CN109489229A - A kind of heat exchange dynamic wind outlet unit - Google Patents

Abstract

The present invention relates to the exhaust apparatus technical field of structures of air-conditioning equipment, in particular to a kind of heat exchange dynamic wind outlet unit, it include: shell, fixed frame, regulating mechanism, flow increasing heat exchange mechanism, described rope one end is fixed on bridle port through-hole, and control lower-left plate lower part is the angle that is tilted to the right.High-speed flow of the present invention is through mesopore, when deflector hole, deflector hole can nearby generate negative pressure, and then negative pressure is generated inside square tube, guidance indoor air flow enters in shell, the air-flow downward with air-conditioning blow-through mixes, and pushes downwardly together, i.e., forms flow increasing and acceleration to air conditioning air flow, the motor rotation band movable pulley, the effect that rope pulls lower plate to form direction service area to left and right forms restriction effect when lower plate is parallel.

Description

A kind of heat exchange dynamic wind outlet unit

Technical field

The present invention relates to the exhaust apparatus technical fields of air-conditioning equipment, fill more particularly, to a kind of heat exchange dynamic air outlet It sets.

Background technique

Wind outlet unit is mainly used in the end of central air-conditioning, is typically secured on ceiling or the outlet air of air supply duct On the sheet metal component of mouth；The current generally existing some disadvantages of air-conditioner air outlet device on the market: existing wind outlet unit is mainly adopted With stationary structure, deflector is only used, although deflector can go out Diffusion of gas stream, with indoor air flow hybrid mode Single, mixing efficiency is lower；

Due to air outlet pressure fixing, service area is small, cannot effectively be diffused into farther place, cause same service Area, farther away place cannot enjoy the thermoregulation effect of outlet air in time, and in the case where not increasing power unit, increase and is directed toward clothes Business, though the experience effect of people can be improved, higher manufacturing cost can be wasted, therefore, how central air-conditioning function When rate is not achieved using consumption, the throttling of air outlet is controlled, is prior art urgent problem to be solved to alleviate underpower.

Summary of the invention

Therefore, the present invention exactly makes in view of problem above, and it is dynamic that the purpose of the present invention is to provide a kind of heat exchanges State wind outlet unit, is achieved through the following technical solutions above-mentioned purpose:

A kind of heat exchange dynamic wind outlet unit, comprising: shell, fixed frame, regulating mechanism, flow increasing heat exchange mechanism；

The shell is muti-piece aluminium alloy composition, comprising: foreboard, back plate, left plate, right panel, the built-in through channel of composition Square, it is suitable for reading connection central air-conditioning output end；

The fixed frame is box, and inner wall is fixedly connected with the outer wall of upper part of the housing, and top surface on fixed frame, bottom surface is set It is equipped with through hole, convenient for fixed entire wind outlet unit to suitable position；

The regulating mechanism include: upper left plate, lower-left plate, upper right plate, bottom right plate, left hinge, right hinge, motor, pulley, Rope；

Upper left plate side is fixed at foreboard, and the other side is fixed in back plate, and upper left plate top is with shell Upper port left part one third is starting point, and the plate for the angle that is tilted to the left, lower part extends to housing central section；

The lower-left plate extends into the intracorporal one end of shell as starting point using upper left plate, extends to the direction inclination far from left plate The plate of shell lower port, setting runs through the bridle port of its plate face at the plate lower edge of upper left；

The upper right plate is identical as the hardened structure in upper left, is symmetricly set in shell with upper left plate, and upper right plate will with upper left plate It is three parts identical that 1 upper port of shell is divided into area；

The bottom right plate is identical as left lower plate structure, is symmetricly set in shell with lower-left plate, upper right plate and upper left plate handle Shell is divided into three open up and down cavity lanes, and setting runs through the bridle port of its plate face at the plate lower edge of bottom right；

The left hinge is conventional door hinge structure, and interval setting is multiple, with connect upper left plate lower end and lower-left plate Junction forms strip mesopore between the hinge of spaced left hinge；

The right hinge is conventional door hinge structure, and interval setting is multiple, with connect upper right plate lower end and bottom right plate Junction forms strip mesopore between the hinge of spaced right hinge；

