CN220453923U - Radiation air conditioner with internal and external heat radiation structure - Google Patents

Abstract

The utility model discloses a radiation air conditioner with an inner and outer heat dissipation structure, which comprises a floor heating body, wherein one end of the floor heating body is fixedly connected with an input port of a heat dissipation assembly through a floor heating pipe, one end of the floor heating body, which is far away from the input port of the heat dissipation assembly, is fixedly connected with an output port of the heat dissipation assembly through the floor heating pipe, the floor heating pipe is of a double-pipe structure, the floor heating pipe is respectively an inner pipe and an outer pipe, a support grid is arranged between the inner pipe and the outer pipe, and a cavity between the inner pipe and the outer pipe is fixedly connected with the output end of a vacuum pump through an air pipe. The floor heating pipe of the product is divided into an inner pipe and an outer pipe in a double-layer structure, a cavity is formed between the inner pipe and the outer pipe, a supporting grid is arranged in the inner cavity, and the cavity formed between the inner pipe and the outer pipe and a vacuum pump form a communication structure, so that a vacuum environment is formed between the inner pipe and the outer pipe, the floor heating pipe is convenient for insulating heat, and radiation air conditioner is prevented from being limited by the floor heating pipe, and heat dissipation and refrigeration cannot be effectively carried out.

Description

Radiation air conditioner with internal and external heat radiation structure

Technical Field

The utility model relates to the technical field of radiation air conditioners, in particular to a radiation air conditioner with an inner and outer heat dissipation structure.

Background

Radiant air conditioning is a better air conditioning apparatus for providing cooling and heating. The radiation air conditioning system has the advantages of energy saving, no noise, comfortable body feeling and the like. The floor heating widely used at present is a radiation air conditioning system as a winter heating mode. However, when the radiation air conditioner is cooled in summer, dew condensation is generated if the radiation surface temperature is lower than the dew point temperature of air, and the condensate accumulates on the radiation surface, which affects radiation efficiency and causes mold. In order to overcome the condensation problem of the radiant air conditioner, the radiant air conditioner generally designed must be equipped with a corresponding fresh air system for air exchange. The utility model provides a technical field warms up as in application number CN202223542724.8, concretely relates to heat abstractor of radiation air conditioner, including casing subassembly, pipeline subassembly, wind-force subassembly, radiator unit and folding subassembly, the inside of casing subassembly is arranged in to the pipeline subassembly, one side of pipeline subassembly is arranged in to the wind-force subassembly, the middle part of pipeline subassembly is arranged in to radiator unit interval equipartition, folding subassembly is connected with radiator unit, has solved the heat abstractor function singleness among the prior art, is mostly fixed knot structure, the not enough scheduling problem of adjustability.

A radiator similar to the above-mentioned one of the radiant air conditioners currently has the following drawbacks: according to the device, the radiating components are driven to be distributed on the pipeline components through the expansion and contraction of the folding components, so that different radiating effects are changed, the radiating components can be detached from the pipeline components, the radiating effect of the radiating device is changed, and the installation firmness and the adjustability of the device are improved; the folding vertical plate slides on the vertical plate sliding rod to push the folding hinge frame to open and fold and shrink, so that the use convenience of the device is improved; the heat dissipation size can be changed by changing the installation or the disassembly of the radiating fins and the contact area of the radiating fins and the pipeline assembly, so that the adjustability of the device is improved; the wind power assembly drives the wind power fan blades to rotate through the wind power swivel mount, and the heat dissipation effect of the device is improved through wind power acceleration; the heat dissipation performance of the device is improved, but the air exchange device can influence the radiation air conditioner, so that the heating and refrigerating effects are achieved, and the heat dissipation and refrigerating work cannot be effectively performed due to the limitation of the pipeline.

Accordingly, in view of the above, research and improvement on the existing structure and the defects are performed, and a radiation air conditioner with an inner and outer heat dissipation structure is provided to achieve the purpose of having more practical value.

