CN217423428U - Large-space intelligent variable-air supply island device - Google Patents

Abstract

The utility model relates to a large-space intelligent variable-air supply island device, which comprises a shell, wherein the shell consists of an inner cylinder body and an outer shell body which are coaxially arranged; the processing unit is arranged in the inner cylinder body and comprises a partition plate, a filter, a heat exchanger and a water condensation disc; a distribution unit arranged in the outer shell and comprising a plurality of air distribution pipelines distributed in the outer shell in a ring shape. The utility model has the advantages that: the air supply is realized through the cooperation between the shell, the processing unit and the distribution units, the change of the wind direction is realized through the air distribution pipeline distributed annularly, the aim of horizontal air outlet all around is realized, the basic equalization of the wind force all around is ensured by the air supply mode, the refrigeration or heating or heat exchange effect is improved, and the air outlet mode is horizontal air outlet, so that air can not be directly blown to a human body, and the use comfort level is improved.

Description

Large-space intelligent variable-air supply island device

Technical Field

The utility model relates to an air supply arrangement, in particular to big space intelligence becomes wind air supply island device.

Background

The air conditioner is a common household appliance, and warm air or cold air generated during working is discharged from the air outlet and is subjected to convection exchange with indoor air, so that the purpose of increasing or reducing the temperature is achieved, and the comfort level of people in the indoor environment is further improved. At present, the following air conditioners are more used in the market: wall-mounted air conditioners, floor air conditioners, ceiling air conditioners and ceiling air conditioners, which are generally applied to large areas such as large shopping malls and office buildings to perform centralized refrigeration or heating or ventilation.

At present, the ceiling type air conditioner or the ceiling type air conditioner in the market generally has certain defects: because the air conditioners are required to be supplied with concentrated air, the air conditioners are all selected to be installed on the top surface of a room when being installed, and the air outlet is designed on the bottom surface of the air conditioner, namely the air outlet is arranged on the bottom surface, certain defects can be caused due to the design, because the air outlet is arranged on the bottom surface, the air is directly blown downwards, and the air outlet of most ceiling type air conditioners or ceiling type air conditioners is fixed, so that two problems exist, one problem is that the air is blown downwards, the mode causes that the force for diffusing the wind around is insufficient, namely the wind cannot be diffused around well, and the other problem is that the wind at the air outlet is strongest when people pass through the air outlet after touching the ground, the strong wind blows from the top of the head, which brings discomfort to people.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a diffusion is effectual, can follow the big space intelligence variable wind air supply island device of people's comfort.

In order to solve the technical problem, the technical scheme of the utility model is that: the utility model provides a big space intelligence becomes wind air supply island device which innovation point lies in: comprises that

The shell consists of an inner cylinder body and an outer shell body which are coaxially arranged, an air treatment inner cavity is arranged in the inner cylinder body, a through hole for installing the inner cylinder body is formed in the outer shell body, and the inner cylinder body is embedded into the through hole in the outer shell body and then fixed with the outer shell body;

the processing unit is arranged in the inner cylinder body and comprises a partition plate which divides an air processing inner cavity into an upper cavity and a lower cavity, a through hole which is communicated with the upper cavity and the lower cavity is formed in the middle of the partition plate, a filter, a heat exchanger and a water condensation disc are sequentially arranged in the upper cavity from top to bottom, a gap is reserved between the filter and the heat exchanger, a path which vertically penetrates through the heat exchanger and allows air to pass through is formed in the middle of the heat exchanger, the water condensation disc is arranged on the upper end surface of the partition plate, a through hole which allows air to pass through is formed in the middle of the water condensation disc, a volute-free fan is arranged in the lower cavity, the volute-free fan is arranged on the lower end surface of the partition plate, and an air inlet of the volute-free fan is communicated with the through hole in the partition plate;

the distribution unit is arranged in the outer shell and comprises a plurality of gas distribution pipelines distributed in the outer shell in an annular shape, gas inlets of the gas distribution pipelines extend out of the inner wall of the circumference of the outer shell and are communicated with the lower cavity of the inner barrel, and gas outlets of the gas distribution pipelines extend out of the outer wall of the circumference of the outer shell.

