CN114941878A

CN114941878A - Radiation air conditioning system

Info

Publication number: CN114941878A
Application number: CN202210464695.3A
Authority: CN
Inventors: 陈英; 王明明
Original assignee: Shanghai Beiya Clean Project Co ltd
Current assignee: Shanghai Beiya Clean Project Co ltd
Priority date: 2022-04-29
Filing date: 2022-04-29
Publication date: 2022-08-26

Abstract

The application discloses a radiation air-conditioning system, which relates to the field of air-conditioning system installation technology, and comprises a cold and heat source, a slide rail arranged on a roof and a radiation plate connected on the slide rail in a sliding manner, wherein a cold and heat pipeline is arranged in the radiation plate, and a telescopic pipe is connected between the cold and heat pipeline and the cold and heat source; and an avoidance groove for avoiding the radiation plate is reserved on the upper side of the vertical wall of the two adjacent rooms, the sliding rail spans the two adjacent rooms, and the middle part of the sliding rail penetrates through the avoidance groove. The method and the device have the effects of reducing the waste of resources and improving the efficiency of site construction.

Description

Radiation air conditioning system

Technical Field

The application relates to the field of air conditioning system installation technology, in particular to a radiation air conditioning system.

Background

The radiation cooling (warming) is a technical method for reducing (increasing) the temperature of one or more surfaces in the inner surface of the enclosure structure to form a cold (hot) radiation surface and carrying out cooling (warming) by means of radiation heat exchange between the radiation surface and human bodies, furniture and other surfaces of the enclosure structure. Wherein the radiating surface may be formed by providing cold (hot) pipes in the enclosure.

At present, for a ceiling type radiation system, in order to ensure heating and cooling of each room, a cold-hot pipeline is often required to be arranged in the ceiling of each room so as to achieve heating and cooling of each room.

In view of the above-mentioned related art, the inventor believes that there is a room to be improved in that the cold and hot pipes are installed on the ceiling of each room, which causes a certain waste of resources and is inefficient in on-site construction.

Disclosure of Invention

In order to improve the situation that certain resources are wasted and the field construction efficiency is low due to the fact that cold and hot pipelines are arranged on the ceilings of all rooms in the related art, the application provides a radiation air-conditioning system.

The application provides a radiation air conditioning system adopts following technical scheme:

a radiation air-conditioning system comprises a cold and heat source, a slide rail arranged on a roof and a radiation plate connected on the slide rail in a sliding way, wherein a cold and heat pipeline is arranged in the radiation plate, and a telescopic pipe is connected between the cold and heat pipeline and the cold and heat source;

and an avoidance groove for avoiding the radiation plate is reserved on the upper side of the vertical wall of the two adjacent rooms, the sliding rail spans the two adjacent rooms, and the middle part of the sliding rail penetrates through the avoidance groove.

Through adopting above-mentioned technical scheme, in the practical application, according to the user's in service behavior in room, can slide the radiation board on the slide rail for the radiation board enters into corresponding room through dodging the groove. Simultaneously, can all produce at the mill to slide rail, flexible pipe, radiation panel, transport and to the scene can carry out quick installation and assembly to help reducing the waste to the resource, and help promoting the efficiency of site operation.

It should be noted that, in actual installation, the installation of this radiation air conditioning system should avoid offering on the bearing wall and dodge the groove, should select the wall body that mainly plays the wall effect and the room of both sides and carry out this radiation air conditioning system's installation, and the bearing wall is as the important ring of support system in the building body, plays important supporting role to the security of building body, should not receive the destruction.

Preferably, the slide rail is provided with a track groove along the trend thereof, the middle part of the upper side of the radiation plate is fixedly provided with a hanging bracket, the hanging bracket is provided with a roller in a rotating manner, the roller is embedded into the track groove and slides in the track groove in a rolling manner, the hanging bracket is arranged on the upper side of the radiation plate along the trend of the slide rail, and the roller corresponds to the hanging bracket one by one.

Through adopting above-mentioned technical scheme, the radiation board rolls through the gyro wheel and slides and connect in the slide rail, helps guaranteeing convenience and stability that the radiation board slided.

Preferably, a pipeline groove is formed in the sliding rail along the trend of the sliding rail, and the telescopic pipe is located in the pipeline groove.

