RU192544U1 - AIR CONDITIONING FANS BLOCK - Google Patents

Abstract

A fan / fan unit of an air conditioning unit is described, the impeller of which / which, equipped with blades, is mounted inside a spiral box on a separate shaft. A separate impeller shaft with blades is rotatably mounted near both extreme front parts of the fan spiral box in a console fixed with a possibility of detachment to the front part of the spiral box, or a separate impeller shaft with blades is rotary mounted in a console which is removably and figuratively fixed to the first side wall air conditioning installation and to the second side wall of the air conditioning installation.

Description

Technical field

The technical solution relates to a fan unit of an air conditioner unit providing a comfortable climate. The subject of a technical solution is also a fan drive unit. The fans used are radial type fans, and they can be installed for the construction of air-conditioning units in vertical and horizontal versions, that is, for ceiling, under-ceiling or floor installation, as well as for vertical installation, that is, for floor or wall installation.

State of the art

Currently, air conditioning units are made in most cases in the version with radial fans with vanes bent forward, namely in compact design or in tandem design. In the case of compact execution of fans of air-conditioning units, the electric motor is built into the impeller inside the spiral fan box. In the case of tandem execution of fans of air conditioning units, the electric motor is placed outside the spiral fan box, but inside the air conditioning unit. The electric motor is mounted on a separate holder past the spiral box and a separate holder is usually fixed to the fan mounting plate.

From the point of view of the acoustic parameters of the air conditioning system, an unfavorable factor is the placement of the electric motor in air current, that is, in the impeller inside the spiral fan box. The noise of the electric motor is spread by running air towards the outer space of the air conditioning system and, in addition, at higher speeds of the flowing air, the aerodynamic properties of the fan are affected due to the obstruction in the form of the external circuit of the electric motor. If more fans are used, these effects are loaded. A larger number of electric motors means in most cases their movement in areas with lower efficiency, which leads to higher operating costs, and at the same time acquisition costs.

The tandem execution of the electric motor, in addition to the above-mentioned inconveniences of compact design, has other disadvantages associated with the difficult optimization of the distance between the spiral fan boxes with the limited size of the electric motors.

The essence of the technical solution

The present technical solution is aimed at overcoming the above-mentioned disadvantages of the known fan units of the air-conditioning installation and ensures the achievement of the technical result associated with the separation of the fan motor from the spiral coils and individual impellers with blades, so that the electric motor is placed outside the internal space of the air-conditioning installation. The motor is fixed on the outside on the first side wall of the air conditioning system or on the second side wall of the air conditioning system.

To do this, in the proposed block of fans of the air conditioning installation, the impeller of each of which, equipped with blades, is mounted inside a spiral box on a separate shaft, a separate shaft of each impeller with blades is mounted rotatably near both extreme front parts of the fan spiral box in a console, which is detachably fixed to the front of the spiral box and / or, for each extreme fan, portable and portable mounted to the first side wall of the air conditioning system Whether the second side wall of the conditioning unit.

The electric motor may be an electronically controlled direct current electric motor or an alternating current electric motor. The fan impeller is mounted on a separate shaft, which is mounted rotatably at both front parts of the fan spiral box in a console fixed to the front part of the spiral box in a collapsible and portable way.

According to the alternative installation of a separate shaft, a separate impeller shaft with blades is mounted rotary in the console, mounted in a collapsible and portable way to the first side wall and to the second side wall of the air conditioning system. This is the case when the air conditioning unit is equipped with one fan. In the case of using two or more fans in an air-conditioning installation, it is possible to realize this indicated principle of installing a separate impeller shaft only rotationally at the extreme fans placed near the first side wall or nearby the second side wall of the air-conditioning installation.

The first side wall and the second side wall of the air conditioning installation are connected by means of a flat part with the ability to disconnect from each other. Then the first side wall, the second side wall and the flat compact part form the chassis of the air conditioning unit. The console preferably consists of three levers connected in the middle part, in which the hole on one side is adapted for a separate fan impeller shaft and on the other hand the hole is adapted for a bearing of a separate fan impeller shaft.

The output shaft of the electric motor is connected to a separate fan impeller shaft by means of a flexible connector. Then, the electric motor is fixed on the outside of the first side wall or on the outside of the second side wall of the air conditioning unit. And also a separate fan impeller shaft is connected via a flexible connector to a separate impeller shaft of an adjacent fan.

