CN218096347U - Winter and summer double-working-condition energy-saving spraying type fresh air conditioner all-in-one machine - Google Patents

Abstract

The utility model relates to a novel air conditioner ventilation equipment field especially relates to the energy-conserving fountain new trend air conditioner all-in-one of winter and summer duplex condition. The support is divided into two parts by a vertical plate with an inclined plate (44) at the upper part of the middle part, and a comprehensive pipeline system is arranged in the air inlet area; the electronic valve is adopted, the circulating air quantity in the return air can be controlled by controlling the electronic valve, and the circulating air quantity of the return air can be controlled at will; the bottom of the device is mounted in a universal wheel cabinet type, so that the flexibility is higher, and the device is easy to maintain in the later period; the number of the fresh air inlets is three, the optionality can be carried out according to actual conditions, the flexibility is high, and the construction difficulty is reduced; the sealing plate of the partition plate of the patent door is provided with the corresponding filter screen gap, the filter screen can be replaced by opening the front panel, and the operation is simple; the high-efficient filter screen that this patent air supply department adopted can produce chlorine dioxide gas and adopted ultraviolet tube simultaneously, and it is more high-efficient to disinfect.

Description

Winter and summer double-working-condition energy-saving spraying type fresh air conditioner all-in-one machine

Technical Field

The utility model relates to a novel air conditioner ventilation equipment field especially relates to the energy-conserving fountain new trend air conditioner all-in-one of winter and summer duplex condition.

Background

Along with social development, people have higher and higher requirements on indoor temperature and air quality, so that a traditional fresh air system and an air conditioning system or an air conditioning and fresh air all-in-one machine system slowly enter thousands of households, most of the existing technical schemes are independent systems such as an air conditioner and a fresh air system matched, or adopt a ceiling mounting mode of the air conditioning and fresh air all-in-one machine, so that the control on the indoor temperature and the air quality is achieved, but the traditional technical scheme has a plurality of technical defects, such as 1. The traditional structure of a single fresh air system and an air conditioner such as a unidirectional flow system, a bidirectional flow system, a total heat fresh air system and the like, the fresh air system can only simply control the fresh air volume temperature and cannot control, the load of the air conditioning system is increased due to the fact that the loss of the indoor temperature is greatly influenced by the structural defects of the fresh air system, electric power is wasted, and energy is seriously not saved. 2. Although the traditional air conditioner and fresh air all-in-one machine has the advantages that the temperature control is added on the basis of the air quality, the temperature recovery of indoor exhaust air is avoided, the workload of the machine is increased, the electric power is wasted, the energy is seriously saved, meanwhile, the discharge of condensed water is discharged only by water gravity, and the condensed water is not discharged by adopting a power system, so that the condensed water is likely to overflow a water collecting tank to corrode and damage the machine body; 3. the outdoor unit of a common air conditioner has extremely bad working environment (for example, the outdoor unit runs in an overload mode in summer to cause service life influence, even stops working and damage); 4. traditional air conditioner new trend all-in-one is mostly the suspension type installation, and the later stage installation is maintained extremely troublesome complicacy, to these shortcomings, therefore my company has researched and developed this product.

SUMMERY OF THE UTILITY MODEL

The purpose of the utility model is that: the specific purpose is to find a plurality of substantial technical effects of a specific implementation part in order to provide a better winter and summer dual-working-condition energy-saving spraying type fresh air conditioning all-in-one machine and a temperature control ventilation method.

In order to achieve the purpose, the utility model adopts the following technical proposal:

a dual-working-condition energy-saving spraying type fresh air conditioning all-in-one machine in winter and summer is characterized in that,

the integrated machine comprises a bracket, wherein the bracket divides the whole body into two parts through a vertical plate with an inclined plate 44 above the middle part, one part is an air inlet area, and the other part is a comprehensive area; a comprehensive pipeline system is arranged in the air inlet area;

the air conditioner also comprises a vertical plate 45 vertical to the vertical plate, and the vertical plate 45 divides the comprehensive area into a fresh air part and an air return part; the vertical plate 45 also divides the air inlet area into a fresh air inlet area and a return air inlet area; the top of the fresh air inlet area comprises a fresh air inlet III 4, and the top of the return air inlet area comprises a return air inlet 6;

the fresh air part and the return air part respectively comprise more than one transverse plate to divide the fresh air part and the return air part into a plurality of areas;

the lower part of the fresh air part is communicated with a fresh air inlet area, and a coarse-effect filter screen 20 is arranged below the fresh air part in parallel to the transverse plate; arranged side by side on a transverse plate above the coarse filter screen 20