Through adopting above-mentioned technical scheme, arrange the pipeline inslot with flexible pipe in, help guaranteeing the security of flexible pipe to reduce flexible pipe and leak the pleasing to the eye influence of house furred ceiling outward.

Preferably, the flexible pipe is the flexible pipe of corrugate, it is provided with the arresting plate to slide on the slide rail, the arresting plate blocks and is in pipeline groove mouth department and blocks flexible pipe and deviate from the pipeline groove, the arresting plate is provided with a plurality ofly along the even interval of slide rail trend, and every arresting plate equal fixed connection is in the corresponding position under the flexible pipe stretching state.

By adopting the technical scheme, on one hand, the telescopic pipe is arranged to be the corrugated telescopic pipe, which is beneficial to ensuring the telescopic range and normal telescopic motion of the telescopic pipe. On the other hand, along with the flexible of flexible pipe, will drive and block the board and correspond to slide to block the flexible pipe by blocking the board and deviate from the pipeline groove, help guaranteeing the stability of flexible pipe in the pipeline groove, and reduce the flexible pipe and leak the condition emergence that influences house furred ceiling aesthetic property outward.

Preferably, the both ends of slide rail are rotated respectively and are provided with the action wheel and follow the driving wheel, around being equipped with the drive belt between action wheel and the follow driving wheel, the slide rail is at the fixed driving motor that is provided with in one end of action wheel, driving motor is connected with the action wheel transmission, the fixed link that is provided with in middle part of radiation plate, the link is fixed with one side of drive belt.

Through adopting above-mentioned technical scheme, among the in-service use, driving motor drives the action wheel and rotates to drive the drive belt application, and then drive radiation plate reciprocating motion, thereby realize the automatic drive to radiation plate sliding motion, promote this radiation air conditioning system's degree of automation, and help promoting the convenience that radiation plate removed.

Preferably, the radiation plate can be dismantled fixedly connected with and be used for the shutoff to dodge the shutoff board in the both sides on the slide rail trend.

By adopting the technical scheme, when the radiation plate enters the corresponding room and the blocking plate on one side of the radiation plate close to the other room blocks the avoidance groove, the sliding of the radiation plate can be stopped, and the blocking plate is stably blocked in the avoidance groove; at the moment, the radiation plate and the plugging plate can be separated, so that the plugging plate plugs the avoidance groove, and the radiation plate is continuously moved to a proper position, thereby being beneficial to reducing the condition that the temperatures of two rooms are influenced by the avoidance groove.

Preferably, the plugging plate is connected to the sliding rail in a sliding manner.

By adopting the technical scheme, the plugging plate is favorably ensured to be plugged in the avoiding groove, and the situation that the plugging plate falls to hurt people is reduced.

Preferably, the radiation plate comprises a mounting plate positioned on the upper side and a decorative plate positioned on the lower side, the mounting plate is fixedly connected with the decorative plate, and the cold and heat pipeline is mounted between the mounting plate and the decorative plate.

Through adopting above-mentioned technical scheme, install cold and hot pipeline between mounting panel and decorative board, help guaranteeing the aesthetic property of radiant panel in the room.

Preferably, the mounting plate is provided with a reflecting layer on the upper side of the cold and hot pipelines.

By adopting the technical scheme, the radiation of the cold and hot pipelines is reflected by the reflecting layer, which is beneficial to ensuring the radiation efficiency of the cold and hot pipelines to rooms.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the radiation plate slides on the slide rail, is installed on the roof, and is provided with the avoidance groove on the vertical wall, so that the waste of resources is reduced, and the efficiency of site construction is improved;

2. the blocking plate fixedly connected to the telescopic pipe is connected to the slide rail in a sliding mode, so that the stability of the telescopic pipe in the pipeline groove is guaranteed, and the condition that the attractiveness of a suspended ceiling of a house is affected by leakage of the telescopic pipe is reduced;

3. the avoiding groove is sealed by comprehensively utilizing the sealing plate detachably fixed on the radiation plate, so that the condition that the temperatures of two rooms are influenced by the avoiding groove is favorably reduced.

