CN205245444U - Two new fans of core of energy -conserving suspension type - Google Patents

Abstract

The utility model relates to a two new fans of core of energy -conserving suspension type, including casing, heat exchange core and fan, install the alternately heat exchange core of heat transfer formulas of two hexagons in the casing between indoor wind inlet and indoor wind outlet side by side, to slope to be connected one and select to the board between the D angle of heat exchange core down and casing right side wall, this selection comprises rectangular frame and half range flashboard to the board, a slidable mounting half range flashboard in rectangular frame. The utility model discloses a selection can divide two ways to walk after making the new trend get into the casing to the board, and one is through the heat exchange core, and another is without crossing the heat exchange core, and is more energy -conserving without crossing the heat exchange core under the suitable circumstances of outside air temperature, improves the utilization ratio of heat exchange core, lengthens its life.

Description

The new blower fan of energy-saving ceiling double-core

Technical field

The utility model belongs to new blower fan field, relates to the new blower fan of ceiling mounting type, the new blower fan of especially a kind of energy-saving ceiling double-core.

Background technology

New blower fan is a kind of effectively air cleaning facility, can make room air produce circulation, on the one hand outdoor the Bas Discharged of indoor dirt, on the other hand the sterilization of outdoor ozone process, after the measures such as sterilization, filtration, be input to indoorly, allowing in room is all fresh clean air all the time again.

Conventionally, new blower fan inside is all provided with heat exchanging core, and indoor exhaust wind and new wind is when orthogonal thereto fork mode is flowed through heat exchanging core respectively, because air-flow demarcation strip two sidewinds exist the temperature difference and vapor partial pressure is poor, two strands of air-flows present heat and mass phenomenon during by demarcation strip, cause full heat exchanging process.

Existing new blower fan, new wind must be undertaken just entering after exchange heat indoor by heat exchanging core and indoor exhaust wind. But this set is not economic and practical in some cases, causes on the contrary the waste of the energy, makes an unnecessary move. In the evening of for example hot summer, outdoor temperature is lower than indoor temperature, and the new wind that people need to feel nice and cool enters indoor, if this situation is also carried out heat exchange, the temperature of the new wind that raise on the contrary, not only runs counter to desire, and has wasted the energy. So how to make new wind in the situation that temperature is suitable, directly enter indoor is the technical problems to be solved in the utility model.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art part, provides a kind of scientific structure design reasonable, can make new wind directly enter the indoor new blower fan of energy-saving ceiling double-core without heat exchange.

The technical scheme that the utility model technical solution problem adopts is:

The new blower fan of a kind of energy-saving ceiling double-core, comprise casing, heat exchanging core and blower fan, be shaped with indoor wind inlet and new wind outlet at the upper side wall of casing, be shaped with indoor wind outlet and fresh inlet in the lower wall of casing, wherein fresh inlet is relative with new wind outlet, indoor wind inlet is relative with indoor wind outlet, export each installation one blower fan in indoor wind outlet and new wind, the heat exchanging core of two hexagon cross-exchange formulas is installed in the casing between indoor wind inlet and the outlet of indoor wind side by side, each heat exchanging core and the immediate angle of casing upper side wall are A angle and B angle, A angle is in left side, B angle is on right side, with the immediate angle of casing left side wall be F angle, with the immediate angle of casing right side wall be C angle, with the immediate angle of casing lower wall be E angle and D angle, E angle is in left side, D angle is on right side, this two heat exchanging core connects by a side, between the B angle of upper heat exchanging core and casing upper side wall, be connected upper spacer, between the D angle of lower heat exchanging core and casing lower wall, be connected lower clapboard, upper, each horizontal left side dividing plate that is connected between the F angle of lower heat exchanging core and casing left side wall, upper, each horizontal connection one right side partition in C angle of lower heat exchanging core, a vertical clapboard is installed in the end that connects two right side partition, between the D angle of lower heat exchanging core and casing right side wall, tilting to be connected one selects to plate, this choosing is made up of rectangular frame and half range flashboard to plate, a half range flashboard is slidably installed in rectangular frame, the area of this flashboard is the half of rectangular frame, between the middle part of rectangular frame and vertical clapboard, be connected by the extension board of a vertical clapboard.

And, on plate rectangular frame, towards a side of fresh inlet, ultraviolet lamp is installed in choosing.

And, on upper spacer, towards a side of new wind outlet, anion generator is installed.

Advantage of the present utility model and good effect are:

1, this new blower fan is provided with two heat exchanging cores in casing, has improved heat exchange efficiency. Two heat exchanging cores arranging in casing is scientific and reasonable.

2, this new blower fan tilts to be connected one and selects to plate between the D angle of lower heat exchanging core and casing right side wall, this choosing can be walked on Fen Liangtiao road after plate makes new wind enter casing, article one, be through heat exchanging core, another is without heat exchanging core, it is more energy-conservation without heat exchanging core in the situation that outside air temperature is suitable, the utilization rate that improves heat exchanging core, extends its service life.

Brief description of the drawings

Fig. 1 is internal structure schematic diagram of the present utility model;

Fig. 2 is the structural representation of the utility model cover plate;

Fig. 3 is perspective view of the present utility model.

Detailed description of the invention

Below in conjunction with accompanying drawing and by specific embodiment, the utility model is described in further detail, and following examples are descriptive, are not determinate, can not limit protection domain of the present utility model with this.

The new blower fan of a kind of energy-saving ceiling double-core, comprises casing 11, heat exchanging core and blower fan, and described casing is cuboid, is shaped with indoor wind inlet 4 and new wind outlet 9 at the upper side wall of casing, is shaped with indoor wind outlet 21 and fresh inlet 19 in the lower wall of casing. Wherein fresh inlet is relative with new wind outlet, and indoor wind inlet is relative with indoor wind outlet.