A second fin system 36 and a second fin system 37; an air supply fan 24 is arranged above the fin system I36 and the fin system II 37 which are arranged in parallel; the uppermost part of the fresh air part comprises an air supply outlet 3;

a vertical filter screen is arranged at the lowest part of the air return part, a compressor assembly 12 is arranged on one side of the vertical filter screen, the side of the vertical filter screen is communicated with an air return inlet area, and the compressor assembly 12 extends out of a pipeline and is communicated with a fin system III 35 arranged on the compressor assembly; a transverse plate above the third fin system 35 comprises a hole which is communicated with the third fin system 35; a return air fan 8 is arranged above the fin system III 35, and an air outlet 5 is arranged above the return air fan 8;

a return air position water receiving tray 10 is arranged below the fin system III 35, and an air supply position water receiving tray 21 is arranged below the fin system I36 and the fin system II 37;

a drainage system assembly 19 is arranged at the lowest part of the fresh air part, the drainage system assembly 19 is divided into two parts by a partition plate 32 in a drainage system assembly box, and the two parts are respectively provided with a water pump which is a first water pump 33 and a second water pump 31; the water pump II 31 points to the fin system III 35 through the water pipe II 27, the water pump I33 is connected with the water pipe III 28, and the outlet of the water pipe III 28 leads to the outdoor;

the bottom of the water receiving disc 21 at the air supply position extends out of a water pipe IV 29 and leads to the area where the water pump II 31 is located;

the water in the water receiving tray 10 at the return air position can be communicated with the area where the first water pump 33 is located.

The utility model has the further technical proposal that the fin system 36 and the outdoor unit belong to an air conditioning system; the fin system I36, the fin system II 37 and the compressor assembly 12 belong to another air conditioning system.

The utility model discloses a further technical scheme lies in, and the shower head has been arranged to the tip of water pipe two 27.

The utility model discloses a further technical scheme lies in, and the water collector of a bigger area and capacity has still been arranged to the below of return air department water collector 10, and this water collector leads to the area at a 26 intercommunication water pump 33 places of water pipe.

The utility model discloses a further technical scheme lies in, has arranged door baffle closing plate 2 at the avris of support, has arranged a plurality of holes on the door baffle closing plate 2, can carry out quick assembly disassembly maintenance to the work piece through a plurality of holes.

The utility model discloses further technical scheme lies in, still contain with support complex U template, this U template corresponds the new trend part has arranged new trend entry two 14 and new trend entry one 15 in the below, two unparallels of new trend entry two 14 and new trend entry one 15 and be quick detach mouthful, quick detach mouthful indicate to unpack apart fast through the round pinhole and make the wind gap that corresponds expose.

The utility model discloses further technical scheme lies in, and the bottom of riser 45 contains a mouth, and the size and the switching of this mouth can be controlled through electronic valve 18, can realize the mixed wind of new trend part and return air part through this mouth.

The utility model discloses a further technical scheme lies in, contains the clearance between 36 and the two 37 fin system of fin system.

The temperature control ventilation method of the winter and summer dual-working-condition energy-saving spraying type fresh air conditioning all-in-one machine is characterized in that the air conditioning all-in-one machine is utilized, and the method comprises the following steps and modes;

an air supply route: outdoor fresh air enters an equipment air cavity channel through a fresh air inlet I15, a fresh air inlet II 14 and a fresh air inlet III 4 by power provided by an air supply fan 24 and passes through a coarse effect filter screen 20 to carry out primary air purification, then the primarily purified fresh air passes through a fin system I36 and a fin system II 37 to carry out temperature regulation and control on the fresh air, the temperature of the fresh air is reduced in summer, the temperature of the fresh air is increased in winter, then the fresh air is irradiated by an ultraviolet lamp tube 17 to be sterilized and passes through a high-efficiency filter screen 23, the oxygen-containing clean air standard is reached, and finally the fresh air is sent out of a machine and conveyed to the inside of a room through an installed fresh air pipe to purify the fresh air with high sterilization oxygen content; the ultraviolet lamp tube 17 is arranged in the air supply path, and the high-efficiency filter screen 23 is arranged in the air supply path;