Drawings

FIG. 1 is a schematic axial view of the overall structure of a radiation air conditioning system according to the present embodiment;

FIG. 2 is a partial sectional view of the embodiment mainly showing the structure of the sliding rail and the cold and hot pipes;

FIG. 3 is a partial sectional view of the present embodiment mainly showing the sliding structure of the radiation plate and the structure of the driving assembly;

FIG. 4 is a schematic view of the present embodiment mainly showing the structure of the extension tube and the blocking plate;

FIG. 5 is an enlarged view of a portion A of FIG. 4, which mainly shows the structure of the damming board and the chute;

fig. 6 is a partial sectional view mainly showing the structure of the radiation plate in the present embodiment.

Reference numerals: 1. a slide rail; 11. a track groove; 12. a support plate; 13. a pipe chase; 14. a chute; 2. a radiation plate; 21. mounting a plate; 211. a coil pipe groove; 212. a reflective layer; 22. a decorative plate; 3. a cold-hot pipeline; 4. a telescopic pipe; 31. a damming board; 5. an avoidance groove; 6. a drive assembly; 61. a driving wheel; 62. a driven wheel; 63. a transmission belt; 64. a drive motor; 7. a hanger; 71. a roller; 8. a connecting frame; 9. a communicating pipe; 10. a plugging plate; 101. a magnetic block; 102. t-shaped sliding blocks.

Detailed Description

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

The embodiment of the application discloses a radiation air-conditioning system.

Example 1:

referring to fig. 1 and 2, the radiation air conditioning system includes a cold source and a heat source and a slide rail 1 installed on a roof, and a radiation plate 2 is slidably disposed on the lower side of the slide rail 1 along the direction of the slide rail 1. The cold and heat source can be a main machine for heating gas and cold gas, a main machine for heating water and cold water, or a combination of main machines in various forms. A cold and heat pipeline 3 is embedded in the radiation plate 2, and an extension pipe 4 is communicated between the cold and heat pipeline 3 and a cold and heat source. Meanwhile, an avoidance groove 5 for avoiding the radiation plate 2 is reserved on the upper side of the vertical wall of the two adjacent rooms, the sliding rail 1 stretches across the two adjacent rooms, the avoidance groove 5 penetrates through the middle of the sliding rail 1, and the sliding rail 1 or the roof is further provided with a driving assembly 6 for driving the radiation plate 2 to slide along the direction of the sliding rail 1.

During practical application, a user can drive the radiation plate 2 to slide along the slide rail 1 by the driving component 6 according to the activity duration of the user in the corresponding room, and the radiation plate passes through the avoiding groove 5 to enter the corresponding room. Then, a cold medium or a heat medium is supplied from a cold source into the cold/heat pipe 3, and the radiation plate 2 radiates a corresponding temperature to the room.

Specifically, referring to fig. 3, the slide rail 1 may be pre-embedded in a roof, fixed to the roof by fasteners such as bolts, or hung on the roof by a hanger 7. The slide rail 1 is provided with a rail groove 11 along the trend thereof, the opening of the rail groove 11 faces downwards, and supporting plates 12 are arranged on two sides of the width direction of the rail groove 11 and extend inwards. A hanger 7 is fixedly arranged in the middle of the upper side of the radiant panel 2, the upper side of the hanger 7 is embedded into the track groove 11, rollers 71 are rotatably arranged on the upper side of the hanger 7 along both sides of the track groove 11 in the width direction, and the two rollers 71 respectively abut against the upper sides of the two support plates 12 and roll and slide in the track groove 11. And, the gallows 7 is provided with a plurality of on radiant panel 2 side along slide rail 1 trend, and in this embodiment, the gallows 7 is provided with two to be fixed in radiant panel 2 both sides on slide rail 1 length direction respectively, and gyro wheel 71 and gallows 7 correspond the setting.

The drive assembly 6 comprises a driving pulley 61, a driven pulley 62 and a transmission belt 63. The driving pulley 61 and the driven pulley 62 are both toothed belt pulleys, the driving pulley 61 and the driven pulley 62 are both located on the inner side of the track groove 11, and the driving pulley 61 and the driven pulley 62 are respectively connected to two ends of the sliding track 1 in a rotating manner. The transmission belt 63 is a toothed belt, and the transmission belt 63 is annularly closed and wound around the driving wheel 61 and the driven wheel 62. The middle part of the upper surface of the radiant panel 2 is fixedly provided with a connecting frame 8, and the upper side of the connecting frame 8 extends into the track groove 11 and is fixed with the part of the transmission belt 63. The driving assembly 6 further comprises a driving motor 64, the driving motor 64 is fixed on one side of the sliding rail 1, which is located on the driving wheel 61, and an output shaft of the driving motor 64 penetrates through the rail groove 11 and is coaxially fixed with the driving wheel 61. In practice, the driving wheel 61 is driven by the driving motor 64 to rotate and drive the driving belt 63 to move, so that the radiation plate 2 slides along the track groove 11.

