CN212777752U - Energy-saving house ventilation system - Google Patents

Abstract

The utility model discloses an energy-conserving room ventilation system relates to indoor ventilation technical field. This energy-conserving room ventilation system, which comprises ground, the top welded mounting on ground has energy-conserving room, the top welded mounting in energy-conserving room has the dead lever, the top welded mounting of dead lever has ball bearing, ball bearing's inner ring inside wall welded mounting has the wind vane, the top welded mounting in energy-conserving room has ventilation mechanism, first standing groove has been seted up to one side outer wall in energy-conserving room, the ventilation hole with the inside intercommunication in energy-conserving room is seted up to a lateral wall of first standing groove, the articulated fly leaf of installing in inboard top of first standing groove, the second standing groove has been seted up to another lateral wall of fly leaf, the articulated room door of installing of preceding lateral wall in energy. This device adopts the mode of taking a breath from bottom to top through the four corners setting bellows in energy-conserving room for the device is when taking a breath, and the human body has time to adapt to the temperature after taking a breath, thereby has improved the practicality of device to a certain extent.

Description

Energy-saving house ventilation system

Technical Field

The utility model relates to an indoor ventilation technical field specifically is an energy-conserving room ventilation system.

Background

In the existing energy-saving building, the comfort in the house is usually considered to be kept through energy-saving cooling and heating technologies, but the house needs to be well ventilated while keeping the temperature.

However, when the existing ventilation device is used, the ventilation effect is poor, and a large amount of outside air is sucked at one time to cause the sudden drop of indoor temperature difference, so that the human body can not adapt to the situation, the comfort level of personnel is extremely poor, and the practicability is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving room ventilation system to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an energy-conserving room ventilation system, which comprises a ground, energy-conserving room is installed in the top welding on ground, the top welding in energy-conserving room installs the dead lever, the top welding of dead lever installs ball bearing, ball bearing's inner ring inside wall welding installs the wind vane, the top welding in energy-conserving room installs ventilation mechanism, first standing groove has been seted up to one side outer wall in energy-conserving room, the ventilation hole with the inside intercommunication in energy-conserving room is seted up to one side wall of first standing groove, the inboard top of first standing groove is articulated installs the fly leaf, the second standing groove has been seted up to another lateral wall of fly leaf, the preceding lateral wall in energy-conserving room is articulated.

Preferably, the ventilation mechanism comprises an air suction box, a fan, a hollow plate, a first motor, an air supply pipe, a connecting pipe, an air box, an inclined top, a fan, an air suction pipe, a filter screen, a protective shell, a second motor, a gear, an air inlet pipe and a mounting plate, the mounting plate is welded and installed at the top of the energy-saving house, the mounting plate is of an internal hollow structure, the air inlet pipe is rotatably installed on the mounting plate and is in an inverted L shape, the filter screen is welded and installed at the free end of the air inlet pipe, the air inlet pipe longitudinally penetrates through the outer side wall of the top of the mounting plate and extends into the mounting plate, the gear is welded and installed on the outer side wall of one end of the air inlet pipe, another group of gears are rotatably installed at the top and the bottom of the mounting plate, the two groups of gears are meshed, the second motor is welded and installed on the outer, an air pumping box is welded and installed at the top of the inner side of the energy-saving room, a pipeline is welded and installed at the top of the air pumping box, the pipeline longitudinally penetrates through the top of the energy-saving room and is rotatably connected with an air inlet pipe, hollow plates are welded and installed on the inner walls of the two sides of the air pumping box, a fan is rotatably installed at the top of each hollow plate, a first motor is welded and installed at the bottom of each hollow plate, the output end of the first motor longitudinally penetrates through each hollow plate through a coupler and is welded and connected with a rotating shaft of the fan, an air supply pipe is installed on a welding machine at the bottom of the air pumping box, air boxes are welded and installed at the bottom of the energy-saving room, four air boxes are sequentially arranged at the four corners of the energy-saving room, the free end of each air supply pipe is welded and connected with the top of one air box, a connecting pipe is welded, the exhaust pipe longitudinally penetrates through the top of the energy-saving room and extends to the inside of the energy-saving room, an inclined top is welded on the top of the energy-saving room, and the inclined top is located right above the fan.

