CN204786863U - Novel dehumidifier - Google Patents

Abstract

The utility model discloses a novel dehumidifier, including casing, evaporimeter, condenser, compressor, fan, the lower part in the shown casing is water receiving case, its characterized in that: lower part at two at least lateral walls of casing is equipped with the air suction mouth, the air suction mouth is located water receiving case top, evaporimeter and condenser set up along the inboard of lateral wall of the casing that has the air suction mouth, evaporimeter and condenser set up from top to bottom, and wherein the evaporimeter is located the below of condenser, is equipped with the air exit on the casing roof, the fan sets up on the air exit, the compressor through the support mounting in the space that evaporimeter and condenser enclose. Reasonable in design, simple structure, low in manufacturing cost, it is efficient to dehumidify. The utility model discloses an evaporimeter and condenser adopt no fin tubular structure again, adopt and prevent corrosion materials, make the utility model discloses more can be fit for in the serious adverse circumstances of dust, the corrosivity environment uses down.

Description

Novel dehumidifier

Technical field

The utility model relates to a kind of dehumidifier, particularly a kind of novel dehumidifier.

Background technology

At present, common dehumidifier comprises cabinet, forms the outward appearance of dehumidifier, holds and protects all parts of dehumidifier; Evaporimeter, is arranged on the suction inlet side of air, and when dehumidifier runs, evaporimeter is in low-temperature condition, and when the humid air sucked is by evaporimeter, the moisture in air is condensed into condensed water on an evaporator; Condenser, be arranged side by side with evaporimeter, when dehumidifier runs, condenser is in the condition of high temperature, through the air of evaporimeter when flowing through condenser and condenser carry out heat exchange, the temperature of the refrigerant in condenser is reduced, makes the temperature of air increase, drip tray simultaneously, be arranged on the below of evaporimeter and condenser, collect condensed water, drip tray arranges discharge outlet, discharge outlet causes water tank; Fan, sucks and discharges air, air is flowed in cabinet in cabinet, and complete and heat exchange between evaporimeter and condenser, water tank, is arranged on below drip tray, for storing condensed water; Compressor, compression refrigerant, and the flow circuit maintaining refrigerant; Chassis is arranged on the bottom of dehumidifier, supports and fixes each parts in dehumidifier, the suction inlet of the air of the cabinet of dehumidifier is also provided with filter screen.

Such dehumidifier cabinet generally only has one side to have suction inlet, and suction inlet and exhaust outlet are generally also oppositely arranged, and are unfavorable for the balance of indoor air humidity.Dehumidification rate is low.

On the other hand, such dehumidifier, evaporimeter and condenser are oppositely arranged, gap between them is little, and under fan action, then air first directly enters condenser through evaporator, the contact area of air and evaporimeter and condenser is little, air can not fully contact with condenser with evaporimeter, and make the heat exchange of room air and evaporimeter and condenser insufficient, dehumidification rate is low.

Secondly, the copper pipe fin type heat exchanger that existing dehumidifier is generally selected, spacing between fin is 1.5-2mm, such dehumidifier uses all right in normal circumstances, when using on building sites, because dust a large amount of in air exists, the first effect filter screen of dehumidifier is too low to tiny dust filtration efficiency, thus make dust tiny in a large number be adsorbed on the fin of evaporimeter and condenser very soon, greatly reduce the efficiency of dehumidifier, and energy consumption raises gradually, cause condenser very soon, the fin of evaporimeter and the compressor of dehumidification system, fan, start-up capacitance, the damages such as protector, service life is generally no more than 30 days.

Utility model content

For existing problem, the purpose of this utility model is the novel dehumidifier providing a kind of dehumidification rate high.

To achieve these goals, the technical solution of the utility model is: a kind of novel dehumidifier, comprise casing, evaporimeter, condenser, compressor, fan, bottom in shown casing is water receiving case, it is characterized in that: be provided with air suction inlet in the bottom of at least two sidewalls of casing, described air suction inlet is positioned at above water receiving case, described evaporimeter and condenser are arranged along the inner side of the sidewall having the casing of air suction inlet, described evaporimeter and condenser setting up and down, wherein evaporimeter is positioned at the below of condenser, casing top board is provided with exhaust outlet, described fan is arranged on exhaust outlet, described compressor by support installing in the space that evaporimeter and condenser surround.