an air return route: indoor air enters an equipment air cavity channel through a return air inlet 6 by providing power through a return air fan 8, passes through a coarse filter screen 11 to purify return air, then passes through a fin system III 35 and is finally discharged out of a room through an air outlet 5 through a pipeline;

the air conditioner comprises three sets of fin systems and an air conditioner outdoor unit, wherein the fin system I36, the fin system II 35 and the compressor form a set of refrigerating and heating system, and the fin system II 37 and the air conditioner outdoor unit form a set of refrigerating and heating system;

during refrigeration in summer: the first fin system 36 is an evaporator, the third fin system 35 is a condenser, and the second fin system 37 is an evaporator;

in summer, indoor air is hot air, the hot air provides power through the return air fan, the indoor hot air passes through the machine cavity through the return air coarse filter screen through the indoor return air inlet and then passes through the fin system III 35 which is the condenser at the moment, and the fin system III 35 is cooled at the moment, so that the working condition point of the compressor is reduced, the energy of the compressor can be saved, the purpose of energy saving and emission reduction is achieved, and finally the air is discharged outdoors through the outdoor air outlet;

during heating in winter:

the first fin system 36 is a condenser, the third fin system 35 is an evaporator, and the second fin system 37 is a condenser;

indoor wind provides power for cold wind through the return air fan in winter, passes through the coarse filter screen of return air through the machine cavity through the indoor return air inlet, then passes through the third fin system 35 that is the evaporimeter this moment, can heat up for the third fin system 35 this moment to the operating mode point of compressor has been reduced, can practice thrift the ability of compressor and then reach the energy-conserving purpose of reducing the emission, finally through outdoor air exit discharge outdoor.

The utility model discloses a further technical scheme lies in, still contains following step:

according to the water tank, two drainage pumps, namely a first drainage pump 33 and a second drainage pump 31, are integrated in a drainage system forming box in parallel, a water tank is divided into two parts by a partition plate 32 in the drainage system forming box, and the purpose of energy conservation is achieved by utilizing the temperature of condensate water generated by a fin system;

during refrigeration in summer:

during refrigeration in summer: the first fin system 36 is an evaporator, the third fin system 35 is a condenser, and the second fin system 37 is an evaporator;

when the equipment works, the first fin system 36 and the second fin system 37 are evaporators at the moment; the generated low-temperature condensed water is collected into a corresponding half of a box body in a drainage system composition box 34 at the bottom through a water pipe IV 29 by virtue of a water receiving tray 21 at the air supply part, and then the water collected by the water receiving tray 21 at the air supply part is sprayed to a fin system III 35 serving as a condenser through a water pipe II 27 by virtue of power provided by a water pump I33, so that the working condition point of the compressor is reduced for cooling the condenser, and the aim of saving energy is fulfilled; the water after the temperature is changed flows into the drainage system forming box 34 again through the water pipe I26 and corresponds to the other half of the box body, then the collected water is discharged out of the machine through the water pipe III 28 by providing power through the water pump II 31 and is finally discharged to the outside through the outdoor connecting pipe, and the structure utilizes the low-temperature condensed water of the fin system I36 and the fin system II 37 to cool the fin system III 35 in summer, so that the working condition point of the compressor is reduced, and further energy is saved;

during heating in winter: the principle is consistent with that of refrigeration in summer, but the temperature of warm water of the fin system I36 and the fin system II 37 is utilized to heat the fin system III 35 in summer, so that the working point of the compressor is improved, and further energy is saved.

Adopt above technical scheme the utility model discloses, for prior art have following beneficial effect: the electronic valve is adopted, the circulating air quantity in the return air can be controlled by controlling the electronic valve, and the circulating air quantity of the return air can be controlled at will; the bottom of the device is mounted in a universal wheel cabinet type, so that the device is high in flexibility and easy to maintain in the later period; the number of the fresh air inlets is three, the optionality can be carried out according to actual conditions, the flexibility is high, and the construction difficulty is reduced; the sealing plate of the partition plate of the patent door is provided with the corresponding filter screen gap, the filter screen can be replaced by opening the front panel, and the operation is simple; the high-efficient filter screen that this patent air supply department adopted can produce chlorine dioxide gas and adopted ultraviolet tube simultaneously, and it is more high-efficient to disinfect.

