CN218583306U - Self-dehumidifying rotary dehumidifier - Google Patents

Abstract

A self-dehumidifying rotary dehumidifier comprises an air inlet mechanism, a dehumidifying rotary mechanism, an air outlet mechanism, a regenerating and dehumidifying mechanism and a controller, wherein the air inlet mechanism comprises an air inlet and an air inlet fan; the dehumidification rotating wheel mechanism comprises a dehumidification rotating wheel; the air outlet mechanism comprises an air outlet, a heat-conducting heat-insulating plate and a controller air supply outlet connected with a controller; the regeneration dehumidification mechanism comprises a regeneration air inlet and a heating air box arranged behind the regeneration air inlet; the heating air box is connected with the heat conduction insulation board; the controller comprises a control circuit and an air outlet filter screen. The utility model discloses beneficial effect as follows: a heating air box is arranged behind the regeneration air inlet to stabilize the temperature and speed of the regeneration air and ensure that the dehumidification rotating wheel can carry out dehydration stably; the air outlet mechanism is connected with the controller to perform self-dehumidification of the controller, so that the controller is not influenced by moisture evaporation of components such as the dehumidification rotating wheel and the like; the heat-conducting heat-insulating plate is arranged to heat air, and meanwhile, the heating air box is assisted to dissipate heat, so that energy is saved.

Description

Self-dehumidifying rotary dehumidifier

Technical Field

The utility model relates to a drying equipment field especially relates to a from dehumidification rotary dehumidifier.

Background

The industrial field often uses a rotary dehumidifier for dehumidification. The interior of the rotary dehumidifier is generally divided into a treatment zone and a regeneration zone. The treatment area in the dehumidification rotating wheel is generally in a sector of a quarter of three circles, and when humid air enters the treatment area, moisture in the air is absorbed by the moisture absorbent in the rotating wheel; meanwhile, in a regeneration area, the regeneration air passes through the moisture absorption rotating wheel after being heated, so that the moisture in the rotating wheel is evaporated, the dehumidification capacity of the rotating wheel is recovered, and then the wet air is discharged through the regeneration fan, so that the effect of continuous dehumidification is achieved.

According to different requirements, the dehumidifying machine needs to be improved in a targeted manner. The publication number of the rotary dehumidifier is CN207584958U, and the rotary dehumidifier comprises a shell, a dehumidification rotary wheel, a first sensor for detecting indoor temperature and humidity, a motor and a controller, wherein two ends of a regeneration area of the dehumidification rotary wheel are provided with a regeneration air inlet and a regeneration air outlet, the regeneration air inlet is provided with a heater, and the regeneration air outlet is provided with a second sensor for detecting the temperature and the humidity; and the two ends of the moisture absorption area are provided with a processing air inlet and a processing air outlet, the processing air outlet is provided with a third sensor for detecting temperature and humidity, and the moisture absorption area further comprises a processing air blower. The utility model discloses can be based on ambient temperature and relative humidity automatically regulated rotary dehumidifier's operating condition, can be applicable to under various humidity and the temperature environment, energy-concerving and environment-protective when guaranteeing the dehumidification effect.

According to the scheme, a plurality of temperature and humidity sensors are added in a conventional dehumidification method, and numerical values such as air quantity, rotating speed of a rotating wheel, heating power and the like are intelligently adjusted through a controller, so that an energy-saving effect is achieved. However, the regenerated air of the scheme is directly communicated with the dehumidifying rotating wheel through the heater through a pipeline, and the temperature of the regenerated air can be influenced by suddenly injected urgent air flow, so that the dehydrating efficiency of the dehumidifying rotating wheel is reduced; the control system of the device is arranged above the dehumidifying part and is relatively easily influenced by water vapor, the water vapor evaporated by the dehumidifying rotating wheel can easily corrode the control system, and the control system is easily damaged after the water vapor is accumulated to a certain degree; the device is provided with a heater, but the generated drying air has no heating link, and the heater lacks an effective heat dissipation mode.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes among the prior art regeneration pipeline easily receives external air current to influence, steam corrodes control system easily, the dry wind of generation is not hot etc. not enough, provides a temperature and the velocity of flow that adopts heating bellows to stabilize regeneration wind, also establishes the control system of device self to the dehumidification target and sets up the wind channel, installs heat-transfer device additional simultaneously, makes the surface heat dissipation of heater smooth and easy to utilize the waste heat to make the air outlet blow off a little hot-blast from dehumidification rotary dehumidifier.

