CN2662181Y - Highly efficient energy saving convector - Google Patents

Abstract

The utility model relates to a high-effect convection energy-saving radiator, comprising a channel (101), aluminum heat-dissipation vanes (102) arranged on the channel, convection heat-dissipation cavities (103) formed from the heat-dissipation vanes, and a wind power device arranged on the bottom, with which the air are forced to get through the convection heat-dissipation cavities. The wind power device can be multiple groups of micro fan (104) or micro axial flow blower (108) arranged on the two ends of the guide wind pipe (107). The utility model has the advantage of improving the convection heat-dissipation rate greatly due to adopting forced convection.

Description

Energy-efficient convector radiator

Technical field

The utility model relates to radiator, is specifically related to a kind of energy-efficient convector radiator.

Background technology

In recent years, in heating of house heat sink technology field, all kinds of light weight, the new radiator that volume is little, outward appearance is beautiful, heat dissipation capacity is big constantly occur in market, are subjected to consumer's popular welcome, replace traditional cast-iron radiator just fast.The situation that the external form that these new radiators have not only broken traditional cast-iron radiator heaviness, slightly make rules all the land, very big development is also arranged on radiating efficiency and radiating mode, is main and more and more with the new radiator of convection current, the comprehensive heat radiation of radiation with the heat loss through convection.As shown in Figure 1, operation principle based on copper (steel) aluminium radiator of heat loss through convection is: on copper (steel) the matter water channel 101 aluminium matter heat-dissipating fin 102 is housed, form many heat radiation cavitys between fin and the fin, the heat energy of hot water passes to heat-dissipating fin 102 in the mode of conduction by water channel, the heat energy of fin part by surface emissivity to indoor transmission, main heat energy is to be heated the back by air in the heat radiation cavity to form thermal current naturally, as shown in Figure 1, mode and room air with convection current carry out heat exchange, reach to indoor transferring heat energy the purpose that indoor temperature is raise.

The utility model content

The technical problems to be solved in the utility model is to improve the radiating efficiency of convector radiator, in more energy-conservation, significantly reduces the occupation of land space of convector radiator.

The above-mentioned technical problem of the utility model solves like this, construct a kind of energy-efficient convector radiator, comprise water channel, be contained in the aluminium matter heat-dissipating fin on the water channel, form the heat loss through convection cavity between each fin, it is characterized in that, comprise that also being contained in the bottom makes force air pass through the wind force device of described heat loss through convection cavity.

Wherein, described wind force device is one or more mini-fans, each mini-fan is contained in respectively on the groove section bar that has a plurality of through holes, described groove section bar is installed in described heat loss through convection cavity bottom, each described mini-fan respectively by open/stop device or air quantity controller be connected on the electric power loop.

Wherein, a guide duct is equipped with in the position corresponding with described heat loss through convection cavity below comprising the heat loss through convection part of described water channel and heat-dissipating fin, described wind force device is mounted in the minisize axial-flow blower fan at described guide duct two ends, described minisize axial-flow blower fan respectively by open/stop device or air quantity controller be connected on the electric power loop.

Wherein, the heat loss through convection part that comprises described water channel and heat-dissipating fin is installed on the body of wall by mounting bracket; Described water channel is copper (steel) matter water channel.

Implement energy-efficient convector radiator of the present utility model, can save a large amount of costs of use for the user, owing to improved convection velocity greatly, reduced leaving water temperature, reached on the basis of same heat exchange effect, can save installing space by reducing water pipe and fin size, improve the careat utilization rate, play good energy savings effect, improve the utilization rate of non-renewable resources, for the mankind's sustainable development and the offspring that benefits future generations have positive social effect.

Description of drawings

Fig. 1 is the structural representation of existing convector radiator;

Fig. 2 is the structural representation of a kind of embodiment of energy-efficient convector radiator of the present utility model;

Fig. 3 is the structural representation of the another kind of embodiment of energy-efficient convector radiator of the present utility model.

The figure bend is represented body of wall, and horizontal dotted line is represented hot water, and thin arrow is represented heat loss through radiation, and thick arrow is represented heat loss through convection.

The specific embodiment

As everyone knows, convector radiator is under identical calculating temperature difference situation, and the size of the heat dissipation capacity of unit volume or unit mass (identical material) embodies the height of the efficient of radiator.This class radiator can improve the best radiating efficiency that the tab construction design reaches radiator by a large amount of tests, but because the thermal current flow velocity that forms is little naturally, its certain limitation is arranged, and the raising of efficient is not obvious.The utility model adopts the way of forced convertion can significantly improve the radiating efficiency of radiator.

