CN209926483U

CN209926483U - Temperature-adjusting type fresh air dehumidifying equipment

Info

Publication number: CN209926483U
Application number: CN201920584456.5U
Authority: CN
Inventors: 陈厚忠
Original assignee: Wuhan Kingbull Economic Development Co Ltd
Current assignee: Wuhan Kingbull Economic Development Co Ltd
Priority date: 2019-04-26
Filing date: 2019-04-26
Publication date: 2020-01-10
Anticipated expiration: 2029-04-26

Abstract

The utility model discloses a temperature-adjusting fresh air dehumidifying device, wherein a sheet metal shell of the device is internally divided into three groups of channels, namely a fresh air channel, an exhaust channel and an indoor dehumidifying airflow channel; fresh air channel: outdoor air enters the sheet metal shell through a fresh air inlet, is subjected to primary filtration and total heat exchange core heat exchange, is precooled by a post-surface cooler, passes through an evaporator, a condenser and a pre-surface cooler, is purified by a middle-high efficiency filter, and is discharged indoors through a fresh air outlet; an air exhaust channel: indoor air enters the metal plate shell through the air exhaust inlet, then passes through the full heat exchange core, and is exhausted to the outside from the air exhaust outlet; indoor dehumidification airflow channel: one part of indoor air enters the metal plate shell through the indoor dehumidifying air inlet and then is converged with air entering through the fresh air inlet into the rear surface air cooler. The equipment has simple structure and convenient operation and maintenance, and simultaneously ensures relatively proper air supply temperature on the premise of high-efficiency dehumidification.

Description

Temperature-adjusting type fresh air dehumidifying equipment

Technical Field

The utility model relates to a new trend dehumidification art field, concretely relates to type of adjusting temperature new trend dehumidification equipment.

Background

At present, in order to improve the indoor air quality and reduce the indoor air moisture content, a traditional refrigeration system is usually adopted for dehumidification, or the dehumidification capacity is improved under the pre-cooling effect of a water cooling device, but in actual use, the traditional refrigeration type dehumidification or the fresh air dehumidification of the water cooling device is adopted, the temperature regulation of an air port is not emphasized, and the use comfort of consumers is directly influenced.

Disclosure of Invention

In order to solve the problems existing in the prior art, the utility model provides a temperature-adjusting type fresh air dehumidification equipment, the equipment structure is simple, economy is suitable for, and operation and easy maintenance guarantee relatively suitable air supply temperature simultaneously under the prerequisite of high-efficient dehumidification.

Realize the utility model discloses the technical scheme that above-mentioned purpose adopted does:

a temperature-adjusting fresh air dehumidification device comprises a metal plate shell and a refrigeration circulation mechanism, wherein the metal plate shell is square, the refrigeration circulation mechanism comprises a compressor, an evaporator, a condenser, a high-pressure pipe, a low-pressure pipe and a capillary pipe, the evaporator is connected with the compressor through the low-pressure pipe, the condenser is connected with the compressor through the high-pressure pipe, the evaporator is connected with the condenser through the capillary pipe, the temperature-adjusting fresh air dehumidification device also comprises a water cooling mechanism, an exhaust fan, a fresh air fan and a total heat exchange core, the metal plate shell comprises a first side plate and a second side plate, the first side plate is parallel to the second side plate, a first partition plate, a second partition plate, a third partition plate, a fourth partition plate, a fifth partition plate and a sixth partition plate are arranged in the metal plate shell, the first partition plate divides the metal plate shell into a first cavity and a second cavity, the first partition plate is parallel to the first side plate, the first cavity is adjacent to the first, the second partition plate is vertical to the first partition plate, the third partition plate divides the third cavity into a fourth cavity and a fifth cavity, the third partition plate is vertical to the second partition plate, the fourth cavity is close to the first side plate, the fourth partition plate divides the fourth cavity into an air exhaust and air outlet cavity and a fresh air inlet cavity, the fourth partition plate is vertical to the third partition plate, the fifth partition plate divides the second cavity into an air exhaust and air inlet cavity and a sixth cavity, the fifth partition plate is vertical to the first partition plate, the sixth cavity is divided into a fresh air exhaust cavity and a seventh cavity by the sixth partition plate, the sixth partition plate is parallel to the first partition plate, and the fresh air exhaust cavity is close to the second side plate;