In order to solve the problem, the utility model adopts the following technical scheme.

A self-dehumidifying rotary dehumidifier comprises an air inlet mechanism, a dehumidifying rotary mechanism, an air outlet mechanism, a regenerating and dehumidifying mechanism and a controller, wherein the air inlet mechanism is connected with the dehumidifying rotary mechanism and comprises an air inlet and an air inlet fan; the dehumidification rotating wheel mechanism comprises a dehumidification rotating wheel, and the dehumidification rotating wheel mechanism is connected with the air outlet mechanism and the regeneration dehumidification mechanism; the air outlet mechanism comprises an air outlet, a heat-conducting heat-insulating plate and a controller air supply outlet connected with a controller; the regeneration dehumidification mechanism comprises a regeneration air inlet and a heating air box arranged behind the regeneration air inlet; the heating air box is connected with the heat conduction insulation board; the controller comprises a control circuit and an air outlet filter screen. The device is provided with a heating air box behind a regeneration air inlet so as to stabilize the temperature and speed of regeneration air and ensure that the dehumidification rotating wheel can carry out dehydration stably; the air outlet mechanism is connected with the controller to perform self-dehumidification of the controller, so that the controller is not influenced by moisture evaporation of the dehumidification rotating wheel and the like; set up heat conduction heated board heating and filter the back air, the surface of helping heating bellows dispels the heat simultaneously, has saved the energy.

Preferably, the air inlet mechanism further comprises an air inlet air box; a wind sensor is arranged inside the air inlet air box; the air inlet bellows plays the role of stabilizing the air speed, and the wind speed is adjusted by matching the wind sensor with the air inlet fan.

Preferably, the dehumidification rotating wheel mechanism further comprises a motor and a belt transmission module; and a driving wheel is fixedly arranged on the output shaft of the motor.

Preferably, the belt transmission module comprises a belt wheel, a belt and a tension wheel for controlling the tightness of the belt; a tension sensor is arranged on the surface of the belt; the tension sensor monitors the tightness degree of the belt in real time, and can send an emergency braking signal to enable the device to pause when the tensioning wheel fails and other conditions occur.

Preferably, the heat-conducting heat-insulating plate is of a hollow splicing structure and is movably connected with the air outlet and the air supply outlet of the controller respectively; the heat conduction and insulation board assembled flexibly can change the temperature of the surface of the hot air and the heating air box, and the heat conduction and insulation board is used according to the field situation.

Preferably, the regeneration dehumidifying mechanism further comprises a regeneration fan and a regeneration air outlet; the heating air box, the dehumidification rotating wheel and the regeneration fan are connected through pipelines.

Preferably, a heater, an air deflector and a temperature sensor are arranged in the heating air box; the air deflector is of an elastic structure; the elastic air deflector can not only guide air, but also stabilize the air speed, and prolong the service life of the elastic air deflector.

Preferably, the air outlet filter screen covers are arranged in two groups and are arranged diagonally, and air baffles are arranged outside the air outlet filter screen covers; the air outlet filter screen cover arranged diagonally can balance air pressure, and partial air is prevented from being accumulated in the controller box body.

Preferably, the inner sides of the air inlet, the air outlet, the controller air supply outlet, the regeneration air inlet and the regeneration air outlet are respectively provided with a dust removal filter.

Therefore, the utility model discloses following beneficial effect has: (1) A heating air box is arranged behind the regeneration air inlet to stabilize the temperature and speed of the regeneration air and ensure that the dehumidification rotating wheel can dewater stably. (2) The air outlet mechanism is connected with the controller to perform self-dehumidification of the controller, and the controller is prevented from being influenced by moisture evaporation of the parts such as the dehumidification rotating wheel and the like. (3) The heat-conducting heat-insulation board is arranged to heat and filter the air, and meanwhile, the outer surface of the heating air box is helped to dissipate heat, so that energy is saved.