Drawings

For further explanation of the present invention, reference is made to the following description taken in conjunction with the accompanying drawings:

fig. 1 is an exploded view of the utility model;

fig. 2 is an exploded view from another perspective of the utility model;

FIG. 3 is a schematic diagram of the drainage system in isolation;

FIG. 4 is a schematic view of an integral stent;

FIG. 5 is a schematic view of an air supply duct;

FIG. 6 is a schematic view of a return air path;

FIG. 7 is an installation schematic;

FIG. 8 is a schematic view of the installation from another perspective;

fig. 9 is a schematic view of the core of the utility model;

FIG. 10 is a schematic view from another perspective of FIG. 9;

wherein: 1 a front panel; 2 door baffle sealing plate; 3, an air supply outlet; 4, a third fresh air inlet; 5. an air outlet; 6, an air return inlet; 7 back shell; 8, a return air fan; 9 refrigerant copper pipe; 10. the return air part is connected with a water tray; 11 coarse filter screen; 12, a compressor; 13 door lock handle; 14, a second fresh air inlet; 15, a first fresh air inlet; 16 universal wheels; 17 ultraviolet lamp tube; 18 an electronic valve; 19. a drainage system; 20 coarse-effect filter screens; 21 a water receiving tray at the air supply position; 22 door hinges; 23, high-efficiency filtering net; 24 air supply fans; 25 inner shell structure; 26, a first water pipe; 27 a second water pipe; 28. a water pipe III; 29, a fourth water pipe; 30, forming an upper cover plate by a drainage system; 31, a second water pump; 32, forming a box partition plate by a drainage system; 33, a first water pump; 34 a drainage system forming box; 35 a fin system III; 36 fin system; 37 a fin system two; 38 an outdoor unit of an air conditioner; 39 walls of a room; 40. connecting the outdoor pipe; 41. a fin-based secondary water tray; a 42-fin three-water tray; 43. separating the cavity; 44. a sloping plate; 45. a riser.

Detailed Description

The present invention will be further elucidated below with reference to the accompanying drawings and embodiments, it being understood that the following embodiments are only intended to illustrate the present invention and are not intended to limit the scope of the present invention. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The patent provides a plurality of parallel schemes, and different expressions belong to an improved scheme based on a basic scheme or a parallel scheme. Each solution has its own unique features. Furthermore, the technical features mentioned in the different embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other. The fixing means, which is not described herein, may be any one of screw fixing, bolt fixing, or glue bonding.

The first embodiment is as follows: with reference to all of the accompanying drawings; a dual-working-condition energy-saving and spraying type fresh air conditioning all-in-one machine in winter and summer is characterized in that,

the integrated machine comprises a bracket, wherein the bracket divides the whole body into two parts through a vertical plate with an inclined plate 44 above the middle part, one part is an air inlet area, and the other part is a comprehensive area; a comprehensive pipeline system is arranged in the air inlet area;

the air conditioner also comprises a vertical plate 45 vertical to the vertical plate, and the vertical plate 45 divides the comprehensive area into a fresh air part and an air return part; the vertical plate 45 also divides the air inlet area into a fresh air inlet area and a return air inlet area; the uppermost part of the fresh air inlet area comprises a fresh air inlet III 4, and the uppermost part of the return air inlet area comprises a return air inlet 6;

the fresh air part and the return air part respectively comprise more than one transverse plate to divide the fresh air part and the return air part into a plurality of areas;

the lower part of the fresh air part is communicated with a fresh air inlet area, and a coarse filter screen 20 is arranged below the fresh air part in parallel to the transverse plate; arranged side by side on a transverse plate above the coarse filter screen 20