Preferably, the fixed rod is sleeved with the wind cup, and the wind cup is rotatably connected with the fixed rod.

Preferably, the fly leaf all matches with first standing groove size, and one side outer wall welded mounting of fly leaf has the handle, and the lateral wall of handle is provided with anti-skidding screw thread.

Preferably, the bottom of the inner side of the second placing groove is hinged with a supporting rod matched with the second placing groove.

Preferably, the door is welded with a handle, and the door is embedded with an observation window.

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

(1) this energy-conserving room ventilation system, this device adopt the mode of taking a breath from bottom to top through the four corners setting bellows in energy-conserving room for the device is when taking a breath, and the human body has time to adapt to the temperature after taking a breath, thereby has improved the practicality of device to a certain extent.

(2) This energy-conserving room ventilation system, this device are located energy-conserving room one side and are provided with the ventilation hole, and the ventilation hole can open or close by the self-adaptation to make the device when being not suitable for ventilation mechanism, also can take a breath through the ventilation hole, thereby improve the suitability of device.

(3) This energy-conserving room ventilation system, the top that lies in the fan in this device is provided with the oblique top to avoid the rainy day rainwater to directly irritate the fan and cause the injury to the fan to a certain extent, thereby improved the life of fan to a certain extent.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a front view schematically illustrating the present invention;

FIG. 3 is a schematic view of the ball bearing structure of the present invention;

FIG. 4 is an enlarged view of part A of the present invention;

fig. 5 is an enlarged schematic view of part B of the present invention.