Adopt technique scheme: first: arrange air suction inlet at least both sides of casing, the amount sucking air is large, and multiaspect sucks, and is conducive to the balance of indoor air humidity, improves dehumidification rate.

Secondly, evaporimeter and condenser setting up and down, under the effect of top fan, room air is first through being positioned at the evaporimeter of below, by the water adsorption in air on an evaporator, be then dropped in water receiving case, air becomes dry air, again through being positioned at the condenser heat radiation of top, finally discharge from exhaust outlet.

Evaporimeter and condenser setting up and down, but not to be arranged side by side.Spacing between them is large, the air of such suction and the contact area between evaporimeter and condensation increase, air can be contacted with air with condenser fully with evaporimeter, more be conducive to changing exchange between them, heat exchange efficiency improves greatly, contrasts discovery by experiment, adopts evaporimeter setting up and down and condenser, under square one, the dehumidification rate that its dehumidification rate is arranged side by side than evaporimeter improves 20%-40%.

Finally compressor is arranged in the space that evaporimeter and condenser surround by we, namely compressor is positioned at the center of casing, air is from bottom to top in casing time, cooling heat dissipation is carried out to compressor, the service life of compressor is improved greatly, the operating efficiency of compressor improves greatly, thus improves dehumidification rate.

In such scheme: adjacent two sidewalls of described casing are provided with air suction inlet.Be conducive to the balance of indoor air humidity.

In such scheme: the sidewall of the left and right and front side of described casing is provided with air suction inlet.Operationally, rear wall is generally by wall, and therefore, we do not arrange air suction inlet at rear wall, and three arrange air suction inlet, are conducive to the balance of indoor air humidity.

In such scheme: described evaporimeter is identical with condenser structure, include one group of horizontal comb be made up of the transverse pipe connected successively from top to bottom, the horizontal comb of this group is overall again along there being the sidewall bending of air suction inlet to arrange;

Or described evaporimeter and condenser include the longitudinal metal pipe that one group of undulate is connected, this group longitudinal metal pipe is again along there being the sidewall bending of air suction inlet to arrange;

Or described evaporimeter and condenser include the coil pipe of one group of helically tubulose distribution, this group coil pipe is overall again along there being the sidewall bending of air suction inlet to arrange.

Evaporimeter and condenser adopt above described tubular non-finned structure, compared with existing finned evaporimeter, avoid the appearance of the packing phenomenon of dust on evaporator fin, make evaporimeter not dust stratification.Use under being more suitable for the adverse circumstances of serious dust.

In such scheme: described evaporimeter is identical with condenser structure, be arranged side by side by two groups and above horizontal comb ecto-entad, and have gap between every two groups of horizontal combs, often organize horizontal comb to be made up of the transverse pipe connected successively from top to bottom, often organize horizontal comb expansion body and arrange along there being the sidewall bending of air suction inlet;

Or described evaporimeter is arranged side by side with the longitudinal metal pipe ecto-entad that condenser is connected by two groups and above undulate, and there is gap between them; Often organize longitudinal metal pipe all overall along there being the sidewall bending of air suction inlet to arrange;

Or described evaporimeter and condenser are arranged side by side by the coil pipe ecto-entad of two groups and the distribution of above helically tubulose, often organize coil pipe all overall along there being the sidewall bending of air suction inlet to arrange.

Evaporimeter and condenser, by two groups and the coil pipe of above horizontal comb or helix distribution or the metal tube composition of waveform distribution, are arranged side by side from inside to outside, increase the surface area of evaporimeter and condenser, and the contact area of itself and air is improved greatly.The size of the moisture removal processed as required, increases the group number of the horizontal comb of evaporimeter and condenser or the coil pipe of corrugated metal pipe or helix distribution.Adopt above described tubular non-finned structure, compared with existing finned evaporimeter, avoid the appearance of the packing phenomenon of dust on evaporator fin, make evaporimeter not dust stratification.Use under being more applicable to there are the adverse circumstances of serious dust.

In such scheme: described evaporimeter and condenser are made by stainless steel, copper, aluminium or albronze.Adopt Stainless Steel, evaporimeter and condenser can be used when there being soda acid.

In such scheme: the surface of described evaporimeter and condenser scribbles the hydrophilic corrosion-inhibiting coating of one deck.Evaporimeter and condenser can be used under the adverse circumstances having soda acid, be not corroded.

