KR102055435B1 - Air supply method for air conditioners - Google Patents

Abstract

In the air conditioner blowing method of the present invention, the air conditioner selectively discharges the first treatment air from the upper middle portion and / or the second treatment air from the lower middle portion. By selectively discharging the first treatment air from the upper middle portion and / or the second treatment air from the lower middle portion, it is possible to individually control the air treated in the two portions, and improve the selectivity of the blowing function to reduce the air conditioning power consumption. In addition to reducing the number of parts of the air conditioner used to solve the disadvantage of reducing the service life.

Description

Air Conditioning Blowing Method {AIR SUPPLY METHOD FOR AIR CONDITIONERS}

TECHNICAL FIELD The present invention relates to the field of air conditioning technology, and more particularly, to an air conditioner blowing method.

As technology advances and people's living standards rise, the functions of air conditioners used in homes and offices are increasing. In addition to simply cooling and heating indoor air, humidification and purification of indoor air are also provided.

Conventionally, when implementing the effects of humidification and purification of indoor air with an air conditioner, a method of installing an additional air treatment module such as a humidification module or a purification module in the air duct of the air conditioner is usually adopted without changing the structure of the existing air conditioner. Doing. When power is supplied to the air conditioner to perform cooling or heating, the air treatment module installed as described above is also operated, so that processing such as humidification and purification of indoor air can be implemented. The air conditioner air outlet thus simultaneously discharges the treated heat exchanger air in the heat exchanger and the treated air in the additional air treatment module.

The blowing method has the following defects. First, since the heat exchange air and the additional air treatment module cannot separate and discharge the treated air, the selectivity of the functional side is inferior, and the power consumption of the air conditioner is increased, and the service life of the air conditioner refrigerant and the air treatment module is easy to be reduced. Second, once the air conditioner is shipped, it is difficult to meet the customized demand because the additional air treatment function is already confirmed and the user cannot change it. Third, as the number of additional air treatment modules increases, they occupy existing space and air ducts in the air conditioner, which may affect the normal air conditioning performance of the air conditioner. In addition, in order to harmonize the normal air conditioner with the additional air conditioner, the design of the air conditioner structure and power control should be carried out with a large amount of research cost.

An object of the present invention is to provide an air conditioner blowing method that can solve one or more defects existing in the conventional air conditioner blowing method in which the air treated differently in two parts is discharged simultaneously.

In order to achieve the above object, the present invention adopts the following technical solutions.

In the air conditioner blowing method of the present invention, the air conditioner selectively discharges the first treatment air from the upper middle portion and / or the second treatment air from the lower middle portion.

Here, the first treatment air is heat exchanged air treated through a heat exchanger, and the second treatment air is air treated in an air treatment module other than the heat exchanger.

In the air conditioner blowing method, the air conditioner includes an air conditioner body, and further comprising a base for assembling in a detachable manner with the air conditioner body, the base includes a base body, the base body has an assembly, A base air inlet and a body air outlet are formed in the base body, a cavity is formed in the base body, and a blower and an air treatment module are formed in the cavity; The air conditioner selectively exhausts the first treated air from the air conditioner body and / or the second treated air from the body air outlet.

In the air conditioning blowing method, to implement a modular structure, to form an air exhaust assembly in the cavity, the air exhaust assembly includes an air exhaust frame, the blower is formed in the air exhaust frame, the air exhaust An air exhaust frame air outlet and an air exhaust frame first air outlet are formed in the frame, and the air exhaust frame first air outlet is located between the air exhaust frame air inlet and the assembly, and the air exhaust frame air inlet and the The body air inlet is in communication, and the air exhaust frame first air outlet is in communication with the body air outlet.

 In the air conditioner blowing method, the air discharge frame first air outlet is formed on the side of the air discharge frame having an air discharge angle greater than 180 ° to increase the range of base air discharge.

In the air conditioner blowing method, the air treatment module is formed in the air exhaust frame between the air exhaust frame air inlet and the air exhaust frame first air outlet.

In the air-conditioning blowing method, the air treatment module is formed in the air discharge frame in a draw-out structure, so that the air treatment module can be easily replaced to meet the user customized demand.

In the air conditioner blowing method, in order to further increase the range and manner of the air conditioner air discharge, forming an assembly air outlet in the assembly portion, the air discharge frame first air outlet and the assembly air outlet in the air discharge frame An air outlet frame having a second air outlet positioned therebetween, the air outlet frame second air outlet and the assembly unit air outlet communicate with each other, and a coupling unit air outlet is formed between the air conditioner body and the assembly unit, The coupling part air outlet and the assembly part air outlet are in communication; The air conditioner may optionally discharge the second processing air at the coupling air outlet.

