CN113719922B - Air conditioner for constant-temperature constant-humidity wine cellar using vibration humidification - Google Patents

Abstract

The invention discloses a constant-temperature and constant-humidity air conditioner for a cellar, which uses oscillation humidification and comprises a shell, a temperature adjusting interval, a humidity adjusting interval, a first connecting pipe, a condensing box, an air outlet pipe and a working element, wherein the working element is provided with a first dispersing structure matched with the temperature adjusting interval; a second connecting pipe is fixedly communicated between the air outlet pipe and the humidifying box, a fourth connecting pipe is fixedly installed in the shell, a third connecting pipe is installed between the fourth connecting pipe and the second connecting pipe, and a second dispersing structure matched with the humidifying area is installed on the shell; and a dehumidifying mechanism is installed on the condensing box. Has the advantages that: can quickly regulate and control the indoor air humidity and temperature, and is convenient for the wine cellar to better store the wine in the wine cellar.

Description

Constant-temperature and constant-humidity air conditioner for wine cellar and using vibration humidification

Technical Field

The invention relates to an air conditioner, in particular to an air conditioner for a constant-temperature constant-humidity wine cellar, which uses vibration humidification.

Background

The air conditioner is a device commonly used in daily life and production, is used for regulating and controlling the temperature and the humidity in a certain environment, comprises a working element, a pipeline system and a condensing system, and realizes the regulation and control of the temperature by utilizing hot and cold air flows generated by the working element.

When the air conditioner is selected in the wine cellar, the air conditioner with the constant temperature and humidity function can be selected, so that the temperature and the humidity in the wine cellar can be guaranteed to reach the appropriate storage condition of the wine.

The atomization method adopted by the existing constant-temperature and constant-humidity air conditioner for the wine cellar is a mode of evaporating by electric heating, and the mode has the problem of relatively low humidification speed.

Disclosure of Invention

The invention aims to solve the problems in the background art and provides an air conditioner for a constant-temperature constant-humidity wine cellar, which uses oscillation humidification.

In order to achieve the purpose, the invention adopts the following technical scheme:

an air conditioner for a constant-temperature and constant-humidity cellar using vibration humidification comprises a shell, a temperature adjusting section, a humidity adjusting section, a first connecting pipe, a condensing box, an air outlet pipe and a working element, wherein the working element is provided with a first dispersing structure matched with the temperature adjusting section;

a second connecting pipe is fixedly communicated between the air outlet pipe and the wetting box, a fourth connecting pipe is fixedly installed in the shell, a third connecting pipe is installed between the fourth connecting pipe and the second connecting pipe, and a second dispersing structure matched with the humidifying interval is installed on the shell;

a dehumidifying mechanism is arranged on the condensing box;

and the connecting pipe five, the air outlet pipe and the connecting pipe two are respectively provided with a valve I.

In foretell constant temperature and humidity air conditioner for cellar for storing things of using to vibrate humidification, dispersion structure one comprises two pivot one, two flabellum one and two baffles, rotate on the outer wall of working element and install two pivot one, two the equal fixed mounting of one end that the working element was kept away from to pivot has a flabellum one, and goes out the tuber pipe and be located between two flabellums one, fixed mounting has two baffles on the working element, and the shortest straight-line distance between two baffles equals the width between the interval that adjusts the temperature.

In foretell constant temperature and humidity of using to vibrate humidification air conditioner for cellar for storing things, dispersion structure two comprises at a distance from seat, two pivots two and two flabellum two, fixed mounting has at a distance from the seat in the casing, and the one end of connecting pipe four runs through at a distance from the seat, it installs two pivots two, two to rotate on the seat two last equal fixed mounting of pivot have one with the connecting pipe four matched with flabellum two.

