CN114777203B

CN114777203B - Indoor air conditioning device

Info

Publication number: CN114777203B
Application number: CN202210458481.5A
Authority: CN
Inventors: 陈孚江; 谢韵; 孙启航; 洪洋; 张玥; 程威; 刘恩海
Original assignee: Changzhou University
Current assignee: Changzhou University
Priority date: 2022-04-28
Filing date: 2022-04-28
Publication date: 2023-06-06
Anticipated expiration: 2042-04-28
Also published as: CN114777203A

Abstract

The invention discloses an indoor air conditioning device, which comprises a moving part and a heat exchange box, wherein the moving part comprises a mounting plate fixed at the high position, a stepping speed reducing motor connected with a winding roller is arranged on the mounting plate, and the heat exchange box is wound below the winding roller through a rope; a heat exchange tube connected with the outdoor unit through a flexible refrigerant tube is arranged in the heat exchange box, a plurality of rotating rods are also arranged in the heat exchange box, a transmission gear is arranged below the rotating rods, and an intermediate gear is meshed between the transmission gears; the heat exchange box is also provided with an air inlet cylinder, a power motor is arranged in the air inlet cylinder, and an output shaft of the power motor is connected with one end of the transmission rod through a middle shaft; the eccentric wheel is installed to the other end of transfer line, installs the fin on the dwang to and be located the plectrum of eccentric wheel both sides, through adjusting device, the refrigeration or the heating effect in the reinforcing use.

Description

Indoor air conditioning device

Technical Field

The invention relates to an indoor air conditioning device, and belongs to the technical field of air conditioning.

Background

An air conditioner is an air conditioning appliance for directly supplying treated air to a closed room, space or area, and a split type air conditioner is widely used in residential, office and other building sites because of convenient and economical installation. The existing split type air conditioner generally includes an outdoor unit and an indoor unit. The outdoor unit and the indoor unit are connected through a refrigerant pipe, the indoor unit is usually fixedly arranged above a side wall and is usually used for air conditioning by a split wall-mounted air conditioner in the prior art, but the position of an air outlet of the split wall-mounted air conditioner is usually fixed. When in refrigeration in summer, the density of cold air is larger than that of indoor air, and the cold air flows downwards forwards under the forced action of a fan to exchange cold energy with the indoor air, so that the temperature of a room is reduced to achieve the aim of refrigeration; however, when heating in winter, because the air outlet position of the indoor unit is higher, hot air from the air outlet is more than indoor air in density, and often accumulates below a ceiling, heat exchange cannot be performed with cold air below the indoor, so that the heating effect is poor, although equipment manufacturers design a louver air outlet capable of moving up and down, the heating effect is limited, the air outlet is positioned at the upper part of the indoor, when heating is needed in winter, the rising effect of hot air is added due to the higher air outlet position, and then the hot air cannot be conveyed to the vicinity of the ground, so that the heating effect is affected.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide an indoor air conditioning device, which enhances the refrigerating or heating effect in the using process by adjusting a moving device.

In order to achieve the above purpose, the invention is realized by adopting the following technical scheme:

the indoor air conditioning device comprises a moving part and a heat exchange box 5, wherein the moving part comprises a mounting plate 1 fixed at a high position, a stepping speed reduction motor 2 is arranged on the mounting plate 1, the stepping speed reduction motor 2 is connected with a winding roller 3, and the heat exchange box 5 is wound below the winding roller 3 through a rope;

a heat exchange tube 8 is arranged in the heat exchange box 5, the heat exchange tube 8 is connected with an outdoor unit 35 through a flexible refrigerant tube 13, a plurality of rotating rods 9 are arranged on the right side of the heat exchange box 5, a transmission gear 10 is arranged below the rotating rods 9, and an intermediate gear 34 is meshed between the transmission gears 10;

the heat exchange box 5 is also provided with an air inlet cylinder 7, a power motor 12 is arranged in the air inlet cylinder 7, and an output shaft 16 of the power motor 12 is connected with one end of a transmission rod 24 through an intermediate shaft 23; the other end of the transmission rod 24 is provided with an eccentric wheel 27, and the rotating rod 9 is provided with fins 11 and poking sheets 28 positioned on two sides of the eccentric wheel 27.

