supply line and is connected with molecular sieve dehumidification runner, the inside left side fixedly connected with primary filter of regeneration siphunculus, the inside and the position fixedly connected with regenerative heater that is located primary filter right side of regeneration siphunculus, the inside right side fixedly connected with high-pressure air pump of regeneration siphunculus, the output of high-pressure air pump communicates respectively has main breather pipe and auxiliary high-pressure pipe, this technical scheme is although realizing the self-loopa use of molecular sieve, but its molecular sieve self-circulation efficiency is not high, the structure is not compact, and from the inside realization condensation of exhaust regenerated steam of molecular sieve of self-circulation back, but direct discharge, the problem of indoor whole dehumidification effect cannot be reached.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides a household rotary wheel type molecular sieve dehumidifier, which has the following specific technical scheme:

The utility model provides a domestic runner type molecular sieve dehumidifier, includes the shell, the air inlet has been seted up to one side intermediate position of shell, the gas outlet has been seted up to shell top position, the inside fixed mounting of air inlet has the dust removal filter core, the inside of shell and be located dust removal filter core one side fixed mounting of regeneration condenser, one side of regeneration condenser rotates and installs the runner, the inside molecular sieve that is provided with of runner, just molecular sieve and runner fixed connection, the outside of runner is provided with the wheel motor, just the output shaft fixedly connected with pinion of wheel motor, the outside and the runner meshing of pinion are connected, the inside fixed mounting of shell has dehumidification drive wind wheel motor, dehumidification drive wind wheel motor's output shaft fixedly connected with dehumidification drive wind wheel, the inside of shell and be located dehumidification drive wind wheel's upper end fixedly connected with dry air outlet channel, regeneration channel is fixedly connected with below runner one side, regeneration channel one side and be located molecular sieve one side lower extreme fixedly connected with regeneration chamber, regeneration heater is fixedly connected with regeneration wind wheel motor's opposite side fixedly connected with regeneration air inlet, regeneration air chamber and regeneration air chamber are provided with condensation air inlet and regeneration air chamber, the condensation chamber is provided with the air inlet and the air outlet of regeneration air chamber are located respectively on one side of the condensation chamber, the condensation chamber is provided with the condensation air inlet and the air outlet of the condensation chamber is fixed with, the condensation chamber is provided with the condensation air chamber is cooled down, and a heat dissipation mechanism is arranged on the outer sides of the shell and the condensed water collecting vessel.

Preferably, the upper condensing air chamber is communicated with the lower condenser air chamber, a partition plate is fixedly arranged in the middle of the lower condenser air chamber, and the lower condenser air chamber is divided into two air chambers through the partition plate.

Preferably, the air outlet of the regeneration chamber is communicated with the air inlet of the condenser positioned in the lower air chamber of the condenser, and the air outlet of the condenser is communicated with the air inlet of the regeneration wind wheel.

Preferably, a condenser drain outlet is formed in the bottom of the condenser lower air chamber, and the condenser drain outlet is communicated with the inside of the condensed water collecting vessel.

Preferably, a plurality of wheel rotating supports are arranged on one side of the rotating wheel, and the wheel rotating supports are in rotary connection with the rotating wheel.

Preferably, the heat dissipation mechanism includes first condenser pipe, second condenser pipe, radiator fan, the outside surface fixed mounting of shell has outer support body, just a plurality of equidistant ventilation openings that distribute have been seted up to the outside surface of outer support body, radiator fan sets up the inboard at the ventilation opening, just radiator fan fixed mounting is in the inside of outer support body, first condenser pipe sets up in the outside of shell, the lower extreme and the surface sealing connection of comdenstion water collection dish of first condenser pipe, just the lower extreme of first condenser pipe is linked together with the comdenstion water collection dish, the upper end of first condenser pipe runs through the shell and extends to its inside, the second condenser pipe sets up in the inside of shell, just the upper end and the first condenser pipe sealing connection of second condenser pipe, the lower extreme of second condenser pipe runs through the lower extreme of shell and extends to the inside of comdenstion water collection dish, the lower extreme of first condenser pipe is provided with the water pump, just water pump fixed mounting is at the surface of collecting the comdenstion water collection dish.

Preferably, a filter screen is fixedly installed in each ventilation opening, and the filter screen is located on the outer side of the heat radiation fan.