Preferably, the coupler air outlet point is provided with an air discharge cover plate for opening and closing the coupler air outlet, to allow selective control of the air exiting the coupler air outlet.

In the air conditioner blowing method, an air discharge grille is formed inside the air discharge cover plate at the coupler air outlet.

Preferably, since the air discharge grill and the air discharge cover plate are all annular, a wide range of air discharge is possible.

In the air conditioner blowing method, in order to conveniently assemble the air conditioner body and the base, the air conditioner body is assembled so as to be detachable from the base via a connecting member, and the coupling part air outlet is between the assembly part and the connecting member. Is formed.

In the air conditioner blowing method, an electrical appliance box is further formed in the cavity, a conductive wire opening and a connection pipe opening are formed in the assembly unit, and the conductive wire connected to the electrical appliance box is transferred to the base body through the conductive wire opening. Extending, the connector of the air conditioner body extends into the base through the connector opening.

In the air conditioner blowing method, the electric appliance box is located far from the body air inlet, and the electric appliance box, the body air inlet and the air treatment module surround air while the base can smoothly enter and discharge air. Form the entry cavity.

In the air conditioning blowing method, the base body includes a bottom sheet and a base main body connected in a detachable manner, the assembly portion is formed on the base main body, the other end facing the bottom sheet, the bottom sheet A base support is formed between the assembly and the assembly, an outer housing surrounding the base main body is formed on an outer circumferential surface of the base main body, and both the body air inlet and the body air outlet are formed in the outer housing.

Advantages and beneficial effects of the present invention compared to the prior art are as follows. That is, the air conditioner of the present invention can individually control the air treated in the two parts by selectively discharging the first treatment air from the upper middle portion and / or the second treatment air from the lower middle portion when blowing. Therefore, not only the air conditioner power consumption was reduced by improving the selectivity of the air blowing function, but the parts of the air conditioner were used without meaning, which solved the disadvantage of reducing the service life.

Hereinafter, exemplary embodiments of the present invention will be described in more detail with reference to the drawings.

1 is a three-dimensional view of a stand type air conditioner embodiment in the blowing method of the present invention;
2 is a structural exploded view of FIG. 1;
3 is an isometric view of the base in one embodiment;
4 is a structural exploded view in one embodiment; And
5 is a three-dimensional view of the connecting member in one embodiment.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

First, the basic technical idea of the present invention will be briefly introduced.

In the present invention, in order to compensate for a series of disadvantages in which the heat treatment air treated by the heat exchanger and the air treated by the additional air treatment module have to be simultaneously delivered at the same time, when the air conditioner having the additional air treatment function is blown. By creatively proposing an air conditioner blowing method for discharging the first treatment air from the unit and / or discharging the second treatment air from the lower and middle parts, the first treatment air and the second treatment air can be individually controlled at different positions. By controlling the air treated in two parts individually, improve the functional selectivity of the blower to reduce the power consumption of air conditioners and solve the disadvantage of reduced service life by use of each air conditioner parts meaninglessly.

In addition, in consideration of the main use function of the air conditioner and the flow of airflow, as a preferred blowing method, the first treatment air discharged from the upper middle portion is heat exchanged air treated through a heat exchanger, and the second treatment air discharged from the middle lower portion is a heat exchanger. It was set as the air processed by the air processing module (for example, a humidification module, a purification module, etc.) other than the group.

Implementation of the blowing method requires a completely new design and improvement of the air conditioning structure. For a new air conditioner, refer to the accompanying drawings and the description of each drawing below.

In the embodiment of the stand type air conditioner of the present invention blowing method shown in Figures 1 to 5, Figure 1 is a three-dimensional view of the stand type air conditioner in the above embodiment, Figure 2 is a structural exploded view of Figure 1, Figure 3 and 4 is a stereoscopic view and a structural exploded view of the base in each embodiment, Figure 5 is a stereoscopic view of the connecting member in the embodiment.

As shown in Figs. 1 to 5, the stand type air conditioner of the embodiment includes a base 1 and an air conditioner body 2, which are generally cylindrical in shape, and the base 1 and the air conditioner body 2 are detachable. Assembled in a manner. However, it is not limited to the columnar structure and may be another structure. For example, the air conditioner body 2 and the base 1 may both have a rectangular structure or the like. In the stand type air conditioner, the base 1 is installed on the ground as an entire bottom sheet of the air conditioner body 2 to raise the air conditioner body 2 to a constant height. The air conditioner body 2 is an existing air conditioner that implements basic functions such as air conditioner cooling, heating, dehumidification, and the structure, work principle, and process thereof may be referred to the related art, and thus will not be described in detail herein.

