CN210832320U - Intelligent indoor air quality adjusting system host - Google Patents

Abstract

The host of the system for intelligently adjusting the indoor air quality comprises a shell, wherein one side of the shell is an air inlet side, and the air inlet side is provided with a fresh air inlet and a return air inlet; one side of the shell corresponding to the air inlet side is an air outlet side, and the internal space defined by the shell is sequentially arranged from the air inlet side to the air outlet sideThe device comprises a primary filter screen, an electrostatic dust collection assembly, a fan unit and an evaporator. The utility model has the advantages that: carry out effective combination processing with outdoor new trend and indoor return air to can realize in the course of treatment, realize in proper order that primary filter, electrostatic precipitation purify, adjust temperature etc. handle, realize high integration, the utility model discloses the structure is retrencied and has been realized only realizing that the new trend amount of wind is from 100m from the change of product equal proportion³H to 3000m³The product system of/h can freely control the proportion of fresh air and indoor return air to adapt to different weathers, achieves the purposes of energy saving and high efficiency, and can meet various installation requirements of wall hanging, suspension, vertical type and the like.

Description

Intelligent indoor air quality adjusting system host

Technical Field

The utility model relates to an air conditioner and new trend technical field, concretely relates to intelligent regulation indoor air quality system host computer, be referred to as "air conditioner host computer" for short.

Background

The current air conditioning technology is widely applied to civil life, and meanwhile, in the continuous diffusion process of the concept of 'fresh air', a fresh air system and the fresh air technology are gradually combined with the air conditioning technology;

however, in the prior art, a technology for realizing efficient and rapid treatment after indoor return air is combined with fresh air does not exist, and a product with large fresh air volume organically combined with an air conditioner does not exist; the prior art is slightly improved on the basis of the traditional air conditioner, namely the requirement of large air volume cannot be met, and the requirements of different space conditions on fresh air volume and refrigeration/heating capacity cannot be met simultaneously;

most of the current products are customized, the adaptation scene is relatively limited, and standard part products for simultaneously processing fresh air and indoor return air do not appear on the market.

SUMMERY OF THE UTILITY MODEL

In order to effectively solve the problem, the utility model provides an intelligent indoor air quality system host computer.

The utility model discloses a concrete technical scheme as follows: the host of the system for intelligently adjusting the indoor air quality comprises a shell, wherein one side of the shell is an air inlet side, and the air inlet side is provided with a fresh air inlet and a return air inlet;

one side of the shell corresponding to the air inlet side is an air outlet side, and a primary filter screen, an electrostatic dust collection assembly, a fan set and an evaporator are sequentially arranged in the inner space defined by the shell from the air inlet side to the air outlet side.

Furthermore, the whole body of the shell is of a cuboid structure, and the electrostatic dust collection assembly comprises a micro electrostatic ionization net and a micro electrostatic dust collection net;

the micro electrostatic ionization net and the micro electrostatic dust collection net are parallel to each other, the micro electrostatic ionization net is arranged on the air inlet side, and the micro electrostatic dust collection net is arranged on the air outlet side;

and filter screen clamping grooves are respectively arranged in two adjacent sides of the horizontal direction of the air inlet side of the shell, and the horizontal two ends of the micro electrostatic ionization net and the horizontal two ends of the micro electrostatic dust collection net are clamped in the filter screen clamping grooves.

Furthermore, any one of the filter screen clamping grooves is provided with three strip-shaped grooves, wherein two strip-shaped grooves are clamped with the micro electrostatic ionization net and the micro electrostatic dust collection net, and the other strip-shaped groove is clamped with the primary filter screen;

the primary filter screen is arranged on one side of the micro electrostatic ionization screen facing the wind.

Further, the fan comprises two wind wheel volutes and a motor;

the wind wheel volute is of a cylindrical structure, and the axial center lines of the cylindrical structures of the wind wheel volute are positioned on the same straight line;

the round side surfaces of the wind wheel volutes, which correspond to each other, are provided with through holes;

the motor is arranged between the two wind wheel volutes, rotating shafts are formed at two ends of the motor, and the rotating shafts are arranged in the wind wheel volutes through the through holes;

a fan fixing plate parallel to the air inlet side is arranged in the shell;

two wind wheel volutes form volute openings in the direction facing the fan fixing plate, the volute openings are provided with two fan air outlets, and the shapes and the sizes of the fan air outlets are consistent with those of the volute openings;

the volute opening and the fan air outlet are correspondingly connected with each other.

