CN220103289U - Heat exchange condensation dehumidifier - Google Patents

Abstract

The utility model belongs to the field of dehumidifiers, and particularly discloses a heat exchange condensation dehumidifier which comprises a suction turntable, a fan, an inner baffle cover, an outer baffle and an evaporator baffle, wherein the evaporator comprises a heating structure, a condenser, a condensing agent compressor and an expansion valve. According to the utility model, the external masonry is sucked into the device through the suction turntable, then subjected to heat exchange through the evaporator condenser, finally discharged with dry air, so that the whole structure is compact, and the dehumidification efficiency is high by adopting a physical method.

Description

Heat exchange condensation dehumidifier

Technical Field

The utility model relates to the field of air dehumidification, in particular to a heat exchange condensation dehumidifier.

Background

There are two main types of compressors for dehumidifiers, namely reciprocating and rotor type. The former uses the compressor to push the coolant, through two main parts of condenser and evaporator, draw the heat from one to another, in the course of dehumidifying, the moist air is drawn into machine by the flabellum, at first through the condenser tube, make the moisture content of the air cool and condense into the water spot, flow into the water container down the condenser tube, and the air of the moisture content that is drawn out will be discharged to the indoor along the evaporator; the latter uses silica gel coated on the rotating wheel to physically adsorb the water in the air on the synthetic silica gel with porous property, then in the regeneration zone of the rotating wheel the water adsorbed on the silica gel holes is heated and gasified, and passed through the inlet of the cross-flow heat exchanger to form high-temp. high-humidity air, then passed through the heat exchanger cooled by indoor cold-wet air, and discharged as condensed water due to dew point difference. The utility model belongs to a reciprocating dehumidifier.

The prior published Chinese utility model has the patent application number of CN202120078610.9: the utility model discloses a high-efficiency condensation dehumidifier which comprises a tank body, an air inlet component rotationally arranged at the bottom of the tank body and an air outlet component arranged at the top of the tank body, wherein the space inside the tank body is divided into a plurality of independent cavities, a plurality of cooling pipes connected with the air inlet component are arranged inside the cavities, and cooling liquid immersed in the cooling pipes is filled inside the cavities; the air inlet assembly comprises a horn pipe communicated with the cooling pipe, a connecting pipe connected with the horn pipe, a ventilation assembly connected with the connecting pipe and a ventilation pipe assembly connected to the bottom of the ventilation assembly and connected with the connecting pipe in a relative manner; this kind of dehumidifier can be through rotating operation cyclic utilization, does not stop carry out dry dehumidification to gas, can not lead to the fact the influence to gaseous dehumidification efficiency, and the regional cyclic intermittent type of dehumidification uses, can not lead to the fact the burden to the machine, and machine long service life dehumidifies through the physical method, can satisfy most gaseous dehumidification, is fit for using widely. The utility model discloses a high-efficiency condensing dehumidifier which has a smaller overall structure, is suitable for dehumidifying in a small space, and can be used in a scene with a small relative space, such as a living room, under the condition of low dehumidifying efficiency.

Disclosure of Invention

Based on the above, the utility model aims to provide a heat exchange condensation dehumidifier which has a compact dehumidification structure, has a large cross-sectional area for air to pass through, can increase the power of a fan, and can perform air dehumidification in a large space with higher efficiency.

The utility model provides a heat exchange condensation dehumidifier, includes and absorbs carousel 1, fan 2, interior fender cover 3, outer baffle 4, evaporator baffle 5, and evaporator 6, heating structure 7, condenser 8, condensing agent compressor 9 and expansion valve 84, outer baffle 4 and the one end fixed connection of fan 2, absorb the pin connection for the pivot of carousel 1 and fan 2, outer baffle 4 adopts fixed connection with evaporator baffle 5, evaporator baffle 5 adopts the welding with evaporator 6, evaporator 6 adopts fixed connection with heating structure 7, heating structure 7 adopts fixed connection with condenser 8, condensing agent compressor 9 includes condenser intake pipe 92 and evaporator air-out pipe 93, condenser intake pipe 92 and condenser 8 fixed connection, evaporator 6 and evaporator air-out pipe 93 fixed connection.