Disclosure of Invention

The utility model aims to provide a radiation air conditioner with an inner and outer heat dissipation structure, which solves the problem that heat dissipation and refrigeration cannot be effectively performed due to the limitation of a pipeline in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a radiation air conditioner with inside and outside heat radiation structure, includes the body warms up, the one end of body warms up through the input port of ground heating pipe fixed connection radiator unit, the one end that the radiator unit input port was kept away from to the body warms up through the delivery port of ground heating pipe fixed connection radiator unit, the ground heating pipe is double-barrelled tubular structure, and the ground heating pipe is inner tube and outer tube respectively, and is provided with the support grid between inner tube and the outer tube, the cavity between inner tube and the outer tube is through the output fixed connection of trachea and vacuum pump.

Further, the radiating component comprises a radiating shell, the inner cavity of the radiating shell is provided with radiating fins, one side of each radiating fin is provided with a partition plate, two groups of partition plates are arranged, a first fan is arranged between the partition plates, one side of the first fan is provided with a second fan, a filter screen is embedded in the partition plates in a penetrating mode, temperature-control resistors are arranged above and below the first fan, a spray header is arranged above each radiating fin, the upper end face of the radiating shell is provided with a water tank, the lower side of each radiating fin longitudinally penetrates through the radiating shell to be provided with a water outlet, two end faces of each radiating fin are respectively provided with a water inlet and a water outlet, and one side of each water tank is provided with a water pump.

Further, the inside of water tank is provided with the water pipe, and the input of water pipe fixed connection water pump, the output of water pump pass through the water pipe with the shower constitutes the communication structure, the water inlet passes through the fin and constitutes the communication structure, one side of water tank up end sets up the controller of control first fan, second fan, temperature detect resistor and water pump and the power supply mouth of power supply.

Further, the side end face of the heat dissipation shell is provided with an air inlet, one side, far away from the air inlet, of the heat dissipation shell is provided with an air outlet, the air inlet at one end of the heat dissipation shell forms a communication structure with the air outlet through a partition plate and a filter screen, and the filter screen is an air filtering membrane.

Further, the floor heating body and the water inlet and the water outlet of the radiating fin form a communication structure through the water pipe, and the radiating shell forms a communication structure with the outside through the water outlet.

Furthermore, the vacuum pump forms a communication structure through a cavity between the air pipe and the inner pipe and the outer pipe, and the supporting grid arranged between the inner pipe and the outer pipe is phenolic resin plastic.

Compared with the prior art, the utility model has the beneficial effects that: the floor heating pipe has more visual influence on the floor heating body, the floor heating pipe is divided into the inner pipe and the outer pipe in a double-layer structure, a cavity is formed between the inner pipe and the outer pipe, the supporting grille is arranged in the cavity, and the cavity formed between the inner pipe and the outer pipe and the vacuum pump form a communication structure, so that a vacuum environment is formed between the inner pipe and the outer pipe, the floor heating pipe is convenient for isolating heat, and the radiation air conditioner is convenient for radiating and transferring heat, so that the radiation air conditioner is prevented from being limited by the floor heating pipe and being incapable of effectively radiating and refrigerating;

the device can effectively dissipate heat of cooling liquid in the radiation air conditioner pipeline through the heat dissipation shell, the heat dissipation fins, the first fan, the second fan, the filter screen, the temperature control resistor, the spray header, the water tank, the water outlet, the water pump, the air inlet and the air outlet in the heat dissipation assembly, and can prevent the cooling liquid at the radiation air conditioner cooling fins from being frozen through the temperature control resistor, so that the device can efficiently transfer heat and dissipate heat;

the device can effectively enable the ground heating pipe to transfer heat and isolate heat through the inner pipe, the outer pipe, the supporting grid and the vacuum pump in the ground heating pipe, and the vacuum pump is used for forming a vacuum environment with a cavity between the inner pipe and the outer pipe so as to prevent heat transfer, and the device can cool the cavity between the inner pipe and the outer pipe so as to enable the ground heating pipe to dissipate heat.