A second fin system 36 and a second fin system 37; the air supply fan 24 is arranged above the fin system I36 and the fin system II 37 which are arranged in parallel; the uppermost part of the fresh air part comprises an air supply outlet 3;

a vertical filter screen is arranged at the lowest part of the air return part, a compressor assembly 12 is arranged on one side of the vertical filter screen, the side of the vertical filter screen is communicated with an air return inlet area, and the compressor assembly 12 extends out of a pipeline and is communicated with a fin system III 35 arranged on the compressor assembly; the transverse plate above the third fin system 35 comprises a hole and the hole is communicated with the third fin system 35; a return air fan 8 is arranged above the fin system III 35, and an air outlet 5 is arranged above the return air fan 8;

a return air position water receiving tray 10 is arranged below the fin system III 35, and an air supply position water receiving tray 21 is arranged below the fin system I36 and the fin system II 37;

a drainage system assembly 19 is arranged at the lowest part of the fresh air part, the drainage system assembly 19 is divided into two parts through a partition plate 32 in a drainage system assembly box, and the two parts are respectively provided with a water pump which is a first water pump 33 and a second water pump 31; the water pump II 31 points to the fin system III 35 through the water pipe II 27, the water pump I33 is connected with the water pipe III 28, and the outlet of the water pipe III 28 leads to the outdoor;

the bottom of the water receiving disc 21 at the air supply position extends out of a water pipe IV 29 and leads to the area where the water pump II 31 is located;

the water in the water receiving tray 10 at the return air position can be communicated with the area where the first water pump 33 is located.

The technical scheme of the invention has the following substantial technical effects and the realization process, namely the basic functions:

the temperature control ventilation method of the winter and summer dual-working-condition energy-saving spraying type fresh air conditioning all-in-one machine is characterized in that the air conditioning all-in-one machine is utilized, and the method comprises the following steps and modes;

an air supply route: outdoor fresh air enters an air cavity channel of the equipment through any one of a fresh air inlet I15, a fresh air inlet II 14 and a fresh air inlet III 4 by power provided by an air supply fan 24 and passes through a coarse effect filter screen 20 for primary air purification, then the primarily purified fresh air passes through a fin system I36 and a fin system II 37 for temperature regulation and control of the fresh air, the temperature of the fresh air is reduced in summer, the temperature of the fresh air is increased in winter, then the fresh air is irradiated by an ultraviolet lamp tube 17 for sterilization and passes through a high-efficiency filter screen 23 to reach the oxygen-containing clean air standard, and finally the fresh air is sent out of the machine through an air supply port and conveyed into a room through a fresh air pipe to purify the fresh air with high sterilization oxygen content; the ultraviolet lamp tube 17 is arranged in the air supply path, and the high-efficiency filter screen 23 is arranged in the air supply path;

an air return route: indoor air enters an equipment air cavity channel through an air return inlet 6 by providing power through an air return fan 8, passes through a coarse filter screen 11 to purify return air, then passes through a fin system III 35 and is finally discharged out of the room through an air outlet 5 through a pipeline;

the air conditioner comprises three sets of fin systems and an air conditioner outdoor unit, wherein the fin system I36, the fin system II 35 and the compressor form a set of refrigerating and heating system, and the fin system II 37 and the air conditioner outdoor unit form a set of refrigerating and heating system;

during refrigeration in summer: the first fin system 36 is an evaporator, the third fin system 35 is a condenser, and the second fin system 37 is an evaporator;

in summer, indoor air is hot air, the hot air provides power through the return air fan, the indoor hot air passes through the machine cavity through the return air coarse-effect filter screen through the indoor return air inlet, then passes through the fin system III 35 which is the condenser at the moment, and the fin system III 35 is cooled at the moment, so that the working condition point of the compressor is reduced, the compressor can be well saved, the purposes of energy saving and emission reduction are achieved, and finally the air is discharged outdoors through the outdoor air outlet;

during heating in winter:

the first fin system 36 is a condenser, the third fin system 35 is an evaporator, and the second fin system 37 is a condenser;

indoor wind provides power for cold wind through the return air fan in winter, passes through the coarse filter screen of return air through the machine cavity through the indoor return air inlet, then passes through the third fin system 35 that is the evaporimeter this moment, can heat up for the third fin system 35 this moment to the operating mode point of compressor has been reduced, can practice thrift the ability of compressor and then reach the energy-conserving purpose of reducing the emission, finally through outdoor air exit discharge outdoor.