The motor is the motor of positive and negative rotation, is arranged at back plate or foreboard center, is arranged pulley in its axle portion；

Described rope one end is fixed on bridle port through-hole, controls lower-left plate lower rightward tilt angle, and the other end is fixed It is arranged on bridle port, control bottom right plate is tilted to the left angle；

The flow increasing heat exchange mechanism includes: square tube, flow deflector, deflector hole；

The square tube is the aluminum alloy square tube of built-in rectangular through slot, the foreboard of shell, back plate, left plate, right panel it is outer Wall surface is vertically arranged multiple, and when central air-conditioning heating, in the case where heat transfer, square tube is also heated, square tube interior air-flow quilt The heating of square tube inner wall rises, and square tube bottom end air-flow, which is driven, is supplemented into square tube, forms small local convection, enhancing heat exchange effect Fruit, when central air conditioner refrigerating, in the case where heat transfer, square tube temperature is reduced, and square tube interior air-flow is cooled down by square tube inner wall, side Pipe top end air-flow, which is driven, is supplemented into square tube, forms small local convection, contrary with heating air motion；

The cutting mouth of the flow deflector is the foreboard of shell 1, the aluminium alloy of back plate, left plate, right panel is cut V-arrangement or U-shaped, And by cutting sheet, pulled to enclosure interior, the flow deflector of formation, forms multiple same through-hole water conservancy diversion after pulling on shell Hole.

In one embodiment, the upper left plate be tilted to the left angle greater than 40 degree less than 60 degree, upper left plate and left plate shape At the flow increasing structure that section is descending.

In one embodiment, bottom right plate lower part be tilted to the left angle greater than 40 degree less than 60 degree, bottom right plate and The descending flow increasing structure of right panel Formation cross-section.

In one embodiment, the motor is set as the interior decelerating motor for having plastics gearbox.

In one embodiment, the flow deflector is cut into rectangular.

The present invention uses a kind of above-mentioned efficient process flue dust device, including following working principle:

1. enclosure interior has been divided into the chamber of left, center, right three by upper left plate and upper right plate, when air conditioning air flow flows into shell, Three parts are cut into, since left and right cavity upper end is big, middle part is small, into left and right chamber air-flow first by the descending pressure in section Contracting, and flow velocity is improved in the middle part of left and right cavity, when high-speed flow flows through mesopore, mesopore, deflector hole, near deflector hole Negative pressure can be generated, and then generates negative pressure inside square tube, guidance indoor air flow enters in shell, mixed with the downward air-flow of air-conditioning blow-through It closes, pushes downwardly together, be diffused into interior, i.e., flow increasing and acceleration are formed to air conditioning air flow, and improve mixing efficiency.

2. 1 lumen downdraught part of shell, mesopore, mesopore of the meeting between left hinge, left hinge spurt into a left side Chamber and right chamber form staggered injection with deflector hole, and the turbulent flow for destroying laminar flow, increase and indoor air flow are formed in shell lower port Mixed effect；

3. the decline of rope right end, bottom right board bottom side is in gravity as shown in figure 3, the motor rotates clockwise band movable pulley Under using right hinge as axis decline, rope left end rise pull lower-left plate using left hinge be axis rise, lumen promotion right chamber air-flow, shape At the effect for being directed toward service area to the right；

4. the decline of rope left end, lower-left board bottom side is in gravity as shown in figure 4, the motor rotates counterclockwise band movable pulley Under using left hinge as axis decline, rope right end rise pull bottom right plate using right hinge be axis rise, lumen promotion right chamber air-flow, shape At the effect for being directed toward service area to the left；

5. when rope ends are isometric, lumen air-flow is most of as shown in figure 5, the motor rotates counterclockwise band movable pulley Air-flow is stopped by lower-left plate, bottom right plate, forms restriction effect.

Beneficial effects of the present invention are as follows:

1, high-speed flow of the present invention is through mesopore, and when deflector hole, deflector hole can nearby generate negative pressure, and then produce inside square tube Raw negative pressure, guidance indoor air flow enter in shell, and the air-flow downward with air-conditioning blow-through mixes, and pushes downwardly together, i.e., to air-conditioning Air-flow forms flow increasing and acceleration；

2, the motor rotation band movable pulley, the effect for the direction service area that rope pulls lower plate to be formed to left and right, instantly When plate is parallel, restriction effect is formed.