an indoor dehumidifying air inlet, an exhaust air outlet and a fresh air inlet are arranged on the first side plate, an exhaust air inlet and a fresh air outlet are arranged on the second side plate, the indoor dehumidifying air inlet is communicated with an indoor dehumidifying air inlet cavity, an exhaust air fan is arranged in the exhaust air outlet cavity, the exhaust air fan outlet is communicated with the exhaust air outlet, a fresh air fan is arranged in the fresh air exhaust cavity, and the fresh air fan outlet is communicated with the fresh air outlet;

the water cooling mechanism comprises a water inlet main pipe, a water outlet main pipe, a front surface air cooler and a rear surface air cooler, the water inlet main pipe is respectively communicated with inlets of circulating water pipes of the front surface air cooler and the rear surface air cooler, the water outlet main pipe is respectively communicated with outlets of the circulating water pipes of the front surface air cooler and the rear surface air cooler, the evaporator, the condenser and the front surface air cooler are sequentially arranged in a seventh cavity from the first partition plate to the second side plate along the square shape, and the compressor is arranged in the air exhaust and intake cavity;

the total heat exchange core is arranged in the fifth cavity, the total heat exchange core comprises a fresh air passage and an air exhaust passage, a fresh air inlet is communicated with a fresh air inlet cavity, the fresh air inlet cavity is communicated with a fresh air passage inlet, a fresh air passage outlet and an indoor dehumidifying air inlet cavity are communicated with a rear surface air cooler inlet, a front surface air cooler outlet is communicated with a fresh air fan inlet, an air exhaust inlet cavity is communicated with an air exhaust passage inlet, and an air exhaust passage outlet is communicated with an air exhaust fan inlet.

The water-cooling mechanism still include first water inlet branch pipe, first water outlet branch pipe, second water inlet branch pipe and second water outlet branch pipe, the water inlet main is connected with the circulating pipe entry of leading surface cooler through first water inlet branch pipe, the circulating pipe export of leading surface cooler is connected with water outlet main through first water outlet branch pipe, first water inlet branch pipe and first water outlet branch pipe are equipped with the solenoid valve respectively, the water inlet main is through the circulating pipe entry intercommunication of second water inlet branch pipe with rear surface cooler, the circulating pipe export of rear surface cooler is connected with water outlet main through second water outlet branch pipe.

Still include primary filter and well high efficiency filter, primary filter installs in the fresh air intake chamber, and fresh air import and primary filter entry intercommunication, primary filter export and fresh air flue entry intercommunication, well high efficiency filter installs in fresh air exhaust chamber, and leading surface cooler export and well high efficiency filter entry intercommunication, well high efficiency filter export and fresh air fan entry intercommunication.

Compared with the prior art, the beneficial effects and advantages of the utility model reside in that:

1. this equipment adopts front and back water-cooling and dehumidification to combine, and the leading surface cooler increases the dehumidification ability, and the rear surface cooler reduces the air outlet temperature, realizes under the prerequisite of high-efficient dehumidification, adjusts the temperature of air outlet, guarantees the air supply temperature that suits relatively.

2. The user also can be according to specific humiture environment, the switching of this equipment dehumidification system, water cooling system and leading surface cooler of nimble control to this temperature that realizes the equipment air outlet can be along with the change of season and constantly adjust, realizes supplying cold and heat supply.

Drawings

Fig. 1 is a schematic structural diagram of a temperature-adjusting type fresh air dehumidifying device.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a schematic structural view of the refrigeration cycle mechanism.

Fig. 4 is a schematic structural view of the water cooling mechanism.

