CN114754426B - Large-space jet air conditioning unit heat and humidity treatment equipment - Google Patents

Abstract

The invention relates to the field of air purification, in particular to a heat and humidity treatment device of a large-space jet air conditioning unit, wherein each rotating cavity is fixedly connected with a first wind pipeline and a second circular pipeline, the first wind pipeline is fixedly connected with a first circular pipeline, the first circular pipeline is provided with a plurality of first circular arc cavities, the rotating cavity is fixedly connected with a second wind pipeline, the second wind pipeline is fixedly connected with a second circular pipeline, the second circular pipeline is provided with a plurality of second circular arc cavities, one side of the first circular arc cavities is used for exhausting air, the other side of the first circular arc cavities is used for sucking air, one side of the second circular arc cavities is used for exhausting air, the other side of the second circular arc cavities is used for sucking air, wind circulation is formed among the plurality of first circular arc cavities, and wind circulation is formed among the plurality of second circular arc cavities; air circulation can be formed in a large range, and air in a large space can be quickly replaced.

Description

Large-space jet air conditioning unit heat and humidity treatment equipment

Technical Field

The invention relates to the field of air purification, in particular to a heat and humidity treatment device of a large-space jet air conditioning unit.

Background

Along with the development of science and technology, air pollution is more and more serious, and the diseases of the corresponding respiratory system are more and more serious, so that people pay more and more attention to indoor air quality, a plurality of indoor ventilation systems exist in the prior art, but most of ventilation systems in the prior art are unidirectional air outlets, and air cannot be rapidly circulated in a certain range, so that the ventilation system cannot be suitable for rapid replacement of air in a large space.

Disclosure of Invention

The invention aims to provide a heat and humidity treatment device of a large-space jet air conditioning unit, which can form air circulation in a large range and quickly replace air in a large space.

The aim of the invention is achieved by the following technical scheme:

the heat and humidity treatment equipment of the large-space jet air conditioning unit comprises a bottom bracket, wherein the front side and the rear side of the bottom bracket are respectively and rotatably connected with a screw rod, each screw rod is provided with a power mechanism I for driving the screw rod to rotate, and the power mechanism I is preferably a servo motor;

the middle part of the bottom bracket is fixedly connected with a support ring, the upper end of the support ring is fixedly connected with a first air pipe and a water inlet pipe, and the lower end of the support ring is fixedly connected with a water outlet pipe;

the front side and the rear side of the bottom bracket are both connected with transverse moving brackets in a sliding way, the two transverse moving brackets are respectively connected to the two screw rods through threads, the two transverse moving brackets are both connected with a rotating cavity in a rotating way, the rotating cavity is provided with a power mechanism II for driving the rotating cavity to rotate, and the power mechanism II is preferably a servo motor;

the rotating cavity is fixedly connected with a first wind power pipeline, the first wind power pipeline is fixedly connected with a first circular ring pipeline, the first circular ring pipeline is provided with a plurality of first circular arc cavities, the first circular arc cavities are communicated through the first circular ring pipeline, the rotating cavity is fixedly connected with a second wind power pipeline, the second wind power pipeline is fixedly connected with a second circular ring pipeline, the second circular ring pipeline is provided with a plurality of second circular arc cavities, and the second circular arc cavities are communicated through the second circular ring pipeline;

the first circular arc cavities and the second circular ring pipelines are mutually corresponding, a plurality of rotating cavities are formed by mutual contact between the first circular arc cavities and the second circular ring pipelines, an air ring is rotationally connected to each rotating cavity, two second air pipes are fixedly connected to the air ring, and a filter plate is fixedly connected to each second air pipe;

the support ring is connected with a rotating ring in a rotating way, a plurality of holes are formed in the rotating ring, a plurality of circular arc pressing plates are connected between the rotating ring and the support ring in a sliding way, absorbent cotton is fixedly connected onto the rotating ring, a power mechanism III is fixedly connected onto the support ring, the power mechanism III is preferably a servo motor, and the power mechanism III can drive the rotating ring to rotate;

the bottom bracket is fixedly connected with a telescopic mechanism, the telescopic end of the telescopic mechanism is fixedly connected with a wheel, and the wheel is contacted with the circular arc pressing plate at the lower side of displacement.

