CN115182523B

CN115182523B - Support sunshade ventilation system for building

Info

Publication number: CN115182523B
Application number: CN202210975783.XA
Authority: CN
Inventors: 杨瑛; 王倩; 毛磊; 周跃云; 汤朔宁; 杨宇晟; 胡月明; 高青; 谭亦高; 刘柱梁; 文泓森; 李超
Original assignee: China Construction Fifth Engineering Bureau Co Ltd
Current assignee: China Construction Fifth Engineering Bureau Co Ltd
Priority date: 2022-08-15
Filing date: 2022-08-15
Publication date: 2023-11-21
Anticipated expiration: 2042-08-15
Also published as: CN115182523A

Abstract

A support sunshade ventilation system for a building comprises a support unit, a photovoltaic sun shield and a connecting square column; the support units comprise an upper beam, a lower beam and side beams on two sides, the support units are divided into transverse support units and longitudinal support units according to an arrangement mode, two sides of the connecting square column are respectively connected with one transverse support unit, and the front and the rear of the connecting square column are respectively connected with one longitudinal support unit; the upper beam of the transverse supporting unit in the supporting unit is connected with the photovoltaic sun shield, and the photovoltaic sun shield can rotate relative to the upper beam; a lower beam pipe is arranged above a lower beam of the transverse supporting unit in the supporting unit, a main pipeline is arranged in the lower beam pipe, a nozzle unit is arranged on the main pipeline, and the nozzle unit extends to extend out of the lower beam pipe perpendicular to the main pipeline.

Description

Support sunshade ventilation system for building

Technical Field

The invention relates to the field of building ventilation, in particular to a supporting sunshade ventilation system for a building.

Background

In the field of building ventilation, there is an interactive requirement of air in a building, some high-altitude building ventilation systems are arranged outside building facades, play a role in guiding wind direction, ventilation inside and outside the building is realized, matched accessories such as photovoltaic panels, sun visors and the like have a cleaning and cooling requirement, for the requirement, a common cleaning mode comprises cleaner high-altitude operation, a common cooling or cleaning mode comprises spray washing and the like, however, the cleaner high-altitude operation has high labor cost, does not have sustainable chronicity and has a certain danger; the existing spray head spray washing cannot realize automation.

In actual production practice, however, there are the following problems:

1. in the shower nozzle washs or the cooling among the prior art, because the shower nozzle is with the size proportion of building, the shower nozzle needs to set up a plurality ofly, however because the problem of water pressure and a plurality of shower nozzles are concentrated water in a large number, leads to upstream shower nozzle water pressure big, and downstream shower nozzle water pressure is little, can not make the water pressure equipartition.

Meanwhile, the problem is faced, and the problem is not suitable for being solved by adopting an arithmetic method, namely the size of each spray head is greatly smaller than that of the main pipeline, so that the pressure of the upstream spray head is not high, the pressure equalization is realized, the method is only theoretically feasible, and the defect is too large in practice; because the size of the building pipeline cannot be too large, if the size of the spray head is required to be smaller by an arithmetic method, the size of the spray head is too small, more functions cannot be realized, and the working efficiency is reduced due to the too small size.

2. The shower nozzle of prior art is very common, but all are not applied in the high altitude construction, and the characteristics of high altitude construction accessory include: the circuit is not easy to install, maintain and arrange. Although only relatively expensive to implement. If no circuit is arranged, no driving structure such as a motor is arranged, and the control of the spray head is difficult.

3. In the spray head in the prior art, the spray head automatically rotates through the impeller blades, for example, the inclined blades are used, the vertical water flow impacts the inclined blades to cause component force in the circumferential direction, so that the blades rotate, but the technical scheme can only realize rotation in one direction and can not realize rotation in two directions, and for the high-altitude spray head, only spraying obliquely upwards is needed; the same as the ground spray head needs to rotate so as to enlarge the spray area and reduce the number of spray heads.

4. While prior art spray heads utilize blade rotation, the blade rotation is typically too fast, and in a swing mechanism that effects a swing, the period of the swing is to be controlled, and the swing is not properly achieved too fast, however, there is no solution in the prior art.

5. In the spray head pipeline system in the prior art, water storage in the spray head can be caused after water is stopped, and even if water has tension, water return can not be realized before a water closing valve is closed in time; if water cannot be returned in time, the water valve is stopped and then a dripping phenomenon exists, and the dripping can cause unexpected situations.

Disclosure of Invention

In order to overcome the above problems, the present invention proposes a solution to simultaneously solve the above problems.

The technical scheme adopted for solving the technical problems is as follows: a support sunshade ventilation system for a building comprises a support unit, a photovoltaic sun shield and a connecting square column; the support units comprise an upper beam, a lower beam and side beams on two sides, the support units are divided into transverse support units and longitudinal support units according to an arrangement mode, two sides of the connecting square column are respectively connected with one transverse support unit, and the front and the rear of the connecting square column are respectively connected with one longitudinal support unit; the upper beam of the transverse supporting unit in the supporting unit is connected with the photovoltaic sun shield; a lower beam pipe is arranged above a lower beam of the transverse supporting unit in the supporting unit, the main pipeline is arranged in the lower beam pipe, a nozzle unit is arranged on the main pipeline, the nozzle unit extends to extend out of the lower beam pipe perpendicular to the main pipeline, and the lower beam pipe is a square pipe;