Wherein, 1-sheet metal shell, 2-first side plate, 3-second side plate, 4-first clapboard, 5-second clapboard, 6-third clapboard, 7-fourth clapboard, 8-fifth clapboard, 9-sixth clapboard, 10-indoor dehumidifying air inlet cavity, 11-fifth cavity, 12-air outlet cavity, 13-fresh air inlet cavity, 14-air outlet air inlet cavity, 15-fresh air outlet cavity, 16-seventh cavity, 17-indoor dehumidifying air inlet, 18-air outlet, 19-fresh air inlet, 20-air outlet, 21-fresh air outlet, 22-air outlet fan, 23-fresh air fan, 24-total heat exchange core, 25-compressor, 26-evaporator, 27-condenser, 28-high pressure pipe, 29-low pressure pipe, 30-capillary, 31-water inlet manifold, 32-water outlet manifold, 33-prepositive surface air cooler, 34-postpositive surface air cooler, 35-first water inlet branch pipe, 36-first water outlet branch pipe, 37-second water inlet branch pipe, 38-second water outlet branch pipe, 39-electromagnetic valve and 40-high efficiency filter.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

The utility model provides a temperature regulation type new trend dehumidification equipment's structure is as shown in figure 1 and figure 2, including panel beating casing 1, refrigeration cycle mechanism, water-cooling mechanism, air exhaust fan 22, new trend fan 23, total heat exchange core 24, primary filter and medium-high efficiency filter 40.

As shown in fig. 2, the sheet metal shell is square, the sheet metal shell 1 includes a first side plate 2 and a second side plate 3, and the first side plate 2 and the second side plate 3 are parallel.

A first partition plate 4, a second partition plate 5, a third partition plate 6, a fourth partition plate 7, a fifth partition plate 8 and a sixth partition plate 9 are arranged in the metal plate shell 1. First baffle 4 separates into first cavity and second cavity with panel beating casing 1, and first baffle 4 is on a parallel with first curb plate 2, and first cavity is adjacent first curb plate 2. The second partition board 5 divides the first cavity into an indoor dehumidifying air inlet cavity 10 and a third cavity, and the second partition board 5 is perpendicular to the first partition board 4. The third cavity is divided into a fourth cavity and a fifth cavity 11 by a third partition board 6, the third partition board 6 is perpendicular to the second partition board 5, and the fourth cavity is close to the first side board 2. The fourth cavity is divided into an air exhaust and outlet cavity 12 and a fresh air inlet cavity 13 by a fourth clapboard 7, and the fourth clapboard 7 is vertical to the third clapboard 6. The fifth clapboard 8 divides the second cavity into an exhaust air inlet cavity 14 and a sixth cavity, and the fifth clapboard 8 is vertical to the first clapboard 4. The sixth cavity is divided into a fresh air exhaust cavity 15 and a seventh cavity 16 by the sixth partition board 9, the sixth partition board 9 is parallel to the first partition board 4, and the fresh air exhaust cavity 12 is close to the second side plate 5.

The first side plate 2 is provided with an indoor dehumidifying air inlet 17, an exhaust air outlet 18 and a fresh air inlet 19, and the second side plate 3 is provided with an exhaust air inlet 20 and a fresh air outlet 21. The exhaust fan 22 is arranged in the exhaust air outlet cavity 12, the fresh air fan 23 is arranged in the fresh air exhaust cavity 15, the primary filter is arranged in the fresh air inlet cavity 13, and the middle-high efficiency filter 40 is arranged in the fresh air exhaust cavity 15. The total heat exchange core 24 is installed in the fifth cavity 11, and the total heat exchange core 24 comprises a fresh air passage and an exhaust air passage.

As shown in fig. 3, the refrigeration cycle mechanism includes a compressor 25, an evaporator 26, a condenser 27, a high-pressure pipe 28, a low-pressure pipe 29, and a capillary tube 30, the evaporator 26 being connected to the compressor 25 through the low-pressure pipe 29, the condenser 27 being connected to the compressor 25 through the high-pressure pipe 28, and the evaporator 26 and the condenser 27 being connected through the capillary tube 30.

