CN211739341U - High-efficiency heat pipe energy-saving dehumidifier - Google Patents

Abstract

The utility model relates to a high-efficiency heat pipe energy-saving dehumidifier, which belongs to the technical field of heat pump drying and dehumidification, and comprises a lower heat pipe exchanger, an evaporator, an upper heat pipe exchanger and a condenser, wherein the lower heat pipe exchanger and the upper heat pipe exchanger form a closed heat pipe system, the lower end of the lower heat pipe exchanger is communicated with the lower end of the upper heat pipe exchanger, the upper end of the lower heat pipe exchanger is communicated with the upper end of the upper heat pipe exchanger, an air inlet of the lower heat pipe exchanger is communicated with an air supply port of the system, an air outlet of the lower heat pipe exchanger is communicated with an air inlet of the evaporator, an air outlet of the evaporator is communicated with an air inlet of the upper heat pipe exchanger through a cold air duct, an air outlet of the upper heat pipe exchanger is communicated with an air inlet of the condenser, an air outlet of the condenser, the heat pipe system is used for realizing the heat exchange without power consumption, and the dehumidification efficiency of the unit is improved.

Description

High-efficiency heat pipe energy-saving dehumidifier

Technical Field

The utility model relates to an energy-conserving formula dehumidifier of high-efficient heat pipe belongs to heat pump drying and dehumidification technical field.

Background

The conventional dehumidification process is based on an air source heat pump system to extract heat in products, is particularly widely applied in the field of drying and dehumidification, and is also applied in the fields of heat supply, cold supply, refrigeration houses and cooling. The heat pump dehumidification system in the prior art generally uses an evaporator to perform dehumidification circulation, the unit dehumidification efficiency is low, and the dehumidifier has high noise during dehumidification operation, thereby seriously affecting the surrounding environment quality.

SUMMERY OF THE UTILITY MODEL

The utility model discloses not enough to prior art exists, provide a high-efficient heat pipe energy-saving dehumidifier, realize the heat transfer of no consumption with the help of the heat pipe system, improve the dehumidification efficiency of unit.

The utility model provides an above-mentioned technical problem's technical scheme as follows: an efficient heat pipe energy-saving dehumidifier comprises a lower heat pipe exchanger, an evaporator, an upper heat pipe exchanger and a condenser, wherein the lower heat pipe exchanger is lower than the upper heat pipe exchanger, the lower heat pipe exchanger and the upper heat pipe exchanger form a closed heat pipe system, a circulating working medium is filled in the closed heat pipe system, the lower end of the lower heat pipe exchanger is communicated with the lower end of the upper heat pipe exchanger, the upper end of the lower heat pipe exchanger is communicated with the upper end of the upper heat pipe exchanger, an air inlet of the lower heat pipe exchanger is communicated with an air supply opening of the system, an air outlet of the lower heat pipe exchanger is communicated with an air inlet of the evaporator, an air outlet of the evaporator is communicated with an air inlet of the upper heat pipe exchanger through a cold air duct, an air outlet of the upper heat pipe exchanger is communicated with an air inlet of the, the other end of the hot air channel is communicated with an air inlet of the dehumidifying fan, and an air outlet of the dehumidifying fan is communicated to an air outlet of the system.

The utility model has the advantages that: through the arrangement of the lower heat pipe heat exchanger and the upper heat pipe heat exchanger, the non-power-consumption heat exchange between the lower heat pipe heat exchanger and the upper heat pipe heat exchanger is realized; the lower heat pipe heat exchanger is arranged to absorb heat, cool and dehumidify the wet air entering the system without power consumption; the evaporator is arranged to absorb heat in the air, so that cooling and dehumidification are performed; the air circulation direction of the system is controlled by arranging a cold air duct; the heat pipe heat exchanger at the upper part is arranged to perform non-power consumption heat release and temperature rise on the dehumidified cold air, and the condenser is arranged to completely heat the dehumidified air of the system; through setting up the dehumidification fan for dehumidification circulation provides power, improve unit efficiency, thereby improve the dehumidification efficiency of whole unit.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

The air conditioner further comprises a box body, wherein a lower supporting plate and an upper supporting plate which are installed in parallel are arranged in the box body, the height of the lower supporting plate is lower than that of the upper supporting plate, one end of the lower supporting plate is fixedly installed on the left wall in the box body, one end of the upper supporting plate is fixedly installed on the right wall in the box body, the lower heat pipe heat exchanger and the evaporator are installed between the lower supporting plate and the bottom wall in the box body, an air inlet of the lower heat pipe heat exchanger is communicated with a system air supply opening formed in the left wall of the box body, the upper heat pipe heat exchanger and the condenser are installed between the lower supporting plate and the upper supporting plate, the dehumidifying fan is installed on the upper portion of the upper supporting plate, an air outlet of the dehumidifying fan is communicated with an air outlet formed in the top wall of the box body, the lower supporting plate, the condenser, the upper supporting plate and the interior of the box body enclose a hot air duct together.