A plurality of outer baffle connecting holes 41 are formed in the middle of the outer baffle 4, connecting plates 42 are arranged on two sides of the outer baffle, the connecting plates 42 are arranged in an L-shaped mode with the side edges of the outer baffle 4, and the outer baffle 4 is connected with the fan 2 through bolts specifically through the outer baffle connecting holes 41.

The inner baffle cover 3 comprises a baffle plate 31 and a connecting metal plate 32, the shell of the fan 3 is connected with the baffle plate 31 in a clamping manner, and the connecting metal plate 32 is welded with the evaporator baffle plate 5.

The evaporator baffle 5 comprises an air inlet 51, a main board 52 and an outer plate connecting metal plate 53, the air inlet 51 is arranged at the center of the main board 52, the outer plate connecting metal plate 53 on the side surface of the main board 52 is L-shaped and is perpendicular to the main board 52, and the included angle of the two parts of the outer plate connecting metal plate 52 at the upper end is an obtuse angle and the included angle of the whole outer plate connecting metal plate 52 is an obtuse angle with the main board 52.

The evaporator 6 comprises an evaporator water pipe 61, an evaporator side baffle 62 and an evaporator rib 63, the evaporator water pipe 61 penetrates from the evaporator rib 63 at the most side to the other side, and then penetrates from a position which is a certain vertical distance away from the evaporator water pipe 61, the evaporator water pipe 61 is repeated for a plurality of times, different parts of the evaporator water pipes 61 are connected together, and the specific connection mode of the evaporator 6 and the evaporator baffle 5 is that an outer plate connecting metal plate 53 at the upper end is welded with the evaporator rib 63.

The condenser 8 comprises a condenser water pipe 81, a condenser side baffle 82 and a condenser rib plate 83, wherein the condenser water pipe 81 penetrates from the condenser rib plate 83 at the most side to the other side, and then penetrates from a position which is a certain vertical distance away from the condenser water pipe 81, the operation is repeated for a plurality of times, different parts of condenser water pipes 81 are connected together, the uppermost part of the condenser water pipe 81 is connected with one end of an expansion valve 84, and the other end of the expansion valve 84 is connected with the lowermost end of the evaporator 6.

The condensing agent compressor 9 comprises a compressor chassis 91, a condenser air inlet pipe 92, an evaporator air outlet pipe 93 and a condensing agent storage tank 94, wherein the condensing agent storage tank 94 is fixedly connected to the side face of the condensing agent compressor 9, the compressor chassis 91 is fixedly connected to the bottom of the condensing agent compressor 9, the condenser air inlet pipe 92 is fixedly connected with the lower end of the condenser 9, and the evaporator air outlet pipe 93 is fixedly connected with the upper end of the evaporator 6.

The heating structure 7 comprises a heating pipe 71 and a plurality of bulges 73 of a ventilation plate 72, wherein a plurality of rows of key-type holes 74 are punched on the ventilation plate 72, the bulges 73 are arranged between each row of key-type holes, and the heating pipe 71 is welded on the ventilation plate 72 and does not block the key-type holes 74 and the bulges 73.

Drawings

Fig. 1: the utility model is an integral diagram;

fig. 2: an outer baffle structure diagram;

fig. 3: the inner baffle cover is connected with the evaporator baffle plate;

fig. 4: a heating structure diagram;

fig. 5: an evaporator structure diagram;

fig. 6: a condenser structure diagram;

fig. 7: a compressor block diagram;