In foretell constant temperature and humidity cellar for storing things air conditioner of vibration humidification, dehumidification mechanism comprises dehumidification case, motor two, axis of rotation, flabellum three, dehumidification subassembly, crowded water subassembly and six connecting pipes, fixed mounting has the dehumidification case on the condensing box, and the dehumidification case sets up for cavity, and has seted up a plurality of meshes that admit air on the dehumidification case, dehumidification incasement fixed mounting has motor two, the drive end fixed mounting of motor two has the axis of rotation, fixed mounting has flabellum three in the axis of rotation, fixed intercommunication has connecting pipe six between dehumidification case and the casing.

In foretell constant temperature and humidity air conditioner for cellar for storing things that uses to vibrate humidification, the dehumidification subassembly comprises arc otter board, ventilative sponge, the one end fixed mounting that the connecting pipe six is located the dehumidification incasement has the arc otter board, fixed mounting has ventilative sponge on the arc otter board.

In foretell constant temperature and humidity cellar for storing things air conditioner that uses to vibrate humidification, crowded water subassembly comprises plate body, three and squeeze roll of pivot, fixed mounting has the plate body in the axis of rotation, the plate body rotates through the three pivot and installs the squeeze roll with ventilative sponge matched with, the shortest straight-line distance between squeeze roll and the axis of rotation axle is greater than the biggest straight-line distance between three and the axis of rotation axle centers of flabellum.

In foretell constant temperature and humidity air conditioner for cellar for storing things of using to vibrate humidification, fixed intercommunication has one-way inlet tube between dehumidification case and the condensing box, and the one end that one-way inlet tube is located the dehumidification incasement installs valve two.

In the air conditioner for the constant-temperature and constant-humidity cellar using oscillation humidification, the sixth connecting pipe is a one-way pipe.

Compared with the prior art, the invention has the advantages that:

1: when the temperature is regulated, the temperature regulating interval and the humidity regulating interval can be used together, so that the indoor temperature can reach the required temperature quickly.

2: when humidification operation is needed, the air flow can be fully contacted with the atomized moisture in the downward flowing process through the matching of the second connecting pipe, the oscillator and the wetting box, so that the air can be humidified quickly after flowing out better.

3: the fan blades rotate three times to suck outside air flow into the dehumidification box, then moisture in the air flow is absorbed to a certain degree under the matching effect of the connecting pipe six and the breathable sponge, the drying effect is further improved, meanwhile, the moisture absorbed by the breathable sponge can be extruded by the rotatable squeezing roller in the absorption process, and therefore the breathable sponge can better absorb the moisture.

Drawings

FIG. 1 is a schematic structural diagram of an air conditioner for a constant temperature and humidity cellar using oscillation humidification according to the present invention;

FIG. 2 is a schematic structural view of an air conditioner for a constant temperature and humidity cellar using oscillation humidification according to another aspect of the present invention;

FIG. 3 is a schematic structural diagram of the oscillating humidifying air conditioner for the constant temperature and humidity cellar with the shell removed;

FIG. 4 is a schematic view of the structure of FIG. 3 with the housing removed;

FIG. 5 is a schematic structural diagram of a wetting box part of an air conditioner for a constant temperature and humidity cellar using oscillation humidification according to the present invention;

FIG. 6 is a schematic view of the internal structure of a dehumidifying box of the oscillating and humidifying air conditioner for the constant temperature and humidity cellar provided by the invention;

fig. 7 is an enlarged view of the structure of the arc-shaped mesh plate part in fig. 6.

In the figure: 1 shell, 2 shells, 3 temperature adjusting intervals, 4 humidity adjusting intervals, 5 connecting pipes I, 6 condensing tanks, 7 air outlet pipes, 8 fixing blocks, 9 oscillators, 10 wetting tanks, 11 rotating shafts I, 12 fan blades I, 13 partition plates, 14 connecting pipes II, 15 connecting pipes III, 16 connecting pipes IV, 17 partition seats, 18 fan blades II, 19 connecting pipes V, 20 valves I, 21 dehumidifying tanks, 22 motors II, 23 rotating shafts, 24 fan blades III, 25 connecting pipes VI, 26 plate bodies, 27 rotating shafts III, 28 extruding rollers, 29 arc-shaped screen plates, 30 breathable sponges and 31 working elements.