Further, the inner cylinder is cylindrical, the outer shell is disc-shaped, the bottom end face of the inner cylinder is flush with the bottom end face of the outer shell, the top end face of the inner cylinder exceeds the top end face of the outer shell, and the cross section of the outer shell formed after the inner cylinder is connected with the outer shell is in an inverted T shape.

Furthermore, a pair of spring dampers are further installed at the top end of the inner cylinder body, and the two spring dampers are respectively located on two sides of the inner cylinder body.

Further, it is the ring form to congeal the water dish, has the first breakwater of a vertical annular form that upwards extends outside the circumference of congealing the water dish, has the annular form second breakwater of a vertical annular form that upwards extends at the circumference inboard of congealing the water dish, congeal water dish, first breakwater, second breakwater cooperate jointly to form a water receiving cavity, still install the water pipe that congeals that is linked together with the water receiving cavity on the barrel including, it is located the bottom position of water receiving cavity to congeal the water pipe.

Further, the spout that lies in each gas distribution pipeline's gas outlet department on the shell body still installs the one-to-one, the spout is including a linkage segment, an air-out section that connects gradually, and wherein the linkage segment is arranged in the shell body to link to each other with the gas distribution pipeline, and the outer wall of linkage segment and the inner wall looks gomphosis of gas distribution pipeline have a first through-hole that holds the circulation of air in the linkage segment, the air-out section is located the outside of shell body, has a second through-hole that holds the circulation of air in the air-out section, and the diameter of second through-hole is less than the diameter of gas outlet of gas distribution pipeline.

Furthermore, the junction of the connecting section and the air outlet section is also provided with a limiting section, the limiting section is in a circular ring shape, the limiting section is positioned on the outer wall of the shell and is attached to the shell, the diameter of the outer wall of the limiting section is larger than that of the outer wall of the air outlet section, and the air outlet section is in arc transitional connection with the limiting section.

Further, the diameter of the second through hole is 1/2-1/3 of the diameter of the air outlet of the air distribution pipeline.

Furthermore, the gas distribution pipeline is in a horn mouth shape, and the diameter of the gas distribution pipeline is gradually increased from the gas inlet of the gas distribution pipeline to the gas outlet of the gas distribution pipeline.

Further, a static pressure box is arranged in the outer shell.

The utility model has the advantages that: the utility model discloses in, realize the air feed through the cooperation between shell, processing unit, the distribution unit, adopt the cloth gas pipeline that the annular distributes to realize the change of wind direction, realized to the purpose of horizontal air-out all around, such air feed mode has guaranteed the basic impartial of wind-force all around, improves the refrigeration or heats or the effect of heat transfer, and this kind of air-out mode can not directly blow to the human body for horizontal air-out moreover, improves the comfort level of using.

The shell adopts the structure form that the cylindrical inner cylinder body and the disc-shaped shell body are combined together, so that the whole structure is more compact, the space required by installation is reduced, and the whole shell is more attractive.

The design of spring damper is then in order to play certain shock attenuation effect to whole shell, avoids leading to whole shell to produce very big vibrations because of the quick circulation of wind or the work of the components and parts in the shell, influences the steady operation of air conditioner.

To the design of the structure of the water condensation plate, the water collection cavity is formed by the common cooperation of the water condensation plate, the first water baffle and the second water baffle, so that condensed water generated in the working process is conveniently collected, and the phenomenon that the normal work of other components is influenced due to the fact that the condensed water flows into the inner barrel body is avoided.

The whole design that adopts the horn mouth form of gas distribution pipeline for the air can realize the diffusion after getting into gas distribution pipeline from the air inlet, slows down the velocity of flow of air, makes wind softer.