The air conditioner base 1 includes a base body 11, the base body 11 has an assembly part 1121, and the base 1 can be separated from the air conditioner body 2 using the assembly part 1121. Assemble to Thus, the base 1 is basically a structure independent of the air conditioner body 2. A body air inlet 1141 and a body air outlet 1151 are formed in the base body 11, a cavity is formed inside the base body 11, and a blower 122 and an air treatment module 13 are formed in the cavity. do. The air treatment module 13 at the point refers to a module that implements additional functions such as humidification, purification, and cleaning for air, unlike the basic processing function modules such as heating, cooling, and dehumidification of air, which are conventional air conditioners.

Since the base air 11 has a body air inlet 1141 and a body air outlet 1151, and a blower 122 and an air treatment module 13 are formed inside the base body 11, the base 1 is formed. It forms one independent blowing system. Through a reasonable structural design, the blower 122 allows the outside air to be sucked into the base body 11 through the body air inlet 1141 during operation, and after the air treatment module 13 is processed, the body air outlet ( By making it discharge from 1151, the air treatment using the air treatment module 13 was implemented. For example, if the air treatment module 13 is a humidification module, a humidification process for air in the environment is performed; If the air treatment module 13 is a purification module, the purification process for the air in the environment is performed; If the air treatment module 13 is a direction and odor removal module, the direction and odor removal process for air in the environment is performed. In addition, since the base (1) and the air conditioner body (2) can be independently controlled because they are basically independent, it is possible to independently operate the additional air treatment function and the existing air conditioner basic functions; Since the base 1 does not depend on the existing space and air duct structure of the air conditioner body 2, it does not affect the existing air conditioning performance of the air conditioner, and the multi-air control without applying a special design to the air conditioner air duct structure Simplified structure and design to implement the function.

In detail, as shown in FIGS. 3 and 4, the base body 11 includes a bottom sheet 111, a base main body 112, a base support 113, a rear housing 114, and a front housing 115. Include. The bottom sheet 111 is a bottom plate structure of the entire base 1 and is connected to the base main body 112 in a detachable manner. For example, it can be connected in a detachable manner via screws, buckles and the like. In the base main body 112, an assembly portion 1121 of the entire base 1 is formed at the top end facing the bottom sheet 111, so that the assembly portion 1121 is formed at the top of the entire base 1. Located. A cavity is formed inside the base main body 112 and is used to receive a structure such as a blower 122 and an air treatment module 13 to be assembled. This approach can reduce the support strength of the base main body 112. In order to improve the support strength and the support firmness of the entire base 1, the base support portion (between the bottom sheet 111 and the base main body 112, in detail between the bottom sheet 111 and the assembly portion 1121). 113). An outer housing surrounding the base main body 112 is formed on an outer circumferential surface of the base main body 112. In detail, the outer housing surrounding the base main body 112 includes a rear housing 114 and a front housing 115, and the front housing 115 is divided into two parts, left and right. The rear housing 114 and the front housing 115 are fixedly connected to the bottom sheet 111, the base main body 112, and the base support 113 by a buckle, a screw, and the like. A body air inlet 1141 is formed in the rear housing 114 to be used for introducing external air; A body air outlet 1151 is formed in the front housing 115 and used to exhaust the treated air via the air treatment module 13.

An air exhaust assembly 12 is formed in a cavity formed in the base main body 112, and the air exhaust assembly 12 includes an air exhaust frame 121, and the blower 122 includes an air exhaust frame 121. Is formed within. Specifically, the air exhaust assembly 12 and the base main body 112 are secured through buckles, screws, or the like; The blower 122 is fixed in the air discharge frame 121 with a centrifugal blower. Openings are provided at both ends of the air discharge frame 121, and one end faces the bottom sheet 111 and the other end faces the assembly portion 1121. One end from the air exhaust frame 121 toward the bottom sheet 111 forms an air exhaust frame air inlet 1211 and communicates with the body air inlet 1141 of the base body 11; One end of the air discharge frame 121 toward the assembly portion 1121 forms an air discharge frame second air outlet 1213. In the air exhaust frame 121, an air exhaust frame first air outlet 1212 is formed between the air exhaust frame air inlet 1211 and the air exhaust frame second air outlet 1213. The air exhaust frame first air outlet 1212 and the body air outlet 1131 of the base body 11 communicate with each other. Preferably, the air discharge frame first air outlet 1212 is formed on the side of the air discharge frame 121 in a structure in which the air discharge angle is greater than 180 ° to increase the range of air discharge. In the above embodiment, the air discharge frame first air outlet 1212 may include a three air outlets distributed on the side of the air discharge frame 121 at intervals to form a blowing angle of about 270 °. An air treatment module 13 is also formed in the air exhaust frame 121, in detail, the air treatment module 13 is formed between the air exhaust frame air inlet 1211 and the air exhaust frame first air outlet 1212. . Preferably, the air treatment module 13 is formed in the air discharge frame 121 in a draw-out structure, which is convenient after sale and when the user wants to replace the air treatment module of the same type, and different air treatment according to demand. It is easy to use when you want to install an air treatment module that implements the function, to meet your customized needs.