In such scheme: described air suction inlet, exhaust outlet are equipped with grid or guard.Grid or guard can play the effect stopping dust.

In such scheme: also comprise shower, described shower is positioned at the top of evaporimeter and condenser, the downside of described shower is provided with nozzle, and described shower is connected with suction pump by pipeline, and the water in water receiving case is extracted into shower and cleans evaporimeter and condenser by described suction pump.Cleaning showers, ensures the cleaning of evaporimeter and condenser surface, not sticky ash.

The beneficial effects of the utility model are: the utility model is by being revised as setting up and down by evaporimeter and condenser by traditional being oppositely arranged, and air and evaporimeter are contacted more abundant with condenser, heat transfer effect is better, substantially increases dehumidification rate.Air suction inlet is set by least two sides at casing, is conducive to the balance of indoor air humidity, improve dehumidification rate.In addition, the utility model also utilizes air from top to down to cool being positioned at middle compressor, makes the operating efficiency of compressor higher, in a disguised form improves the dehumidification rate of dehumidifier.The evaporimeter that the utility model adopts and condenser adopt tubulose non-finned structure, dehumidifying function is used under the rugged environment having dust, with materials such as stainless steels, and adopts hydrophilic corrosion-inhibiting coating, acid and alkali-resistance, avoid corrosion.Reasonable in design, structure is simple, low cost of manufacture.

Accompanying drawing explanation

Fig. 1 is outline drawing of the present utility model.

Fig. 2 be embodiment 1 evaporimeter and condenser horizontally set time internal structure schematic diagram (side view).

Fig. 3 is the structural representation of evaporimeter and condenser horizontally set.

Fig. 4 is the side view that embodiment 1 is arranged when evaporimeter and condenser tube undulate.

Fig. 5 is the structural representation that evaporimeter or condenser tube undulate are arranged.

Fig. 6 is the arrangement relation schematic diagram (top view) of evaporimeter, condenser and compressor.

The schematic diagram that Fig. 7 is embodiment 1 evaporimeter or condenser when being helix coil pipe.

Fig. 8 is the location diagram of two groups of longitudinal pipes of condenser in embodiment 2 or evaporimeter.

Fig. 9 is the evaporimeter of embodiment 2 or the front view of condenser;

Figure 10 is the evaporimeter of embodiment 2 or the right side view of condenser.

Figure 11 is the layout schematic diagram (top view) of condenser in casing of embodiment 3.

Figure 12 is the evaporimeter of embodiment 3 or the front view of condenser.

Figure 13 is the evaporimeter of embodiment 3 or the left side view of condenser.

Figure 14 is the evaporimeter of embodiment 3 or the right side view of condenser.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is further described:

The relative position of the nouns of locality such as front, back, left, right, up, down of the present utility model only in representative graph, does not represent the absolute position of product.

Embodiment 1

As shown in figs. 1-7, novel dehumidifier of the present utility model is made up of parts such as casing 1, evaporimeter 2, condenser 3, compressor 4, fan 5, water receiving case 6, air suction inlet 7, exhaust outlet 8, shower 9 and suction pumps 10.

Casing 1 forms the outward appearance of dehumidifier, holds and protects all parts of dehumidifier.Bottom in shown casing 1 is water receiving case 6, and water receiving case 6 is provided with discharge outlet, and this is prior art, does not repeat at this.

In order to conveniently moving, universal wheel can be set below casing 1.

Casing 1 top board is provided with exhaust outlet 8, and fan 5 is arranged on exhaust outlet 8.The bottom of at least two sidewalls of casing 1 is provided with air suction inlet 7, air suction inlet 7 is positioned at the top of water receiving case 6, can for two or three or four sidewalls arrange air suction inlet 7, if two sidewalls are arranged, preferably arrange on adjacent two sidewalls, be convenient to like this arrange evaporimeter 2 and condenser 3.The present embodiment is selected all to arrange air suction inlet 7 on left and right and front side wall.

Evaporimeter 2 and condenser 3 are arranged along the inner side of the sidewall having the casing 1 of air suction inlet 7, namely have the side of air suction inlet 7 to be all provided with evaporimeter 2 and condenser 3.Evaporimeter 2 and condenser 3 setting up and down, wherein evaporimeter 2 is positioned at the below of condenser 3.Evaporimeter 2 is positioned at above water receiving case 6, arranges from top to bottom, and the height of air suction inlet 7 is consistent with the height of evaporimeter 2.

