CN109654711B

CN109654711B - Planet wheel type air outlet air adjusting device and air adjusting method

Info

Publication number: CN109654711B
Application number: CN201811337971.XA
Authority: CN
Inventors: 陈东海
Original assignee: Wucheng County Guanzhi Information Industry Technology Co ltd
Current assignee: Sheyang County coastal Investment Co.,Ltd.
Priority date: 2018-11-12
Filing date: 2018-11-12
Publication date: 2020-09-15
Anticipated expiration: 2038-11-12
Also published as: CN109654711A

Abstract

The invention relates to the field of central air conditioners, in particular to a planetary wheel type air outlet air conditioning device and an air conditioning method. The planet wheel type air outlet air adjusting device comprises a first flow guide pipe, a flow guide cover, a second flow guide pipe, a fixed rod, an outer gear ring, a planet gear, a sun gear, a connecting rod, a driving device, a through hole, a flow guide plate and a flow guide sheet. The outer gear ring is arranged above the air guide sleeve, the connecting rod is of a cylindrical structure, the lower end face of the connecting rod is vertically connected with the upper end face of the sun gear, and the upper end face of the connecting rod is connected with the driving device. The invention can adjust the wind direction and the wind speed of the supplied wind according to the requirement, simultaneously sets six working states to control the wind speed of the guided airflow and the flow direction of the airflow, and enables partial airflow to flow out in a curve state by switching the rotation direction of the guide vanes.

Description

Planet wheel type air outlet air adjusting device and air adjusting method

Technical Field

The invention relates to the field of central air conditioners, in particular to a planetary wheel type air outlet air conditioning device and an air conditioning method.

Background

The air outlet device of the central air conditioner is a terminal device for air supply in the central air conditioning system, and is an air distribution device. The air supply outlet supplies the air cooled or heated to the room, thereby ensuring the effect of indoor refrigeration or heating.

The traditional air outlet device only leads out the cooled or heated air flow directly through the latticed air outlet, and the air outlet can not synchronously carry out controllable adjustment on the ventilation range and the air speed according to different requirements.

Therefore, how to synchronously and controllably adjust the air outlet range and the air speed of the air outlet according to different environments and requirements is a problem which is urgently needed to be solved.

Disclosure of Invention

Therefore, the present invention has been made in view of the above problems, and an object of the present invention is to provide a planetary outlet air-conditioning apparatus and an air-conditioning method for controllably adjusting the ventilation direction and the wind speed. The invention achieves the above purpose through the following technical scheme.

The invention provides a planetary wheel type air outlet air adjusting device which comprises a flow guide pipe I, a flow guide cover, a flow guide pipe II, a fixed rod, an outer gear ring, a planetary gear, a sun gear, a connecting rod, a driving device, a through hole, a flow guide plate and a flow guide sheet, wherein the flow guide cover is arranged on the outer gear ring;

the first flow guide pipe is of a cylindrical structure, and one end of the first flow guide pipe extends into the flow guide cover and is communicated with the flow guide cover;

the air guide sleeve is of a cylindrical structure with the upper part closed and the lower part opened, and the lower end face of the air guide sleeve is communicated with the upper part of the second air guide pipe;

the outer gear ring is arranged above the air guide sleeve;

the outer gear ring is meshed with the planet gear;

the planet gear is meshed with the sun gear;

the connecting rod is of a cylindrical structure, the lower end face of the connecting rod is vertically connected with the upper end face of the sun gear, and the upper end face of the connecting rod is connected with the driving device;

the central axis of the sun gear, the central axis of the connecting rod, the central axis of the air guide sleeve and the central axis of the second flow guide pipe are all on the same straight line;

one end of the fixed rod is fixed at the central axis of the planetary gear, and the other end of the fixed rod penetrates through the through hole to be vertically connected with the middle position of the upper end face of the flow guide plate;

the guide plate is of a cylindrical structure, a plurality of through holes are formed in the guide plate in the vertical direction, and the upper end face of the guide plate is connected with the lower end face of the second flow guide pipe;

the flow deflectors are of arc-shaped plate-shaped structures, the number of the flow deflectors is multiple, and the flow deflectors are close to each other to form a cylindrical structure;

two side surfaces of the flow deflector are of arc structures;

the lower end surface of the flow deflector is close to the upper end surface of the flow deflector;

the upper end surface of the flow deflector is close to the lower end surface of the upper part of the second draft tube.