Detailed Description

Referring to fig. 1-4, the constant-temperature and constant-humidity air conditioner using vibration humidification for the cellar comprises a shell 1, a shell 2, a temperature adjusting section 3, a humidity adjusting section 4, a first connecting pipe 5, a condensing box 6, an air outlet pipe 7 and a working element 31, wherein a first dispersing structure matched with the temperature adjusting section 3 is installed on the working element 31;

the following points are notable:

1. the first dispersion structure comprises two first rotating shafts 11, two first fan blades 12 and two partition plates 13, the outer wall of the working element 31 is rotatably provided with the two first rotating shafts 11, one ends, far away from the working element 31, of the two first rotating shafts 11 are fixedly provided with the first fan blades 12, the air outlet pipe 7 is located between the two first fan blades 12, the working element 31 is fixedly provided with the two partition plates 13, and the shortest straight line distance between the two partition plates 13 is equal to the width of the temperature adjustment interval 3.

2. The air flowing out through the air outlet pipe 7 can enable the first two fan blades 12 to rotate, so that the air flowing out through the air outlet pipe 7 flows out from the temperature adjusting area 3 in a more dispersed mode.

3. The partition 13 is arranged so that the air can better flow out through the air outlet pipe 7 and can flow out through the temperature adjusting area 3.

Referring to fig. 3-5, a vibrator 9 and a moistening box 10 are fixedly mounted in the housing 1 through a plurality of fixing blocks 8, and a connecting pipe five 19 is fixedly communicated between the vibrator 9 and the moistening box 10;

the following two points are notable:

1. oscillator 9 is current device, and its concrete structure and theory of operation do not do specifically once more and explain, and its during operation can carry out atomizing operation to water fast, and installs a body of intaking on, and the one end and the condensing box 6 of the body of intaking are linked together, and install valve three on the body of intaking.

2. The arrangement of the wetting box 10 enables the fog generated by the oscillator 9 to gather at a centralized position, so as to be convenient for being contacted with flowing gas subsequently, thereby better generating a wetting effect.

Referring to fig. 3-5, a second connecting pipe 14 is fixedly communicated between the air outlet pipe 7 and the wetting box 10, a fourth connecting pipe 16 is fixedly installed in the shell 1, a third connecting pipe 15 is installed between the fourth connecting pipe 16 and the second connecting pipe 14, and a second dispersing structure matched with the humidity conditioning section 4 is installed on the shell 1;

the above is noteworthy for the following two points:

1. the second dispersing structure is composed of a spacer 17, two rotating shafts and two fan blades 18, the spacer 17 is fixedly installed in the shell 1, one end of the fourth connecting pipe 16 penetrates through the spacer 17, the spacer 17 is rotatably provided with the second rotating shafts, and the second rotating shafts are fixedly provided with the second fan blades 18 matched with the fourth connecting pipe 16.

2. The second fan blade 18 is arranged to have the same function as the first fan blade 12, and plays a role in dispersing air flow.

3. The wetted airflow flows out through the humidity control section 4 below, and the wetted airflow floats upwards after flowing out of the humidity control section 4, so that the whole indoor space is better wetted.

Referring to fig. 1, 6 and 7, the condensing tank 6 is provided with a dehumidifying mechanism;

the following points are notable:

1. dehumidification mechanism is by dehumidification case 21, motor two 22, axis of rotation 23, flabellum three 24, the dehumidification subassembly, crowded water subassembly and six 25 constitutions of connecting pipe, fixed mounting has dehumidification case 21 on the condensing box 6, and dehumidification case 21 is the cavity setting, and seted up a plurality of meshings that admit air on the dehumidification case 21, fixed mounting has motor two 22 in the dehumidification case 21, the drive end fixed mounting of motor two 22 has axis of rotation 23, fixed mounting has flabellum three 24 on the axis of rotation 23, fixed intercommunication has connecting pipe six 25 between dehumidification case 21 and the casing 1.

2. The arrangement of the dehumidifying mechanism is used for drying the moisture contained in the air to a certain degree when the indoor air humidity is large, and the practicability is improved.