The indicated principle of constructive design of fans and electric motors in air-conditioning units brings several significant advantages in comparison with modern design. From the point of view of technical parameters, it is possible to use a large number of spiral coils of large widths and, therefore, it is better to optimize the acoustic parameters and performance parameters of the air conditioning system. The performance parameters of an air-conditioning installation, that is, heating capacity or cooling capacity, are increased in the case of using more spiral coils or their wider spiral coils due to more optimal blowing of the heat exchanger. Another advantage is the simpler optimization of the efficiency of air conditioning systems for a variety of applications, where you can use a variety of wire blocks for the desired operating range of the air conditioning system using the same spiral coils with the same impellers.

From the point of view of acoustic parameters, a lower level of acoustic performance is considered an advantage, namely in areas of large air quantities and lower static pressures caused by external load. In the case of a separate electric motor, the intrinsic noise does not apply to the intake and the air outlet from the air conditioning system.

From the point of view of servicing air conditioning systems, we are talking about the smaller sizes and weights of individual elements and parts, about easier access to the electric motor, about its cleaning and maintenance, and also about faster exchange of the electric motor. From the point of view of logistics, we are also talking about a smaller number of parts of an air-conditioning installation, their easier transportation, storage and handling, which at the same time brings lower costs.

Brief Description of the Drawings

Examples of the location of an air-conditioning installation equipped with fans according to the technical solution together with an electric motor are shown in exemplary embodiments and schematically in the drawings, where

figure 1 shows a spatial view of the internal arrangement of the fan of the air conditioning system,

figure 2 shows an open spatial view of the internal space of the air conditioning system from its rear side, equipped with three fans and an electric motor placed outside the internal space of the air conditioning installation, and

figure 3 shows an open spatial view of the internal space of the air conditioning system from its front side, equipped with three fans, individual shafts of which are connected to each other through flexible connectors.

Examples of the technical solution

The radial fan 2 (figure 1) of the new design consists, in the same way as in the existing version of the spiral box 10 and the impeller 5 with blades. The difference lies in the location of the impeller 5 on a separate shaft 7, mounted in a pair of consoles 6 rotatably mounted in a portable and portable way on both front parts of the spiral box 10. The console 6 consists of three levers 13, which are in contact in the middle part, in which the hole for the individual shaft 7 of the impeller 5 of fan 2 and also a hole for mounting a bearing of a separate shaft 7 of the impeller 5 of fan 2 is adapted. You can use sliding bearings or rolling bearings shaft 7. In an alternative design, the console 6 can be placed either on all or on selected parts of the spiral box 10.

The transmission of torque to a separate shaft 7 of the fan 2 or to a separate shaft 7 of the individual fans 2 is realized by an electric motor 9 mounted on the outside of the second side wall 4 of the air conditioning unit 1 (Fig. 2). The output shaft of the electric motor 9 is connected to a separate shaft 7 of the impeller 5 of the fan 2 by means of a flexible connector 8. In figure 2, the air conditioning unit is equipped with three fans 2. In an alternative embodiment of the air conditioning system 1, the electric motor 9 can be installed on the outside of the first side wall 3 of the air conditioning installation 1 and its output shaft is again connected through a flexible connector 8 with a separate shaft 7 of the fan 2. In this way, it is achieved that the air current coming out from the fans 2 of the air conditioning unit 1 in the direction of the first arrow 14 upwards, is in no way limited and is not affected, as in the case of placing the engine in the interior of the impeller 5 of the fan 2.

In Fig. 2, individual shafts 7 of adjacent individual fans 2 are connected to each other by means of flexible connectors 8. This embodiment allows optimizing the number of fans 2 in the air conditioning unit 1 by selecting and adjusting the distances between the individual spiral boxes 10 of the fans 2.

In an alternative version of air conditioning units 1 separate shaft 7 of the impeller 5 of air conditioning units 1, equipped with one fan 2, is mounted rotatably in the console 6 in a collapsible and portable way, where the console is fixed to the first side wall 3 of the air conditioning unit 1 and to the second side wall 4 of the air conditioning installation 1. In the case of equipping the air conditioning installation 1 with two fans 2, the installation of their individual shafts 7 can be rotated at the first side wall 3 and also at the second side wall 4 of the air conditioning installation 1 and in consoles 6, mounted in a collapsible and portable way to the first side wall 3 of the air conditioning unit 1, as well as to the second side wall 4 of the air conditioning installation 1. The consoles 6 are equipped with an opening for a separate shaft 7 of the fan 2 and an opening for the bearing. Obviously, the first side wall 3 or the second side wall 4 of the air conditioning unit 1 is passable for a separate shaft 7 of the impeller 5 of fan 2. This design allows you to optimize the number of fans 2 in the air conditioning unit 1 by selecting and adjusting the individual distances between the spiral box 10 of fan 2 and the first side wall 3 or the second side wall 4 of the air conditioning unit 1.