In the cavity formed by the base main body 112, an electrical appliance box 14 is formed below the air exhaust assembly 12. The electrical appliance box 14 may be arranged a control panel of the base 1, the control panel of the air conditioner body 2 assembled with the base 1 may be arranged, preferably the base 1 and the air conditioner body All control panels in (2) can be arranged in the electric appliance box 14. In addition, the electric appliance box 14 is disposed away from the body air inlet 1141 of the base body 11 so that the air is placed between the electric appliance box 14, the body air inlet 1141 and the air treatment module 13. By forming the entry cavity 15, it is ensured that the base 1 can smoothly enter and exit air.

In the assembly portion 1121, an assembly portion air outlet (not shown in the figure), a lead wire opening 11211, and a connector pipe opening 1112 are formed thereon. Here, the assembly air outlet and the air exhaust frame second air outlet 1213 of the air exhaust assembly 12 communicate. In addition, after the air conditioner body 2 is assembled with the base 1 through the assembly part 1121, the air conditioner body 2 forms an engagement part air outlet 4 between the assembly part 1121, and The engagement air outlet 4 and the assembly air outlet communicate. Therefore, the air processed through the air treatment module 13 is discharged from the air discharge frame first air outlet 1212 and the body air outlet 1151, and the air discharge frame second air outlet 1213 and the assembly air. It can also be discharged through the outlet and the combination air outlet 4 and from the top of the base 1, the bottom of the air conditioner body 1, so that all-round blowing at various angles and at various heights can be achieved. By making this possible, the range and manner of the air outlet of stand-type air conditioners have been increased. The conductive wire opening 11211 provides a passage of each conductive wire electrically connected to the electrical appliance box 14, so that the conductive wire connecting the conductive member of the air conditioner body 2 to the electrical appliance box 14 is connected to the electrical conductive box 14. Through it can be made to extend from the base body 11 to enter into the air conditioner body (2). The connector opening 1112 is a passage connecting the connector of the air conditioner body 2 and the air conditioner outdoor unit.

Stand type air conditioner composed of the base (1) and air conditioner body (2) adopting the above structure has a reasonable structure, large air discharge range, and various air discharge methods. It is convenient to

In addition, the air outlet grille 5 is formed at the coupling part air outlet 4 to arrange the blowing direction. At the joint air outlet 4, an air discharge cover plate 6 is provided outside the air outlet grill 5 to be used to open and close the joint air outlet 4 and to discharge air from the joint air outlet 4. To control. For example, the air outlet cover plate 6 is formed at the point of the joint air outlet 4 in a buckle type connection structure with the base 1 or / and the air conditioner body 2, and the user manually sets the air outlet cover plate. (6) can be assembled and detached. If you want to release the air from the coupling air outlet (4), remove the air vent cover plate (6) and open the coupling air outlet (4), after the electrical work in the blower 122 of the base (1) air processing module Air treated via (13) is discharged from the coupling part air outlet (4). If the air outlet cover plate 6 is assembled to the coupler air outlet 4, the air outlet of the air outlet is closed, and the air is discharged from the coupler air outlet 4 even though electrical work is performed in the blower 122. Since it is not discharged, the possibility of operating the air discharge range and method is high. In a preferred embodiment, both the air outlet grille 5 and the air outlet cover plate 6 are annular, so that annular air outlets can be achieved and the air outlet angle is large and the air outlet range is wide.