Drawings

FIG. 1 is a schematic diagram of a top view of a radiant air conditioner with an internal and external heat dissipation structure according to the present utility model;

FIG. 2 is a schematic side view of a radiating assembly of a radiant air conditioner with an inner and outer radiating structure according to the present utility model;

FIG. 3 is a schematic diagram of a front sectional structure of a radiant air conditioner floor heating pipe with an inner and outer heat dissipation structure;

fig. 4 is a schematic side view of a radiant air conditioner floor heating pipe with an inner and outer heat dissipation structure according to the present utility model.

In the figure: 1. a floor heating body; 2. a floor heating pipe; 201. an inner tube; 202. an outer tube; 203. a support grid; 204. a vacuum pump; 3. a heat dissipation assembly; 301. a heat dissipation housing; 302. a heat sink; 303. a first fan; 304. a second fan; 305. a filter screen; 306. a temperature control resistor; 307. a spray header; 308. a water tank; 309. a water outlet; 3010. a water pump; 3011. an air inlet; 3012. an air outlet; 4. an input port; 5. and an output port.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a radiation air conditioner with inside and outside heat radiation structure, including ground warm body 1, ground warm body 1's one end passes through ground warm pipe 2 fixed connection radiator unit 3's input port 4, ground warm body 1 keeps away from radiator unit 3's input port 4's one end through ground warm pipe 2 fixed connection radiator unit 3's output port 5, ground warm pipe 2 is double tubular structure, and ground warm pipe 2 is inner tube 201 and outer tube 202 respectively, and be provided with support grid 203 between inner tube 201 and the outer tube 202, the cavity between inner tube 201 and the outer tube 202 passes through the trachea and the output fixed connection of vacuum pump 204, through inner tube 201 in the ground warm pipe 2, outer tube 202, support grid 203 and vacuum pump 204, can effectually make ground warm pipe 2 transfer heat and isolated heat, form the vacuum environment with the cavity between inner tube 201 and the outer tube 202 through vacuum pump 204, thereby prevent heat transfer, and can also cool the cavity between the inner pipe 201 and the outer pipe 202 so as to cool the floor heating pipe 2, the heat dissipation component 3 comprises a heat dissipation shell 301, the inner cavity of the heat dissipation shell 301 is provided with a heat dissipation plate 302, one side of the heat dissipation plate 302 is provided with a partition plate, two groups of partition plates are arranged, a first fan 303 is arranged between the two groups of partition plates, one side of the first fan 303 is provided with a second fan 304, a filter screen 305 is embedded in the partition plate in a penetrating way, temperature control resistors 306 are arranged above and below the first fan 303, a spray header 307 is arranged above the heat dissipation plate 302, a water tank 308 is arranged on the upper end surface of the heat dissipation shell 301, a water outlet 309 is longitudinally arranged below the heat dissipation plate 302 and longitudinally penetrates through the heat dissipation shell 301, a water inlet and a water outlet are respectively arranged on two end surfaces of the heat dissipation plate 302, a water pump 3010 is arranged on one side of the water tank 308, and the heat dissipation shell 301, the heat dissipation plate 302 in the heat dissipation component 3 is provided with a water pump 3010, the first fan 303, the second fan 304, the filter screen 305, the temperature control resistor 306, the spray header 307, the water tank 308, the water outlet 309, the water pump 3010, the air inlet 3011 and the air outlet 3012 can effectively dissipate heat of cooling liquid in a radiation air-conditioning pipeline, and the cooling liquid at a radiation air-conditioning cooling fin can be prevented from being frozen through the temperature control resistor 306, so that the device can efficiently transfer heat and dissipate heat;