1. the rotary table is absorbed; 12. a pin hole; 2. a blower; 3. an inner shield; 31. a supporting plate; 32. connecting metal plates; 4. an outer baffle; 41. an outer baffle plate connecting hole; 42. a connecting plate; 5. an evaporator baffle; 51. an air inlet port; 52. the outer plate is connected with a metal plate; 6. an evaporator; 61. an evaporator water pipe; 62. evaporator side baffles; 63. an evaporator rib; 7. a heating structure; 71. heating pipes; 72. a ventilation plate; 73. a protrusion; 8. a condenser; 81. a condenser water pipe; 82. a condenser side baffle; 83. a condenser rib; 84. an expansion valve; 9. a condensing agent compressor; 91. a compressor chassis; 92. a condenser air inlet pipe; 93. an evaporator air outlet pipe; 94. a condensing agent storage tank.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. Several embodiments of the utility model are presented in the figures. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "mounted" on another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-7, a heat exchange condensation dehumidifier includes a rotary table 1, a fan 2, an inner baffle cover 3, an outer baffle 4, an evaporator baffle 5, an evaporator 6, a heating structure 7, a condenser 8, a condensing agent compressor 9 and an expansion valve 84, wherein the outer baffle 4 is fixedly connected with one end of the fan 2, the rotary table 1 is fixedly connected with a rotating shaft of the fan 2 through pins, the outer baffle 4 is fixedly connected with the evaporator baffle 5, the evaporator baffle 5 is welded with the evaporator 6, the evaporator 6 is fixedly connected with the heating structure 7, the heating structure 7 is fixedly connected with the condenser 8, the condensing agent compressor 9 includes a condenser air inlet pipe 92 and an evaporator air outlet pipe 93, the condenser air inlet pipe 92 is fixedly connected with the condenser 8, and the evaporator 6 is fixedly connected with the evaporator air outlet pipe 93.

A plurality of outer baffle connecting holes 41 are formed in the middle of the outer baffle 4, connecting plates 42 are arranged on two sides of the outer baffle, the connecting plates 42 are arranged in an L-shaped mode with the side edges of the outer baffle 4, and the outer baffle 4 is connected with the fan 2 through bolts specifically through the outer baffle connecting holes 41.

The inner baffle cover 3 comprises a baffle plate 31 and a connecting metal plate 32, the shell of the fan 3 is connected with the baffle plate 31 in a clamping manner, and the connecting metal plate 32 is welded with the evaporator baffle plate 5.

The evaporator baffle 5 comprises an air inlet 51, a main board 52 and an outer plate connecting metal plate 53, the air inlet 51 is arranged at the center of the main board 52, the outer plate connecting metal plate 53 on the side surface of the main board 52 is L-shaped and is perpendicular to the main board 52, and the included angle of the two parts of the outer plate connecting metal plate 52 at the upper end is an obtuse angle and the included angle of the whole outer plate connecting metal plate 52 is an obtuse angle with the main board 52.

The evaporator 6 comprises an evaporator water pipe 61, an evaporator side baffle 62 and an evaporator rib 63, the evaporator water pipe 61 penetrates from the evaporator rib 63 at the most side to the other side, and then penetrates from a position which is a certain vertical distance away from the evaporator water pipe 61, the evaporator water pipe 61 is repeated for a plurality of times, different parts of the evaporator water pipes 61 are connected together, and the specific connection mode of the evaporator 6 and the evaporator baffle 5 is that an outer plate connecting metal plate 53 at the upper end is welded with the evaporator rib 63.

The condenser 8 comprises a condenser water pipe 81, a condenser side baffle 82 and a condenser rib plate 83, wherein the condenser water pipe 81 penetrates from the condenser rib plate 83 at the most side to the other side, and then penetrates from a position which is a certain vertical distance away from the condenser water pipe 81, the operation is repeated for a plurality of times, different parts of condenser water pipes 81 are connected together, the uppermost part of the condenser water pipe 81 is connected with one end of an expansion valve 84, and the other end of the expansion valve 84 is connected with the lowermost end of the evaporator 6.

The condensing agent compressor 9 comprises a compressor chassis 91, a condenser air inlet pipe 92, an evaporator air outlet pipe 93 and a condensing agent storage tank 94, wherein the condensing agent storage tank 94 is fixedly connected to the side face of the condensing agent compressor 9, the compressor chassis 91 is fixedly connected to the bottom of the condensing agent compressor 9, the condenser air inlet pipe 92 is fixedly connected with the lower end of the condenser 9, and the evaporator air outlet pipe 93 is fixedly connected with the upper end of the evaporator 6.

The heating structure 7 comprises a heating pipe 71 and a plurality of bulges 73 of a ventilation plate 72, wherein a plurality of rows of key-type holes 74 are punched on the ventilation plate 72, the bulges 73 are arranged between each row of key-type holes, and the heating pipe 71 is welded on the ventilation plate 72 and does not block the key-type holes 74 and the bulges 73.