In order to conveniently assemble the base 1 and the air conditioner body 2, both assembly strengths are increased, the air conditioner body 2 being assembled in a detachable manner from the base 1 via the connecting member 3. In detail, the outer structure of the connecting member 3 and the base 1 and the air conditioner body 2 are similar discs or square plates, and when assembling, the connecting member 3 is connected to the base 1 through the connecting member fixing plate 33. After fixing to the assembly portion 1121 of the), to fix the air conditioner body (2) and the connecting member (3). When the air conditioner body 2 and the base 1 are connected and fixed through the connecting member 3, a coupling part air outlet 4 is formed between the assembly part 1121 and the connecting member 3. In addition, a conductive wire opening 31 corresponding to the conductive wire opening 1121 of the assembling unit 1121 and a connector opening corresponding to the connecting tube opening 1112 of the assembling unit 1121 may be formed on the bottom surface of the connecting member 3. 32). Further, the wire opening 31 and the connection and the opening 32 points are all provided in a sealed structure to prevent the air of the coupling part air outlet 4 from leaking at the connection member 3 point.

The above embodiments are intended to explain the technical solutions of the present invention and do not limit the claims of the present invention. Since the above embodiments are only detailed descriptions of the present invention, those skilled in the art to which the present invention pertains may modify or partially describe the technical solutions described in the above embodiments based on the basic spirit and scope of the technical solutions to be protected in the present invention. When features are substituted at equivalent levels, they all fall within the protection scope of the present invention.

Claims (15)

The air conditioner selectively discharges the first treatment air from the upper middle portion and / or the second treatment air from the lower middle portion;
The first treated air is heat exchanged air processed through a heat exchanger, and the second treated air is air treated in an air treatment module other than the heat exchanger;
The air conditioner includes an air conditioner body, and further includes a base for assembling in a detachable manner with the air conditioner body, wherein the base includes a base body, the base body has an assembly portion, and the assembly portion causes the base and the The air conditioner body is detachably assembled, the base body is formed with a body air inlet and a body air outlet, a cavity is formed inside the base body, and a blower and an air treatment module are formed in the cavity; The air conditioner selectively exhausts the first treated air from the air conditioner body and / or the second treated air from the body air outlet;
The base body includes a base main body, and an outer housing surrounding the base main body is formed on an outer circumferential surface of the base main body, and both the body air inlet and the body air outlet are formed in the outer housing;
An air exhaust assembly is formed in the cavity, the air exhaust assembly includes an air exhaust frame, the blower is formed in the air exhaust frame, the air exhaust frame includes an air exhaust frame air outlet and an air exhaust frame first air An outlet is formed, the air exhaust frame first air outlet is located between the air exhaust frame air inlet and the assembly, the air exhaust frame air inlet and the body air inlet are in communication, and the air exhaust frame first air An outlet and the body air outlet are in communication;
And the air discharge frame has a structure in which an air discharge angle is greater than 180 °, and is formed on a side surface of the air discharge frame. The method of claim 1,
The air treatment module is formed in the air exhaust frame between the air exhaust frame air inlet and the air exhaust frame first air outlet;
The air treatment module is an air conditioner blowing method, characterized in that formed in the air discharge frame in the draw-out structure. The method of claim 1,
An assembling unit air outlet is formed in the assembling unit, an air outlet frame is formed between the air outlet frame first air outlet and the assembling unit air outlet, and a second air outlet is formed in the air outlet frame; A second air outlet is in communication with the assembly part air outlet, a coupling part air outlet is formed between the air conditioner body and the assembly part, and the coupling part air outlet is in communication with the assembly part air outlet; And the air conditioner selectively discharges the second processing air from the air outlet of the coupling part. The method of claim 3, wherein
An air outlet cover plate is formed at the coupling part air outlet to open and close the coupling part air outlet;
An air outlet grille is formed inside the air outlet cover plate at the coupling part air outlet;
And the air outlet grill and the air outlet cover plate are all annular. The method of claim 3, wherein
The air conditioner body is assembled to be separated from the base via a connecting member, the air conditioner blowing method, characterized in that the coupling part air outlet is formed between the assembly and the connecting member. The method of claim 1,
An electrical appliance box is further formed in the cavity, a conductive wire opening and a connection pipe opening are formed in the assembly unit, and the conductive wire connected to the electrical appliance box extends through the conductive wire opening to the base body, and the air conditioning body The connector of the air conditioner blowing method, characterized in that extending to the base through the connector opening. The method of claim 6,
And wherein the electric appliance box is located far from the body air inlet and surrounds the electric appliance box, the body air inlet, and the air treatment module to form an air inlet cavity. The method of claim 1,
The base body includes a bottom sheet and the base main body connected in a detachable manner, wherein the assembly portion is formed at the base main body, at another end facing the bottom sheet, and between the bottom sheet and the assembly portion. Air conditioner blowing method characterized in that the base support is formed. delete delete delete delete delete delete delete

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