the inside of water tank 308 is provided with the water pipe, and the input of water pipe fixed connection water pump 3010, the output of water pump 3010 passes through the water pipe and forms the communication structure with shower 307, the water inlet passes through fin 302 and forms the communication structure with the outside, one side of water tank 308 up end sets up the controller of control first fan 303, the second fan 304, temperature control resistor 306 and water pump 3010 and the power supply mouth of power supply, the side end face of radiator housing 301 is provided with air intake 3011, and the one side that radiator housing 301 kept away from air intake 3011 is provided with air outlet 3012, the air intake 3011 of radiator housing 301 one end forms the communication structure through baffle and filter screen 305 and air outlet 3012, filter screen 305 is air filtering membrane, the ground heating body 1 passes through the water inlet and the delivery port of fin 302 and forms the communication structure through the water pipe, and forms the communication structure through outlet 309 and the outside, the cavity between vacuum pump 204 passes through the air pipe and inner tube 201 and the outer tube 202 constitutes the communication structure, and the support grid 203 that sets up between inner tube 201 and the outer tube 202 is phenolic resin plastics, the side face of radiator housing 301 produces comparatively directly perceived influence to ground heating body 1, and ground heating body 2 is bilayer structure 202 and inner tube 201 and outer tube 201 and the heat radiation, and the inside of air conditioning and heat pump 201 are formed between the cavity 201 and the air conditioning and the outer tube 201, and the vacuum heat radiation structure is isolated between the inner tube and the cavity 201 and the air conditioning and the outer tube, and the air conditioning space is free of the vacuum heat-conditioning space between the cavity and the air conditioning space.

Working principle: when the radiation air conditioner with the inner and outer heat dissipation structures is used, the device and the ground heating pipe 2 are firstly arranged, the ground heating pipe 2 can effectively transfer heat and isolate heat through the inner pipe 201, the outer pipe 202, the supporting grid 203 and the vacuum pump 204 in the ground heating pipe 2, the vacuum environment is formed through the cavity between the inner pipe 201 and the outer pipe 202 through the vacuum pump 204, so that heat transfer is prevented, the ground heating pipe 2 can be cooled through cooling the cavity between the inner pipe 201 and the outer pipe 202, relatively visual influence is generated on the ground heating body 1 through the ground heating pipe 2, the ground heating pipe 2 is divided into the inner pipe 201 and the outer pipe 202 in a double-layer structure, a cavity is formed between the inner pipe 201 and the outer pipe 202, the supporting grid 203 is arranged in the cavity, and the cavity formed between the inner pipe 201 and the outer pipe 202 and the vacuum pump 204 form a communication structure, therefore, a vacuum environment is formed between the inner pipe 201 and the outer pipe 202 so as to isolate heat by the floor heating pipe 2 and facilitate the radiation air conditioner to radiate and transfer heat, thereby preventing the radiation air conditioner from being unable to radiate and refrigerate effectively due to the limitation of the floor heating pipe 2, wherein the cooling liquid in the radiation air conditioner pipeline can radiate effectively through the radiating shell 301, the radiating fin 302, the first fan 303, the second fan 304, the filter screen 305, the temperature control resistor 306, the spray header 307, the water tank 308, the water outlet 309, the water pump 3010, the air inlet 3011 and the air outlet 3012, and the cooling liquid at the radiation air conditioner cooling fin can be prevented from freezing through the temperature control resistor 306, thus not only ensuring the efficient heat transfer of the device, but also being able to radiate efficiently. Comprises a floor heating body 1, one end of the floor heating body 1 is fixedly connected with an input port 4 of a heat radiation component 3 through a floor heating pipe 2, one end of the floor heating body 1 far away from the input port 4 of the heat radiation component 3 is fixedly connected with an output port 5 of the heat radiation component 3 through the floor heating pipe 2, the floor heating pipe 2 is in a double-pipe structure, the floor heating pipe 2 is respectively an inner pipe 201 and an outer pipe 202, a support grid 203 is arranged between the inner pipe 201 and the outer pipe 202, a cavity between the inner pipe 201 and the outer pipe 202 is fixedly connected with the output end of a vacuum pump 204 through an air pipe, heat can be effectively transferred and isolated through the inner pipe 201, the outer pipe 202, the support grid 203 and the vacuum pump 204 in the floor heating pipe 2, and the cavity between the inner pipe 201 and the outer pipe 202 forms a vacuum environment through the vacuum pump 204, so that heat transfer is prevented, and the cavity between the inner pipe 201 and the outer pipe 202 can be cooled, thereby make ground heating coil 2 dispel heat, radiator unit 3 includes radiator unit 301, and radiator unit 301's inner chamber is provided with fin 302, one side of fin 302 is provided with the baffle, and the baffle is provided with two sets of, be provided with first fan 303 between the two sets of baffles, one side of first fan 303 is provided with second fan 304, it has filter screen 305 to run through on the baffle, the top and the below of first fan 303 all are provided with temperature control resistor 306, the top of fin 302 is provided with shower head 307, radiator unit 301's up end is provided with water tank 308, the below of fin 302 vertically runs through radiator unit 301 and is equipped with outlet 309, the both ends face of fin 302 is provided with water inlet and delivery port respectively, one side of water tank 308 is provided with water pump 3010, radiator unit 301 in radiator unit 3, fin unit 302, first fan 303, second fan 304, filter screen 305, the temperature control resistor 306, the spray header 307, the water tank 308, the water outlet 309, the water pump 3010, the air inlet 3011 and the air outlet 3012 can effectively dissipate heat of cooling liquid in a radiation air-conditioning pipeline, and the cooling liquid at a radiation air-conditioning cooling fin can be prevented from being frozen through the temperature control resistor 306, so that the device can efficiently transfer heat and dissipate heat;