The structure of energy-efficient convector radiator first embodiment of the present utility model and operation principle are as shown in Figure 2, comprise by copper (steel) matter water channel 101, be contained in the heat loss through convection part that the aluminium matter heat-dissipating fin 102 on the water channel 101 is formed, convection current realizes by forming heat loss through convection cavity 103 between each fin 102, comprises that also being contained in the bottom makes the many group mini-fan 104 of force air by described heat loss through convection cavity.The heat loss through convection part is installed on the body of wall 106 by mounting bracket 105.Because the miniature electric fans 104 of many groups are equipped with in the position corresponding with radiator heat loss through convection cavity 103 below convector radiator, realize the forced convertion of air in the heat radiation cavity, quicken room air and radiator and carry out heat exchange, increase substantially radiator heat-dissipation efficient.Can also reach the diffusing heat dissipation capacity of control heat-producing machine by the rotating speed (air quantity) of the miniature electric fan of control, realize indoor temperature control purpose, in addition, also can in the controller (not shown) of miniature electric fan, temperature sensing device and remote-receiver be set, realize the automatic control and the straighforward operation of indoor temperature, for example, when indoor temperature is low, open whole miniature electric fans, when indoor temperature is higher, open less electric fan, energy-saving effect is better, thereby can greatly be user-friendly to.If, when promptly leaving water temperature is higher, open a plurality of fans with miniature electric fan and the chain control of flow of inlet water control valve (radiator thermostat valve), open more fan when low, thereby realize the radiator intellectuality, utilize the heat energy of heating system to greatest extent, reach energy-efficient purpose.

Institute is shown in Figure 3, another embodiment according to energy-efficient convector radiator of the present utility model, comprising below the heat loss through convection part of water channel 101 and heat-dissipating fin 102 that the position corresponding with described heat loss through convection cavity 103 be equipped with a guide duct 107, wind force device is mounted in the minisize axial-flow blower fan 108 at guide duct 107 two ends.Because a guide duct 107 is equipped with in position corresponding with radiator heat loss through convection cavity 103 below convector radiator, minisize axial-flow blower fan 108 is equipped with at guide duct 107 two ends (radiator fin number less be an end), make the heat loss through convection effect improve greatly, and operation principle is identical with first embodiment.Equally, two minisize axial-flow blower fans 108 can be respectively by a start stop switch or air quantity controller control, when inflow temperature and leaving water temperature differ greatly or indoor temperature when higher, can reduce air quantity, for example, only drives a fan or wind speed is reduced; When inflow temperature and leaving water temperature differs less or indoor temperature when low, can increase air quantity, for example, two fans are all opened or wind speed is improved.

Claims (10)

1, a kind of efficient convection current energy-saving heat radiator, comprise water channel (101), be contained in the aluminium matter heat-dissipating fin (102) on the water channel (101), form heat loss through convection cavity (103) between each fin (102), it is characterized in that, comprise that also being contained in the bottom makes force air pass through the wind force device of described heat loss through convection cavity (103).

According to the described efficient convection current energy-saving heat radiator of claim 1, it is characterized in that 2, described wind force device is one or more mini-fans (104).

3, according to the described efficient convection current energy-saving heat radiator of claim 1, it is characterized in that, in the position corresponding with described heat loss through convection cavity (103), heat loss through convection part below that comprises described water channel (101) and heat-dissipating fin (102) guide duct (107) is housed, described wind force device is mounted in the minisize axial-flow blower fan (108) at described guide duct (107) two ends.

4, according to claim 2 or 3 described efficient convection current energy-saving heat radiators, it is characterized in that, comprise that the heat loss through convection of described water channel (101) and heat-dissipating fin (102) partly is installed on the body of wall (106) by mounting bracket (105).

5, according to claim 2 or 3 described efficient convection current energy-saving heat radiators, it is characterized in that described water channel (101) is copper water channel.

According to the described efficient convection current energy-saving heat radiator of claim 2, it is characterized in that 6, each mini-fan (104) is contained in respectively on the groove section bar that has a plurality of through holes, described groove section bar is installed in described heat loss through convection cavity (103) bottom.

7, according to the described efficient convection current energy-saving heat radiator of claim 6, it is characterized in that, each described mini-fan respectively by open/stop device is connected on the electric power loop.

8, according to the described efficient convection current energy-saving heat radiator of claim 6, it is characterized in that each described mini-fan is connected on the electric power loop by air quantity controller respectively.

9, according to the described efficient convection current energy-saving heat radiator of claim 3, it is characterized in that, described minisize axial-flow blower fan respectively by open/stop device is connected on the electric power loop.

10, according to the described efficient convection current energy-saving heat radiator of claim 3, it is characterized in that described minisize axial-flow blower fan is connected on the electric power loop by air quantity controller respectively.