Detailed description of the invention

Fig. 1 is overall structure of the present invention.

Fig. 2 is top perspective schematic diagram of the present invention.

Fig. 3 is broken section and is directed toward schematic diagram to the right.

Fig. 4 is that the present invention is directed toward schematic diagram to the left.

Fig. 5 is throttle schematic diagram of the present invention

Specific embodiment

The preferred embodiment of the present invention will be described in detail by reference to attached drawing, in this way showing for field that the present invention belongs to There are these embodiments easy to accomplish for the people in technical staff with ordinary skill.However the present invention can also be a variety of different Form is realized, therefore the present invention is not limited to embodiments described hereinafters.In addition, in order to more clearly describe the present invention, with this The component that invention does not connect will be omitted from attached drawing.

As shown in Figure 1, a kind of heat exchange dynamic wind outlet unit, comprising: shell 1, fixed frame 2, regulating mechanism, flow increasing heat Exchange mechanism；

The shell 1 be muti-piece aluminium alloy composition, comprising: foreboard 11, back plate 12, left plate 13, right panel 14, composition it is built-in The square of through channel, the output end of connection central air-conditioning suitable for reading；

The fixed frame 2 is box, and inner wall is fixedly connected with the outer wall on 1 top of shell, top surface on fixed frame 2, bottom Face is provided with through hole, convenient for fixed entire wind outlet unit to suitable position；

The regulating mechanism includes: upper left plate 31, lower-left plate 32, upper right plate 33, bottom right plate 34, left hinge 35, right hinge 36, motor 37, pulley 38, rope 39；

As shown in Fig. 2, 31 side of upper left plate is fixed at foreboard 11, the other side is fixed in back plate 12,

31 top of upper left plate is using 1 upper port left part one third of shell as starting point, the plate for the angle that is tilted to the left, lower part Extend to 1 middle part of shell；

The lower-left plate 32 extends into the intracorporal one end of shell as starting point using upper left plate 31, tilts to the direction far from left plate 13 The plate of 1 lower port of shell is extended to, setting runs through the bridle port 321 of its plate face at 31 lower edge of upper left plate；

The upper right plate 33 is identical as 31 structure of upper left plate, is symmetricly set in shell 1 with upper left plate 31, upper right plate 33 with It is three parts identical that 1 upper port of shell is divided into area by upper left plate 31；

The bottom right plate 34 is identical as 32 structure of lower-left plate, is symmetricly set in shell 1 with lower-left plate 32, upper right plate 33 with Upper left plate 31 is divided into shell 1 three open up and down cavity lanes, and setting runs through its plate face at 34 lower edge of bottom right plate Bridle port 341；

The left hinge 35 is conventional door hinge structure, and interval setting is multiple, with connect 31 lower end of upper left plate and a left side 32 junction of lower plate forms strip mesopore 351 between the hinge of spaced left hinge 35；

The right hinge 36 is conventional door hinge structure, and interval setting is multiple, with connect 33 lower end of upper right plate and the right side 34 junction of lower plate forms strip mesopore 361 between the hinge of spaced right hinge 36；

The motor 37 is the motor of positive and negative rotation, is arranged at 11 center of back plate 12 or foreboard, is arranged pulley in its axle portion 38；

Described 39 one end of rope is fixed on 321 through-hole of bridle port, controls 32 lower rightward tilt angle of lower-left plate, another End is fixed on bridle port 341, and control bottom right plate 34 is tilted to the left angle；

As shown in Fig. 2, the flow increasing heat exchange mechanism includes: square tube 41, flow deflector 42, deflector hole 43；

The square tube 41 be built-in rectangular through slot aluminum alloy square tube, the foreboard 11 of shell 1, back plate 12, left plate 13, The outside wall surface of right panel 14 is vertically arranged multiple, and when central air-conditioning heating, in the case where heat transfer, square tube 41 is also heated, 41 interior air-flow of square tube is heated by 41 inner wall of square tube to be risen, and 41 bottom end air-flow of square tube, which is driven, is supplemented into square tube 41, is formed small Local convection enhances heat exchange effect, and when central air conditioner refrigerating, in the case where heat transfer, 41 temperature of square tube is reduced, square tube 41 interior air-flows are cooled down by 41 inner wall of square tube, and 41 top end air-flow of square tube, which is driven, is supplemented into square tube 41, form small local convection, It is contrary with heating air motion；

The V-arrangement or U that the flow deflector 42 is the foreboard 11 of shell 1, the aluminium alloy of back plate 12, left plate 13, right panel 14 is cut The cutting mouth of shape, and the piece of cutting is formed on shell 1 multiple to the flow deflector 42 to be formed is pulled inside shell 1 after pulling Same through-hole deflector hole 43.

