CN216114514U - Energy-conserving ventilation unit is used in new forms of energy architectural design - Google Patents

Abstract

The utility model discloses an energy-saving ventilation device for new energy building design, which comprises a ventilation pipeline, a ventilation opening, a fixing bolt, a fixing frame, a control panel, a supporting rod and a shunting mechanism, wherein the shunting mechanism is arranged at the upper end of the ventilation pipeline; through having set up stop gear in reposition of redundant personnel mechanism upper end, when the air supply board swing, can press and move kicking block and slide and move toward the sliding frame lower extreme to press and move the pressure spring and produce the deformation shrink, absorb air supply board upper end impact force, reached and to have prevented that air supply board displacement is too big advantage.

Description

Energy-conserving ventilation unit is used in new forms of energy architectural design

Technical Field

The utility model particularly relates to an energy-saving ventilation device for new energy building design, and relates to the related field of new energy buildings.

Background

With the development of socio-economic and the improvement of the living standard of people, the influence on the global climate and environment is increasingly paid attention to, the attention of people is forced to be focused on the development and utilization of new energy resources all over the world, and scientists in various countries are working on developing new energy resource buildings generating less pollution.

In new energy building design, energy-saving ventilation devices are often needed, but due to different building areas, a plurality of ventilation devices are often needed to ventilate a plurality of areas, and waste of energy and resources is caused.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned disadvantages, the present invention provides an energy-saving ventilation device for new energy building design.

The utility model is realized in such a way, an energy-saving ventilation device for new energy building design is constructed, the device comprises an air duct, a ventilation opening, a fixing bolt, a fixing frame A, a control panel, a support rod and a flow dividing mechanism, the ventilation opening is formed in the front end of the air duct, the flow dividing mechanism is arranged at the rear end of the air duct and comprises a discharge pipe, a fixing frame B, a motor, a first gear, a second gear, a rotating shaft, an air supply plate and a limiting mechanism, the discharge pipe is connected with the rear end of the air duct, the fixing frame B is arranged at the right end of the discharge pipe, the motor is installed in the fixing frame B and is connected with the middle of the first gear, the first gear is in meshing transmission with the upper end of the second gear, the second gear is connected with the right end of the air supply plate through the rotating shaft, and the limiting mechanism is arranged on the inner side of the discharge pipe.

Preferably, the air pipe top is provided with fixing bolt, air pipe embedding is installed in fixed frame A, the air pipe right-hand member is provided with control panel, air pipe is fixed with bracing piece bottom.

Preferably, the limiting mechanism comprises a sliding frame, a pressure spring, a sliding plate and a top block, the sliding frame is embedded in the inner side of the discharge pipe and is elastically connected with the lower end of the sliding plate through the pressure spring, and the sliding plate is fixedly connected with the lower end of the top block.

Preferably, the sliding plate is in sliding fit with the inner side of the sliding frame, and the sliding plate and the top block are vertically distributed.

Preferably, the air supply plate is in a flat and long shape, and the air supply plate rotates synchronously along with the rotating shaft.

Preferably, the discharge pipe is provided at an upper end thereof with a first discharge port and a second discharge port, and has a V-shaped cross-section.

Preferably, the fixing frame B has a hollow interior, and the second gear is embedded inside the fixing frame B.

Preferably, the first gear and the second gear are vertically distributed, and the first gear is meshed with the upper end of the second gear.

Preferably, the rotating shaft is made of carbon steel and has high hardness.

Preferably, the first gear and the second gear are both made of gear steel, and the wear resistance is high.

The utility model has the following advantages: the utility model provides an energy-saving ventilating device for new energy building design through improvement, which has the following improvement compared with the same type of equipment:

the method has the advantages that: according to the energy-saving ventilation device for new energy building design, the upper end of the ventilation pipeline is provided with the flow dividing mechanism, when the air supply plate swings anticlockwise and is parallel to the first discharge port, air is discharged from the first discharge port, and when the air supply plate swings clockwise and is parallel to the second discharge port, air is discharged from the second discharge port and then from the second discharge port, so that the advantage that a ventilation area can be switched rapidly is achieved.

The method has the advantages that: according to the energy-saving ventilation device for new energy building design, the limiting mechanism is arranged at the upper end of the flow dividing mechanism, and when the air supply plate swings, the jacking block and the sliding plate can be pressed to move towards the lower end of the sliding frame, so that the compression spring is pressed to deform and contract, the impact force on the upper end of the air supply plate is absorbed, and the advantage that the air supply plate can be prevented from being excessively displaced is achieved.