The design of the nozzle adopts the matching of the connecting section with inconsistent diameter and the air outlet section, so as to match with the air distribution pipeline, so that the air outlet from the air outlet of the air distribution pipeline can improve the air speed when passing through the air outlet section with small diameter, the force of the blown air is larger, the outward blowing distance is longer, and the diffusion effect is improved; the design of the limiting section between the connecting section and the air outlet section aims to limit and fix the position of the whole nozzle, so that the relative position between the nozzle and the air distribution pipeline and between the nozzle and the shell is fixed, and the phenomenon of movement is avoided.

The static pressure box arranged in the outer shell is matched with the air distribution pipeline to achieve the purpose of reducing noise.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is the utility model discloses a schematic diagram of big space intelligence variable wind air supply island device.

Fig. 2 is a front view of the large-space intelligent variable-air supply island device of the utility model.

Fig. 3 is a sectional view a-a of fig. 2.

Detailed Description

The following examples are presented to enable those skilled in the art to more fully understand the present invention and are not intended to limit the scope of the present invention.

The large-space intelligent variable-wind air supply island device shown in figures 1-3 comprises

A shell, the shell comprises barrel 2, shell body 1 in coaxial setting jointly, has an air treatment inner chamber in barrel 2 including, has the through-hole of barrel 2 installation in the shell body 1, and it is fixed with shell body 1 behind the through-hole in the shell body 1 is embedded to interior barrel 2, forms a whole.

The inner cylinder 2 is cylindrical, the outer shell 1 is disc-shaped, the bottom end face of the inner cylinder 2 is flush with the bottom end face of the outer shell 1, the top end face of the inner cylinder 2 exceeds the top end face of the outer shell 1, and the cross section of the outer shell formed after the inner cylinder 2 is connected with the outer shell 1 is in an inverted T shape. The outer shell adopts a structural form that the cylindrical inner cylinder body 2 and the disc-shaped outer shell body 1 are combined together, so that the whole structure is more compact, the space required by installation is reduced, and the whole appearance of the outer shell is more attractive.

A pair of spring dampers 9 is further installed at the top end of the inner cylinder 2, and the two spring dampers 9 are respectively located at two sides of the inner cylinder 2. The design of the spring damper 9 is to play a certain damping effect on the whole housing, so as to avoid that the whole housing generates great vibration due to the rapid circulation of wind or the operation of components in the housing, thereby influencing the stable operation of the air conditioner.

The processing unit is arranged in the inner cylinder body 2 and comprises a partition plate 3 for dividing an air processing inner cavity into an upper cavity 4 and a lower cavity 5, a through hole for communicating the upper cavity 4 with the lower cavity 5 is further formed in the middle of the partition plate 3, a filter 6, a heat exchanger 7 and a water condensation disc 8 are sequentially arranged in the upper cavity 4 from top to bottom, a gap for air circulation is reserved between the filter 6 and the heat exchanger 7, a path which vertically penetrates through the heat exchanger 7 and allows air to pass through is formed in the middle of the heat exchanger 7, a water inlet 13 and a water outlet 12 which are vertically distributed are further formed in the side end of the heat exchanger 7, the water condensation disc 8 is arranged on the upper end face of the partition plate 3, and a through hole for allowing air to pass through is formed in the middle of the water condensation disc 8.

It is the ring form to congeal water tray 8, has the vertical first breakwater of the annular form that upwards extends outside the circumference of congealing water tray 8, has the vertical annular form second breakwater that upwards extends in the circumference inboard of congealing water tray 8, congeals water tray 8, first breakwater, the cooperation of second breakwater forms a water receiving cavity jointly, and 2 still install on the inner tube body and congeal water pipe 11 that is linked together with the water receiving cavity, congeal water pipe 11 and are located the bottom position of water receiving cavity. To the design of the structure of congealing the water tray, adopt the water tray 8, first breakwater, the common cooperation of second breakwater to form a water receiving cavity to conveniently connect the comdenstion water that produces in the course of the work, inside barrel in avoiding this part comdenstion water flow to, and influence the normal work of other components and parts.