Preferably, the junction of first condenser pipe and second condenser pipe upper end is the horizontal tilt state, a plurality of equidistant distributed's louvre has been seted up to the side surface of shell, just the second condenser pipe is located every the inboard of louvre, just every the cooling fan is corresponding with the position of a plurality of louvres.

Compared with the prior art, the invention has the beneficial effects that:

1. This runner formula molecular sieve dehumidifier equipment, when the dehumidifier begins the during operation, rotate through dehumidification drive wind wheel work and produce suction to indoor moist air is inhaled, and remove most dust through the gas outlet again, and the wheel rotating machine passes through pinion drive runner, thereby drive molecular sieve and slowly rotate, the air after the dust removal passes through the runner, and enter into the molecular sieve inside, thereby adsorb the moisture in the air, it is indoor with dry air exhaust through dry air outlet channel by dehumidification drive wind wheel again, the purpose of indoor dehumidification and improvement dehumidification efficiency has been reached.

2. This rotary wheel type molecular sieve dehumidifier equipment, the moisture circulation regeneration in-process in the molecular sieve, regeneration drive wind wheel is followed regeneration condenser and is inhaled regeneration passageway with regeneration air in, and the regeneration room is passed through again and is heated the air, thereby take out the absorptive hydrone in the molecular sieve from the inside of molecular sieve, the regeneration hydrone condensation water that the hot air was taken out again through regeneration condenser, rethread comdenstion water collection dish is collected, the purpose of dry regeneration molecular sieve has been reached, thereby realize the regeneration hydrone at the inside self-condensation of dehumidifier realization indoor dehumidification dry purpose simultaneously.

3. Through setting up cooling mechanism in the outside of shell and comdenstion water collection dish, under the mutually supporting of first condenser pipe, second condenser pipe, radiator fan in cooling mechanism, dispel the heat to the inside of device, through under radiator fan's effect, outside air enters into the device inside, simultaneously through the effect of pump down, circulate the inside moisture of comdenstion water collection dish between first condenser pipe and second condenser pipe and comdenstion water collection dish, under radiator fan's cooperation, under forced air cooling and water-cooled interact, dispel the heat to the inside of device, avoid the inside component of device to produce too much heat and damage when the operation, thereby increased the holistic heat dispersion of device.

Drawings

FIG. 1 is a schematic view of the internal structure of the present invention;

FIG. 2 is a schematic view of the structure of dehumidification and regeneration in the present invention;

FIG. 3 is a schematic view of the structure of dehumidification and regeneration in the present invention;

FIG. 4 is a schematic diagram of a regenerative condenser according to the present invention;

FIG. 5 is a schematic diagram of the internal structure of the heat dissipation mechanism according to the present invention;

fig. 6 is a schematic side view of a heat dissipation mechanism according to the present invention.

Reference numerals: 100. a housing; 101. an air inlet; 102. a dust removal filter element; 103. an air outlet; 104. a condensed water collecting vessel; 200. a rotary motor; 201. a pinion gear; 202. a molecular sieve; 203. a rotating wheel; 204. a wheel rotating bracket; 300. a dry air outlet channel; 301. a dehumidifying driving wind wheel motor; 302. dehumidification driving wind wheel; 400. a regenerative wind wheel motor; 401. regenerating and driving the wind wheel; 402. the air inlet of the regenerated wind wheel; 403. a regeneration chamber air outlet; 404. a regeneration channel; 405. a regeneration chamber; 406. a regenerative heater; 500. a condenser air inlet; 501. a regenerative condenser; 502. condensing the upper air chamber; 503. a condenser air outlet; 504. a condenser lower air chamber; 505. a condenser drain; 506. a partition plate; 6. a first condenser tube; 7. an outer frame body; 701. a vent; 8. a second condenser tube; 9. a filter screen; 10. a heat radiation fan; 11. a water pump; 12. and the heat dissipation holes.