Drawings

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

FIG. 2 is a schematic perspective view of the diverter mechanism of the present invention;

FIG. 3 is a schematic view of the internal structure of the fixed frame B according to the utility model;

FIG. 4 is a schematic cross-sectional view of a discharge tube according to the present invention;

fig. 5 is a schematic sectional structure view of the limiting mechanism of the present invention.

Wherein: the air duct comprises a ventilation duct-1, an air vent-2, a fixing bolt-3, a fixing frame A-4, a control panel-5, a supporting rod-6, a flow dividing mechanism-7, a discharge pipe-71, a fixing frame B-72, a motor-73, a first gear-74, a second gear-75, a rotating shaft-76, an air supply plate-77, a limiting mechanism-78, a sliding frame-781, a pressure spring-782, a sliding plate-783, a top block-784, a first discharge port-711 and a second discharge port-712.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the utility model provides an energy-saving ventilation device for new energy building design through improvement, which includes a ventilation duct 1, a ventilation opening 2, a fixing bolt 3, a fixing frame a4, a control panel 5, a support rod 6 and a diversion mechanism 7, wherein the ventilation opening 2 is arranged at the front end of the ventilation duct 1, the diversion mechanism 7 is arranged at the rear end of the ventilation duct 1, the fixing bolt 3 is arranged at the top of the ventilation duct 1, the ventilation duct 1 is embedded in the fixing frame a4, the control panel 5 is arranged at the right end of the ventilation duct 1, and the ventilation duct 1 is fixed with the bottom of the support rod 6.

Referring to fig. 2, 3 and 4, the present invention provides an energy saving ventilation device for new energy building design by improving the structure, the flow dividing mechanism 7 includes a discharge pipe 71, a fixing frame B72, a motor 73, a first gear 74, a second gear 75, a rotating shaft 76, an air supply plate 77 and a limiting mechanism 78, the discharge pipe 71 is connected with the rear end of the ventilation duct 1, the right end of the discharge pipe 71 is provided with a fixing frame B72, the fixing frame B72 is internally provided with the motor 73, the motor 73 is connected with the middle part of the first gear 74, the first gear 74 is engaged with the upper end of the second gear 75 for transmission, the second gear 75 is connected with the right end of the air supply plate 77 through the rotating shaft 76, the inner side of the discharge pipe 71 is provided with the limiting mechanism 78, the air supply plate 77 is flat, the air supply plate 77 rotates synchronously with the rotating shaft 76, the upper end of the discharge pipe 71 is provided with a first discharge port 711 and a second discharge port 712, and the cross section of the discharge pipe 71 is in a V-shaped strip shape, the inside cavity form that is of fixed frame B72 to the second gear 75 imbeds in fixed frame B72 inboard, and first gear 74 and the mutual vertical distribution of second gear 75, and first gear 74 and the meshing of second gear 75 upper end mutually do benefit to and play and drive second gear 75 and carry out the pivoted effect, and axis of rotation 76 is the carbon steel material, and the hardness is high, and first gear 74 and second gear 75 are the gear steel material, and the wearability is strong.

Referring to fig. 5, the energy-saving ventilation device for new energy building design provided by the utility model is improved, the limiting mechanism 78 includes a sliding frame 781, a pressure spring 782, a sliding plate 783 and a top block 784, the sliding frame 781 is embedded in the inner side of the discharge pipe 71, the sliding frame 781 is elastically connected with the lower end of the sliding plate 783 through the pressure spring 782, the sliding plate 783 is fixedly connected with the lower end of the top block 784, the sliding plate 783 is in sliding fit with the inner side of the sliding frame 781, and the sliding plate 783 and the top block 784 are vertically distributed with each other, so that the sliding plate 783 can move smoothly.

The utility model provides an energy-saving ventilation device for new energy building design through improvement, and the working principle is as follows;

firstly, before use, the energy-saving ventilating device for new energy building design is horizontally placed, and then the device is fixed through a fixing bolt 3 and a supporting rod 6;

secondly, when the device is used, a button at the upper end of the control panel 5 is pressed, the device is started, and fresh air is conveyed through the ventilation pipeline 1;

thirdly, when air is to be supplied to different areas, the flow dividing mechanism 7 is started, the motor 73 is electrified to work, the first gear 74 is driven to rotate, the first gear 74 drives the rotating shaft 76 and the air supply plate 77 to swing through the second gear 75, when the air supply plate 77 swings anticlockwise and is parallel to the first discharge port 711, air is discharged from the first discharge port 711, and when the air supply plate 77 swings clockwise and is parallel to the second discharge port 712, air is discharged from the second discharge port 712 and then from the second discharge port 712, so that the ventilation areas can be switched rapidly;

fourthly, through set up stop gear 78 in reposition of redundant personnel mechanism 7 upper end, when air supply plate 77 swings, can press and move kicking block 784 and slide 783 and move toward smooth frame 781 lower extreme to press pressure spring 782 to produce the deformation shrink, absorb air supply plate 77 upper end impact force, reached and to have prevented that air supply plate 77 displacement is too big.