Further, the mounting plate 1 is further provided with a polygonal rod 6, the polygonal rod 6 comprises a plurality of polygonal inserted rods 6.1 which are nested and telescopic end to end, and the polygonal inserted rods 6.1 at the tail end are connected with the heat exchange box 5.

Further, a filter screen 18 is arranged at the air inlet of the air inlet barrel 7, the outer end of the output shaft 16 of the power motor 12 is connected with a brush 17, and the brush 17 is in contact with the filter screen 18.

Further, a speed reducer 15 is fixed on the output shaft 16.

Further, a collecting groove 25 is installed at the left lower part of the air inlet barrel 7, and a spiral feeding rod 31 connected with the left end of the transmission rod 24 is installed at the bottom of the collecting groove 25.

Further, a discharging cylinder 33 is installed below the collecting tank 25, and the collecting bag 26 is sleeved at the other end of the discharging cylinder 33.

Further, the middle part of the output shaft 16 is provided with a first umbrella tooth 19, the first umbrella tooth 19 is connected with one end of the intermediate shaft 23 through a second umbrella tooth 20, the other end of the intermediate shaft 23 is connected with a third umbrella tooth 21, and the third umbrella tooth 21 is connected with a transmission rod 24 through a fourth umbrella tooth 22.

Further, the power motor 12 is a double-shaft motor, and an axial flow fan 14 is arranged on an output shaft of the power motor 12, which is close to one side of the heat exchange box 5.

Further, a pressure sensor 29 is installed on the lower surface of the heat exchange box 5, and an induction plate 30 is connected to the lower end of the pressure sensor 29.

Compared with the prior art, the invention has the following beneficial effects:

according to the indoor air conditioning device provided by the invention, the heat exchange box is connected through the moving part, so that the heat exchange box is controlled to move up and down, and the refrigerating or heating effect is improved;

the polygonal rod is arranged on the mounting plate, the polygonal inserted rods are inserted in the polygonal rod, and the polygonal inserted rods are nested from head to tail and can be connected in a telescopic manner, so that the safety of the device is improved, and shaking can be avoided;

a collecting tank is arranged at the left lower part of the air inlet cylinder, a spiral feeding rod connected with the left end of the transmission rod is arranged at the bottom of the collecting tank, and the spiral feeding rod rotates to discharge dust collected in the collecting tank and swept by the hairbrush into a collecting bag for collection;

the power motor is a double-shaft motor, and an axial flow fan is arranged on an output shaft of the power motor, which is close to one side of the heat exchange box, so that heat dissipation in the heat exchange box is realized;

the transmission rod eccentric wheel rotates, and the eccentric wheel rotates to stir the plectrum to move left and right, and then drives the reciprocating rotation of the rotation rod through the plectrum, and then the rotation rod drives fin reciprocating motion, increases the air-out disturbance through the fin motion, strengthens convection effect.

Drawings

Fig. 1 is a schematic view of an overall structure of an indoor air conditioning apparatus according to an embodiment of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is an enlarged view of the structure at C in FIG. 2;

FIG. 4 is an enlarged view of the structure at B in FIG. 1;

FIG. 5 is a side view of the peripheral structure of an eccentric in accordance with an embodiment of the present invention;

FIG. 6 is a top view of the peripheral structure of the eccentric in accordance with an embodiment of the present invention;

FIG. 7 is a bottom view of the peripheral structure of the drive gear of the embodiment of the present invention;

in the figure: 1. a mounting plate; 2. a speed reducing motor; 3. a winding roller; 4. a wire rope; 5. a heat exchange box; 6. a polygonal rod; 6.1. polygonal inserted link; 7. an air inlet cylinder; 8. a heat exchange tube; 9. a rotating lever; 10. a transmission gear; 11. a fin; 12. a power motor; 13. a flexible refrigerant tube; 14. an axial flow fan; 15. a speed reducer; 16. an output shaft; 17. a brush; 18. a filter screen; 19. a first umbrella tooth; 20. second umbrella teeth; 21. third umbrella tooth; 22. fourth umbrella teeth; 23. an intermediate shaft; 24. a transmission rod; 25. a collection tank; 26. a collection bag; 27. an eccentric wheel; 28. a pulling piece; 29. a pressure sensor; 30. an induction plate; 31. a spiral feeding rod; 32. a hoop; 33. a discharging cylinder; 34. an intermediate gear; 35. an outdoor unit; 36. roof.