In one embodiment, the through holes of the guide plate arranged in the vertical direction are arranged at an acute angle with the central axis of the guide plate.

In one embodiment, the through holes of the deflector arranged in the vertical direction are trumpet-shaped.

In one embodiment, the through holes of the guide plate arranged in the vertical direction are arranged in a curve with the highest speed.

In one embodiment, the baffle is provided with a protrusion or a groove at the through hole arranged in the vertical direction.

The invention also provides a method for adjusting the air at the planetary wheel type air outlet, which adopts the planetary wheel type air outlet air adjusting device shown in the figures 1-3 and comprises the following steps:

the first working state: when the guide vanes are close to each other to form a cylindrical structure, air supply of the air conditioner is introduced into the guide cover through the first guide pipe, and then the guide vanes are close to each other to form a cylindrical structure to guide air flow to the through holes arranged in the vertical direction of the guide vanes to flow out.

The second working state: the driving device is started, the sun gear is driven to rotate clockwise by less than 90 degrees through the connecting rod, the planet gear rotates anticlockwise by less than 90 degrees, the driving device stops running, air supply of the air conditioner is led into the air guide sleeve through the first guide pipe, air flow is guided to flow out of the through holes formed in the vertical direction of the guide plate through the second guide pipe and the plurality of guide vanes, and partial air flow passing through the guide vanes is rotated clockwise at the moment.

The third working state: the driving device is started, the sun gear is driven to rotate clockwise through the connecting rod again and is smaller than 90 degrees, the planet gear rotates anticlockwise and is smaller than 90 degrees, the driving device stops running, air supply of the air conditioner is led into the air guide sleeve through the first guide pipe, air flow is guided to flow out of the through holes formed in the vertical direction of the guide plates through the second guide pipe and the plurality of guide vanes, and partial air flow passing through the guide vanes is rotated anticlockwise at the moment.

The fourth working state: the driving device starts, drives sun gear clockwise rotation through the connecting rod for the third time and is less than 90 degrees, planetary gear anticlockwise rotation is less than 90 degrees, driving device stop motion, the air conditioner air supply is introduced into the kuppe through honeycomb duct one, the through-hole that rethread honeycomb duct two and a plurality of water conservancy diversion piece guide air current set up to the guide plate vertical direction flows, the part air current that passes through the guide piece this moment is clockwise rotation.

The fifth working state: the driving device is started, the sun gear is driven to rotate clockwise less than 90 degrees through the connecting rod for the fourth time, the planet gear rotates anticlockwise less than 90 degrees, the driving device stops running, air supply of the air conditioner is led into the air guide sleeve through the first guide pipe, air flow is guided to flow out of the through holes formed in the vertical direction of the guide plates through the second guide pipe and the plurality of guide vanes, and partial air flow passing through the guide vanes rotates anticlockwise at the moment.

The sixth working state: the first working state, the second working state, the third working state, the fourth working state and the fifth working state are carried out in a circulating mode sequentially.

The second working state, the third working state, the fourth working state, the fifth working state and the sixth working state all adjust the flow and the speed of the airflow inside the cylindrical structure formed by the plurality of guide vanes being close to each other, so that part of the airflow is guided to the area between the second guide pipe and the plurality of guide vanes through the plurality of guide vanes, and the flow and the speed of the airflow inside the area between the second guide pipe and the plurality of guide vanes are adjusted.

The invention has the following beneficial effects:

1. simple structure, small occupied volume and convenient use and maintenance.

2. The wind direction and the wind speed of the supplied wind can be adjusted according to the requirements, and six working states are set to control the wind speed of the led-out airflow and the flow direction of the airflow.

3. And part of the air flow flows out in a curve state by switching the rotation direction of the guide vanes.

Drawings

Fig. 1 is an overall structural view of the present invention.

Fig. 2 is a partial structural view one of the present invention.

Fig. 3 is a second view of a portion of the structure of the present invention.

Detailed Description

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those embodiments can be easily implemented by those having ordinary skill in the art to which the present invention pertains. However, the present invention may be embodied in many different forms and is not limited to the embodiments described below. In addition, in order to more clearly describe the present invention, components not connected to the present invention will be omitted from the drawings.