A more specific explanation is the assumption that the assumed temperature is an example temperature, and the specific parameters thereof do not limit the present patent.

The specific energy saving performance is as follows:

supposing that the indoor air is 25 degrees in summer, the air with the indoor temperature of 25 degrees is provided with power through the return air fan, passes through the machine cavity through the indoor return air inlet, passes through the return air coarse filter screen, then passes through the fin system III, the fin system III is a condenser at the moment, and the temperature of the fin system III is reduced by 15 degrees at the moment, so that the working condition point of the compressor is reduced, 20 percent of electric power can be saved, the purposes of energy saving and emission reduction are achieved, and finally the air is discharged outdoors through the outdoor air outlet;

during heating in winter: the specific energy-saving performance is that the indoor air is 20 degrees in winter, the power is provided through the return air fan, the indoor 20 degrees of air passes through the indoor return air inlet, passes through the return air coarse filter screen through the machine cavity, then passes through the fin system III, the fin system III is the evaporator at the moment, the temperature of the fin system III can be increased by 15 degrees at the moment, so that the working condition point of the compressor is reduced, 20 percent of electric power can be saved, the purpose of energy saving and emission reduction is achieved, and finally the air is discharged outdoors through the outdoor air outlet.

In general, the patent pioneers two groups of fins to form a system, and pioneers a combination of an air supply system, a multi-fin system and a mechanism to form a comprehensive system which can interact with each other and can mutually cooperate and influence.

The second embodiment: as a further improvement or a parallel scheme or an optional independent scheme, the fin system 36 and the outdoor unit belong to an air conditioning system; the fin system I36, the fin system II 37 and the compressor assembly 12 belong to another air conditioning system. The technical scheme of the invention has the following essential technical effects and the realization process, namely, the basic functions: the detailed principle and structure of the air conditioner will not be described herein. Two sets of air conditioner systems contain the refrigerant pipe respectively, in order to embody the key of this patent, the refrigerant pipe that corresponds etc. do not draw to prevent that the pipeline is too much in the figure from leading to the fact the figure to understand the influence to the key of this patent.

Example three: as a further improvement or a parallel solution or an alternative independent solution, the end part of the water pipe two 27 is provided with a spray header. The technical scheme of the invention has the following substantial technical effects and the realization process, namely the basic functions: the spray header can spray in a wide surface area, and further more uniform heat exchange is realized.

Example four: as a further improvement scheme or a parallel scheme or an optional independent scheme, a water collecting tray with larger area and capacity is arranged below the return air water collecting tray 10 and is communicated with the area where the first water pump 33 is located through the first water pipe 26. The technical scheme of the invention has the following substantial technical effects and the realization process, namely the basic functions: in essence, the larger area and capacity of the water pan is not necessarily needed, and whether the water pan is needed or not is determined according to specific working conditions.

Example five: as a further improved scheme or a parallel scheme or an optional independent scheme, a door partition sealing plate 2 is arranged on the side of the bracket, a plurality of holes are formed in the door partition sealing plate 2, and the workpieces can be quickly disassembled and repaired through the plurality of holes. The technical scheme of the invention has the following essential technical effects and the realization process, namely, the basic functions: referring to fig. 1 of the patent, quick component disassembly and assembly are possible, and maintenance and installation can be facilitated.

Example six: as a further improved scheme or a parallel scheme or a selectable independent scheme, the novel air conditioner further comprises a U-shaped plate matched with the support, a fresh air inlet II 14 and a fresh air inlet I15 are arranged at the lowest part of the U-shaped plate corresponding to the fresh air part, the fresh air inlet II 14 and the fresh air inlet I15 are not parallel and are quick-release openings, and the quick-release openings can be quickly detached through a circle of needle holes to expose corresponding air openings. The technical scheme of the invention has the following essential technical effects and the realization process, namely, the basic functions: refer to fig. 7 and 8; the installation is carried out in adaptation different installation environments and places.

Example seven: as a further development or in parallel or alternatively independently, the bottom of the riser 45 comprises a port whose size and opening and closing can be controlled by the electronic valve 18, through which the mixing of the fresh air and return air portions can be achieved. The technical scheme of the invention has the following substantial technical effects and the realization process, namely the basic functions: and (5) according to actual requirements, whether air mixing is needed or not is judged.