Further, the evaporator is arranged in the direction of the fan facing the air outlet side;

the evaporator is fixed in the housing in an inclined state.

Furthermore, a first side of the evaporator is arranged at the bottom of the air outlet side, and a second side of the evaporator corresponding to the first side is arranged at the upper part of the air outlet direction of the fan;

the other two sides of the evaporator are connected with the shell, and one end of the evaporator is connected with an evaporator air pipe and an evaporator liquid pipe which extend out of the shell.

Furthermore, a water receiving tray is arranged at the position, facing the bottom side of the shell, of the first side surface of the evaporator, and a water tray water outlet is formed in one end of the water receiving tray.

The utility model has the advantages that: the invention has the advantages that the outdoor fresh air and the indoor return air are effectively combined for treatment, the treatment of primary filtration, electrostatic dust collection purification, temperature regulation and the like can be realized in sequence in the treatment process, the high integration is realized, the structure is simplified, and the realization of the fresh air quantity from 100m only through the product equal proportion change is realized³H to 3000m³The product system of/h can freely control the proportion of fresh air and indoor return air to adapt to different weathers, achieves the purposes of energy saving and high efficiency, and can meet various installation requirements of wall hanging, suspension, vertical type and the like.

Drawings

Fig. 1 is a schematic perspective view of an overall structure of a main unit of an intelligent indoor air quality adjusting system according to the present invention;

fig. 2 is a schematic perspective view of another angle of the overall structure of the main unit of the system for intelligently adjusting indoor air quality according to the present invention;

fig. 3 is a schematic perspective view of an internal structure of a main unit of an intelligent indoor air quality adjusting system according to the present invention;

fig. 4 is a top view of an internal structure of a main unit of an intelligent indoor air quality adjusting system according to the present invention;

fig. 5 is an exploded schematic view of a primary filter screen and an electrostatic dust collecting assembly of a main unit of an intelligent indoor air quality adjusting system according to the present invention;

fig. 6 is an explosion diagram of the fan structure of the host of the intelligent indoor air quality adjusting system provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

On the contrary, the invention is intended to cover alternatives, modifications, equivalents and alternatives which may be included within the spirit and scope of the invention as defined by the appended claims. Furthermore, in order to provide a better understanding of the present invention to the public, certain specific details are set forth in the following detailed description of the invention. It will be apparent to those skilled in the art that the present invention may be practiced without these specific details.

As shown in fig. 1 and 2, the main frame of the intelligent indoor air quality adjusting system provided by the present invention is a three-dimensional schematic view of the main frame of the intelligent indoor air quality adjusting system with different angles, the main frame of the intelligent indoor air quality adjusting system is referred to as "air conditioner" for short, and includes a housing 1, an upper cover 11, a lower cover 12, a left cover 13, a right cover 14, a front cover 15, and a rear cover 16 of the housing 1;

the rear cover 16 is the air inlet side of the air conditioner main unit, and the front cover 15 is the air outlet side of the air conditioner main unit;

the rear cover 16 is connected with a fresh air inlet 2 and a return air inlet 3, and the fresh air inlet 2 and the return air inlet 3 can be understood to be internally provided with a fresh air valve and a return air valve;

the fresh air inlet 2 and the return air inlet 3 can be in a circular cylindrical structure, but the specific structures of the fresh air inlet 2 and the return air inlet 3 are not limited, and the structures which can introduce fresh air and return air in any shapes belong to the protection range of the utility model;

as shown in fig. 3 and 4, a schematic perspective view of an internal structure of a main unit of an intelligent indoor air quality adjusting system and a top view of the internal structure are provided;

a primary filter screen 4, an electrostatic dust collection assembly 5, a fan 6 and an evaporator 7 are sequentially arranged in a space defined in the shell 1 from the air inlet side to the air outlet side;

the electrostatic dust collection assembly 5 comprises a micro electrostatic ionization net 51 and a micro electrostatic dust collection net 52;