Next, referring to fig. 4 and 5, the telescopic pipe 4 is a corrugated telescopic pipe, a pipe groove 13 is formed on the top wall of the rail groove 11 along the length direction of the rail groove 11, and the telescopic pipe 4 is located in the pipe groove 13 and arranged along the pipe groove 13. The two sides of the pipeline channel 13 in the width direction are both provided with sliding grooves 14, a blocking plate 31 is arranged between the two sliding grooves 14, and the two opposite sides of the blocking plate 31 are respectively embedded into the sliding grooves 14 and are in sliding fit with the sliding grooves 14. The arresting plates 31 are uniformly arranged along the length direction of the pipeline channel 13 at intervals, and each arresting plate 31 is fixedly connected to a corresponding position of the telescopic pipe 4 in an extending state. Meanwhile, a communicating pipe 9 is vertically and fixedly arranged on the upper side of the radiation plate 2, the communicating pipe 9 is a hard pipe, preferably a metal pipe, the lower end of the communicating pipe 9 is communicated with the cold and hot pipeline 3, and the upper end of the communicating pipe 9 is bent towards one side of the extension pipe 4 and is communicated with the extension pipe 4. In actual use, the communicating pipe 9 pushes the telescopic pipe 4 to extend or contract, the blocking plate 31 moves along the length direction of the pipeline slot 13 along with the extension and contraction of the telescopic pipe 4, and the blocking plate 31 blocks the telescopic pipe 4 from falling out of the pipeline slot 13.

It should be noted that, in order to adapt to the water inlet and outlet of the cold and hot pipeline 3, two communicating pipes 9 are arranged at intervals on the radiation plate 2 along the length direction of the pipeline slot 13, and the lower ends of the two communicating pipes 9 are respectively communicated with the water inlet and the water outlet of the cold and hot pipeline 3. The two telescopic pipes 4 are respectively arranged at two sides of the pipeline groove 13, which are positioned on the radiation plate 2, one end of each of the two telescopic pipes 4, which is close to the radiation plate 2, is respectively communicated with the upper ends of the two communicating pipes 9, the blocking plate 31 is correspondingly arranged with the telescopic pipes 4, and the end parts of the two telescopic pipes 4, which are deviated from each other, are respectively communicated with a water outlet and a water return port of a cold and heat source.

Referring to fig. 6, the radiation plate 2 includes a horizontally disposed mounting plate 21 and a decorative plate 22, the mounting plate 21 is located on the upper side of the decorative plate 22, and the hanger 7, the connecting frame 8, and the communicating pipe 9 are all fixed on the mounting plate 21. In this embodiment, the decorative plate 22 is fastened to the mounting plate 21 by bolts, or may be glued to the mounting plate 21. The coil groove 211 is opened below the mounting plate 21, the cold and hot pipeline 3 is coil-shaped and is matched with the coil groove 211, and the cold and hot pipeline 3 is embedded in the coil groove 211. In order to ensure the efficiency of the indoor radiation of the temperature of the cold and hot pipelines 3, the reflective layer 212 is laid on the side wall of the coil groove 211, the reflective layer 212 is made of an aluminum foil layer, a glass fiber layer, or a combination of aluminum foil and glass fiber, and the reflective layer 212 and the cold and hot pipelines 3 are both encapsulated in the coil groove 211 by the decorative plate 22.

In order to reduce the mutual influence of the temperatures in two adjacent rooms, referring to fig. 3 and 6, the two side surfaces of the radiation plate 2 in the length direction of the slide rail 1 are provided with plugging plates 10. The plugging plates 10 are made of light heat-insulating materials, magnetic blocks 101 are embedded in two corresponding side faces of the two plugging plates 10 and the radiation plate 2, and the magnetic blocks 101 on the plugging plates 10 are in adsorption fit with the magnetic blocks 101 on the radiation plate 2. Meanwhile, the upper sides of the two blocking plates 10 are fixed with T-shaped sliders 102, and the two T-shaped sliders 102 are embedded in the track grooves 11 and are in sliding fit with the track grooves 11.