As shown in fig. 4, the water cooling mechanism includes a water inlet manifold 31, a water outlet manifold 32, a first water inlet branch pipe 35, a first water outlet branch pipe 36, a second water inlet branch pipe 37, a second water outlet branch pipe 38, a pre-surface air cooler 33, and a post-surface air cooler 34. The water inlet manifold 31 is connected with a circulating water pipe inlet of the front surface air cooler 33 through a first water inlet branch pipe 35, a circulating water pipe outlet of the front surface air cooler 33 is connected with the water outlet manifold 32 through a first water outlet branch pipe 36, the first water inlet branch pipe 35 and the first water outlet branch pipe 36 are respectively provided with an electromagnetic valve 39, the water inlet manifold 31 is communicated with a circulating water pipe inlet of the rear surface air cooler 34 through a second water inlet branch pipe 37, and a circulating water pipe outlet of the rear surface air cooler 34 is connected with the water outlet manifold 32 through a second water outlet branch pipe 38.

The after-surface air cooler 34, the evaporator 26, the condenser 27 and the before-surface air cooler 33 are sequentially arranged in the seventh cavity 16 along the square shape from the first partition plate 4 to the second side plate 3, and the compressor 25 is arranged in the exhaust air inlet cavity 14.

Divide into 3 air current channel in the panel beating casing, a set of new trend passageway that is, a set of air exhaust channel, another a set of indoor dehumidification air current channel, specifically as follows:

1. fresh air channel:

the fresh air inlet 19 is communicated with the inlet of the primary filter, the outlet of the primary filter is communicated with the inlet of the fresh air passage, the outlet of the fresh air passage is communicated with the inlet of the post-surface cooler 34, the outlet of the pre-surface cooler 33 is communicated with the inlet of the middle-high efficiency filter 40, the outlet of the middle-high efficiency filter 40 is communicated with the inlet of the fresh air fan 23, and the outlet of the fresh air fan 23 is communicated with the fresh air outlet 21;

2. an air exhaust channel:

the exhaust air inlet 18 is communicated with the exhaust air inlet cavity 14, the exhaust air inlet cavity 14 is communicated with the inlet of the exhaust air passage, the outlet of the exhaust air passage is communicated with the inlet of the exhaust fan 22, and the outlet of the exhaust fan 22 is communicated with the exhaust air outlet 18;

3. indoor dehumidification airflow channel:

the indoor dehumidifying air inlet 17 is communicated with the indoor dehumidifying air inlet cavity 10, the indoor dehumidifying air inlet cavity 10 is communicated with an inlet of the rear surface air cooler 34, an outlet of the front surface air cooler 33 is communicated with an inlet of the middle and high-efficiency filter 40, an outlet of the middle and high-efficiency filter 40 is communicated with an inlet of the fresh air fan 23, and an outlet of the fresh air fan 23 is communicated with a fresh air outlet 21.

The working principle of the temperature-regulating fresh air dehumidifying equipment is as follows:

1. when the season is in summer or the ambient temperature is too high, the indoor air needs to be dehumidified and refrigerated, the electromagnetic valve of the preposed surface cooler is opened, the air entering from the fresh air inlet and the indoor dehumidifying air inlet flows through the postposition surface cooler, 7-19 degrees of water flows through the circulating water pipe of the postposition surface cooler, the heat in the air is taken away through the circulation of a water channel, the air flowing through the postposition surface cooler is cooled and dehumidified, then is further dehumidified by the evaporator, is further cooled and then flows through the condenser, the condenser is a cooling device of a refrigerant of a refrigerating system, the air flows through the condenser, the temperature is raised, the high-temperature and low-humidity air continuously flows through the preposed surface cooler, the preposed surface cooler is a cold water cooling device at the moment, the air is cooled, the temperature reduction range of the air flowing through the preposed surface cooler can be controlled by adjusting the flow of the electromagnetic valve, what the new trend exit flow is the low temperature air after the purification dehumidification, can not improve the air conditioner load, also can help indoor further cooling moreover, promotes user's travelling comfort.