the micro electrostatic ionization net 51 is parallel to the micro electrostatic dust collection net 52, the micro electrostatic ionization net 51 is arranged on the air inlet side, and the micro electrostatic dust collection net 52 is arranged on the air outlet side;

the primary filter screen 4 is arranged on one side of the micro electrostatic ionization screen 51 facing the air inlet; as shown in fig. 5, the primary filter screen 4, the micro electrostatic ionization screen 51, and the micro electrostatic dust collection screen 52 are all in a long-strip plate-shaped structure;

the filter screen clamping grooves 50 are respectively arranged inside two adjacent sides of the casing 1 in the horizontal direction of the wind inlet side, and specifically can be understood as follows: the filter screen clamping grooves 50 are formed in the inner sides of the left cover 13 and the right cover 14 of the shell 1, and the filter screen clamping grooves 50 are parallel to the plane where the rear cover 16 is located;

any one of the filter screen clamping grooves 50 is provided with three strip-shaped grooves, wherein two strip-shaped grooves are correspondingly clamped with the short sides of the micro electrostatic ionization net 51 and the micro electrostatic dust collection net 52, and the other strip-shaped clamping groove is clamped with the short side of the primary filter screen 4;

a control line or a power line is embedded in the filter screen clamping groove 50 and is used for connecting the micro electrostatic ionization net 51 and the micro electrostatic dust collection net 52 with the electric control box 8 of the air conditioner main machine, so that the electric control box 8 can control internal components;

in order to realize the cleaning and replacement of the primary filter screen 4 and/or the replacement of the electrostatic dust collection assembly 5 with a medium-efficiency filter screen, a high-efficiency filter screen, a composite filter screen, etc., the lower cover is provided with an access hole, an access door and a buckle, the access hole, the access door and the buckle can adopt the structures in the prior art and are not particularly limited, and any replaceable switch and locking structure can be applied to the utility model;

the fan 6 is arranged in the direction of the air outlet side of the electrostatic dust collection component 5, a resident space exists between the fan 6 and the electrostatic integrated component, and after primary filtration and dust collection filtration, fresh air and return air are taken away by the power of the fan 6 in the resident space and are discharged out of the air conditioning host;

as shown in fig. 6, the wind turbine 6 includes two wind turbine volutes 61 and a motor 62; the wind wheel volute 61 is of a cylindrical structure, and the axial center lines of the cylindrical structures of the wind wheel volute 61 are positioned on the same straight line, and the straight line is parallel to the plane of the rear cover 16;

through holes 610 are formed in the corresponding round side surfaces of the wind wheel volute 61;

the motor 62 is disposed between the two wind wheel volutes 61, two ends of the motor 62 form a rotating shaft 620, the rotating shaft 620 is disposed in the wind wheel volutes 61 through a through hole 610, and fan blades are disposed on the rotating shaft 620 and are not shown in the drawings;

a fan fixing plate 60 parallel to the air inlet side is arranged in the shell 1;

two volute openings 611 are formed in the directions of the two wind wheel volutes 61 facing the fan fixing plate 60, two fan air outlets 600 are formed in the fan fixing plate 60, and the shapes and the sizes of the fan air outlets 600 and the volute openings 611 are consistent;

the volute opening 611 and the fan air outlet 600 are correspondingly connected with each other;

wind in the residence space can enter the wind wheel volute 61 through the through hole 610, or a fan air inlet is formed in the wind wheel volute 61;

in other embodiments of the present invention, the fan 6 may adopt a single-shaft motor and a single set of fan blades; or in other embodiments, a structure that a plurality of groups of fans 6 are arranged in parallel can be adopted, or further, the purpose of the structure can be realized to increase the air quantity and the air pressure, and the structure can be applied to the embodiment of the utility model;

the evaporator 7 is arranged in the direction of the fan 6 facing the air outlet side;

the evaporator 7 is fixed in the housing 1 in an inclined state.

A first side 71 of the evaporator 7 is arranged at the bottom of the air outlet side, and a second side 72 of the evaporator 7 corresponding to the first side 71 is arranged at the upper part of the air outlet direction of the fan 6;

the other two sides of the evaporator 7 are connected to the housing 1, specifically to the left cover 13 and the right cover 14, and one end of the evaporator is connected to an evaporator air pipe 73 and an evaporator liquid pipe 74 extending out of the housing 1.