In the figure: the wind vane type energy-saving house comprises a wind vane 1, a ball bearing 2, a wind cup 3, a fixing rod 4, a first placing groove 5, a ventilation mechanism 6, a wind pumping box 601, a fan 602, a hollow-out plate 603, a first motor 604, a blast pipe 605, a connecting pipe 606, a wind pumping box 607, an inclined roof 608, a fan 609, a wind pumping pipe 610, a filter screen 611, a protective shell 612, a second motor 613, a gear 614, an air inlet pipe 615, a mounting plate 616, a ventilation hole 7, a handle 8, a movable plate 9, a second placing groove 10, a support rod 11, a ground 12, a door 13 and an energy-saving house 14.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an energy-saving house ventilation system comprises a ground 12, an energy-saving house 14 is welded and installed on the top of the ground 12, a fixed rod 4 is welded and installed on the top of the energy-saving house 14, an air cup 3 is sleeved and installed on the fixed rod 4, the air cup 3 is rotatably connected with the fixed rod 4, a ball bearing 2 is welded and installed on the top of the fixed rod 4, a vane 1 is welded and installed on the inner side wall of an inner ring of the ball bearing 2, a ventilation mechanism 6 is welded and installed on the top of the energy-saving house 14, the ventilation mechanism 6 comprises an air pumping box 601, a fan 602, a hollow plate 603, a first motor 604, an air supply pipe 605, a connecting pipe 606, an air box 607, an inclined top 608, a fan 609, an air pumping pipe 610, a filter screen 611, a protective shell 612, a second motor 613, a gear 614, an air supply pipe 615 and a mounting plate 616, the mounting plate 616 is, the air inlet pipe 615 is inverted L-shaped, a filter screen 611 is welded and installed at the free end of the air inlet pipe 615, the air inlet pipe 615 longitudinally penetrates through the outer side wall of the top of the mounting plate 616 and extends into the mounting plate 616, a gear 614 is welded and installed on the outer side wall of the air inlet pipe 615 at one end inside the mounting plate 616, another gear 614 is rotatably installed at the top and the bottom of the mounting plate 616, the two gears 614 are meshed and arranged, a second motor 613 is welded and installed on the outer side wall of the top of the mounting plate 616, the output end of the second motor 613 longitudinally penetrates through the top of the mounting plate 616 through a coupler and is welded and connected with the rotating shaft of the gear 614, an air pumping box 601 is welded and installed at the top of the energy-saving room 14, a pipeline longitudinally penetrates through the top of the energy-saving room 14 and is rotatably connected with the air inlet, the top of the hollow plate 603 is rotatably provided with a fan 602, the bottom of the hollow plate 603 is welded with a first motor 604, the output end of the first motor 604 longitudinally penetrates through the hollow plate 603 through a coupler and is welded and connected with the rotating shaft of the fan 602, the bottom welding machine of the air pumping box 601 is provided with an air supply pipe 605, the bottom of the energy-saving room 14 is welded with air boxes 607, the number of the air boxes 607 is four groups, which are sequentially positioned at four corners of the energy-saving room 14, the device adopts a bottom-up ventilation mode by arranging the air boxes 607 at the four corners of the energy-saving room 14, so that a human body has time to adapt to the temperature after ventilation while ventilating, thereby improving the practicability of the device to a certain degree, the free end of the air supply pipe 605 is welded and the top of one group of the air boxes 607, one side wall of the air boxes 607 is welded and connected with a connecting pipe 606, the outer side wall of the top of the energy-saving room 14 is welded with a fan 609, an exhaust pipe 610 is welded at the exhaust end of the fan 609, the exhaust pipe 610 longitudinally penetrates through the top of the energy-saving room 14 and extends to the inside of the energy-saving room 14, an inclined top 608 is welded at the top of the energy-saving room 14, the inclined top 608 is positioned right above the fan 609, the inclined top 608 is arranged at the top of the fan 609 in the device, so that rainwater in rainy days is prevented from being directly poured into the fan 609 to cause damage to the fan 609 to a certain extent, the service life of the fan 609 is prolonged to a certain extent, a first placing groove 5 is formed in the outer wall of one side of the energy-saving room 14, a ventilation hole 7 communicated with the inside of the energy-saving room 14 is formed in one side wall of the first placing groove 5, a movable plate 9 is hinged to the top of the inner side of the first placing groove 5, the movable plate 9 is, the lateral wall of handle 8 is provided with anti-skidding screw thread, second standing groove 10 has been seted up to another lateral wall of fly leaf 9, the articulated bracing piece 11 of assorted with it of installing in the inboard bottom of second standing groove 10, this device is located 14 one sides in energy-conserving room and is provided with ventilation hole 7, and ventilation hole 7 can be opened or close by the self-adaptation, thereby make the device when not using ventilation mechanism 6, also can take a breath through ventilation hole 7, thereby improve the suitability of device, energy-conserving room 14 preceding lateral wall is articulated installs door 13, the welding is installed on door 13 and is shaken, inlay on the door 13 and install the observation window.

When the device starts to be used, the wind direction is judged by observing the wind vane 1 and the wind cup 3, the second motor 613 is driven to drive the air inlet pipe 615 to rotate to the wind port, air enters the wind pumping box 601 through the wind inlet, the first motor 604 is driven to drive the fan 602 to pump air simultaneously, the air sequentially enters the four groups of wind boxes 607 through the air supply pipe 605, the fan 609 is opened simultaneously to pump air in the energy-saving room 14, the movable plate 9 is continuously opened through the handle 8, and the air inside and outside the energy-saving room 14 is driven to circulate.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An energy-saving house ventilation system comprises a ground (12), and is characterized in that: the utility model discloses a wind vane machine, including ground (12), energy-conserving room (14) are installed to the top welded mounting of ground (12), the top welded mounting in energy-conserving room (14) has dead lever (4), ball bearing (2) are installed to the top welded mounting in dead lever (4), the inner ring inside wall welded mounting in ball bearing (2) has wind vane (1), the top welded mounting in energy-conserving room (14) has ventilation mechanism (6), first standing groove (5) have been seted up to one side outer wall in energy-conserving room (14), ventilation hole (7) with energy-conserving room (14) inside intercommunication are seted up to one side wall in first standing groove (5), fly leaf (9) are installed in the inboard top of first standing groove (5) is articulated, second standing groove (10) have been seted up to another side wall in fly leaf (9), preceding lateral wall in energy-conserving room.