A volute-free fan 10 is installed in the lower cavity 4, the volute-free fan 10 is installed on the lower end face of the partition plate 3, an air inlet of the volute-free fan 10 is communicated with a through hole in the partition plate 3, and an air outlet of the volute-free fan 10 is communicated with the lower cavity 4.

And the distribution unit is arranged in the outer shell 1 and comprises a plurality of gas distribution pipelines 14 which are distributed in the outer shell 1 in an annular shape, the gas inlets of the gas distribution pipelines 14 extend out of the circumferential inner wall of the outer shell 1, the gas distribution pipelines 14 are communicated with the lower cavity 4 of the inner barrel 2, and the gas outlets of the gas distribution pipelines 14 extend out of the circumferential outer wall of the outer shell 1.

The gas distribution pipeline 14 is in a bell mouth shape, and the diameter of the gas distribution pipeline 14 gradually increases from the gas inlet of the gas distribution pipeline 14 to the gas outlet of the gas distribution pipeline 14. The whole gas distribution pipeline 14 adopts the design of horn mouth form for the air can realize the diffusion after getting into gas distribution pipeline 14 from the air inlet, slows down the velocity of flow of air, makes wind softer.

Still install the spout of one-to-one on casing 1 at the gas outlet department of each gas distribution pipeline 14, the spout is including a linkage segment 17 that connects gradually, an air-out section 15, wherein linkage segment 17 is arranged in casing 1, and link to each other with gas distribution pipeline 14, and the outer wall of linkage segment 17 and gas distribution pipeline 14's inner wall looks gomphosis, a first through-hole that holds circulation of air has in linkage segment 17, air-out section 15 is located the outside of casing 1, a second through-hole that holds circulation of air has in air-out section 15, and the diameter of second through-hole is less than the diameter of gas outlet of gas distribution pipeline 14. The design of spout adopts the inconsistent linkage segment 17 of diameter and the cooperation of air-out section 15, then is in order to cooperate with gas distribution pipeline 14 for the air that comes out from gas outlet of gas distribution pipeline 14 can improve the wind speed when air-out section 15 through the diameter is little, makes the dynamics of the wind that blows off bigger, and the distance that blows outward is farther, improves the diffusion effect.

Still be provided with a spacing section 16 in linkage segment 17 and the junction of air-out section 15, this spacing section 16 is the ring form, and spacing section 16 is located shell body 1's outer wall to laminate mutually with shell body 1, the diameter of spacing section 16's outer wall is greater than the diameter of air-out section 15's outer wall, through arc transitional coupling between air-out section 15 and the spacing section 16. The design of the limiting section 16 between the connecting section 17 and the air outlet section 15 is to limit and fix the position of the whole nozzle, so that the relative position between the nozzle and the air distribution pipeline 14 and between the nozzle and the shell is guaranteed to be fixed, and the phenomenon of movement is avoided.

The diameter of the second through hole is 1/2-1/3 of the diameter of the air outlet of the air distribution pipeline 14. The relationship between the diameter of the second through hole and the diameter of the air outlet of the air distribution pipeline 14 is designed and controlled, so that the wind power and the flow speed of air sprayed out from the air outlet are controlled, and the optimal air outlet effect is achieved.

A static pressure tank is also provided within the outer housing 1. The static pressure box arranged in the outer shell 1 is matched with the air distribution pipeline to achieve the purpose of reducing noise.

The utility model provides a big space intelligence becomes wind air supply island device realizes the air feed through the cooperation between shell, the processing unit, the distribution unit, the change of wind direction is realized to the cloth gas pipeline that adopts the annular distribution, realized the purpose to horizontal air-out all around, such air feed mode, guaranteed wind-force all around basic impartial, improve the refrigeration or heat or the effect of heat transfer, this kind of air-out mode is horizontal air-out moreover, can directly blow to the human body, improve the comfort level of using.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a big space intelligence becomes wind air supply island device which characterized in that: comprises that