The implementation principle of the radiation air-conditioning system in the embodiment of the application is as follows: during actual use, according to the use condition of a room, a user can drive the driving wheel 61 to rotate by means of the driving motor 64, drive the transmission belt 63 to move, and drive the radiation plate 2 to slide into the corresponding room along the slide rail 1; when the radiation plate 2 enters the corresponding room and the blocking plate 10 on the radiation plate 2 is just blocked in the avoidance groove 5, the driving motor 64 can be immediately turned off, or the blocking plate 10 can be separated from the radiation plate 2, the avoidance groove 5 is blocked by the blocking plate 10, and the radiation plate 2 is continuously moved to a proper position in the room.

Meanwhile, the extension tube 4 is pushed and pulled by the communicating tube 9 to extend and retract, and the blocking plate 31 is driven to slide, so that the extension tube 4 is blocked by the blocking plate 31 to fall and fall out of the pipeline groove 13.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A radiant air conditioning system comprising a source of cold and heat, characterized in that: the heat radiation device is characterized by further comprising a slide rail (1) arranged on the roof and a radiation plate (2) connected to the slide rail (1) in a sliding manner, wherein a cold and heat pipeline (3) is arranged in the radiation plate (2), and a telescopic pipe (4) is connected between the cold and heat pipeline (3) and a cold and heat source;

and, the upside of the vertical wall in two adjacent rooms reserves dodges groove (5) that are used for dodging radiant panel (2), slide rail (1) span two adjacent rooms, just the middle part of slide rail (1) runs through dodges groove (5).

2. A radiant air conditioning system as claimed in claim 1, wherein: be provided with track groove (11) along its trend on slide rail (1), radiation board (2) are gone up the middle part of side and are fixed and are provided with gallows (7), it is provided with gyro wheel (71) to rotate on gallows (7), gyro wheel (71) imbed in track groove (11) and roll and slide in track groove (11), just gallows (7) are gone up side on radiation board (2) and are provided with a plurality ofly along slide rail (1) trend, gyro wheel (71) and gallows (7) one-to-one.

3. A radiant air conditioning system as claimed in claim 1, wherein: a pipeline groove (13) is formed in the sliding rail (1) along the trend of the sliding rail, and the telescopic pipe (4) is located in the pipeline groove (13).

4. A radiant air conditioning system as claimed in claim 3, wherein: the flexible pipe (4) are corrugated flexible pipes, slide on slide rail (1) and be provided with and block sideboard (31), block sideboard (31) and block flexible pipe (4) and deviate from pipeline groove (13) at pipeline groove (13) slot department, block sideboard (31) and be provided with a plurality ofly along slide rail (1) trend even interval, and every blocks the corresponding position of sideboard (31) equal fixed connection under flexible pipe (4) extension state.

5. A radiant air conditioning system as claimed in claim 1, wherein: the utility model discloses a radiation plate, including the radiation plate, the both ends of slide rail (1) are rotated respectively and are provided with action wheel (61) and follow driving wheel (62), around being equipped with drive belt (63) between action wheel (61) and the follow driving wheel (62), slide rail (1) is fixed in the one end of action wheel (61) and is provided with driving motor (64), driving motor (64) are connected with action wheel (61) transmission, the fixed link (8) that is provided with in middle part of radiation plate (2), link (8) are fixed with one side of drive belt (63).

6. A radiant air conditioning system as claimed in claim 1, wherein: the radiation plate (2) can be fixedly connected with a plugging plate (10) which is used for plugging the avoiding groove (5) on two sides of the moving direction of the slide rail (1) in a detachable mode.

7. A radiant air conditioning system as claimed in claim 6, wherein: the plugging plate (10) is connected to the sliding rail (1) in a sliding manner.

8. A radiant air conditioning system as claimed in claim 1, wherein: radiant panel (2) are including being located mounting panel (21) of upside and being located decorative board (22) of downside, mounting panel (21) and decorative board (22) fixed connection, cold heat pipeline (3) are installed between mounting panel (21) and decorative board (22).

9. A radiant air conditioning system as claimed in claim 8, wherein: and the mounting plate (21) is provided with a reflecting layer (212) on the upper side of the cold and heat pipeline (3).