Drawings

The invention will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic diagram of the overall structure of a heat and moisture treatment device of a large-space jet air conditioning unit;

FIG. 2 is a schematic side view structure of a heat and moisture treatment device of the large space jet air conditioning unit of the invention;

FIG. 3 is a schematic diagram of a part of a heat and moisture treatment device of a large space jet air conditioning unit according to the present invention;

FIG. 4 is a schematic diagram II of a local structure of a heat and moisture treatment device of the large-space jet air conditioning unit;

FIG. 5 is a schematic diagram III of a partial structure of a heat and moisture treatment device of the large-space jet air conditioning unit;

FIG. 6 is a schematic diagram of a part of a heat and moisture treatment device of a large-space jet air conditioning unit according to the present invention;

FIG. 7 is a schematic diagram of a partial structure of a heat and moisture treatment device of a large-space jet air conditioning unit according to the present invention;

FIG. 8 is a schematic diagram of a part of a heat and moisture treatment device of a large-space jet air conditioning unit according to the present invention;

FIG. 9 is a schematic diagram seventh of a partial structure of a heat and moisture treatment apparatus of a large space jet air conditioning unit according to the present invention;

fig. 10 is a schematic diagram eight of a partial structure of a heat and moisture treatment apparatus of a large space jet air conditioning unit according to the present invention.

In the figure:

a bottom bracket 11;

a screw 21;

a support ring 31; a first gas pipe 32; a water inlet pipe 33; a drain pipe 34;

a traversing carriage 41; rotating the cavity 42;

a first wind pipe 51; a first annular tube 52; a first circular arc cavity 53;

a second wind pipe 61; a second annular tube 62; a second circular arc cavity 63;

a wind ring 71; a second air pipe 72; a filter plate 73;

a rotating ring 81; a circular arc pressing plate 82; absorbent cotton 83;

a telescopic mechanism 91; and a wheel 92.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings.

As shown in fig. 1 to 10, in order to solve the technical problem of how to form air circulation in a large area and to quickly replace air in a large space, the structure and function of a heat and moisture treatment apparatus of a large space jet air conditioning unit will be described in detail;

the heat and humidity treatment equipment of the large-space jet air conditioning unit comprises a bottom bracket 11, wherein screw rods 21 are rotatably connected to the front side and the rear side of the bottom bracket 11, and each screw rod 21 is provided with a power mechanism I for driving the screw rod 21 to rotate, and the power mechanism I is preferably a servo motor;

as shown in fig. 3;

when the device is used, the bottom bracket 11 can support the whole device, support the sliding of the two transverse moving brackets 41, the power mechanism I can be fixedly connected to the bottom bracket 11, the output shaft of the power mechanism I is fixedly connected with the corresponding screw rod 21, the corresponding screw rod 21 is driven to rotate when the output shaft of the power mechanism I is started, the corresponding transverse moving brackets 41 are driven to transversely move through threads when the screw rod 21 rotates, the distance between the two transverse moving brackets 41 is adjusted according to different use requirements, and the expansion range of wind power of the device is adjusted;

as shown in fig. 3;

the middle part of the bottom bracket 11 is fixedly connected with a support ring 31, the upper end of the support ring 31 is fixedly connected with a first air pipe 32 and a water inlet pipe 33, and the lower end of the support ring 31 is fixedly connected with a water outlet pipe 34;

the bottom bracket 11 is used for supporting the supporting ring 31, the supporting ring 31 is used for supporting the rotation of the rotating ring 81, and simultaneously, the first air pipe 32 and the water inlet pipe 33 are also supported;

the support ring 31 is fixedly connected with two first air pipes 32, one of the first air pipes 32 is connected with an air inlet pipeline, the other air pipe is connected with an air exhaust pipeline, the water inlet pipe 33 is connected with a water pump, when the rotation ring 81 rotates, the rotation ring 81 drives the absorbent cotton 83 to rotate, the absorbent cotton 83 continuously passes through the two first air pipes 32 and the water inlet pipe 33, the water inlet pipe 33 can be used for injecting water into the absorbent cotton 83, when humidification is needed, the first air pipe 32 connected with the air inlet pipeline is opened, the first air pipe 32 is used for injecting air into the absorbent cotton 83, after the injected air is humidified through the absorbent cotton 83, the air enters a large space to be humidified, when the water in the large space needs to be absorbed, the first air pipe 32 connected with the air exhaust pipeline is opened, the first air pipe 32 is used for exhausting, and the air in the large space enters the absorbent cotton 83 to be contacted with the absorbent cotton 83 through a plurality of holes arranged on the rotation ring 81, and the absorbent cotton 83 absorbs the water in the air;