Detailed Description

The following describes the technical solution in the embodiment of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a household rotary wheel type molecular sieve dehumidifier comprises a shell 100, an air inlet 101 is arranged at the middle position of one side of the shell 100, an air outlet 103 is arranged at the top of the shell 100, a dust removing filter core 102 is fixedly arranged in the air inlet 101, a regenerative condenser 501 is fixedly arranged in the shell 100 and positioned at one side of the dust removing filter core 102, a rotary wheel 203 is rotatably arranged at one side of the regenerative condenser 501, a molecular sieve 202 is arranged in the rotary wheel 203 and is fixedly connected with the rotary wheel 203, a rotary motor 200 is arranged at the outer side of the rotary wheel 203, a pinion 201 is fixedly connected with an output shaft of the rotary motor 200, the outer side of the pinion 201 is in meshed connection with the rotary wheel 203, a dehumidifying driving wind wheel motor 301 is fixedly arranged in the shell 100, a dehumidifying driving wind wheel 302 is fixedly connected with an output shaft of the dehumidifying driving wind wheel motor 301, a drying air outlet channel 300 is fixedly connected to the upper end of the dehumidifying driving wind wheel 302 in the shell 100, a regeneration channel 404 is fixedly connected below one side of the rotating wheel 203, a regeneration chamber 405 is fixedly connected to one side of the regeneration channel 404 and the lower end of one side of the molecular sieve 202, a regeneration heater 406 is fixedly connected inside the regeneration chamber 405, a regeneration wind wheel motor 400 is fixedly arranged at the other side of the regeneration channel 404, a regeneration driving wind wheel 401 is fixedly connected to an output shaft of the regeneration wind wheel motor 400, a regeneration wind wheel air inlet 402 is arranged at one side of the regeneration driving wind wheel 401, a regeneration chamber air outlet 403 is arranged at one side of the regeneration chamber 405, a condensation upper air chamber 502 and a condensation lower air chamber 504 are respectively arranged at the upper end and the lower end of the regeneration condenser 501, a condenser air inlet 500 and a condenser air outlet 503 are respectively arranged at two sides of the surface of the condenser lower air chamber 504, the condenser air inlet 500 and the condenser air outlet 503 are positioned below the regeneration condenser 501, a condensate water collecting vessel 104 is fixedly arranged below the shell 100, and a heat dissipation mechanism is arranged outside the shell 100 and the condensate water collecting vessel 104.

In this embodiment, this rotary wheel type molecular sieve dehumidifier equipment, when the dehumidifier begins to operate, through dehumidification drive wind wheel 302 work rotation production suction to indoor moist air is inhaled, get rid of most dust through gas outlet 103 again, and rotary motor 200 passes through pinion 201 drive runner 203, thereby drive molecular sieve 202 and slowly rotate, the air after the dust removal passes through runner 203, and enter into the inside of molecular sieve 202, thereby adsorb the moisture in the air, again by dehumidification drive wind wheel 302 through drying outlet channel 300 with dry air exhaust indoor, the purpose of indoor dehumidification and improvement dehumidification efficiency has been reached.

Meanwhile, in the rotary wheel type molecular sieve dehumidifier device in the embodiment, in the process of cyclic regeneration of moisture in the molecular sieve 202, the regeneration driving wind wheel 401 sucks regeneration air into the regeneration channel 404 from the regeneration condenser 501, then the regeneration air is heated by the regeneration chamber 405, high-temperature air passes through the inside of the molecular sieve 202, thereby carrying out adsorbed water molecules in the molecular sieve 202, and then the regeneration water molecules carried out by the hot air are condensed into water by the regeneration condenser 501, and then are collected by the condensed water collecting vessel 104, so that the aim of drying the regenerated molecular sieve 202 is fulfilled, and meanwhile, the aim of self-condensing the regeneration water molecules in the dehumidifier is fulfilled, and indoor dehumidification and drying are fulfilled.

Specifically, the upper condensing air chamber 502 is communicated with the lower condenser air chamber 504, and a partition plate 506 is fixedly installed in the middle of the lower condenser air chamber 504, and the lower condenser air chamber 504 is divided into two air chambers by the partition plate 506.

Specifically, the regeneration chamber outlet 403 communicates with a condenser inlet 500 located in a condenser lower plenum 504, and the condenser outlet 503 communicates with the regeneration wind turbine inlet 402.

Specifically, a condenser drain port 505 is provided at the bottom of the condenser lower air chamber 504, and the condenser drain port 505 is communicated with the inside of the condensate collecting dish 104.

Specifically, a plurality of wheel rotating supports 204 are disposed on one side of the wheel 203, and the wheel rotating supports 204 are rotatably connected with the wheel 203.