As shown in fig. 1, 2 and 3, a planetary wheel type air outlet air adjusting device comprises a first flow guide pipe 1, a flow guide cover 2, a second flow guide pipe 3, a fixed rod 4, an outer gear ring 5, a planetary gear 6, a sun gear 7, a connecting rod 8, a driving device 9, a through hole 10, a flow guide plate 11 and a flow guide sheet 12;

the first flow guide pipe 1 is of a cylindrical structure, and one end of the first flow guide pipe extends into the flow guide cover 2 and is communicated with the flow guide cover 2;

the air guide sleeve 2 is of a cylindrical structure with the upper part closed and the lower part opened, and the lower end face of the air guide sleeve is communicated with the upper part of the second flow guide pipe 3;

the outer gear ring 5 is arranged above the air guide sleeve 2;

the outer gear ring 5 is meshed with the planet gear 6;

the planet gear 6 is meshed with the sun gear 7;

the connecting rod 8 is of a cylindrical structure, the lower end face of the connecting rod is vertically connected with the upper end face of the sun gear 7, and the upper end face of the connecting rod is connected with the driving device 9;

the central axis of the sun gear 7, the central axis of the connecting rod 8, the central axis of the air guide sleeve 2 and the central axis of the second flow guide pipe 3 are all on the same straight line;

one end of the fixed rod 4 is fixed at the central axis of the planetary gear 6, and the other end of the fixed rod passes through the through hole 10 and is vertically connected with the middle position of the upper end surface of the flow deflector 12;

the guide plate 11 is of a cylindrical structure, a plurality of through holes are formed in the guide plate in the vertical direction, and the upper end face of the guide plate is connected with the lower end face of the second flow guide pipe 3;

the flow deflectors 12 are arc-shaped plate-shaped structures, the number of the flow deflectors is multiple, and the flow deflectors 12 are close to each other to form a cylindrical structure;

two side surfaces of the flow deflector 12 are arc-shaped structures;

the lower end surface of the flow deflector 12 is close to the upper end surface of the flow deflector 11;

the upper end surface of the flow deflector 12 is close to the lower end surface of the upper part of the second draft tube 3.

Preferably, as an implementation mode, the through holes of the air deflector 11 arranged in the vertical direction and the central axis of the air deflector 11 are arranged in an acute angle, so that the air supply area is increased, and the mixing effect of air supply and air of the air conditioner is improved.

Preferably, as an implementation mode, the through holes of the deflector 11 arranged in the vertical direction are in a trumpet shape, and the arrangement increases the air supply area and improves the mixing effect of the air supply and the air of the air conditioner.

Preferably, as an implementation mode, the through hole of the deflector 11 arranged in the vertical direction is curved and arranged in the fastest speed curve, and the arrangement enables the air-conditioning air supply to flow out through the through hole 7 at the fastest speed, and the flowing air direction is spiral, so that the air supply area is increased, and the mixing effect of the air-conditioning air supply and the air is improved.

Preferably, as an implementation mode, the through hole of the air deflector 11 arranged in the vertical direction is provided with a protrusion or a groove, and the arrangement enables air supply of the air conditioner to pass through the through hole of the air deflector 11 arranged in the vertical direction to generate turbulent flow, so that the air supply area is increased, and the mixing effect of the air supply of the air conditioner and air is improved.

the first working state: when the guide vanes 12 are close to each other to form a cylindrical structure, air supplied by the air conditioner is introduced into the guide cover 2 through the guide pipe I1, and then the guide vanes 12 are close to each other to form a cylindrical structure, so that air flow is guided to the through holes arranged in the vertical direction of the guide vanes 11 to flow out.

The second working state: the driving device 9 is started, the sun gear 7 is driven to rotate clockwise by the connecting rod 8 and is smaller than 90 degrees, the planet gear 6 rotates anticlockwise by less than 90 degrees, the driving device 9 stops running, air supply of the air conditioner is introduced into the air guide sleeve 2 through the first guide pipe 1, the air flow is guided to flow out of the through hole formed in the vertical direction of the guide plate 11 through the second guide pipe 3 and the guide plates 12, and partial air flow passing through the guide plates 12 rotates clockwise at the moment.