Detailed Description

The invention is further described below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present invention, and are not intended to limit the scope of the present invention.

As shown in fig. 1, an overall structure schematic diagram of an indoor air conditioning device according to an embodiment of the present invention includes a mounting plate 1, the mounting plate 1 is fixed on a roof 36, a step-by-step reduction motor 2 is fixed on the mounting plate 1, a winding roller 3 is installed at an output end of the step-by-step reduction motor 2, a steel wire rope 4 is wound on the winding roller 3, and a heat exchange box 5 is connected to a lower end of the steel wire rope 4. The mounting plate 1 is provided with a polygonal rod 6, a plurality of polygonal inserted rods 6.1 are inserted into the polygonal rod 6, the polygonal inserted rods 6.1 are nested end to end and are connected in a telescopic manner, and the polygonal inserted rods 6.1 at the lower end are connected with the heat exchange box 5. The polygonal rod 6 is arranged to increase the safety of the device, so that potential safety hazards caused by breakage of the steel wire rope 4 can be prevented, the indoor air conditioning device can be fixed, and the shaking prevention effect is achieved.

Fig. 2 is an enlarged view of the structure a in fig. 1, and an air inlet drum 7 is mounted on the heat exchange box 5, and the air inlet drum 7 comprises a filter screen 18, a power motor 12, a speed reducer 15 and an axial flow fan 14. Under the action of the axial flow fan 14, air is sucked into the air inlet cylinder 7 through the filter screen 18, then enters the heat exchange box 5 to exchange heat with the heat exchange box 5, and then enters a room. The heat exchange tube 8 is arranged in the heat exchange box 5, the right end of the heat exchange box 5 is provided with a plurality of rotating rods 9, and fins 11 are arranged on the rotating rods 9. A power motor 12 is arranged in the air inlet barrel 7; the heat exchange tube 8 is connected with the outdoor unit 35 through the flexible refrigerant tube 13, and the flexible refrigerant tube 13 is wrapped with heat insulation materials.

The power motor 12 is a double-shaft motor, an axial flow fan 14 is fixed at the right output end of the power motor 12, a speed reducer 15 is fixed at the left end of the power motor 12, the output end of the speed reducer 15 is an output shaft 16, a hairbrush 17 is mounted at the outer end of the output shaft 16, the hairbrush 17 contacts with the outer wall of a filter screen 18 arranged at the air inlet of the air inlet barrel 7, and the hairbrush 17 cleans the filter screen 18.

The power motor 12 rotates to drive the output shaft to rotate after the speed reduction and torque increase of the speed reducer 15, and the output shaft rotates to drive the hairbrush to clean the filter screen 18. The speed of removing the speed reducer brush is too high. At the same time, the transmission rod 24 finally drives the fin 11 to move, and the speed cannot be too high.

The middle part of the output shaft 16 is provided with a first umbrella tooth 19, a second umbrella tooth 20 is meshed with the first umbrella tooth 19, the second umbrella tooth 20 is connected with one end of a middle shaft 23, the other end of the middle shaft 23 is connected with a third umbrella tooth 21, a fourth umbrella tooth 22 is meshed with the third umbrella tooth 21, and a transmission rod 24 is connected with the fourth umbrella tooth 22.