The first side 71 of the evaporator 7 faces the position of the bottom side of the shell 1 and is provided with a water pan 9, specifically, the upper side of the lower cover 12 is provided with the water pan 9, the positions of the water pan 9 and the first side 71 correspond to each other, and one end of the water pan 9 is provided with a water pan water outlet 91.

A plasma generator 101 and a PTC auxiliary heating element 102 are also arranged on the air outlet side; the electrical control box 8 is arranged on the outer side of the shell 1, and the electrical control box 8 is connected with the motor 62 through a pre-embedded flat cable inside the shell 1; the outer side of the shell 1 is further provided with an installation hanging buckle 103, and the installation hanging buckle 103 is used for being matched with the regulation and control host machine to be fixed at a specified position.

Claims (10)

1. The system host for intelligently adjusting the indoor air quality is characterized by comprising a shell, wherein one side of the shell is an air inlet side, and the air inlet side is provided with a fresh air inlet and an air return inlet;

one side of the shell corresponding to the air inlet side is an air outlet side, and a primary filter screen, an electrostatic dust collection assembly, a fan set and an evaporator are sequentially arranged in the inner space defined by the shell from the air inlet side to the air outlet side.

2. The system host of claim 1, wherein the housing is a rectangular parallelepiped, and the electrostatic dust collecting assembly comprises a micro electrostatic ionization network and a micro electrostatic dust collecting network;

the micro electrostatic ionization net and the micro electrostatic dust collection net are parallel to each other, the micro electrostatic ionization net is arranged on the air inlet side, and the micro electrostatic dust collection net is arranged on the air outlet side;

and filter screen clamping grooves are respectively arranged in two adjacent sides of the horizontal direction of the air inlet side of the shell, and the horizontal two ends of the micro electrostatic ionization net and the horizontal two ends of the micro electrostatic dust collection net are clamped in the filter screen clamping grooves.

3. The system host of claim 2, wherein any one of the filter screen slots has three bar-shaped slots, two of the three bar-shaped slots are connected with the micro electrostatic ionization screen and the micro electrostatic dust collection screen in a clamping manner, and the other bar-shaped slot is connected with the primary filter screen in a clamping manner;

the primary filter screen is arranged on one side of the micro electrostatic ionization screen facing the wind.

4. The system mainframe of claim 1, wherein the blower includes two wind wheel volutes and a motor;

the wind wheel volute is of a cylindrical structure, and the axial center lines of the cylindrical structures of the wind wheel volute are positioned on the same straight line;

the round side surfaces of the wind wheel volutes, which correspond to each other, are provided with through holes;

the motor is arranged between the two wind wheel volutes, rotating shafts are formed at two ends of the motor, and the rotating shafts are arranged in the wind wheel volutes through the through holes;

a fan fixing plate parallel to the air inlet side is arranged in the shell;

two wind wheel volutes form volute openings in the direction facing the fan fixing plate, the volute openings are provided with two fan air outlets, and the shapes and the sizes of the fan air outlets are consistent with those of the volute openings;

the volute opening and the fan air outlet are correspondingly connected with each other.

5. The system mainframe of claim 1, wherein the fan is disposed in a direction facing an air outlet side of the evaporator;

the evaporator is fixed in the housing in an inclined state.

6. The system host of claim 5, wherein a first side of the evaporator is disposed at a bottom of the air outlet side, and a second side of the evaporator corresponding to the first side is disposed at an upper portion of an air outlet direction of the fan;

the other two sides of the evaporator are connected with the shell, and one end of the evaporator is connected with an evaporator air pipe and an evaporator liquid pipe which extend out of the shell.

7. The system mainframe of claim 6, wherein a water pan is disposed at a position of the first side of the evaporator facing the bottom side of the housing, and a water pan outlet is disposed at one end of the water pan.

8. The system mainframe of claim 1, wherein a plasma generator and a PTC auxiliary heating element are further disposed on the air outlet side.

9. A system mainframe of intelligent conditioned indoor air quality system as claimed in claim 1, wherein an electrical control box is provided at the outer side of the housing.

10. The system mainframe of claim 1, wherein the housing is further provided with a mounting hanger at an outer side thereof.

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