Specifically, the cooling mechanism includes first condenser pipe 6, second condenser pipe 8, cooling fan 10, the outside surface fixed mounting of shell 100 has outer support body 7, and the vent 701 of a plurality of equidistant distributions has been seted up to the outside surface of outer support body 7, cooling fan 10 sets up the inboard at vent 701, and cooling fan 10 fixed mounting is in the inside of outer support body 7, first condenser pipe 6 sets up in the outside of shell 100, the lower extreme of first condenser pipe 6 and the surface sealing connection of comdenstion water collection dish 104, and the lower extreme of first condenser pipe 6 is linked together with comdenstion water collection dish 104, the upper end of first condenser pipe 6 runs through shell 100 and extends to its inside, second condenser pipe 8 sets up the inside at shell 100, and the upper end of second condenser pipe 8 and first condenser pipe 6 looks sealing connection, the lower extreme of second condenser pipe 8 runs through the lower extreme of shell 100 and extends to the inside of comdenstion water collection dish 104, the lower extreme of first condenser pipe 6 is provided with water pump 11, and water pump 11 fixed mounting is in the surface of collection dish 104, the inside 9 of every 701 and the inside filter screen 9 of a plurality of condenser pipe 6 are located the inside of fan 6 and the corresponding cooling fan 12, a plurality of cooling holes are located the cooling fan 8 and the inside of every side of cooling fan 8 is located the horizontal cooling hole of the inside of a plurality of the corresponding cooling fan 12, the cooling hole is located at the inside of the side 12, the cooling hole of the cooling hole is located at the side of the cooling hole 12, the cooling hole is located at the corresponding cooling hole of the side of the cooling hole of the cooling pipe 12.

In this embodiment, through setting up the cooling mechanism in the outside of shell 100 and comdenstion water collection dish 104, under the mutually supporting of first condenser pipe 6, second condenser pipe 8, radiator fan 10 in the cooling mechanism, dispel the heat to the device inside, through under radiator fan 10's effect, outside air enters into the device inside, simultaneously through suction pump 11's effect under, circulate the inside moisture of comdenstion water collection dish 104 between first condenser pipe 6 and second condenser pipe 8 and comdenstion water collection dish 104, under radiator fan 10's cooperation, air-cooled and water-cooled interact down, dispel the heat to the device inside, avoid the inside component of device to produce too much heat and damage when the operation, thereby the holistic heat dispersion of device has been increased.

The working principle and the using flow of the invention are as follows: when in use, the dehumidification driving wind wheel motor (301) is electrified, under the action of the dehumidification driving wind wheel motor, the dehumidification driving wind wheel (302) starts to work to generate suction force, moist air enters from the air inlet (101), dust in the air is removed through the dust removing filter element (102), the rotary motor (200) is electrified, the rotary wheel (203) is driven to rotate through the pinion (201), the molecular sieve (202) rotates along with the rotary wheel (203) under the action of the rotary wheel (203), so that moisture contained in the moist air can be adsorbed by the molecular sieve (202) when the moist air passes through, the adsorbed dry air is sucked by the dehumidification driving wind wheel (302), is discharged from the air outlet (103) through the dry air outlet channel (300), the regeneration wind wheel motor (400) is electrified, the regeneration driving wind wheel (401) starts to work to generate suction force, the regeneration air enters from the air inlet (402) of the regeneration wind wheel (503) communicated with the air outlet (503) of the condenser, the regeneration air enters into the regeneration chamber (405) after passing through the regeneration channel (404), the regeneration heater (406) fixed inside the regeneration chamber (405) heats the air, the moisture contained in the molecular sieve (202) can be adsorbed by the molecular sieve, the adsorbed dry air is sucked from the inside the molecular sieve (202) and discharged from the air outlet (403) through the air outlet (500), water molecules contained in the regenerated air are condensed into condensed water through a regenerated condenser (501) when meeting condensation, the condensed water is discharged into a condensed water collecting dish (104) through a condenser water outlet (505), and when radiating, the condensed water in the condensed water collecting dish (104) is pumped into a first condensing pipe (6) through a water suction pump (11), and the condensed water circulates among the first condensing pipe (6), a second condensing pipe (8) and the condensed water collecting dish (104) to achieve the effect of radiating the internal elements of the device by matching with a radiating fan (10).