Drawings

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

FIG. 2 is a schematic view of the inside structure of a heating bellows according to the present invention;

in the figure: 1-air inlet mechanism, 11-air inlet, 12-air inlet bellows, 13-air inlet fan, 2-dehumidification rotating wheel mechanism, 21-dehumidification rotating wheel, 22-motor, 23-belt transmission module, 3-air outlet mechanism, 31-air outlet, 32-heat conduction insulation board, 33-controller air outlet, 4-regeneration dehumidification mechanism, 41-regeneration air inlet, 42-heating bellows, 43-regeneration fan, 44-regeneration air outlet, 51-control circuit and 52-air outlet filter screen.

Detailed Description

The following further describes embodiments of the present invention with reference to specific examples.

As shown in fig. 1 and 2, the utility model relates to a self-dehumidifying rotary dehumidifier, which comprises an air inlet mechanism 1, a dehumidifying rotary mechanism 2, an air outlet mechanism 3, a regenerating and dehumidifying mechanism 4 and a controller 5, wherein the air inlet mechanism 1 is connected with the dehumidifying rotary mechanism 2, and the air inlet mechanism 1 comprises an air inlet 11 and an air inlet fan 13; the dehumidifying rotating wheel mechanism 2 comprises a dehumidifying rotating wheel 21, and the dehumidifying rotating wheel mechanism 2 is connected with the air outlet mechanism 3 and the regeneration dehumidifying mechanism 4; the air outlet mechanism 3 comprises an air outlet 31, a heat-conducting heat-insulating plate 32 and a controller air supply outlet 33 connected with the controller 5; the regeneration dehumidifying mechanism 4 comprises a regeneration air inlet 41 and a heating air box 42 arranged behind the regeneration air inlet 41; the heating air box 42 is connected with the heat conduction and insulation board 32; the controller 5 includes a control circuit 51 and an outlet air filter screen 52.

Specifically, the air inlet mechanism 1 further comprises an air inlet air box 12; and a wind power sensor is arranged in the air inlet air box 12.

Specifically, the dehumidifying rotating wheel mechanism 2 further comprises a motor 22 and a belt transmission module 23; and a driving wheel is fixedly arranged on an output shaft of the motor 22.

Specifically, the belt transmission module 23 includes a belt wheel, a belt and a tension wheel for controlling tightness of the belt; a tension sensor is arranged on the surface of the belt; the tension sensors can be arranged in a plurality of equidistant positions.

Specifically, the heat conduction and insulation board 32 is of a hollow assembly structure, and the heat conduction and insulation board 32 is movably connected with the air outlet 31 and the air supply outlet 33 of the controller respectively.

Specifically, the regeneration dehumidifying mechanism 4 further includes a regeneration fan 43 and a regeneration air outlet 44; the heating wind box 42, the desiccant rotor 21 and the regeneration fan 43 are connected by a pipeline.

Specifically, a heater 431, an air deflector 432 and a temperature sensor 433 are arranged inside the heating air box 42; the air deflector 432 is an elastic structure.

Specifically, the air outlet filter mesh enclosure 52 is provided with two sets of diagonal air baffles, and the air baffles are arranged outside the air outlet filter mesh enclosure 52.

Specifically, the inner sides of the air inlet 11, the air outlet 31, the controller air supply outlet 33, the regeneration air inlet 41 and the regeneration air outlet 44 are all provided with a dust removal filter.

The utility model discloses the working process is as follows.

As shown in fig. 1 and 2, when the dehumidifier works, external air firstly enters the air inlet mechanism; the air inlet fan introduces air into the air inlet, dust particles are filtered by the dust removal filter, the air speed is stabilized by the air inlet bellows, and the set air speed is achieved by the air inlet fan; then, air stably enters the dehumidifying rotating wheel for dehumidifying, the dehumidifying rotating wheel is driven to rotate by a belt transmission module driven by a motor, and the belt transmission module is provided with a tension pulley for adjusting the tightness of a belt; the dehumidified air enters the heat-conducting and heat-insulating plate to be heated, and then is divided into two parts, wherein one part of the air passes through the dust-removing filter again and is blown to the object to be dehumidified through the air outlet; the other strand upwards enters the controller through an air supply outlet of the controller for dehumidification, and is finally discharged through an air outlet filter screen. Meanwhile, at the other end, the gas enters a regeneration dehumidification mechanism to carry out dehydration regeneration on the dehumidification rotating wheel, is sucked by a regeneration fan, passes through a regeneration air inlet and a heating air box in sequence, and enters the dehumidification rotating wheel to desorb moisture; the gas mixed with moisture is discharged through the regeneration air outlet after passing through the regeneration fan.