Furthermore, a dust removal filter is arranged at the air supply port of the system.

Furthermore, a silencing channel is arranged on an air outlet of the dehumidifying fan.

Further, a water pan is mounted at the bottom of the evaporator and communicated with a drain pipe, and the other end of the drain pipe penetrates through the box body.

Furthermore, the box body is made of heat-insulating materials or is wrapped with a heat-insulating layer.

The adoption of the further scheme has the beneficial effects that the size of the unit is further reduced by arranging the box body, the upper supporting plate and the lower supporting plate, the installation and debugging are convenient, the wind resistance of the system is reduced, and the dehumidification efficiency of the system is improved; the dust removal filter is arranged to filter and remove dust from air at an air supply port of the system, so that impurities mixed in the air are prevented from blocking a heat pump element, the service life of the device is prolonged, and the failure rate is reduced; the noise reduction channel is arranged to reduce noise of the heated hot air flow, so that system noise is reduced; through setting up the water collector, be favorable to in time discharge system comdenstion water, prevent to take place the overflow phenomenon.

Drawings

Fig. 1 is a schematic sectional view of the present invention.

In the figure, 1, a system air supply port, 2, a lower heat pipe heat exchanger, 3, an evaporator, 4, a cold air duct, 5, a lower support plate, 6, an upper heat pipe heat exchanger, 7, an upper support plate, 8, a condenser, 9, a hot air duct, 10, a dehumidifying fan, 11, a silencing passage, 12, an air outlet, 13, a water receiving disc, 14, a box body, 15, a left wall and 16, a right wall are arranged.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

An efficient heat pipe energy-saving dehumidifier comprises a lower heat pipe exchanger 2, an evaporator 3, an upper heat pipe exchanger 6 and a condenser 8, wherein the evaporator 3 and the condenser 8 are both connected with a compressor, the lower heat pipe exchanger 2 is lower than the upper heat pipe exchanger 6, the lower heat pipe exchanger 2 and the upper heat pipe exchanger 6 form a closed heat pipe system, a circulating working medium is filled in the closed heat pipe system, the lower end of the lower heat pipe exchanger 2 is communicated with the lower end of the upper heat pipe exchanger 6, the upper end of the lower heat pipe exchanger 2 is communicated with the upper end of the upper heat pipe exchanger 6, an air inlet of the lower heat pipe exchanger 2 is communicated with an air supply port 1 of the system, an air outlet of the lower heat pipe exchanger 2 is communicated with an air inlet of the evaporator 3, an air outlet of the evaporator 3 is communicated with an air inlet of the upper heat pipe exchanger 6 through, an air outlet of the upper heat pipe heat exchanger 6 is communicated with an air inlet of a condenser 8, an air outlet of the condenser 8 is communicated with a hot air duct 9, the other end of the hot air duct 9 is communicated with an air inlet of a dehumidifying fan 10, an air outlet of the dehumidifying fan 10 is communicated to an air outlet 12 of a system, and an air outlet of the dehumidifying fan 10 is provided with a noise reduction channel 11; the noise reduction channel 11 is arranged to reduce noise of the heated hot air flow and reduce system noise, and the lower heat pipe exchanger 2 and the upper heat pipe exchanger 6 are arranged to realize no-power-consumption heat exchange between the lower heat pipe exchanger 2 and the upper heat pipe exchanger 6; the lower heat pipe heat exchanger 2 is arranged to absorb heat, cool and dehumidify the wet air entering the system without power consumption; the evaporator 3 is arranged to absorb heat in the air, so that cooling and dehumidification are performed; the air circulation direction of the system is controlled by arranging a cold air duct 4; the heat pipe heat exchanger 6 at the upper part is arranged to perform non-power consumption heat release and temperature rise on the dehumidified cold air, and the condenser 8 is arranged to perform complete heating on the dehumidified air of the system; the dehumidification fan 10 is used for providing power for the dehumidification circulation, so that the unit efficiency is improved, and the dehumidification efficiency of the whole unit is improved.

The heat pipe heat exchanger comprises a box body 14, wherein the box body 14 is made of heat insulation materials or is externally wrapped by a heat insulation layer, so that the heat loss of a system is reduced, a lower supporting plate 5 and an upper supporting plate 7 which are arranged in parallel are arranged in the box body 14, the height of the lower supporting plate 5 is lower than that of the upper supporting plate 7, one end of the lower supporting plate 5 is fixedly arranged on the left wall 15 in the box body 14, one end of the upper supporting plate 7 is fixedly arranged on the right wall 16 in the box body 14, the lower heat pipe heat exchanger 2 and the evaporator 3 are arranged between the lower supporting plate 5 and the bottom wall in the box body 14, the air inlet of the lower heat pipe heat exchanger 2 is communicated with a system air supply port 1 arranged on the left wall 15 of the box body 14, the upper heat pipe heat exchanger 6 and the condenser 8 are arranged, the air outlet of dehumidification fan 10 communicates with air exit 12 that sets up at 14 roof of box, 14 inner walls of box, evaporimeter 3, lower part backup pad 5, upper portion heat pipe exchanger 6 and upper portion backup pad 7 enclose into cold wind channel 4 jointly, hot wind channel 9 is enclosed into jointly to lower part backup pad 5, condenser 8, upper portion backup pad 7 and the inside of box 14, through setting up box 14 and upper portion backup pad 7 and lower part backup pad 5, further dwindles the unit size, and easy to assemble and debug reduces the windage of system, improves system's dehumidification efficiency.