Fig. 3 is an enlarged view of the structure of the position C in fig. 2, the collecting tank 25 is installed at the lower part of the left end of the air inlet barrel 7, the spiral feeding rod 31 is installed at the bottom of the collecting tank 25, the spiral feeding rod 31 is connected with the left end of the transmission rod 24, the discharging barrel 33 is installed at the lower end of the collecting tank 25, the discharging barrel 33 is sleeved outside the spiral feeding rod 31, the collecting bag 26 is sleeved on the discharging barrel 33, and the collecting bag 26 is sleeved on the discharging barrel 33 through the hoop 32.

Fig. 4 is an enlarged view of a structure at B in fig. 1, fig. 5 and 6 are a side view and a top view of a peripheral structure of an eccentric wheel according to an embodiment of the present invention, fig. 7 is a bottom view of the peripheral structure of a driving gear, an eccentric wheel 27 is mounted at a right end of a driving rod 24, a shifting piece 28 is mounted on a rotating rod 9, the shifting piece 28 is located at two sides of the eccentric wheel 27, a driving gear 10 is mounted at a lower end of the rotating rod 9, an intermediate gear 34 is engaged between the two driving gears 10, the intermediate gear 34 is rotatably mounted on a heat exchange box 5, and the intermediate gear 34 plays a role in transitional gear train parts, so that only steering is changed, no transmission ratio is changed, and no transmission relation of the driving gear 10 is changed, so that the gear train stress is more reasonable.

Four pressure sensors 29 are arranged on the lower surface of the heat exchange box 5, and an induction plate 30 is arranged at the lower end of each pressure sensor 29.

When refrigeration is needed, the steel wire rope 4 is in a winding state; when heating is needed, the stepping speed reduction motor 2 is started to drive the winding roller 3 to rotate so as to drive the heat exchange box 5 to descend, the descending height of the heat exchange box 5 is controlled by controlling the rotation angle of the stepping speed reduction motor 2, and finally the heat exchange box 5 descends to the vicinity of the ground; when encountering the obstruction, the sensing plate 30 is obstructed to press the pressure sensor 29, so that the stepping speed reduction motor 2 stops acting, and the safety is improved.

Through the work of off-premises station 35 cooperation heat exchange tube 8, realize convection heat transfer in heat exchange box 5, power motor 12 work drives axial fan 14 and rotates and then blow out the heat in the heat exchange box 5 simultaneously, realizes the heat dissipation, and then heats the convection effect that increases the heating through the lower part, solves the problem that prior art heat can't be carried downwards.

And the power motor 12 is started to work after heating or refrigerating is prepared, the power motor 12 rotates to reduce speed through the speed reducer 15 to increase torque and then drive the output shaft 16 to rotate, and the output shaft 16 rotates to drive the hairbrush 17 to clean the filter screen 18. Meanwhile, the output shaft 16 drives the first umbrella tooth 19 to rotate, the first umbrella tooth 19 rotates to drive the second umbrella tooth 20 to rotate, the second umbrella tooth 20 rotates to drive the intermediate shaft 23 to rotate to see, the intermediate shaft 23 rotates to drive the third umbrella tooth 21 to rotate, the third umbrella tooth 21 rotates to drive the fourth umbrella tooth 22 to rotate, the fourth umbrella tooth 22 rotates to drive the transmission rod 24 to rotate, the transmission rod 24 rotates to drive the spiral feeding rod 31 to rotate, and the spiral feeding rod 31 rotates to discharge dust collected in the collecting groove 25 and swept by the hairbrush 17 into the collecting bag 26 to be collected.

The transmission rod 24 rotates to drive the eccentric wheel 27 to rotate, the eccentric wheel 27 rotates to stir the pulling piece 28 to move left and right, and then the pulling piece 28 drives the rotation rod 9 to reciprocate, and then the rotation rod 9 drives the fin 11 to reciprocate, and the rotation rod 9 rotates to drive the transmission gear 10 to rotate, and the transmission gear 10 drives the adjacent transmission gear 10 to rotate through the intermediate gear 34, and then drives the adjacent rotation rod 9 to rotate, and then drives the fin 11 to move, increases the air-out disturbance through the fin 11 movement, and then enhances the convection effect, increases indoor temperature equilibrium.