When the dehumidifier operates, the operating condition of the dehumidifier is monitored at the same time by the tension sensor, the wind sensor, the temperature sensor and the like. When the dehumidifier has problems, the data monitored by the sensor is abnormal, the alarm module of the controller is started, and the device is slowly shut down. After the fault is eliminated, the device is turned on again according to the sequence of the motor/the heating fan.

The above-mentioned embodiment is only used to further explain the utility model relates to a from dehumidification rotary dehumidifier, nevertheless the utility model discloses not confine the embodiment to, all according to the utility model discloses a technical essence does any simple modification, equivalent change and modification to above embodiment, all falls into the technical scheme's of the utility model protection within range.

Claims (8)

1. The utility model provides a from dehumidification rotary dehumidifier, includes air inlet mechanism (1), dehumidification rotary mechanism (2), air-out mechanism (3), regeneration dehumidification mechanism (4) and controller (5), its characterized in that: the air inlet mechanism (1) is connected with the dehumidification rotating wheel mechanism (2), and the air inlet mechanism (1) comprises an air inlet (11) and an air inlet fan (13); the dehumidification rotating wheel mechanism (2) comprises a dehumidification rotating wheel (21), and the dehumidification rotating wheel mechanism (2) is connected with the air outlet mechanism (3) and the regeneration dehumidification mechanism (4); the air outlet mechanism (3) comprises an air outlet (31), a heat conduction and insulation board (32) and a controller air supply outlet (33) which is connected with the controller (5) to perform controller self-dehumidification; the regeneration dehumidification mechanism (4) comprises a regeneration air inlet (41) and a heating air box (42) arranged behind the regeneration air inlet (41); the heating air box (42) is connected with the heat conduction and insulation board (32); a heater (431), an air deflector (432) and a temperature sensor (433) are arranged in the heating air box (42); the air deflector (432) is of an elastic structure; the controller (5) comprises a control circuit (51) and an air outlet filtering net cover (52) used for discharging air flow which enters the controller from the controller air supply outlet (33) to be dehumidified.

2. The self-dehumidifying rotary dehumidifier recited in claim 1, wherein: the air inlet mechanism (1) also comprises an air inlet air box (12); and a wind sensor is arranged in the air inlet air box (12).

3. The self-dehumidifying rotary dehumidifier recited in claim 1, wherein: the dehumidification rotating wheel mechanism (2) further comprises a motor (22) and a belt transmission module (23); and a driving wheel is fixedly arranged on an output shaft of the motor (22).

4. The self-dehumidifying rotary dehumidifier of claim 3, wherein: the belt transmission module (23) comprises a belt wheel, a belt and a tension wheel for controlling the tightness of the belt; and a tension sensor is arranged on the surface of the belt.

5. The self-dehumidifying rotary dehumidifier as claimed in claim 1, wherein: the heat-conducting and heat-insulating plate (32) is of a hollow splicing structure, and the heat-conducting and heat-insulating plate (32) is movably connected with the air outlet (31) and the controller air supply outlet (33) respectively.

6. The self-dehumidifying rotary dehumidifier as claimed in claim 1, wherein: the regeneration dehumidifying mechanism (4) also comprises a regeneration fan (43) and a regeneration air outlet (44); the heating wind box (42), the dehumidifying rotating wheel (21) and the regenerating fan (43) are connected through pipelines.

7. The self-dehumidifying rotary dehumidifier recited in claim 1, wherein: the air outlet filtering mesh enclosures (52) are arranged in two groups and are arranged diagonally, and air baffles are arranged on the outer sides of the air outlet filtering mesh enclosures (52).

8. The self-dehumidifying rotary dehumidifier of any one of claims 1 to 7, wherein: and dust removing filters are arranged on the inner sides of the air inlet (11), the air outlet (31), the controller air supply outlet (33), the regeneration air inlet (41) and the regeneration air outlet (44).

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