Example eight: as a further alternative or in parallel or alternatively independently, a gap is included between the fin system one 36 and the fin system two 37. The technical scheme of the invention has the following essential technical effects and the realization process, namely, the basic functions: the second fin system 37 and the first fin system 36 are separately produced when the second fin system 37 and the first fin system are actually produced and customized, but the second fin system 37 and the first fin system 36 are fixed into a whole because the upper plate and the lower plate are commonly used for installation. The installation complexity can be reduced.

The first fin system 36 and the second fin system 37 may be manufactured separately.

Example nine: as a further development or in parallel or alternatively independently, the following steps are also included:

according to the water tank, two drainage pumps, namely a first drainage pump 33 and a second drainage pump 31, are integrated in a drainage system forming box in parallel, a water tank is divided into two parts by a partition plate 32 in the drainage system forming box, and the purpose of energy conservation is achieved by utilizing the temperature of condensate water generated by a fin system;

during refrigeration in summer:

during refrigeration in summer: the first fin system 36 is an evaporator, the third fin system 35 is a condenser, and the second fin system 37 is an evaporator;

when the equipment works, the first fin system 36 and the second fin system 37 are both evaporators at the moment; the generated low-temperature condensed water is collected into a corresponding half of a box body in a drainage system composition box 34 at the bottom through a water pipe IV 29 by a water supply position water receiving tray 21, and then the water collected by the water supply position water receiving tray 21 is sprayed to a fin system III 35 serving as a condenser at the moment through a water pipe II 27 by providing power through a water pump I33, so that the working condition point of the compressor is reduced for cooling the condenser, and the purpose of saving energy is achieved; the water after the temperature is changed flows into the drainage system forming box 34 again through the water pipe I26 and corresponds to the other half of the box body, then the collected water is discharged out of the machine through the water pipe III 28 by providing power through the water pump II 31 and is finally discharged to the outside through the outdoor connecting pipe, and the structure utilizes the low-temperature condensed water of the fin system I36 and the fin system II 37 to cool the fin system III 35 in summer, so that the working condition point of the compressor is reduced, and further energy is saved;

during heating in winter: the principle is consistent with that of refrigeration in summer, but the temperature of warm water of the fin system I36 and the fin system II 37 is utilized to heat the fin system III 35 in summer, so that the working point of the compressor is improved, and further energy is saved.

The electronic valve is adopted, the circulating air quantity in the return air can be controlled by controlling the electronic valve, and the circulating air quantity of the return air can be controlled at will; the bottom of the device is mounted in a universal wheel cabinet type, so that the flexibility is higher, and the device is easy to maintain in the later period; the number of the fresh air inlets is three, the optionality can be carried out according to actual conditions, the flexibility is high, and the construction difficulty is reduced; the sealing plate of the partition plate of the patent door is provided with the corresponding filter screen gap, the filter screen can be replaced by opening the front panel, and the operation is simple; the high-efficient filter screen that this patent air supply department adopted can produce chlorine dioxide gas and adopted ultraviolet tube simultaneously, and it is more high-efficient to disinfect.

It should be noted that the plurality of schemes provided in this patent include their own basic schemes, which are independent of each other and are not restricted to each other, but they may be combined with each other without conflict, so as to achieve a plurality of effects.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, all of which are intended to be covered by the appended claims.

Claims (8)

1. A dual-working-condition energy-saving and spraying type fresh air conditioning all-in-one machine in winter and summer is characterized in that,

the integrated machine comprises a support, wherein the support divides the whole body into two parts through a vertical plate with an inclined plate (44) above the middle part, one part is an air inlet area, and the other part is a comprehensive area; a comprehensive pipeline system is arranged in the air inlet area;

the integrated air conditioner also comprises a vertical plate (45) vertical to the vertical plate, and the vertical plate (45) divides the integrated area into a fresh air part and an air return part; the vertical plate (45) also divides the air inlet area into a fresh air inlet area and a return air inlet area; the top of the fresh air inlet area comprises a fresh air inlet III (4), and the top of the return air inlet area comprises a return air inlet (6);

the fresh air part and the return air part respectively comprise more than one transverse plate to divide the fresh air part and the return air part into a plurality of areas;

the lower part of the fresh air part is communicated with a fresh air inlet area, and a coarse-effect filter screen (20) is arranged below the fresh air part in parallel to the transverse plate; arranged side by side on a transverse plate above the coarse filter screen (20)