Preferably, as an embodiment, the upper left plate 31 be tilted to the left angle greater than 40 degree less than 60 degree, a left side Upper plate 31 and the descending flow increasing structure of 13 Formation cross-section of left plate, angle is excessive, and airflow speed increasing is small, angle too small, air-flow resistance Power is big.

Preferably, as an embodiment, 34 lower part of bottom right plate is less than to be tilted to the left angle greater than 40 degree 60 degree, bottom right plate 34 and the descending flow increasing structure of 14 Formation cross-section of right panel, angle is excessive, and airflow speed increasing is small, angle too small, Gas-flow resistance is big.

Preferably, as an embodiment, the motor 37 is set as the interior decelerating motor for having plastics gearbox, subtracts Few inertia influences controllability.

Preferably, as an embodiment, the flow deflector 42 is cut into rectangular, reduces difficulty of processing.

The present invention uses a kind of above-mentioned heat exchange dynamic wind outlet unit, including following working principle:

1. being divided into the chamber of left, center, right three by upper left plate 31 and upper right plate 33 inside shell 1, air conditioning air flow flows into shell 1 When, be also cut into three parts, since left and right cavity upper end is big, middle part is small, into left and right chamber air-flow first by section by greatly to Small compression, and flow velocity is improved in the middle part of left and right cavity, when high-speed flow is through mesopore 351, mesopore 361, deflector hole 43, Deflector hole 43 nearby can generate negative pressure, and then negative pressure is generated inside square tube 41, and guidance indoor air flow enters in shell 1, with air-conditioning The downward air-flow mixing of blow-through, pushes downwardly together, is diffused into interior, i.e., form flow increasing and acceleration to air conditioning air flow, and improve Mixing efficiency.

2. 1 lumen downdraught part of shell, mesopore 351, mesopore of the meeting between left hinge 35, left hinge 35 361 spurt into left chamber and right chamber, form staggered injection with deflector hole 43, and the turbulent flow for destroying laminar flow is formed in 1 lower port of shell, Increase the mixed effect with indoor air flow；

3. as shown in figure 3, the motor 37 rotates clockwise band movable pulley 38, the decline of 39 right end of rope, 34 bottom of bottom right plate Side is under gravity axis decline with right hinge 36, and 39 left end of rope, which rises, pulls lower-left plate 32 with left hinge 35 for axis rising, in Chamber pushes right chamber air-flow, forms the effect for being directed toward service area to the right；

4. as shown in figure 4, the motor 37 rotates counterclockwise band movable pulley 38, the decline of 39 left end of rope, 32 bottom of lower-left plate Side is under gravity axis decline with left hinge 35, and 39 right end of rope, which rises, pulls bottom right plate 34 with right hinge 36 for axis rising, in Chamber pushes right chamber air-flow, forms the effect for being directed toward service area to the left；

5. as shown in figure 5, the motor 37 rotates counterclockwise band movable pulley 38, when 39 both ends of rope are isometric, lumen air-flow Most of air-flow is stopped by lower-left plate 32, bottom right plate 34, forms restriction effect.