3. The dehumidifying component consists of an arc-shaped screen plate 29 and a breathable sponge 30, the arc-shaped screen plate 29 is fixedly installed at one end, located in the dehumidifying box 21, of the connecting pipe six 25, and the breathable sponge 30 is fixedly installed on the arc-shaped screen plate 29.

4. The air-permeable sponge 30 has water absorption to effectively dry moisture contained in the air to some extent.

5. The water squeezing assembly comprises a plate body 26, a rotating shaft III 27 and squeezing rollers 28, wherein the plate body 26 is fixedly installed on the rotating shaft 23, the squeezing rollers 28 matched with the breathable sponge 30 are rotatably installed on the plate body 26 through the rotating shaft III 27, and the shortest straight line distance between the squeezing rollers 28 and the axis of the rotating shaft 23 is larger than the largest straight line distance between the fan blade III 24 and the axis of the rotating shaft 23.

6. The water squeezing component can squeeze out the water absorbed by the breathable sponge 30 from the water squeezing component, so that the water absorption of the breathable sponge 30 is ensured.

7. A one-way water inlet pipe is fixedly communicated between the dehumidification box 21 and the condensation box 6, and a valve II is arranged at one end of the one-way water inlet pipe, which is positioned in the dehumidification box 21; this part is provided for collecting the water squeezed out from the water absorbing sponge 30 into the condensation tank 6 for use.

8. The connection pipe six 25 is a one-way pipe so that the gas flowing out of the air outlet pipe 7 does not enter the dehumidification tank 21 through the connection pipe six 25.

Referring to fig. 1-7, a first valve 20 is mounted on the fifth connecting pipe 19, the air outlet pipe 7 and the second connecting pipe 14; the first valve 20 is arranged to control the direction of flow of the gas stream.

Further, unless otherwise specifically stated or limited, the above-described fixed connection is to be understood in a broad sense, and may be, for example, welded, glued, or integrally formed as is conventional in the art.

In the invention, when temperature regulation and control are normally carried out, gas can flow out of the temperature regulation interval 3 or the humidity regulation interval 4, at the moment, the first valve 20 on the air outlet pipe 7 and the second connecting pipe 14 is in an open state, the first valve 20 on the fifth connecting pipe 19 is in a closed state, and the gas flowing out through the air outlet pipe 7 can directly flow out of the temperature regulation interval 3 or can flow out of the humidity regulation interval 4 through the second connecting pipe 14, the wetting box 10, the third connecting pipe 15 and the fourth connecting pipe 16, so that the temperature regulation and control speed is higher.

When humidification is needed, the oscillator 9 starts to work, atomized moisture generated by the operation of the oscillator 9 enters the wetting box 10, the first valve 20 on the air outlet pipe 7 is in a closed state, the first valve 20 on the second connecting pipe 14 is in an open state, air flow flowing out of the air outlet pipe 7 flows out through the lower end of the second connecting pipe 14 to be fully contacted with the atomized moisture, and then is sprayed out of the humidifying section 4 below through the fourth connecting pipe 16.

When dehumidification is needed, besides the dehumidification function of the air conditioner, the motor two 22 can be turned on, the motor two 22 works to drive the fan blade three 24 to rotate through the rotating shaft 23, the fan blade three 24 rotates to suck external humid air flow into the dehumidification box 21, then the air flow penetrates through the breathable sponge 30 and flows into the shell 1 from the connecting pipe six 25, and finally the air flow flows out through the temperature regulation section 3, part of moisture of the part of air flow in the contact process with the breathable sponge 30 can be sucked by the breathable sponge 30, a certain drying and dehumidification effect is achieved, meanwhile, in the rotating process of the rotating shaft 23, the squeezing rollers 28 can be driven to rotate together through the matching of the plate body 26 and the rotating shaft three 27, the moisture sucked on the breathable sponge 30 can be squeezed out through the rotation of the squeezing rollers 28, and then the part of moisture is conveyed into the condensation box 6 after the operation is finished.