The shell consists of an inner cylinder body and an outer shell body which are coaxially arranged, an air treatment inner cavity is arranged in the inner cylinder body, a through hole for installing the inner cylinder body is formed in the outer shell body, and the inner cylinder body is embedded into the through hole in the outer shell body and then fixed with the outer shell body;

the processing unit is arranged in the inner barrel and comprises a partition plate for dividing an air processing inner cavity into an upper cavity and a lower cavity, a through hole for communicating the upper cavity with the lower cavity is formed in the middle of the partition plate, a filter, a heat exchanger and a water condensation disc are sequentially arranged in the upper cavity from top to bottom, a gap is reserved between the filter and the heat exchanger, a path which vertically penetrates through the heat exchanger and allows air to pass through is formed in the middle of the heat exchanger, the water condensation disc is arranged on the upper end face of the partition plate, a through hole for allowing air to pass through is formed in the middle of the water condensation disc, a volute-free fan is arranged in the lower cavity and is arranged on the lower end face of the partition plate, and an air inlet of the volute-free fan is communicated with the through hole in the partition plate;

the distribution unit is arranged in the outer shell and comprises a plurality of gas distribution pipelines distributed in the outer shell in an annular shape, gas inlets of the gas distribution pipelines extend out of the inner wall of the circumference of the outer shell and are communicated with the lower cavity of the inner barrel, and gas outlets of the gas distribution pipelines extend out of the outer wall of the circumference of the outer shell.

2. The large-space intelligent variable-wind air supply island device according to claim 1, wherein: the inner cylinder is cylindrical, the outer shell is disc-shaped, the bottom end face of the inner cylinder is flush with the bottom end face of the outer shell, the top end face of the inner cylinder exceeds the top end face of the outer shell, and the cross section of the outer shell formed after the inner cylinder is connected with the outer shell is in an inverted T shape.

3. The large-space intelligent variable-wind air supply island device according to claim 1, wherein: a pair of spring shock absorbers are further mounted at the top end of the inner cylinder body, and the two spring shock absorbers are located on two sides of the inner cylinder body respectively.

4. The large-space intelligent variable-wind air supply island device according to claim 1, wherein: the water condensation disc is in a circular ring shape, a vertical annular first water baffle plate extending upwards is arranged on the outer side of the circumference of the water condensation disc, a vertical annular second water baffle plate extending upwards is arranged on the inner side of the circumference of the water condensation disc, the first water baffle plate and the second water baffle plate are matched together to form a water receiving cavity, a water condensation pipe communicated with the water receiving cavity is further installed on the inner barrel, and the water condensation pipe is located at the bottom of the water receiving cavity.

5. The large-space intelligent variable-wind air supply island device according to claim 1, wherein: the utility model discloses a novel air distribution pipeline, including shell body, spout, air-out section and air-out section, air-out section are located the shell body, and link to each other with air-out pipeline, and the outer wall of linkage section and the inner wall looks gomphosis of air-out pipeline have one and hold the first through-hole of circulation of air in the linkage section, the air-out section is located the outside of shell body, has one in the air-out section and holds the second through-hole of circulation of air, and the diameter of second through-hole is less than the diameter of air-out pipeline.

6. The large-space intelligent variable-wind air supply island device according to claim 5, wherein: the connecting section is provided with an air outlet section, the air outlet section is connected with the air outlet section through an arc transition connection, the air outlet section is connected with the air outlet section through an air outlet pipe, and the air outlet section is connected with the air outlet section through an air outlet pipe.

7. The large-space intelligent variable-wind air supply island device according to claim 5, wherein: the diameter of the second through hole is 1/2-1/3 of the diameter of the air outlet of the air distribution pipeline.

8. The large-space intelligent variable-wind air supply island device according to claim 1, wherein: the gas distribution pipeline is in a horn mouth shape, and the diameter of the gas distribution pipeline is gradually increased from the gas inlet of the gas distribution pipeline to the gas outlet of the gas distribution pipeline.

9. The large-space intelligent variable-wind air supply island device according to claim 1, wherein: a static pressure box is further arranged in the outer shell.

Images