and then the two first air pipes 32 and the water inlet pipe 33 are matched with the rotation of the water absorbing cotton 83, so that the drying and the humidification of the air in the large space can be completed;

as shown in fig. 4;

the front side and the rear side of the bottom bracket 11 are both connected with transverse moving brackets 41 in a sliding way, the two transverse moving brackets 41 are respectively connected to the two screw rods 21 through threads, the two transverse moving brackets 41 are both connected with a rotating cavity 42 in a rotating way, the rotating cavity 42 is provided with a power mechanism II for driving the rotating cavity to rotate, and the power mechanism II is preferably a servo motor;

the traversing bracket 41 can support the rotation of the rotating cavity 42, the rotating cavity 42 can drive the first wind power pipeline 51 and the second wind power pipeline 61 to rotate, the first wind power pipeline 51 and the second wind power pipeline 61 can drive the first circular ring pipeline 52 and the second circular ring pipeline 62 to rotate, the first circular ring pipeline 52 and the second circular ring pipeline 62 can drive the first circular arc cavities 53 and the second circular arc cavities 63 to rotate, the first circular arc cavities 53 can work when air is exhausted or air is absorbed, and the second circular arc cavities 63 can work when air is exhausted or air is absorbed;

the power mechanism II can be fixedly connected to the transverse moving support 41, an output shaft of the power mechanism II is in transmission connection with the rotating cavity 42, the rotating cavity 42 can be driven to rotate when the output shaft of the power mechanism II rotates, the first wind power pipeline 51 and the second wind power pipeline 61 which are fixedly connected to the power mechanism II can be driven to rotate when the rotating cavity 42 rotates, the first wind power pipeline 51 and the second wind power pipeline 61 can drive the first circular ring pipeline 52 and the second circular ring pipeline 62 which are fixedly connected to the power mechanism II to rotate, and the first circular ring pipeline 52 and the second circular ring pipeline 62 can drive the first circular arc cavity 53 and the second circular arc cavity 63 which are fixedly connected to the power mechanism II to rotate when the output shaft of the power mechanism II rotates, so that comprehensive wind dispersing and wind suction are carried out;

as shown in fig. 5 and 6;

the first wind power pipeline 51 is fixedly connected to the rotating cavity 42, the first wind power pipeline 51 is fixedly connected with the first circular ring pipeline 52, the first circular ring pipeline 52 is provided with a plurality of first circular arc cavities 53, the first circular arc cavities 53 are communicated through the first circular ring pipeline 52, the rotating cavity 42 is fixedly connected with the second wind power pipeline 61, the second wind power pipeline 61 is fixedly connected with the second circular ring pipeline 62, the second circular ring pipeline 62 is provided with a plurality of second circular arc cavities 63, the second circular arc cavities 63 are communicated through the second circular ring pipeline 62, the first circular arc cavities 53 on one side are air-out, the first circular arc cavities 53 on the other side are air-drawn, the second circular arc cavities 63 on one side are air-drawn, the wind power circulation is formed between the first circular arc cavities 53 on the two sides, and the wind power circulation is formed between the second circular arc cavities 63 on the two sides;

when in use, the first wind power pipeline 51 on the left side is connected with the air suction pipeline, the first wind power pipeline 51 on the right side is connected with the air outlet pipeline, the second wind power pipeline 61 on the left side is connected with the air outlet pipeline, and the second wind power pipeline 61 on the right side is connected with the air suction pipeline;

or, the first wind power pipeline 51 on the left side is connected with the air outlet pipeline, the first wind power pipeline 51 on the right side is connected with the air suction pipeline, the second wind power pipeline 61 on the left side is connected with the air suction pipeline, and the second wind power pipeline 61 on the right side is connected with the air outlet pipeline;

or, the first wind power pipeline 51 on the left side is connected with the air outlet pipeline, the first wind power pipeline 51 on the right side is connected with the air suction pipeline, the second wind power pipeline 61 on the left side is connected with the air outlet pipeline, and the second wind power pipeline 61 on the right side is connected with the air suction pipeline;

or, the first wind power pipeline 51 on the left side is connected with an air suction pipeline, the first wind power pipeline 51 on the right side is connected with an air outlet pipeline, the second wind power pipeline 61 on the left side is connected with the air suction pipeline, and the second wind power pipeline 61 on the right side is connected with the air outlet pipeline;

that is, a person skilled in the art may adjust the connection of the pipes on the first wind pipe 51 and the second wind pipe 61 according to the use requirement of the wind direction;

