CN220707468U - High-energy-efficiency heating and cooling device - Google Patents

Abstract

The utility model discloses a high-energy-efficiency heating and cooling device, which relates to the technical field of heating and cooling terminals and comprises a cold and hot medium circulation pipeline, wherein the end part of the cold and hot medium circulation pipeline is symmetrically connected with a cold and hot medium inlet pipe and a cold and hot medium return pipe, and the high-energy-efficiency heating and cooling device also comprises a heat conduction outer cover and a ventilation structure.

Description

High-energy-efficiency heating and cooling device

Technical Field

The utility model belongs to the technical field of heating and cooling terminals, and particularly relates to a high-energy-efficiency heating and cooling device.

Background

The radiation cooling (heating) means to reduce (raise) the temperature of one or more surfaces in the inner surface of the enclosure structure to form a cooling (heating) radiation surface, and the radiation surface can be realized by arranging a cooling (heating) pipeline in the enclosure structure or arranging a radiation plate on the outer surface of a ceiling or a wall by means of the technical method of cooling (heating) by means of radiation heat exchange between the radiation surface and the other surfaces of a human body, furniture and the enclosure structure, and the convection heat exchange between the radiation surface and the air is enhanced and the cooling (heating) effect is enhanced due to the change of the temperature of the radiation surface, the enclosure structure and the surface of the furniture.

The central heating and cooling terminal is a heat radiation device installed indoors by a user, cold and heat mediums are mostly naturally radiated and cooled in a terminal pipeline, so that insufficient energy utilization can be caused, and the user is mostly in winter or summer during heating or cooling, and in order to keep indoor cold and heat stable temperature indoors, the indoor air cannot circulate, so that indoor air quality is reduced, and life quality is reduced.

Disclosure of Invention

Aiming at the problems existing in the prior art, the utility model provides the high-energy-efficiency heating and cooling device which can ensure indoor air circulation and improve the energy efficiency of heating.

The utility model solves the technical problems by adopting the scheme that: the utility model provides a high-energy-efficiency heating and cooling device, includes cold and hot medium circulation pipeline, cold and hot medium inflow pipe and cold and hot medium return pipe are connected with to cold and hot medium circulation pipeline's tip symmetry, still includes heat conduction dustcoat and ventilation structure, the heat conduction dustcoat includes the housing, and cold and hot medium circulation pipeline lays in the housing, the front side of housing is equipped with the main shutter that is used for water conservancy diversion wind direction, the both sides portion of housing still is equipped with the auxiliary shutter; the ventilation structure comprises an axial flow fan, a ventilation opening is formed in the rear side portion of the heat conducting outer cover, the axial flow fan is installed in the ventilation opening, the rear side of the cover is connected with a fan housing, the axial flow fan is located in the fan housing, an air inlet pipeline is connected to the side portion of the fan housing in a sealing mode, and the input end of the air inlet pipeline is connected with an indoor fresh air system in a sealing mode.

Further, the side parts of the housing are symmetrically provided with pipe brackets, and the cold and hot medium inlet pipe and the cold and hot medium return pipe are respectively arranged in the heat conduction housing in a penetrating way through the pipe brackets.

Further, the axial flow fan is a multi-gear fan.

Further, a control switch for controlling the gear of the axial flow fan is arranged on the side portion of the heat conducting outer cover.

Further, the cover shell is made of aluminum.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the heat-conducting outer cover and the ventilation structure are arranged, the axial flow fan is added on the heat-conducting outer cover, so that the flow speed of indoor air can be increased, the energy utilization rate is further improved, meanwhile, the axial flow fan is connected with the fresh air system through the air inlet pipeline, fresh air sucked by the axial flow fan enters the heat-conducting outer cover to be heated or cooled and then is blown to the indoor, so that air exchange can be carried out in the indoor, the indoor air quality can be improved while the energy utilization rate is improved, meanwhile, a user can control the angle and the flow direction of air through the louver, the air supply is more comfortable, and the life quality of the user is further improved.

Drawings

FIG. 1 is a schematic view of a first perspective view of the present utility model;

FIG. 2 is a schematic view of a second perspective view of the present utility model;

FIG. 3 is a schematic elevational, cross-sectional, structural view of a thermally conductive housing of the present utility model;

fig. 4 is a schematic top cross-sectional view of the present utility model.

In the figure: 1. a cold and hot medium flow pipe; 2. a cold and hot medium inlet pipe; 3. a cold and hot medium return pipe; 4. a thermally conductive outer cover; 41. a housing; 42. a main shutter; 43. a pipe bracket; 44. a side shutter; 5. a ventilation structure; 51. a fresh air system; 52. an air inlet pipeline; 53. an axial flow fan; 54. a fan housing; 55. and controlling the switch.

Description of the embodiments

The utility model will be further described with reference to the drawings and examples.