Claims (3)

1. An air conditioner for a constant-temperature and constant-humidity cellar using vibration humidification comprises a shell (1), an outer shell (2), a temperature adjusting area (3), a humidity adjusting area (4), a first connecting pipe (5), a condensing box (6), an air outlet pipe (7) and a working element (31), and is characterized in that the first dispersing structure matched with the temperature adjusting area (3) is installed on the working element (31), an oscillator (9) and a wetting box (10) are fixedly installed in the shell (1) through a plurality of fixing blocks (8), and a fifth connecting pipe (19) is fixedly communicated between the oscillator (9) and the wetting box (10);

a second connecting pipe (14) is fixedly communicated between the air outlet pipe (7) and the wetting box (10), a fourth connecting pipe (16) is fixedly installed in the shell (1), a third connecting pipe (15) is installed between the fourth connecting pipe (16) and the second connecting pipe (14), and a second dispersing structure matched with the humidifying section (4) is installed on the shell (1);

a dehumidifying mechanism is arranged on the condensing box (6);

the fifth connecting pipe (19), the air outlet pipe (7) and the second connecting pipe (14) are respectively provided with a first valve (20); the first dispersing structure comprises two first rotating shafts (11), two first fan blades (12) and two partition plates (13), the two first rotating shafts (11) are rotatably mounted on the outer wall of the working element (31), one end, far away from the working element (31), of each first rotating shaft (11) is fixedly provided with one first fan blade (12), the air outlet pipe (7) is located between the two first fan blades (12), the working element (31) is fixedly provided with the two partition plates (13), and the shortest straight line distance between the two partition plates (13) is equal to the width of the temperature adjusting interval (3); the second dispersing structure consists of a spacer (17), two rotating shafts and two fan blades (18), the spacer (17) is fixedly installed in the shell (1), one end of the fourth connecting pipe (16) penetrates through the spacer (17), the two rotating shafts are rotatably installed on the spacer (17), and the fan blades (18) matched with the fourth connecting pipe (16) are fixedly installed on the two rotating shafts; the dehumidifying mechanism comprises a dehumidifying box (21), a second motor (22), a rotating shaft (23), a third fan blade (24), a dehumidifying component, a water squeezing component and a sixth connecting pipe (25), the dehumidifying box (21) is fixedly installed on the condensing box (6), the dehumidifying box (21) is arranged in a hollow mode, a plurality of air inlet meshes are formed in the dehumidifying box (21), the second motor (22) is fixedly installed in the dehumidifying box (21), the rotating shaft (23) is fixedly installed at the driving end of the second motor (22), the third fan blade (24) is fixedly installed on the rotating shaft (23), and the sixth connecting pipe (25) is fixedly communicated between the dehumidifying box (21) and the shell (1); the dehumidifying component consists of an arc-shaped screen plate (29) and breathable sponge (30), the arc-shaped screen plate (29) is fixedly installed at one end, located in the dehumidifying box (21), of the connecting pipe six (25), and the breathable sponge (30) is fixedly installed on the arc-shaped screen plate (29); crowded water subassembly comprises plate body (26), three (27) of pivot and squeeze roll (28), fixed mounting has plate body (26) on axis of rotation (23), plate body (26) rotate through three (27) of pivot install with ventilative sponge (30) matched with squeeze roll (28), the shortest straight-line distance between squeeze roll (28) and axis of rotation (23) axle center is greater than the biggest straight-line distance between three (24) of flabellum and axis of rotation (23) axle center.

2. The air conditioner for the constant-temperature and constant-humidity cellar using oscillation humidification as claimed in claim 1, wherein a one-way water inlet pipe is fixedly communicated between the dehumidification box (21) and the condensation box (6), and a second valve is installed at one end of the one-way water inlet pipe, which is located in the dehumidification box (21).

3. The air conditioner for the constant-temperature and constant-humidity cellar using oscillating humidification as claimed in claim 2, wherein the connecting pipe six (25) is a one-way pipe.

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