The heat exchanging core that two hexagon cross-exchange formulas are installed in the casing between indoor wind inlet and the outlet of indoor wind side by side, each heat exchanging core and the immediate angle of casing upper side wall are A angle and B angle, and A angle is in left side, and B angle is on right side, with the immediate angle of casing left side wall be F angle, with the immediate angle of casing right side wall be C angle, with the immediate angle of casing lower wall be E angle and D angle, E angle is in left side, D angle is on right side, this two heat exchanging core connects by side, between the B angle of upper heat exchanging core 6 and casing upper side wall, be connected upper spacer 7, between the D angle of lower heat exchanger core 14 and casing lower wall, be connected lower clapboard 20, upper, each horizontal left side dividing plate 3 that is connected between the F angle of lower heat exchanging core and casing left side wall, respectively upper, the C angle of lower heat exchanging core laterally connects a right side partition 12, a vertical clapboard 13 is installed in the end that connects two right side partition. between the D angle of lower heat exchanging core and casing right side wall, tilting to be connected one selects to plate 16, this choosing is made up of rectangular frame 29 and half range flashboard 28 to plate, a half range flashboard is slidably installed in rectangular frame, the area of this flashboard is the half of rectangular frame, and the middle part of rectangular frame is connected by the extension board 15 of a vertical clapboard with vertical clapboard.

Above-mentioned multiple dividing plate and choosing are separated out three wind passages in casing to plate, passage I is that indoor wind is discharged to outdoor passage through heat exchanging core, passage II is that new wind enters indoor passage through heat exchanging core, and passage III is that new wind enters indoor passage without heat exchanging core. Passage II and passage III select by flashboard, when flashboard pushes left side, and passage II sealing, new wind can only be walked passage III; When flashboard pushes right side, passage III sealing, new wind can only be walked passage II.

Inner side in fresh inlet, new wind outlet, indoor wind inlet and the outlet of indoor wind is separately installed with multiple filter core 5, exports each installation one blower fan 10 in indoor wind outlet and new wind. Described filter core is arranged between blower fan and outlet.

Left side wall hinge at casing fills a cover 1, all be shaped with inside nest limit 2 on four limits of cover, export at cover and indoor wind on the nest limit of a side discharge outlet 23 is installed, this discharge outlet, by drainpipe 22 and the exhaust duct UNICOM that is arranged on indoor wind outlet, is discharged to outdoor by the condensed water in casing by exhaust duct.

For sealed enclosure, a cover plate 26 is installed in casing, on the cover board evenly interval is shaped with multiple delivery ports 24, by delivery port, the condensed water in casing is discharged on cover, discharges at the drainpipe by cover. On the cover board the position of corresponding filter core is also shaped with filter element replacing mouth 25, is convenient for changing filter core.

In order further to improve efficiency of dust collection, make up the defect of filter core, in the inner side of the import filter core of new wind, electrostatic precipitator 17 is installed.

For fear of frosting in heat exchanging core and casing, in the import casing outside of new wind, electric heater 18 is installed.

To enter bacterium in indoor new wind in order killing, on plate rectangular frame, towards a side of fresh inlet, ultraviolet lamp 27 to be installed in choosing.

And, on upper spacer, towards a side of new wind outlet, anion generator 8 is installed, make to enter indoor new wind and be rich in anion, human body is had to good health-care efficacy.

Above-described is only preferred embodiment of the present utility model; it should be pointed out that for the person of ordinary skill of the art, do not departing under the prerequisite of utility model design; can also make some distortion and improvement, these all belong to protection domain of the present utility model.

Claims (3)

1. the new blower fan of energy-saving ceiling double-core, comprise casing, heat exchanging core and blower fan, be shaped with indoor wind inlet and new wind outlet at the upper side wall of casing, be shaped with indoor wind outlet and fresh inlet in the lower wall of casing, wherein fresh inlet is relative with new wind outlet, indoor wind inlet is relative with indoor wind outlet, export each installation one blower fan in indoor wind outlet and new wind, it is characterized in that: the heat exchanging core that two hexagon cross-exchange formulas are installed in the casing between indoor wind inlet and the outlet of indoor wind side by side, each heat exchanging core and the immediate angle of casing upper side wall are A angle and B angle, A angle is in left side, B angle is on right side, with the immediate angle of casing left side wall be F angle, with the immediate angle of casing right side wall be C angle, with the immediate angle of casing lower wall be E angle and D angle, E angle is in left side, D angle is on right side, this two heat exchanging core connects by a side, between the B angle of upper heat exchanging core and casing upper side wall, be connected upper spacer, between the D angle of lower heat exchanging core and casing lower wall, be connected lower clapboard, upper, each horizontal left side dividing plate that is connected between the F angle of lower heat exchanging core and casing left side wall, upper, each horizontal connection one right side partition in C angle of lower heat exchanging core, a vertical clapboard is installed in the end that connects two right side partition, between the D angle of lower heat exchanging core and casing right side wall, tilting to be connected one selects to plate, this choosing is made up of rectangular frame and half range flashboard to plate, a half range flashboard is slidably installed in rectangular frame, the area of this flashboard is the half of rectangular frame, between the middle part of rectangular frame and vertical clapboard, be connected by the extension board of a vertical clapboard.

2. the new blower fan of energy-saving ceiling double-core according to claim 1, is characterized in that: on plate rectangular frame, towards a side of fresh inlet, ultraviolet lamp is installed in choosing.

3. the new blower fan of energy-saving ceiling double-core according to claim 1, is characterized in that: on upper spacer, towards a side of new wind outlet, anion generator is installed.