2. When the season is in winter or the ambient temperature is too low, fresh air is needed to dehumidify and heat indoors, the electromagnetic valve of the preposed surface air cooler is closed, air entering from the fresh air inlet and the indoor dehumidifying air inlet flows through the post-positioned surface air cooler, water with the temperature of 7-19 ℃ flows through the circulating water pipe of the post-positioned surface air cooler, the heat and the humidity in the air are taken away through the circulation of the water channel, the air flowing through the post surface air cooler is cooled and dehumidified, the air is further dehumidified by the evaporator, is further cooled, then flows through the condenser, the condenser is a cooling medium heat dissipation device of a refrigeration system, the air flows through the condenser, the temperature is increased, the high-temperature and low-humidity air continuously flows through the front surface air cooler, the electromagnetic valve of the front surface air cooler is closed at the moment, no cold water passes through the front surface air cooler, the air is still the air which is higher than the normal temperature and has low humidity, the heating requirement of a user is met, and meanwhile, the heating load of the air conditioner is reduced.

Claims

1. The utility model provides a temperature regulation type new trend dehumidification equipment, includes panel beating casing and refrigeration cycle mechanism, and the panel beating casing is squarely, and refrigeration cycle mechanism includes compressor, evaporimeter, condenser, high-pressure pipe, low-pressure pipe and capillary, and the evaporimeter is connected with the compressor through low-pressure pipe, and the condenser passes through the high-pressure pipe to be connected with the compressor, and evaporimeter and condenser pass through capillary connection, its characterized in that: the sheet metal shell comprises a first side plate and a second side plate which are parallel, a first partition plate, a second partition plate, a third partition plate, a fourth partition plate, a fifth partition plate and a sixth partition plate are arranged in the sheet metal shell, the first partition plate divides the sheet metal shell into a first cavity and a second cavity, the first partition plate is parallel to the first side plate, the first cavity is adjacent to the first side plate, the second partition plate divides the first cavity into an indoor dehumidification air inlet cavity and a third cavity, the second partition plate is perpendicular to the first partition plate, the third partition plate divides the third cavity into a fourth cavity and a fifth cavity, the third partition plate is perpendicular to the second partition plate, the fourth cavity is adjacent to the first side plate, the fourth partition plate divides the fourth cavity into an air exhaust air outlet cavity and a fresh air cavity, the fourth partition plate is perpendicular to the third partition plate, and the fifth partition plate divides the second cavity into an air inlet cavity and an exhaust air inlet cavity, the fifth partition plate is vertical to the first partition plate, the sixth cavity is divided into a fresh air exhaust cavity and a seventh cavity by the sixth partition plate, the sixth partition plate is parallel to the first partition plate, and the fresh air exhaust cavity is close to the second side plate;

2. The temperature-regulating fresh air dehumidifying device according to claim 1, wherein: the water-cooling mechanism still include first water inlet branch pipe, first water outlet branch pipe, second water inlet branch pipe and second water outlet branch pipe, the water inlet main is connected with the circulating pipe entry of leading surface cooler through first water inlet branch pipe, the circulating pipe export of leading surface cooler is connected with water outlet main through first water outlet branch pipe, first water inlet branch pipe and first water outlet branch pipe are equipped with the solenoid valve respectively, the water inlet main is through the circulating pipe entry intercommunication of second water inlet branch pipe with rear surface cooler, the circulating pipe export of rear surface cooler is connected with water outlet main through second water outlet branch pipe.

3. The temperature-regulating fresh air dehumidifying device according to claim 1, wherein: still include primary filter and well high efficiency filter, primary filter installs in the fresh air intake chamber, and fresh air import and primary filter entry intercommunication, primary filter export and fresh air flue entry intercommunication, well high efficiency filter installs in fresh air exhaust chamber, and leading surface cooler export and well high efficiency filter entry intercommunication, well high efficiency filter export and fresh air fan entry intercommunication.