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (8)

1. A household rotary molecular sieve dehumidifier comprising a housing (100), characterized in that: an air inlet (101) is formed in one middle position of one side of the shell (100), an air outlet (103) is formed in the top position of the shell (100), a dust removal filter element (102) is fixedly mounted in the air inlet (101), a regeneration condenser (501) is fixedly mounted in one side of the dust removal filter element (102) in the shell (100), a rotating wheel (203) is rotatably mounted on one side of the regeneration condenser (501), a molecular sieve (202) is arranged in the rotating wheel (203), the molecular sieve (202) is fixedly connected with the rotating wheel (203), a rotary motor (200) is arranged on the outer side of the rotating wheel (203), a pinion (201) is fixedly connected with the rotating wheel (203) in an meshed mode, a dehumidification driving wind wheel motor (301) is fixedly mounted in the inner side of the shell (100), a drying channel (300) is fixedly connected with the upper end of the inner side of the regeneration condenser (501), a drying channel (300) is fixedly connected with the upper end of the dehumidification driving wind wheel (302), a regeneration channel (404) is fixedly connected with the lower end of the regeneration channel (404), the novel condensing type condenser is characterized in that a regenerative heater (406) is fixedly connected to the inside of the regenerative chamber (405), a regenerative wind wheel motor (400) is fixedly arranged on the other side of the regenerative channel (404), a regenerative driving wind wheel (401) is fixedly connected to an output shaft of the regenerative wind wheel motor (400), a regenerative wind wheel air inlet (402) is formed in one side of the regenerative driving wind wheel (401), a regenerative chamber air outlet (403) is formed in one side of the regenerative chamber (405), an upper condensing air chamber (502) and a lower condensing air chamber (504) are respectively arranged at the upper end and the lower end of the regenerative condenser (501), a condenser air inlet (500) and a condenser air outlet (503) are respectively formed in two sides of the surface of the lower condensing air chamber (504), the condenser air inlet (500) and the condenser air outlet (503) are located below the regenerative condenser (501), a condensed water collecting dish (104) is fixedly arranged below the housing (100), and a heat dissipation mechanism is arranged outside the housing (100) and the collecting dish (104).

2. A household rotary molecular sieve dehumidifier as claimed in claim 1, wherein: the upper condensing air chamber (502) is communicated with the lower condenser air chamber (504), a partition plate (506) is fixedly arranged in the middle of the lower condenser air chamber (504), and the lower condenser air chamber (504) is divided into two air chambers through the partition plate (506).

3. A household rotary molecular sieve dehumidifier as claimed in claim 1, wherein: the regeneration chamber air outlet (403) is communicated with a condenser air inlet (500) positioned in a condenser lower air chamber (504), and the condenser air outlet (503) is communicated with a regeneration wind wheel air inlet (402).

4. A household rotary molecular sieve dehumidifier as claimed in claim 1, wherein: a condenser drain outlet (505) is formed in the bottom of the condenser lower air chamber (504), and the condenser drain outlet (505) is communicated with the interior of the condensate water collecting vessel (104).

5. A household rotary molecular sieve dehumidifier as claimed in claim 1, wherein: one side of the rotating wheel (203) is provided with a plurality of rotating brackets (204), and the rotating brackets (204) are rotationally connected with the rotating wheel (203).

6. A household rotary molecular sieve dehumidifier as claimed in claim 1, wherein: the utility model provides a cooling mechanism includes first condenser pipe (6), second condenser pipe (8), radiator fan (10), the outside fixed surface of shell (100) installs outer support body (7), just a plurality of equidistant vent (701) of distribution have been seted up to the outside surface of outer support body (7), radiator fan (10) set up the inboard at vent (701), just radiator fan (10) fixed mounting is in the inside of outer support body (7), first condenser pipe (6) set up in the outside of shell (100), the lower extreme of first condenser pipe (6) is connected with the surface sealing of comdenstion water collection dish (104), just the lower extreme of first condenser pipe (6) is linked together with the surface sealing of comdenstion water collection dish (104), the upper end of first condenser pipe (6) runs through shell (100) and extends to its inside, second condenser pipe (8) set up the inside at shell (100), just the upper end of second condenser pipe (8) is connected with first condenser pipe (6) looks seal, the condensate water pump (8) is connected to the surface sealing of condensation water collection dish (104), the water pump (11) is connected to the surface sealing of condensation pipe (104) down.

7. The home run wheel molecular sieve dehumidifier of claim 6, wherein: a filter screen (9) is fixedly arranged in each ventilation opening (701), and the filter screen (9) is positioned on the outer side of the heat radiation fan (10).

8. The home run wheel molecular sieve dehumidifier of claim 6, wherein: the upper end connection part of the first condensation pipe (6) and the second condensation pipe (8) is in a horizontal inclined state, a plurality of equally-spaced radiating holes (12) are formed in the side surface of the shell (100), the second condensation pipe (8) is located at the inner side of each radiating hole (12), and each radiating fan (10) corresponds to the positions of a plurality of radiating holes (12).