the inside of water tank 308 is provided with the water pipe, and the input of water pipe fixed connection water pump 3010, the output of water pump 3010 passes through the water pipe and forms the communication structure with shower 307, the water inlet passes through fin 302 and forms the communication structure with the outside, one side of water tank 308 up end sets up the controller of control first fan 303, the second fan 304, temperature control resistor 306 and water pump 3010 and the power supply mouth of power supply, the side end face of radiator housing 301 is provided with air intake 3011, and the one side that radiator housing 301 kept away from air intake 3011 is provided with air outlet 3012, the air intake 3011 of radiator housing 301 one end forms the communication structure through baffle and filter screen 305 and air outlet 3012, filter screen 305 is air filtering membrane, the ground heating body 1 passes through the water inlet and the delivery port of fin 302 and forms the communication structure through the water pipe, and forms the communication structure through outlet 309 and the outside, the cavity between vacuum pump 204 passes through the air pipe and inner tube 201 and the outer tube 202 constitutes the communication structure, and the support grid 203 that sets up between inner tube 201 and the outer tube 202 is phenolic resin plastics, the side face of radiator housing 301 produces comparatively directly perceived influence to ground heating body 1, and ground heating body 2 is bilayer structure 202 and inner tube 201 and outer tube 201 and the heat radiation, and the inside of air conditioning and heat pump 201 are formed between the cavity 201 and the air conditioning and the outer tube 201, and the vacuum heat radiation structure is isolated between the inner tube and the cavity 201 and the air conditioning and the outer tube, and the air conditioning space is free of the vacuum heat-conditioning space between the cavity and the air conditioning space.

Working principle: when the radiation air conditioner with the inner and outer heat dissipation structures is used, the device and the ground heating pipe 2 are firstly arranged, the ground heating pipe 2 can effectively transfer heat and isolate heat through the inner pipe 201, the outer pipe 202, the supporting grid 203 and the vacuum pump 204 in the ground heating pipe 2, the vacuum environment is formed through the cavity between the inner pipe 201 and the outer pipe 202 through the vacuum pump 204, so that heat transfer is prevented, the ground heating pipe 2 can be cooled through cooling the cavity between the inner pipe 201 and the outer pipe 202, relatively visual influence is generated on the ground heating body 1 through the ground heating pipe 2, the ground heating pipe 2 is divided into the inner pipe 201 and the outer pipe 202 in a double-layer structure, a cavity is formed between the inner pipe 201 and the outer pipe 202, the supporting grid 203 is arranged in the cavity, and the cavity formed between the inner pipe 201 and the outer pipe 202 and the vacuum pump 204 form a communication structure, therefore, a vacuum environment is formed between the inner pipe 201 and the outer pipe 202 so as to isolate heat by the floor heating pipe 2 and facilitate the radiation air conditioner to radiate and transfer heat, thereby preventing the radiation air conditioner from being unable to radiate and refrigerate effectively due to the limitation of the floor heating pipe 2, wherein the cooling liquid in the radiation air conditioner pipeline can radiate effectively through the radiating shell 301, the radiating fin 302, the first fan 303, the second fan 304, the filter screen 305, the temperature control resistor 306, the spray header 307, the water tank 308, the water outlet 309, the water pump 3010, the air inlet 3011 and the air outlet 3012, and the cooling liquid at the radiation air conditioner cooling fin can be prevented from freezing through the temperature control resistor 306, thus not only ensuring the efficient heat transfer of the device, but also being able to radiate efficiently.