Referring to fig. 1-4, the present utility model provides a technical solution of a high energy efficiency heating and cooling device:

examples

According to the embodiment shown in fig. 3, the cooling/heating medium circulation pipe 1 is provided, the upper end of the cooling/heating medium circulation pipe 1 is connected with a cooling/heating medium inlet pipe 2, the lower end of the cooling/heating medium circulation pipe 1 is connected with a cooling/heating medium return pipe 3, the cooling/heating medium enters the cooling/heating medium circulation pipe 1 through the cooling/heating medium inlet pipe 2 and flows in the cooling/heating medium circulation pipe 1, the cooling/heating medium is supplied to the room for adjusting the room temperature, as shown in fig. 1 and 2, the outside of the cooling/heating medium circulation pipe 1 is provided with a heat conducting outer cover 4, the cooling/heating medium circulation pipe 1 is arranged in the cover 41, the side part of the cover 41 is provided with pipe brackets 43 vertically symmetrically, the cooling/heating medium inlet pipe 2 and the cooling/heating medium return pipe 3 are respectively arranged in the heat conducting outer cover 4 through the pipe brackets 43, the cover 41 is made of materials with high heat conducting and heat radiating effects such as aluminum, copper, the heat conduction housing 4 is guaranteed to be capable of diffusing heat radiation conducted by cold and hot media rapidly and efficiently, as shown in fig. 4, the rear side part of the heat conduction housing 4 is provided with a plurality of ventilation openings, each ventilation opening is internally provided with an axial flow fan 53, the rear side of the housing 41 is fixedly connected with a fan housing 54, each axial flow fan 53 is positioned in the fan housing 54, the axial flow fan 53 is additionally arranged on the heat conduction housing 4, during cooling/heating, the axial flow fan 53 is controlled to operate, the air flow speed can be increased, cold/hot air is rapidly moved and diffused into a room, so that the utilization rate of energy sources is increased, the axial flow fan 53 is a multi-gear fan, the side part of the heat conduction housing 4 is provided with a control switch 55 for controlling the gear position of the axial flow fan 53, a user can set the rotation speed of the axial flow fan 53 by controlling the air flow speed according to circumstances, the side part of the fan housing 54 is hermetically connected with an air inlet pipeline 52, the indoor fresh air system 51 that is equipped with, the input and the fresh air system 51 sealing connection of air inlet pipe 52, through inserting the indoor fresh air system 51 with heating/cooling device, axial fan 53 can draw the new trend, and cool down/after the rising temperature through cold and hot medium circulation pipeline 1, can improve indoor control quality when promoting the energy utilization, guarantee indoor can carry out air circulation, prevent indoor air quality and drop, promote quality of life when promoting the heating and cooling effect, main shutter 42 is installed to the front side of housing 41, the user can stimulate shutter 42, angle and the flow direction that the wind was blown out from heat conduction dustcoat 4 are controlled through the angle of changing each blade, and can make the air flow more evenly, make the air supply more comfortable, subsidiary shutter 44 is still installed to the both sides portion of housing 41, when indoor temperature or ventilation volume reach user's demand, can close main shutter 42, and the rotational speed of turning down fan 53, open the subsidiary shutter 44 of housing 41 both sides simultaneously, keep tiny and dispel the heat through subsidiary shutter 44, improve user's comfort level.

When the efficient heating and cooling device is particularly used, the cooling/heating medium in the cold/hot medium circulation pipeline 1 is used for cooling/heating indoors, heat radiation conducted by the cold/hot medium is diffused into the indoors through the heat conduction outer cover 4, meanwhile, a user can adjust the blade angle of the louver 42, the axial flow fan 53 is opened through the control switch 55, the axial flow fan 53 operates to exhaust air through the fresh air system 51, air cooled/heated through the cold/hot medium circulation pipeline 1 is blown into the indoors through the louver 42, the air flow speed is increased, the cold/hot air is quickly moved and diffused into the indoors, and meanwhile, the indoor air circulation is realized.

Examples

On the basis of the first embodiment, the same points as the first embodiment are not described in detail, and the differences are as follows: the cold and hot medium flow pipeline 1 can be improved, the cold and hot medium flow pipeline 1 can be designed into an arc structure, and the cold and hot exchange area can be increased by adopting the arc structure, so that the energy efficiency of cooling/heating is further improved.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the particular embodiments disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (5)

1. The utility model provides a high energy efficiency heating cold supply device, includes cold and hot medium circulation pipeline, and cold and hot medium inlet pipe and cold and hot medium return pipe are connected with to cold and hot medium circulation pipeline's tip symmetry, its characterized in that: the heat-conducting outer cover comprises a cover shell, a cold and hot medium flowing pipeline is arranged in the cover shell, a main shutter used for guiding wind is arranged on the front side of the cover shell, and auxiliary shutters are arranged on two side parts of the cover shell; the ventilation structure comprises an axial flow fan, a ventilation opening is formed in the rear side portion of the heat conducting outer cover, the axial flow fan is installed in the ventilation opening, the rear side of the cover is connected with a fan housing, the axial flow fan is located in the fan housing, an air inlet pipeline is connected to the side portion of the fan housing in a sealing mode, and the input end of the air inlet pipeline is connected with an indoor fresh air system in a sealing mode.

2. An energy efficient heating and cooling apparatus according to claim 1, wherein: the side part of the housing is symmetrically provided with a pipe support, and the cold and hot medium inlet pipe and the cold and hot medium return pipe are respectively arranged in the heat conduction housing in a penetrating way through the pipe support.

3. An energy efficient heating and cooling apparatus according to claim 1, wherein: the axial flow fan is a multi-gear fan.

4. A high energy efficiency heating and cooling apparatus as set forth in claim 3 wherein: the side part of the heat conduction outer cover is provided with a control switch for controlling the gear of the axial flow fan.

5. An energy efficient heating and cooling apparatus according to claim 1, wherein: the cover shell is made of aluminum.