when the first wind pipeline 51 and the second wind pipeline 61 on the same side are simultaneously connected with the air outlet pipeline, and the first wind pipeline 51 and the second wind pipeline 61 on the other side are simultaneously connected with the air suction pipeline, wind power circulation is formed between the first circular arc cavities 53 and the second circular arc cavities 63 on one side and the first circular arc cavities 53 and the second circular arc cavities 63 on the other side, so that air flows from the air outlet side to the air suction side rapidly, and further the circulating replacement of the air is completed rapidly;

when the first wind power pipeline 51 and the second wind power pipeline 61 on the same side are connected with different pipelines, namely one wind outlet and one wind suction, and the first wind power pipeline 51 and the second wind power pipeline 61 on the other side are also connected with different pipelines, namely one wind outlet and one wind suction, an air flow direction is formed between the plurality of first circular arc cavities 53 and the plurality of first circular arc cavities 53 which are positioned on the inner side, and another air flow direction is formed between the plurality of second circular arc cavities 63 and the plurality of second circular arc cavities 63 which are positioned on the outer side, so that the air flow directions of the inner part and the outer part are different, the air can be quickly replaced, and the air can also be quickly flowed;

as shown in fig. 1;

the first circular arc cavities 53 and the second circular ring pipelines 62 correspond to each other, the first circular arc cavities 53 and the second circular ring pipelines 62 are contacted with each other to form a plurality of rotating cavities, the wind ring 71 is rotationally connected to each rotating cavity, the two second air pipes 72 are fixedly connected to the wind ring 71, and the filter plate 73 is fixedly connected to each second air pipe 72;

the wind ring 71 is provided with a power mechanism IV for driving the wind ring 71 to rotate, the power mechanism IV is preferably a servo motor, the power mechanism IV can be fixedly connected to the first circular ring pipeline 52, the wind ring 71 can be driven to rotate when the power mechanism IV is started, the wind ring 71 can rotate on a rotating cavity formed by the first circular arc cavity 53 and the second circular ring pipeline 62, the two second air pipes 72 can also rotate when the wind ring 71 rotates, as shown in fig. 7, the two second air pipes 72 are oppositely arranged, and when one second air pipe 72 is communicated with the first circular arc cavity 53, the other second air pipe 72 is communicated with the second circular arc cavity 63, so that wind force can be intensively dispersed or sucked;

meanwhile, the internal air flow and the external air flow are ensured not to be influenced by the rotation of the air ring 71, namely, when the two second air pipes 72 rotate to the corresponding first circular arc cavities 53 or the second circular ring pipelines 62, the air suction or the air outlet can be automatically switched;

each second air pipe 72 is fixedly connected with a filter plate 73, so that air can be rapidly filtered, and the air can be completely and rapidly filtered and replaced by being matched with the rotation of the upper rotating cavity 42;

as shown in fig. 8, in order to rapidly increase the humidity of the air or rapidly dry the air;

the support ring 31 is rotationally connected with a rotating ring 81, a plurality of holes are formed in the rotating ring 81, a plurality of arc pressing plates 82 are slidably connected between the rotating ring 81 and the support ring 31, absorbent cotton 83 is fixedly connected to the rotating ring 81, a power mechanism III is fixedly connected to the support ring 31, the power mechanism III is preferably a servo motor, and the power mechanism III can drive the rotating ring 81 to rotate;

starting a power mechanism III, wherein the power mechanism III can be fixedly connected to a supporting ring 31, an output shaft of the power mechanism III drives a rotating ring 81 to rotate, when the rotating ring 81 rotates, the rotating ring 81 drives a water absorbing cotton 83 to rotate, so that the water absorbing cotton 83 continuously passes through two first air pipes 32 and a water inlet pipe 33, water can be injected into the water absorbing cotton 83 through the water inlet pipe 33, when humidification is needed, the first air pipe 32 connected with an air inlet pipeline is opened, the first air pipe 32 injects gas into the water absorbing cotton 83, the injected gas enters a large space to be humidified after being humidified through the water absorbing cotton 83, when moisture in the large space needs to be absorbed, the first air pipe 32 connected with an air exhaust pipeline is opened, the first air pipe 32 is used for exhausting, so that the air in the large space enters the water absorbing cotton 83 through a plurality of holes formed in the rotating ring 81 to contact with the water absorbing cotton 83, and the water absorbing cotton 83 absorbs the moisture in the air;