Third working state: the driving device 9 is started, the connecting rod 8 drives the sun gear 7 to rotate clockwise less than 90 degrees again, the planetary gear 6 rotates anticlockwise less than 90 degrees, the driving device 9 stops running, air supply of the air conditioner is led into the air guide sleeve 2 through the guide pipe I1, the air flow is guided to flow out of the through hole formed in the vertical direction of the guide plate 11 through the guide pipe II 3 and the guide vanes 12, and partial air flow passing through the guide vanes 12 rotates anticlockwise at the moment.

Fourthly, a fourth working state: the driving device 9 starts, the sun gear 7 is driven to rotate clockwise through the connecting rod 8 for the third time and is smaller than 90 degrees, the planet gear 6 rotates anticlockwise and is smaller than 90 degrees, the driving device 9 stops running, air supply of the air conditioner is led into the air guide sleeve 2 through the guide pipe I1, the air flow is guided to flow out of the through hole formed in the vertical direction of the guide plate 11 through the guide pipe II 3 and the guide vanes 12, and at the moment, partial air flow passing through the guide vanes 12 is rotated clockwise.

Fifth working state: the driving device 9 is started, the sun gear 7 is driven to rotate clockwise by the connecting rod 8 for the fourth time and is smaller than 90 degrees, the planet gear 6 rotates anticlockwise and is smaller than 90 degrees, the driving device 9 stops running, air supply of the air conditioner is led into the air guide sleeve 2 through the guide pipe I1, the air flow is guided to flow out of the through hole formed in the vertical direction of the guide plate 11 through the guide pipe II 3 and the guide vanes 12, and at the moment, partial air flow passing through the guide vanes 12 rotates anticlockwise.

Sixthly, working state: the first working state, the second working state, the third working state, the fourth working state and the fifth working state are carried out in a circulating mode sequentially.

And the second working state, the third working state, the fourth working state, the fifth working state and the sixth working state all adjust the flow rate and the speed of the airflow inside the cylindrical structure formed by the plurality of flow deflectors 12 being close to each other, so that part of the airflow is guided to the area between the second flow guide pipe 3 and the plurality of flow deflectors 12 through the plurality of flow deflectors 12, and the flow rate and the speed of the airflow inside the area between the second flow guide pipe 3 and the plurality of flow deflectors 12 are adjusted.

Claims

1. A planet wheel type air outlet air adjusting device comprises a flow guide pipe I (1), a flow guide cover (2), a flow guide pipe II (3), a fixed rod (4), an outer gear ring (5), a planet gear (6), a sun gear (7), a connecting rod (8), a driving device (9), a through hole (10), a flow guide plate (11) and a flow guide sheet (12);

the method is characterized in that: the first flow guide pipe (1) is of a cylindrical structure, and one end of the first flow guide pipe extends into the flow guide cover (2) and is communicated with the flow guide cover (2);

the air guide sleeve (2) is of a cylindrical structure with the upper part closed and the lower part opened, and the lower end face of the air guide sleeve is communicated with the upper part of the second flow guide pipe (3);

the outer gear ring (5) is arranged above the air guide sleeve (2);

the outer gear ring (5) is meshed with the planetary gear (6);

the planetary gear (6) is meshed with the sun gear (7);

the connecting rod (8) is of a cylindrical structure, the lower end face of the connecting rod is vertically connected with the upper end face of the sun gear (7), and the upper end face of the connecting rod is connected with the driving device (9);

the central axis of the sun gear (7) is on the same straight line with the central axis of the connecting rod (8), the central axis of the air guide sleeve (2) and the central axis of the second flow guide pipe (3);

one end of the fixed rod (4) is fixed at the central axis of the planetary gear (6), and the other end of the fixed rod passes through the through hole (10) and is vertically connected with the middle position of the upper end surface of the flow deflector (12);

the guide plate (11) is of a cylindrical structure, a plurality of through holes are formed in the guide plate in the vertical direction, and the upper end face of the guide plate is connected with the lower end face of the second guide pipe (3);

the flow deflectors (12) are arc-shaped plate-shaped structures, the number of the flow deflectors is multiple, and the flow deflectors (12) are close to each other to form a cylindrical structure;

two side surfaces of the flow deflector (12) are arc-shaped structures;

the lower end surface of the flow deflector (12) is close to the upper end surface of the flow deflector (11);

the upper end surface of the flow deflector (12) is close to the lower end surface of the upper part of the second draft tube (3).