Evaporimeter 2 and condenser 3 are made by stainless steel, copper, aluminium or albronze pipe.Preferably also scribble the hydrophilic corrosion-inhibiting coating of one deck on its surface.Such can be adapted at acid-base condition under use, avoid being corroded.

Evaporimeter 2 is identical with condenser 3 structure, as shown in Figures 2 and 3, the metal tube lateral arrangement of evaporimeter 2 and condenser 3, namely evaporimeter 2 and condenser 3 comprise the horizontal comb be made up of one group of transverse pipe be connected successively from top to bottom, the horizontal comb of this group is formed by a long metal tube transverse fold, as shown in Figure 3, the horizontal comb of this group again Integral bending forms "] " shape, be applicable to the layout that there is the dehumidifier of air suction inlet 7 in three faces, if for two sides arranges air suction inlet 7, then be bent into " L shape ", if four sides arranges air suction inlet 7, then can be bent into " mouth " shape that side has opening.The present embodiment is "] " shape.Then the inner side along the sidewall having air suction inlet 7 is installed, and has gap between madial wall.

Or as shown in Figure 4,5, or described evaporimeter 2 and condenser 3 include the longitudinal metal pipe that one group of undulate is connected, and this group longitudinal metal pipe is again along there being the sidewall bending of air suction inlet 7 to arrange.Specifically as shown in Figures 4 and 5, evaporimeter 2 and condenser 3 by a metal tube, the longitudinal metal pipe of longitudinal folding formation waveform distribution.

The structure of evaporimeter 2 and condenser 3 also can be: evaporimeter 2 and condenser 3 include the coil pipe of one group of helically tubulose, namely a metal tube is first processed into helix coil pipe, that is, this group coil pipe is the equal of double-deck longitudinal pipe composition, this coil pipe becomes "] from two ends Integral bending again " shape, as shown in Figure 7, the inner side bending then along the sidewall having air suction inlet 7 is arranged.Like this, the area larger (being equivalent to for bimetallic tube) of evaporimeter 2 and cooler 3, dehumidification rate is high.

Compressor 4 by support installing in the space that evaporimeter 2 and condenser 3 surround.Namely compressor 4 is positioned at the center of casing 1, and compressor 4 is positioned at above water receiving case 6, when air so from top to down flows in casing 1, can cool compressor 4, improves the operating efficiency of compressor 4, in a disguised form improves the dehumidification rate of dehumidifier.

Air suction inlet 7 and exhaust outlet 8 are equipped with grid or guard.Dust and foreign material can be kept off like this.

For the ease of cleaning, can also spray system be set, spray system comprises shower 9, shower 9 is positioned at the top of evaporimeter 2 and condenser 3, the downside of shower 9 is provided with nozzle, shower 9 is connected with suction pump 10 by pipeline, and the water in water receiving case 6 is extracted into shower 9 by suction pump 10, and suction pump 10 is arranged in water receiving case 6.

Embodiment 2

Other are identical with embodiment 1, arrange air suction inlet 7 in three sides of casing, unlike:

As Fig. 8-10, evaporimeter 2 is identical with condenser 3 structure, and the longitudinal metal pipe ecto-entad connected by two groups of waveforms is arranged side by side, and has gap between them; As shown in Figures 9 and 10, the crest of front and back group longitudinal metal pipe and trough can stagger some positions.Often organize longitudinal metal pipe all overall along there being the sidewall of air suction inlet 7 to be bent into "] " shape layout.

The present embodiment is only write as two groups, but in fact also can be many groups, according to the setting that varies in size of moisture removal.

Embodiment 3

Other are identical with embodiment 1, in three sides of casing, air suction inlet 7 is set, unlike: as illustrated in figs. 11-14, evaporimeter 2 is identical with condenser 3 structure, be arranged side by side by two groups of horizontal comb ecto-entads, and have gap between every two groups of horizontal combs, inside and outside two groups of horizontal comb upper-lower positions stagger a bit a little, often organize horizontal comb to be made up of the transverse pipe connected successively from top to bottom, being formed by a long metal tube transverse fold specifically, often organizing horizontal comb expansion body and be bent into "] along there being the sidewall of air suction inlet 7 " shape arranges.

The present embodiment is only write as two groups, but in fact also can be many groups, according to the setting that varies in size of moisture removal.