as shown in fig. 10, in order to ensure that the absorbent cotton 83 can be used for a long period of time, a telescopic mechanism 91 and a wheel 92 are provided;

the bottom bracket 11 is fixedly connected with a telescopic mechanism 91, the telescopic end of the telescopic mechanism 91 is fixedly connected with a wheel 92, and the wheel 92 is contacted with the circular arc pressing plate 82 at the lower side of displacement;

the telescopic mechanism 91 can be a hydraulic cylinder or an electric push rod, the telescopic mechanism 91 is started, the telescopic end of the telescopic mechanism 91 drives the wheel 92 to move, the wheel 92 extrudes the arc pressing plate 82 passing through, the arc pressing plate 82 extrudes the absorbent cotton 83, so that the moisture in the absorbent cotton 83 is extruded, and flows out of the drain pipe 34, and then when the absorbent cotton 83 rotates, the plurality of arc pressing plates 82 sequentially pass through the wheel 92, and the drainage of the moisture in the absorbent cotton 83 is completed.

Claims (7)

1. The utility model provides a big space jet air conditioning unit heat and humidity treatment facility, includes bottom support (11), its characterized in that: the device comprises a bottom bracket (11), two transverse supports (41) are slidably connected to the bottom bracket (11), a rotating cavity (42) is rotationally connected to the two transverse supports (41), a first wind power pipeline (51) and a second circular pipeline (62) are fixedly connected to each rotating cavity (42), a first circular pipeline (52) is fixedly connected to the first wind power pipeline (51), a plurality of first circular arc cavities (53) are arranged on the first circular pipeline (52), a second wind power pipeline (61) is fixedly connected to the rotating cavity (42), a second circular pipeline (62) is fixedly connected to the second wind power pipeline (61), a plurality of second circular arc cavities (63) are arranged on the second circular pipeline (62), one side of the first circular arc cavities (53) is used for outputting wind, the other side of the first circular arc cavities (53) is fixedly connected with the first circular arc cavities (63), the other side of the second circular arc cavities (63) are used for sucking wind, a plurality of second circular arc cavities (63) are used for forming circular arcs between the two sides of the first circular arc cavities (53) and the second circular arcs (63) are used for circulating between the two sides;

the middle part of the bottom bracket (11) is fixedly connected with a support ring (31), the upper end of the support ring (31) is fixedly connected with a first air pipe (32) and a water inlet pipe (33), and the lower end of the support ring (31) is fixedly connected with a water outlet pipe (34);

the rotary ring (81) is rotationally connected with the support ring (31), a plurality of holes are formed in the rotary ring (81), a plurality of arc pressing plates (82) are connected between the rotary ring (81) and the support ring (31) in a sliding mode, and water absorbing cotton (83) is fixedly connected to the rotary ring (81);

the telescopic mechanism (91) is fixedly connected to the bottom support (11), the wheel (92) is fixedly connected to the telescopic end of the telescopic mechanism (91), and the wheel (92) is in contact with the circular arc pressing plate (82) at the lower side of displacement.

2. The heat and moisture treatment apparatus of a large space jet air conditioning unit as claimed in claim 1, wherein: the front side and the rear side of the bottom bracket (11) are both rotationally connected with screw rods (21), and the two transverse moving brackets (41) are respectively connected to the two screw rods (21) through threads.

3. The heat and moisture treatment apparatus of a large space jet air conditioning unit as claimed in claim 1, wherein: the plurality of first circular arc cavities (53) are communicated through a first circular ring pipeline (52).

4. A large space jet air conditioning unit heat and moisture treatment apparatus as defined in claim 3, wherein: the plurality of second circular arc cavities (63) are communicated through a second circular ring pipeline (62).

5. The heat and humidity treatment equipment of the large-space jet air conditioning unit according to claim 4, wherein:

the first circular arc cavities (53) and the second circular ring pipelines (62) are mutually corresponding, and the first circular arc cavities (53) and the second circular ring pipelines (62) are mutually contacted to form a plurality of rotating cavities.

6. The heat and moisture treatment apparatus of a large space jet air conditioning unit as claimed in claim 5, wherein:

each rotating cavity is rotationally connected with an air ring (71), and two second air pipes (72) are fixedly connected to the air rings (71).

7. The heat and moisture treatment apparatus of a large space jet air conditioning unit as set forth in claim 6, wherein:

and each second air pipe (72) is fixedly connected with a filter plate (73).