A dust removal filter is arranged at the air supply port 1 of the system; through setting up dust removal filter, filter the dust removal to the wind in system air feed mouth 1, prevent that the impurity that mix with in the wind from blockking up heat pump element, prolong the device's life, reduce the fault rate.

The bottom of the evaporator 3 is provided with a water pan 13, the water pan 13 is communicated with a drain pipe, and the other end of the drain pipe penetrates through the box body 14; through setting up water collector 13, be favorable to in time discharge system comdenstion water, prevent to take place the overflow phenomenon.

The working principle is as follows: moist hot air passes through a system air supply port 1, is dedusted by a dedusting filter, then passes through an air inlet of a lower heat pipe exchanger 2, transfers heat and carries out primary cooling and dehumidification, then passes through an evaporator 3 for dehumidification, condensed water after dehumidification is collected and discharged by a water receiving disc 13, dry air dried by the evaporator 3 enters an air inlet of an upper heat pipe exchanger 6 through a cold air duct 4 for primary heating without power consumption, then passes through a condenser 8 for complete heating, heated hot air enters a hot air duct 9, then the dry hot air is discharged out of the system through an exhaust port 12 through a silencing air duct 11 by a dehumidifying fan 10, wherein a closed heat pipe system formed between the lower heat pipe exchanger 2 and the upper heat pipe exchanger 6 is filled with a circulating working medium for heat exchange without power consumption, and therefore the dehumidification efficiency of the unit is improved.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (6)

1. The utility model provides a high-efficient heat pipe energy-saving dehumidifier which characterized in that: the dehumidification system comprises a lower heat pipe heat exchanger, an evaporator, an upper heat pipe heat exchanger and a condenser, wherein the lower heat pipe heat exchanger is lower than the upper heat pipe heat exchanger, the lower heat pipe heat exchanger and the upper heat pipe heat exchanger form a closed heat pipe system, a circulating working medium is filled in the closed heat pipe system, the lower end of the lower heat pipe heat exchanger is communicated with the lower end of the upper heat pipe heat exchanger, the upper end of the lower heat pipe heat exchanger is communicated with the upper end of the upper heat pipe heat exchanger, an air inlet of the lower heat pipe heat exchanger is communicated with an air supply opening of the system, an air outlet of the lower heat pipe heat exchanger is communicated with an air inlet of the evaporator, an air outlet of the evaporator is communicated with an air inlet of the upper heat pipe heat exchanger through a cold air duct, an air outlet of the upper heat pipe heat exchanger is communicated with, the air outlet of the dehumidifying fan is communicated to the air outlet of the system.

2. The high-efficiency heat pipe energy-saving dehumidifier as claimed in claim 1, wherein: the air conditioner also comprises a box body, a lower supporting plate and an upper supporting plate which are arranged in parallel are arranged in the box body, the height of the lower supporting plate is lower than that of the upper supporting plate, one end of the lower supporting plate is fixedly arranged on the left wall in the box body, one end of the upper supporting plate is fixedly arranged on the right wall in the box body, the lower heat pipe heat exchanger and the evaporator are arranged between the lower supporting plate and the bottom wall in the box body, an air inlet of the lower heat pipe heat exchanger is communicated with a system air supply opening arranged on the left wall of the box body, the upper heat pipe heat exchanger and the condenser are arranged between the lower supporting plate and the upper supporting plate, the dehumidifying fan is arranged on the upper portion of the upper supporting plate, an air outlet of the dehumidifying fan is communicated with an air outlet arranged on the top wall of the box, the lower supporting plate, the condenser, the upper supporting plate and the interior of the box body enclose a hot air duct together.

3. The high-efficiency heat pipe energy-saving dehumidifier as claimed in claim 2, wherein: and a dust removal filter is arranged at the air supply port of the system.

4. The high-efficiency heat pipe energy-saving dehumidifier as claimed in claim 1, wherein: and a silencing channel is arranged on an air outlet of the dehumidifying fan.

5. The high-efficiency heat pipe energy-saving dehumidifier as claimed in claim 2, wherein: the bottom of the evaporator is provided with a water pan which is communicated with a drain pipe, and the other end of the drain pipe penetrates through the box body.

6. The high-efficiency heat pipe energy-saving dehumidifier as claimed in claim 2, wherein: the box body is made of heat preservation materials or is wrapped with a heat preservation layer.

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