Embodiment 4

Other is identical with embodiment 1, unlike, evaporimeter 2 and condenser 3 all adopt existing copper tube and fin structure.

The utility model is not limited to above-described embodiment, and as evaporimeter and condenser also one of them can adopt non-finned tubular structure of the present utility model, another adopts traditional copper pipe fin structure.Or the coil pipe composition of the helix that evaporimeter and condenser are arranged side by side by many group ecto-entads, should be appreciated that those of ordinary skill in the art just can make many modifications and variations according to design of the present utility model without the need to creative work.Therefore, all technical staff in the art according to design of the present utility model on the basis of existing technology by the available technical scheme of logical analysis, reasoning, or a limited experiment, all should by the determined protection domain of claims.

Claims (9)

1. a novel dehumidifier, comprise casing (1), evaporimeter (2), condenser (3), compressor (4), fan (5), bottom in shown casing (1) is water receiving case (6), it is characterized in that: be provided with air suction inlet (7) in the bottom of at least two sidewalls of casing (1), described air suction inlet (7) is positioned at water receiving case (6) top, described evaporimeter (2) and condenser (3) are arranged along the inner side of the sidewall having the casing (1) of air suction inlet (7), described evaporimeter (2) and condenser (3) setting up and down, wherein evaporimeter (2) is positioned at the below of condenser (3), casing (1) top board is provided with exhaust outlet (8), described fan (5) is arranged on exhaust outlet (8), described compressor (4) by support installing in the space that evaporimeter (2) and condenser (3) surround.

2. novel dehumidifier according to claim 1, is characterized in that: adjacent two sidewalls of described casing (1) are provided with air suction inlet (7).

3. novel dehumidifier according to claim 1, is characterized in that: the sidewall of the left and right and front side of described casing (1) is provided with air suction inlet (7).

4. novel dehumidifier according to any one of claim 1-3, it is characterized in that: described evaporimeter (2) is identical with condenser (3) structure, include one group of horizontal comb be made up of the transverse pipe connected successively from top to bottom, the horizontal comb entirety of this group is again along there being the sidewall bending of air suction inlet (7) to arrange;

Or described evaporimeter (2) and condenser (3) include the longitudinal metal pipe that one group of undulate is connected, this group longitudinal metal pipe is again along there being the sidewall bending of air suction inlet (7) to arrange;

Or described evaporimeter (2) and condenser (3) include the coil pipe of one group of helically tubulose distribution, this group coil pipe entirety is again along there being the sidewall bending of air suction inlet (7) to arrange.

5. novel dehumidifier according to any one of claim 1-3, it is characterized in that: described evaporimeter (2) is identical with condenser (3) structure, be arranged side by side by two groups and above horizontal comb ecto-entad, and have gap between every two groups of horizontal combs, often organize horizontal comb to be made up of the transverse pipe connected successively from top to bottom, often organize horizontal comb expansion body and arrange along there being the sidewall bending of air suction inlet (7);

Or described evaporimeter (2) is arranged side by side with the longitudinal metal pipe ecto-entad that condenser (3) is connected by two groups and above undulate, and there is gap between them; Often organize longitudinal metal pipe all overall along there being the sidewall bending of air suction inlet (7) to arrange;

Or described evaporimeter (2) and condenser (3) are arranged side by side by the coil pipe ecto-entad of two groups and the distribution of above helically tubulose, often organize coil pipe all overall along there being the sidewall bending of air suction inlet (7) to arrange.

6. novel dehumidifier according to claim 5, is characterized in that: described evaporimeter (2) and condenser (3) are made by stainless steel, copper, aluminium or albronze.

7. novel dehumidifier according to claim 6, is characterized in that: the surface of described evaporimeter (2) and condenser (3) scribbles the hydrophilic corrosion-inhibiting coating of one deck.

8. novel dehumidifier according to claim 1 or 2 or 3, is characterized in that: described air suction inlet (7) and exhaust outlet (8) are equipped with grid or guard.

9. novel dehumidifier according to claim 1 or 2 or 3, it is characterized in that: also comprise shower (9), described shower (9) is positioned at the top of evaporimeter (2) and condenser (3), the downside of described shower (9) is provided with nozzle, described shower (9) is connected with suction pump (10) by pipeline, and the water in water receiving case (6) is extracted into shower (9) and cleans evaporimeter (2) and condenser (3) by described suction pump (10).