Claims (6)

1. The utility model provides a radiation air conditioner with inside and outside heat radiation structure, includes ground heating body (1), its characterized in that, the one end of ground heating body (1) is through input port (4) of ground heating pipe (2) fixed connection radiator unit (3), the one end that the radiator unit (3) was kept away from to ground heating body (1) is through output port (5) of ground heating pipe (2) fixed connection radiator unit (3), ground heating pipe (2) are double-barrelled tubular structure, and ground heating pipe (2) are inner tube (201) and outer tube (202) respectively, and are provided with support grid (203) between inner tube (201) and outer tube (202), the cavity between inner tube (201) and outer tube (202) is through the output fixed connection of trachea and vacuum pump (204).

2. The radiation air conditioner with the internal and external heat radiation structure according to claim 1, wherein the heat radiation component (3) comprises a heat radiation shell (301), a heat radiation fin (302) is arranged in an inner cavity of the heat radiation shell (301), two groups of partition boards are arranged on one side of the heat radiation fin (302), a first fan (303) is arranged between the two groups of partition boards, a second fan (304) is arranged on one side of the first fan (303), a filter screen (305) is embedded in the partition boards in a penetrating mode, temperature control resistors (306) are arranged above and below the first fan (303), a spray header (307) is arranged above the heat radiation fin (302), a water tank (308) is arranged on the upper end face of the heat radiation shell (301), a water outlet (309) is longitudinally arranged below the heat radiation fin (302), a water inlet and a water outlet are respectively arranged on two end faces of the heat radiation fin (302), and a water pump (3010) is arranged on one side of the water tank (308).

3. The radiation air conditioner with the internal and external heat radiation structure according to claim 2, wherein a water pipe is arranged in the water tank (308), the water pipe is fixedly connected with the input end of the water pump (3010), the output end of the water pump (3010) and the spray header (307) form a communication structure through the water pipe, the water inlet forms the communication structure through the heat radiation fin (302), and a power supply port for controlling a controller and power supply of the first fan (303), the second fan (304), the temperature control resistor (306) and the water pump (3010) is arranged on one side of the upper end face of the water tank (308).

4. A radiant air conditioner with an internal and external heat radiation structure according to claim 3, characterized in that the side end face of the heat radiation shell (301) is provided with an air inlet (3011), and one side of the heat radiation shell (301) far away from the air inlet (3011) is provided with an air outlet (3012), the air inlet (3011) at one end of the heat radiation shell (301) and the air outlet (3012) form a communication structure through a partition board and a filter screen (305), and the filter screen (305) is an air filtering membrane.

5. The radiant air conditioner with the internal and external heat radiation structure according to claim 4, wherein the floor heating body (1) forms a communication structure with the water inlet and the water outlet of the heat radiation fin (302) through a water pipe, and the heat radiation housing (301) forms a communication structure with the outside through a water outlet (309).

6. The radiant air conditioner with the internal and external heat dissipation structure according to claim 5, wherein the vacuum pump (204) forms a communication structure with a cavity between the inner tube (201) and the outer tube (202) through an air pipe, and the support grid (203) arranged between the inner tube (201) and the outer tube (202) is phenolic resin plastic.