Claims (5)

1. a kind of heat exchange dynamic wind outlet unit, comprising: shell (1), fixed frame (2), regulating mechanism, flow increasing heat exchanger Structure；

The shell (1) is muti-piece aluminium alloy composition, comprising: foreboard (11), back plate (12), left plate (13), right panel (14), composition Built-in through channel square, it is suitable for reading connection central air-conditioning output end；

The fixed frame (2) is box, and inner wall is fixedly connected with shell (1) external wall of upper portion, top surface on fixed frame (2), bottom Face is provided with through hole, convenient for fixed entire wind outlet unit to suitable position；

It is characterized by: the regulating mechanism include: upper left plate (31), lower-left plate (32), upper right plate (33), bottom right plate (34), Left hinge (35), right hinge (36), motor (37), pulley (38), rope (39)；

Shown, upper left plate (31) side is fixed at foreboard (11), and the other side is fixed on back plate (12), upper left Plate (31) top is using shell (1) upper port left part one third as starting point, and the plate for the angle that is tilted to the left, lower part extends to shell (1) middle part；

The lower-left plate (32) extends into the intracorporal one end of shell as starting point using upper left plate (31), inclines to the direction far from left plate (13) The plate of shell (1) lower port is tiltedly extended to, setting runs through the bridle port (321) of its plate face at upper left plate (31) lower edge；

The upper right plate (33) is identical as upper left plate (31) structure, is symmetricly set in shell (1) with upper left plate (31), upper right plate (33) that shell (1) upper port is divided into area with upper left plate (31) is three parts identical；

The bottom right plate (34) is identical as lower-left plate (32) structure, is symmetricly set in shell (1) with lower-left plate (32), upper right plate (33) shell (1) is divided into upper left plate (31) three open up and down cavity lanes, is set at bottom right plate (34) lower edge Set the bridle port (341) through its plate face；

The left hinge (35) is conventional door hinge structure, and interval setting is multiple, with connect upper left plate (31) lower end and a left side Lower plate (32) junction forms strip mesopore (351) between the hinge of spaced left hinge (35)；

The right hinge (36) is conventional door hinge structure, and interval setting is multiple, with connect upper right plate (33) lower end and the right side Lower plate (34) junction forms strip mesopore (361) between the hinge of spaced right hinge (36)；

The motor (37) is the motor of positive and negative rotation, is arranged at back plate (12) or foreboard (11) center, is arranged cunning in its axle portion It takes turns (38)；

Described rope (39) one end is fixed on bridle port (321) through-hole, controls lower-left plate (32) lower rightward tilt angle, separately One end is fixed on bridle port (341), and control bottom right plate (34) is tilted to the left angle；

The flow increasing heat exchange mechanism includes: square tube (41), flow deflector (42), deflector hole (43)；

The square tube (41) is the aluminum alloy square tube of built-in rectangular through slot, on the foreboard (11) of shell (1), back plate (12), a left side Plate (13), right panel (14) outside wall surface be vertically arranged it is multiple, when central air-conditioning heating, in the case where heat transfer, square tube (41) it is also heated, square tube (41) interior air-flow is heated by square tube (41) inner wall to be risen, and square tube (41) bottom end air-flow is driven benefit It is charged into square tube (41), forms small local convection, enhance heat exchange effect, when central air conditioner refrigerating, the heat transfer the case where Under, square tube (41) temperature reduces, and square tube (41) interior air-flow is cooled down by square tube (41) inner wall, and square tube (41) top end air-flow is driven It is supplemented into square tube (41)；

The flow deflector (42) is the aluminium alloy cutting of the foreboard (11), back plate (12), left plate (13), right panel (14) of shell (1) V-arrangement or U-shaped cutting mouth, and by the piece of cutting to the flow deflector to be formed (42) are pulled inside shell (1), in shell after pulling (1) multiple same through-hole deflector holes (43) are formed on.

2. a kind of heat exchange dynamic wind outlet unit according to claim 1, it is characterised in that: the upper left plate (31) to Left-leaning rake angle is greater than 40 degree less than 60 degree, upper left plate (31) and the descending flow increasing structure of left plate (13) Formation cross-section.

3. a kind of heat exchange dynamic wind outlet unit according to claim 1, it is characterised in that: under the bottom right plate (34) Portion be tilted to the left angle greater than 40 degree less than 60 degree, bottom right plate (34) and the descending flow increasing knot of right panel (14) Formation cross-section Structure.

4. a kind of heat exchange dynamic wind outlet unit according to claim 1, it is characterised in that: motor (37) setting For the interior decelerating motor for having plastics gearbox.

5. a kind of heat exchange dynamic wind outlet unit according to claim 1, it is characterised in that: the flow deflector (42) is cut It is segmented into rectangular.