When refrigeration is needed, the step-by-step gear motor 2 moves reversely to drive the heat exchange box 5 to ascend through the steel wire rope 4, meanwhile, the outdoor unit 35 is converted into a refrigeration mode, and then the working process and the heating process are basically the same.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that modifications and variations could be made by those skilled in the art without departing from the technical principles of the present invention, and such modifications and variations should also be regarded as being within the scope of the invention.

Claims

1. An indoor air conditioning device is characterized by comprising a moving part and a heat exchange box (5), wherein the moving part comprises a mounting plate (1) fixed at a high position, a stepping speed reduction motor (2) is arranged on the mounting plate (1), the stepping speed reduction motor (2) is connected with a winding roller (3), and the heat exchange box (5) is wound below the winding roller (3) through a rope;

a heat exchange tube (8) is arranged in the heat exchange box (5), the heat exchange tube (8) is connected with an outdoor unit (35) through a flexible refrigerant tube (13), a plurality of rotating rods (9) are arranged on the right side of the heat exchange box (5), a transmission gear (10) is arranged below the rotating rods (9), and an intermediate gear (34) is meshed between the transmission gears (10);

the heat exchange box (5) is also provided with an air inlet cylinder (7), a power motor (12) is arranged in the air inlet cylinder (7), and an output shaft (16) of the power motor (12) is connected with one end of a transmission rod (24) through an intermediate shaft (23); the other end of the transmission rod (24) is provided with an eccentric wheel (27), the rotating rod (9) is provided with fins (11) and poking sheets (28) positioned at two sides of the eccentric wheel (27); the transmission rod (24) rotates to drive the eccentric wheel (27) to rotate, the eccentric wheel (27) rotates to stir the poking piece (28) to move left and right, the poking piece (28) drives the rotation rod (9) to rotate in a reciprocating mode, the rotation rod (9) drives the fins (11) to reciprocate, the rotation rod (9) rotates to drive the transmission gear (10) to rotate, the transmission gear (10) drives the adjacent transmission gear (10) to rotate through the intermediate gear (34), and then drives the adjacent rotation rod (9) to rotate, and then the fins (11) are driven to move;

a filter screen (18) is arranged at the air inlet of the air inlet cylinder (7), and the outer end of the output shaft (16) is connected with a brush (17) contacted with the filter screen (18); a speed reducer (15) is fixed on the output shaft (16), and the power motor (12) rotates to drive the output shaft (16) to rotate after the speed reducer (15) reduces speed and increases moment;

the middle part of the output shaft (16) is provided with a first umbrella tooth (19), the first umbrella tooth (19) is connected with one end of the intermediate shaft (23) through a second umbrella tooth (20), the other end of the intermediate shaft (23) is connected with a third umbrella tooth (21), and the third umbrella tooth (21) is connected with a transmission rod (24) through a fourth umbrella tooth (22);

the collecting tank (25) is installed to air inlet section of thick bamboo (7) lower left side, spiral feed rod (31) that is connected with transfer line (24) left end are installed to collecting tank (25) bottom, discharge section of thick bamboo (33) are installed to collecting tank (25) below, collecting bag (26) are cup jointed to the other end of discharge section of thick bamboo (33), transfer line (24) rotate drive spiral feed rod (31) and rotate, and spiral feed rod (31) rotate and discharge the dust of being swept by brush (17) that is collected in collecting tank (25) in collecting bag (26) and collect.

2. An indoor air conditioning unit according to claim 1, characterized in that the mounting plate (1) is further provided with a polygonal rod (6), the polygonal rod (6) comprises a plurality of polygonal inserted rods (6.1) nested end to end, and the polygonal inserted rods (6.1) at the tail end are connected with the heat exchange box (5).

3. An indoor air conditioning unit according to claim 1, wherein the power motor (12) is a biaxial motor, and the output shaft of the power motor (12) on the side close to the heat exchange box (5) is provided with an axial flow fan (14).

4. An indoor air conditioning unit according to claim 1, wherein a pressure sensor (29) is mounted on the lower surface of the heat exchanging box (5), and an induction plate (30) is connected to the lower end of the pressure sensor (29).