2. The energy-saving house ventilation system of claim 1, wherein: the ventilation mechanism (6) comprises an air pumping box (601), a fan (602), a hollow plate (603), a first motor (604), an air supply pipe (605), a connecting pipe (606), an air box (607), an inclined top (608), a fan (609), an air pumping pipe (610), a filter screen (611), a protective shell (612), a second motor (613), a gear (614), an air supply pipe (615) and a mounting plate (616), wherein the mounting plate (616) is welded and installed at the top of the energy-saving room (14), the mounting plate (616) is of an internal hollow structure, the air supply pipe (615) is rotatably installed on the mounting plate (616), the air supply pipe (615) is in an inverted L shape, the filter screen (611) is welded and installed at the free end of the air supply pipe (615), the air supply pipe (615) longitudinally penetrates through the outer side wall of the top of the mounting plate (616) and extends to the inside of the mounting plate (616), the gear (614) is welded and, the top and the bottom of the inner side of the mounting plate (616) are rotatably provided with another group of gears (614), the two groups of gears (614) are meshed, the outer side wall of the top of the mounting plate (616) is provided with a second motor (613) in a welded mode, the output end of the second motor (613) longitudinally penetrates through the top of the mounting plate (616) through a coupler and is arranged on a rotating shaft of the gears (614) in a welded mode, the top of the inner side of the energy-saving room (14) is provided with an air pumping box (601) in a welded mode, the top of the air pumping box (601) is provided with a pipeline in a welded mode, the pipeline longitudinally penetrates through the top of the energy-saving room (14) and is arranged on an air inlet pipe (615) in a rotating mode in a welded mode, the inner walls of the two sides of the air pumping box (601) are provided with hollow plates (603) in a welded mode, the top of the hollow plates (603) is rotatably provided with a fan (602) in a, blast pipe (605) are installed to the bottom welding machine of exhaust box (601), bellows (607) are installed in the bottom welding of energy-conserving room (14), the quantity of bellows (607) is four groups and is located the four corners of energy-conserving room (14) in proper order, the free end of blast pipe (605) sets up with the top welded connection of a set of bellows (607) in it, a lateral wall welded connection of bellows (607) has connect connecting pipe (606), connecting pipe (606) set up with other three sets of bellows (607) in series, fan (609) are installed in the top lateral wall welded connection of energy-conserving room (14), exhaust pipe (610) are installed in the convulsions end welded connection of fan (609), exhaust pipe (610) vertically run through the top of energy-conserving room (14) and extend to the inside of energy-conserving room (14), oblique top (608) are installed in the top welded connection of energy-conserving room (14), oblique top (608) are located directly over.

3. The energy-saving house ventilation system of claim 1, wherein: the wind cup (3) is sleeved on the fixed rod (4), and the wind cup (3) is rotatably connected with the fixed rod (4).

4. The energy-saving house ventilation system of claim 1, wherein: fly leaf (9) all match with first standing groove (5) size, and one side outer wall welded mounting of fly leaf (9) has handle (8), and the lateral wall of handle (8) is provided with anti-skidding screw thread.

5. The energy-saving house ventilation system of claim 1, wherein: the bottom of the inner side of the second placing groove (10) is hinged with a supporting rod (11) matched with the second placing groove.

6. The energy-saving house ventilation system of claim 1, wherein: the handle is welded on the door (13), and the observation window is embedded on the door (13).

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