A second fin system (37) and a second fin system (36); an air supply fan (24) is arranged above the fin system I (36) and the fin system II (37) which are arranged in parallel; the uppermost part of the fresh air part comprises an air supply outlet (3);

a vertical filter screen is arranged at the lowest part of the air return part, a compressor assembly (12) is arranged on one side of the vertical filter screen, the side of the vertical filter screen is communicated with an air return air inlet area, and the compressor assembly (12) extends out of a pipeline and is communicated with a fin system III (35) arranged on the compressor assembly; a transverse plate above the fin system III (35) comprises a hole, and the hole is communicated with the fin system III (35); a return air fan (8) is arranged above the fin system III (35), and an air outlet (5) is arranged above the return air fan (8);

a return air position water receiving disc (10) is arranged below the fin system III (35), and an air supply position water receiving disc (21) is arranged below the fin system I (36) and the fin system II (37);

a drainage system component (19) is arranged at the lowest part of the fresh air part, the drainage system component (19) is divided into two parts by a partition plate (32) in a drainage system component box, and the two parts are respectively provided with a water pump which is a first water pump (33) and a second water pump (31); the water pump II (31) points to the fin system III (35) through the water pipe II (27), the water pump I (33) is connected with the water pipe III (28), and the outlet of the water pipe III (28) leads to the outside;

the bottom of the air supply position water receiving disc (21) extends out of a water pipe IV (29) and leads to the area where the water pump II (31) is located;

the water in the water receiving tray (10) at the return air position can be communicated with the area where the first water pump (33) is located.

2. The dual-working-condition energy-saving and spraying type fresh air conditioning all-in-one machine for winter and summer as claimed in claim 1,

the fin system (36) and the outdoor unit belong to an air conditioning system;

the fin system I (36), the fin system II (37) and the compressor assembly (12) belong to another air conditioning system.

3. The integrated energy-saving and spraying fresh air conditioning machine with double working conditions in winter and summer as claimed in claim 1, wherein a spraying head is arranged at the end of the second water pipe (27).

4. The integrated energy-saving and spraying fresh air conditioning machine with double working conditions in winter and summer as claimed in claim 1, wherein a water collecting tray with larger area and capacity is arranged below the water collecting tray (10) at the return air position, and the water collecting tray is communicated with the area where the first water pump (33) is located through the first water pipe (26).

5. The all-in-one machine of the energy-saving and spraying fresh air conditioner with double working conditions in winter and summer as claimed in claim 1, wherein a door partition plate sealing plate (2) is arranged at the side of the bracket, a plurality of holes are arranged on the door partition plate sealing plate (2), and the workpieces can be quickly disassembled, assembled and maintained through the plurality of holes.

6. The all-in-one machine of the winter and summer dual-working-condition energy-saving spraying type fresh air conditioner as claimed in claim 1, further comprising a U-shaped plate matched with the support, wherein a fresh air inlet II (14) and a fresh air inlet I (15) are arranged at the lowest part of the U-shaped plate corresponding to the fresh air part, the fresh air inlet II (14) and the fresh air inlet I (15) are not parallel and are quick-release openings, and the quick-release openings refer to openings which can be quickly released through a circle of pin holes so that the corresponding air openings are exposed.

7. The energy-saving and spraying integrated fresh air conditioner in winter and summer with double working conditions as claimed in claim 1, wherein the bottom of the vertical plate (45) comprises a port, the size and opening and closing of the port can be controlled by an electronic valve (18), and the mixing of the fresh air part and the return air part can be realized through the port.

8. The integrated energy-saving and spraying fresh air conditioning machine with double working conditions in winter and summer as claimed in claim 1, wherein a gap is formed between the first fin system (36) and the second fin system (37); the ultraviolet lamp tube (17) is installed in the air supply path, and the high-efficiency filter screen (23) is installed in the air supply path.

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