In summary, in the heat exchange condensation dehumidifier disclosed by the utility model, a high-temperature high-pressure gas is firstly processed into a high-pressure gas by a compressor, the high-pressure gas enters a condenser, heat is released after the high-pressure gas is condensed into liquid, then the refrigerant liquid enters an evaporator through an expansion valve to form low-temperature low-pressure steam, moisture in air is sucked in the process, the moisture in the air is condensed into liquid on the surface of an evaporation air rib plate, the gas is restored to the original temperature by a heating structure, and finally the dry air is discharged.

In this specification, each embodiment is described in a progressive manner, and each embodiment focuses on a difference from other embodiments, and the same or similar parts between the embodiments are referred to each other. And the above examples only represent a few embodiments of the present utility model, which are described in more detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (8)

1. The utility model provides a heat exchange condensation dehumidifier, includes and absorbs carousel (1), fan (2), interior fender cover (3), outer baffle (4), evaporator baffle (5), evaporator (6), heating structure (7), condenser (8), condensing agent compressor (9) and expansion valve (84), a serial communication port, the one end fixed connection of outer baffle (4) and fan (2), the pivot of taking carousel (1) and fan (2) is with pin connection, outer baffle (4) and evaporator baffle (5) adopt fixed connection, evaporator baffle (5) and evaporator (6) adopt the welding, evaporator (6) and heating structure (7) adopt fixed connection, heating structure (7) and condenser (8) adopt fixed connection, condensing agent compressor (9) include condenser intake pipe (92) and evaporator air-out pipe (93), condenser intake pipe (92) and condenser (8) lower extreme fixed connection, evaporator (6) upper end and evaporator air-out pipe (93) fixed connection.

2. The heat exchange condensation dehumidifier according to claim 1, wherein a plurality of outer baffle connecting holes (41) are impacted in the middle of the outer baffle (4), connecting plates (42) are arranged on two sides of the outer baffle (4), and the connecting plates (42) are arranged in an L shape with the side edges of the outer baffle (4).

3. The heat exchange condensation dehumidifier according to claim 1, wherein the inner shield (3) comprises a baffle (31) and a connecting sheet metal (32), the shell of the fan (2) is connected with the baffle (31) in a clamping manner, and the connecting sheet metal (32) is welded with the evaporator baffle (5).

4. A heat exchange condensation dehumidifier according to claim 1, wherein the evaporator baffle (5) comprises an air inlet (51), a main plate (52) and an outer plate connecting metal plate (53), the air inlet (51) is arranged at the center of the main plate (52), and the outer plate connecting metal plate (53) on the side of the main plate (52) is L-shaped and is perpendicular to the main plate (52).

5. A heat exchange condensation dehumidifier according to claim 1, wherein the evaporator (6) comprises an evaporator water pipe (61), an evaporator side baffle (62) and an evaporator rib (63), the evaporator water pipe (61) extending through the evaporator rib (63).

6. A heat exchange condensation dehumidifier according to claim 1, wherein the condenser (8) comprises a condenser water pipe (81), a condenser side baffle (82) and a condenser rib (83), the condenser water pipe (81) penetrates the condenser rib (83), the uppermost part of the condenser water pipe (81) is connected with one end of an expansion valve (84), and the other end of the expansion valve (84) is connected with the lowest end of the evaporator (6).

7. A heat exchange condensing dehumidifier according to claim 1, characterised in that the condensing compressor (9) further comprises a compressor chassis (91) and a condensing agent storage tank (94), the condensing agent storage tank (94) being fixedly connected to the side of the condensing compressor (9), the compressor chassis (91) being fixedly connected to the bottom of the condensing compressor (9).

8. A heat exchange condensation dehumidifier according to claim 1, wherein the heating structure (7) comprises a heating pipe (71), a ventilation plate (72) and a plurality of protrusions (73), wherein the ventilation plate (72) is provided with a plurality of rows of key-shaped holes (74), the protrusions (73) are arranged between each row of key-shaped holes (74), and the heating pipe (71) is welded on the ventilation plate (72) without blocking the key-shaped holes (74) and the protrusions (73).