The utility model provides an energy-saving ventilation device for new energy building design through improvement, a flow dividing mechanism 7 is arranged at the upper end of a ventilation pipeline 1, a motor 73 is electrified to work to drive a first gear 74 to rotate, so that the first gear 74 drives a rotating shaft 76 and an air supply plate 77 to swing through a second gear 75, when the air supply plate 77 swings anticlockwise and is parallel to a first discharge port 711, wind is discharged from the first discharge port 711, and when the air supply plate 77 swings clockwise and is parallel to a second discharge port 712, the wind is discharged from the second discharge port 712, so that the advantage of rapidly switching ventilation areas is achieved; through having set up stop gear 78 in reposition of redundant personnel mechanism 7 upper end, when air supply plate 77 swings, can press and move kicking block 784 and slide 783 and move toward smooth frame 781 lower extreme to press pressure spring 782 to produce the deformation shrink, absorb air supply plate 77 upper end impact force, reached and to have prevented air supply plate 77 displacement too big advantage.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. An energy-saving ventilation device for new energy building design comprises a ventilation pipeline (1), ventilation openings (2), fixing bolts (3), a fixing frame A (4), a control panel (5) and a support rod (6), wherein the ventilation openings (2) are formed in the front end of the ventilation pipeline (1);

the method is characterized in that: also comprises a shunting mechanism (7), the back end of the ventilating duct (1) is provided with the shunting mechanism (7), the flow dividing mechanism (7) comprises a discharge pipe (71), a fixed frame B (72), a motor (73), a first gear (74), a second gear (75), a rotating shaft (76), an air supply plate (77) and a limiting mechanism (78), the exhaust pipe (71) is connected with the rear end of the ventilation pipeline (1), a fixed frame B (72) is arranged at the right end of the exhaust pipe (71), a motor (73) is arranged in the fixed frame B (72), the motor (73) is connected with the middle part of the first gear (74), the first gear (74) is in meshed transmission with the upper end of the second gear (75), the second gear (75) is connected with the right end of the air supply plate (77) through a rotating shaft (76), and a limiting mechanism (78) is arranged on the inner side of the discharge pipe (71).

2. The energy-saving ventilation device for the new energy building design according to claim 1, characterized in that: air pipe (1) top is provided with fixing bolt (3), air pipe (1) embedding is installed in fixed frame A (4), air pipe (1) right-hand member is provided with control panel (5), air pipe (1) is fixed with bracing piece (6) bottom.

3. The energy-saving ventilation device for the new energy building design according to claim 1, characterized in that: stop gear (78) are including smooth frame (781), pressure spring (782), slide (783) and kicking block (784), smooth frame (781) embedding is installed in discharge pipe (71) inboard, smooth frame (781) are through pressure spring (782) and slide (783) lower extreme elastic connection, slide (783) and kicking block (784) lower extreme fixed connection.

4. The energy-saving ventilation device for the new energy building design according to claim 3, characterized in that: the sliding plate (783) is in sliding fit with the inner side of the sliding frame (781), and the sliding plate (783) and the top block (784) are vertically distributed.

5. The energy-saving ventilation device for the new energy building design according to claim 1, characterized in that: the air supply plate (77) is in a flat and long strip shape, and the air supply plate (77) rotates synchronously along with the rotating shaft (76).

6. The energy-saving ventilation device for the new energy building design according to claim 1, characterized in that: the upper end of the discharge pipe (71) is provided with a first discharge port (711) and a second discharge port (712), and the discharge pipe (71) has a V-shaped cross section.

7. The energy-saving ventilation device for the new energy building design according to claim 1, characterized in that: the inner part of the fixed frame B (72) is in a cavity shape, and the second gear (75) is embedded in the inner side of the fixed frame B (72).

8. The energy-saving ventilation device for the new energy building design according to claim 1, characterized in that: the first gear (74) and the second gear (75) are vertically distributed, and the first gear (74) is meshed with the upper end of the second gear (75).

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