2. The planetary wheel type air outlet air conditioning device according to claim 1, characterized in that: the through holes of the guide plate (11) arranged in the vertical direction and the central axis of the guide plate (11) are arranged in an acute angle.

3. The planetary wheel type air outlet air conditioning device according to claim 1, characterized in that: the through hole of the guide plate (11) arranged in the vertical direction is trumpet-shaped.

4. The planetary wheel type air outlet air conditioning device according to claim 1, characterized in that: the through holes of the guide plate (11) arranged in the vertical direction are arranged in a curve bending mode at the fastest speed.

5. The planetary wheel type air outlet air conditioning device according to claim 1, characterized in that: the through hole of the guide plate (11) arranged in the vertical direction is provided with a bulge or a groove.

6. A planet wheel type air outlet air adjusting method is characterized in that: the planetary wheel type air outlet air conditioning device as claimed in any one of claims 1 to 5 is adopted, and the air conditioning method is as follows:

the first working state: when the plurality of flow deflectors (12) are close to each other to form a cylindrical structure, air supply of the air conditioner is introduced into the flow guide cover (2) through the flow guide pipe I (1), and then airflow is guided into the cylindrical structure to flow out from through holes arranged in the vertical direction of the flow guide plate (11) through the plurality of flow deflectors (12) which are close to each other to form the cylindrical structure;

the second working state: the driving device (9) is started, the connecting rod (8) drives the sun gear (7) to rotate clockwise to be less than 90 degrees, the planet gear (6) rotates anticlockwise to be less than 90 degrees, the driving device (9) stops running, air supply of the air conditioner is introduced into the air guide sleeve (2) through the guide pipe I (1), then air flow is guided to the through holes arranged in the vertical direction of the air guide plate (11) to flow out through the guide pipe II (3) and the guide vanes (12), and at the moment, partial air flow passing through the guide vanes (12) rotates clockwise;

third working state: the driving device (9) is started, the connecting rod (8) drives the sun gear (7) to rotate clockwise less than 90 degrees again, the planet gear (6) rotates anticlockwise less than 90 degrees, the driving device (9) stops running, air supply of the air conditioner is introduced into the air guide sleeve (2) through the guide pipe I (1), air flow is guided to the through holes arranged in the vertical direction of the guide plate (11) to flow out through the guide pipe II (3) and the guide vanes (12), and at the moment, partial air flow passing through the guide vanes (12) rotates anticlockwise;

fourthly, a fourth working state: the driving device (9) is started, the sun gear (7) is driven to rotate clockwise less than 90 degrees through the connecting rod (8) for the third time, the planet gear (6) rotates anticlockwise less than 90 degrees, the driving device (9) stops running, air supply of the air conditioner is introduced into the air guide sleeve (2) through the first guide pipe (1), then air flow is guided to the through holes arranged in the vertical direction of the guide plate (11) to flow out through the second guide pipe (3) and the guide plates (12), and at the moment, partial air flow passing through the guide plates (12) rotates clockwise;

fifth working state: the driving device (9) is started, the sun gear (7) is driven to rotate clockwise less than 90 degrees through the connecting rod (8) for the fourth time, the planet gear (6) rotates anticlockwise less than 90 degrees, the driving device (9) stops running, air supply of the air conditioner is introduced into the air guide sleeve (2) through the first guide pipe (1), then air flow is guided to the through holes arranged in the vertical direction of the air guide plate (11) to flow out through the second guide pipe (3) and the guide vanes (12), and at the moment, partial air flow passing through the guide vanes (12) rotates anticlockwise;

sixthly, working state: the first working state, the second working state, the third working state, the fourth working state and the fifth working state are carried out in a circulating mode in sequence;

and the second working state, the third working state, the fourth working state, the fifth working state and the sixth working state all adjust the flow rate and the speed of the airflow inside the cylindrical structure formed by the plurality of flow deflectors (12) being close to each other, so that part of the airflow is guided to the area between the second flow guide pipe (3) and the plurality of flow deflectors (12) through the plurality of flow deflectors (12), and the flow rate and the speed of the airflow inside the area between the second flow guide pipe (3) and the plurality of flow deflectors (12) are adjusted.