The first side wall 3 and the second side wall 4 are connected to each other in a portable and portable way by means of a flat compact part 11, the first side wall 3, the second side wall 4 and the flat compact part 11 form the actual chassis 12 of the air conditioning unit 1 (Fig. 2) . Air enters the air conditioning unit 1 through the air intake filter 16 and is discharged through mounting holes formed in the spiral boxes 10 in the direction of the first three arrows 14. The spiral boxes 10 of the fans 2 are fixed in a portable and portable way to the flat compact part 11 of the chassis 12 of the air conditioning installation 1. An electrical equipment cabinet is attached to the second side wall 4.

As the electric motor 9, a direct current electric motor with electronics, the rotor of which is formed of permanent magnets, is mainly used. Electrical control of the motor allows smooth operation of the air conditioning unit 1. The temperature deviations that occur during operation can be controlled by adjusting the speed of fan 2 or fans 2 and due to the smooth change in the speed of fan 2, no sudden changes in the speed of fan 2 can be heard, which contributes to acoustic comfort and fan 2 runs continuously between the minimum and maximum amount of air. Together with the choice of a convenient electric motor 9, the specified design of the air conditioning system 1 brings advanced optimization options for all its parameters.

Figure 3 is an open view of the interior space of the air conditioning system from its front side, equipped with three fans 2, individual shafts 7 of which are connected to each other via flexible connectors 8. The individual shafts 7 are mounted rotary in consoles 6. Air is drawn into the air conditioning units 1 in the direction the second arrow 15 through the air intake filter 16 and leaves the air conditioning unit 1 through the impellers 5 of the fans 2 in the direction of the first arrow 14 after passing through the heat exchanger 18 and the plate system 19.

List of Reference Items

1 - air conditioning installation

2 - fan

3 - the first side wall

4 - second side wall

5 - impeller (with blades)

6 - console

7 - separate shaft

8 - flexible connector

9 - electric motor

10 - spiral box

11 - flat compact part

12 - chassis (air conditioning installation)

13 - shoulder

14 - first arrow

15 - second arrow

16 - air inlet filter

17 - cabinet (electrical equipment)

18 - heat exchanger

19 is a plate.

Claims (6)

1. The fan unit of the air conditioning unit (1), in which each fan (2) contains an impeller (5) with blades, mounted inside a spiral box (10) on a separate shaft (7), characterized in that a separate shaft (7) of each the impeller (5) with blades is mounted rotary on both extreme parts of the spiral box (10) of the fan (2) in consoles (6), mounted with the possibility of detachment on the spiral box (10), with separate shafts (7) for each extreme fans (2) are rotary mounted in consoles (6), collapsible and portable fixed on the first side wall (3) of the air conditioning system (1) and on the second side wall (4) of the air conditioning installation (1). 2. The fan assembly of the air conditioning unit (1) according to claim 1, characterized in that the first side wall (3) and the second side wall (4) are connected to each other in a portable and portable way by means of a flat part (11), the first side wall (3), the second side wall (4) and the flat part (11) form the chassis (12) of the air conditioning unit (1). 3. The fan assembly of the air conditioning system (1) according to claim 1, characterized in that the output shaft of the electric motor (9) is connected to a separate shaft (7) of the fan impeller (5) of the fan (2) by means of a flexible connector (8), which is fixed to the outer side of the first side wall (3) or the second side wall (4) of the air conditioning unit (1). 4. The fan assembly of the air conditioning unit (1) according to claim 1, characterized in that the separate shaft (7) of the impeller (5) of one fan (2) is connected via a flexible connector (8) to a separate shaft (7) of the impeller (5) ) adjacent fan (2). 5. The fan assembly of the air conditioning unit (1) according to claim 1, characterized in that the console (6) is formed by three levers (13) in contact in the middle part, in which, firstly, an opening for a separate shaft (7) of the working wheels (5) of the fan (2) and, secondly, a hole for the bearing of a separate shaft (7) of the impeller (5) of the fan (2) is fitted. 6. The fan unit of the air conditioning unit (1) according to claim 3, characterized in that the electric motor (9) is an electronically controlled direct current electric motor (EC) or an alternating current electric motor (AC).

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