the spray head unit comprises a shell, a spray nozzle and a base, wherein a transmission module, a connecting cavity, a swinging box and a water outlet cavity are arranged in the shell; the transmission module comprises a front shaft bracket, a driving shaft, blades, a blade plate and a rear shaft bracket; the swinging box comprises a front panel, a rear panel, a swinging shaft, a swinging plate, a first hollowed-out plate, a first limiting plate, a second hollowed-out plate and a second limiting plate; a spray hole is formed in the nozzle;

the front shaft bracket comprises a baffle below, a vertical rod is arranged above the lower baffle, a square block is arranged on the vertical rod, through holes are formed in the square block to accommodate the driving shaft, blades are further arranged on the driving shaft, the blades are arranged on the driving shaft, the rear shaft bracket is plate-shaped, the rear shaft bracket comprises a central through hole to accommodate the driving shaft, a first plate hole and a second plate hole which are bilaterally symmetrical are formed in the rear shaft bracket, the first plate hole and the second plate hole are fan-shaped and coaxial, and a first round hole is further formed in the rear shaft bracket; the blade plate is fan-shaped; the number of the fan-shaped blades is one, and the fan-shaped blades can rotate along with the driving shaft to cover or separate from the first plate holes and the second plate holes;

the front panel comprises a third plate hole, a fourth plate hole and a second round hole, wherein the third plate hole and the fourth plate hole are fan-shaped and two fan-shaped coaxial, the center of the front panel is provided with a hole for accommodating the swinging shaft, and the swinging shaft is provided with the swinging plate; the inner wall of the shell forms a peripheral wall of the swing box, and a first hollowed-out plate, a first limiting plate, a second hollowed-out plate and a second limiting plate which radially extend to the swing shaft are fixed on the inner side of the peripheral wall; the second hollowed-out plate, the second limiting plate, the first limiting plate and the first hollowed-out plate are sequentially arranged in the clockwise direction, and the swinging plate can swing between the first hollowed-out plate and the second hollowed-out plate; the swinging plate is fan-shaped, the fan-shaped angle is 90 degrees, the space between the first hollowed-out plate and the first limiting plate is communicated with the third plate hole, the space between the second hollowed-out plate and the second limiting plate is communicated with the fourth plate hole, and the space between the first limiting plate and the second limiting plate is communicated with the second round hole; the rear panel comprises a left through hole, a right through hole and a normal through hole, and the left through hole and the right through hole are adjacent and form a semicircular structure; the lower part of the rear panel is provided with the normal through hole; the center of the rear panel is provided with a hole for accommodating the swinging shaft;

the swing shaft penetrates through the rear panel and is connected to a nozzle mechanism, and the nozzle mechanism is formed by fixedly connecting a nozzle and a base; the nozzle is positioned above the base, an inclined plane is arranged above the nozzle, and the nozzle mechanism can swing along with the swinging shaft; the connecting cavity is arranged between the rear axle bracket and the front panel, the water outlet cavity is arranged between the rear panel and the nozzle mechanism, and the base is provided with an arc-shaped hole to be communicated with the water outlet cavity; the arc-shaped holes guide water to enter the space in the base, and the upper part of the space is communicated with the spray holes.

Further, a left fan-shaped channel, a right fan-shaped channel and a normally-open channel are arranged in the connecting cavity in an isolated mode.

Further, one end of the left fan-shaped channel is abutted to the first plate hole, the other end of the left fan-shaped channel is abutted to the third plate hole, one end of the right fan-shaped channel is abutted to the second plate hole, and the other end of the right fan-shaped channel is abutted to the fourth plate hole.

Further, one end of the normal-through channel is abutted against the first round hole, and the other end of the normal-through channel is abutted against the second round hole.

Further, part of spray holes are directly communicated with the space, and part of spray holes are directly communicated with the water outlet cavity.

Further, the lengths of the first hollowed-out plate and the second hollowed-out plate are equal to the fan-shaped side length of the swinging plate.

Further, the lengths of the first limiting plate and the second limiting plate are equal to the fan-shaped side length of the swinging plate.

Further, the first and second hollow plates are not connected with the swing shaft.

Further, the first limiting plate and the second limiting plate are not connected with the swinging shaft.

Further, an upper beam pipe is arranged below the upper beam.

The beneficial effects of the invention are as follows:

1. aiming at the 1 st point provided by the background technology, under the condition that the size of the spray head is similar to that of a main pipeline, enough space in the spray head is ensured to realize functions, and the efficiency is improved; meanwhile, in order to realize pressure control, a plurality of openings are formed in the spray head, the size of each opening is smaller than the inner diameter of the spray head so as to control flow, and therefore pressure cannot enter the upstream spray head, and pressure equalization between the upstream spray head and the downstream spray head is realized.

2. Aiming at the 2 nd point provided by the background technology, the traditional scheme of additionally arranging a power source or manually controlling the rotation of the spray head is abandoned, the automatic action of the spray head is realized by utilizing water flow, a more stable mechanical structure is utilized to replace an electric power structure and a wire layout, and the difficulty of high-altitude maintenance is avoided.

3. With respect to point 3 of the background art,

1) The straight-line hydraulic power is converted into rotary power through the impeller mechanism, through-flow of waterways on different sides is realized through rotation of the impeller mechanism, and the oscillating plate is driven to oscillate back and forth through the through-flow on different sides, so that the nozzle is driven to oscillate within a range of ninety degrees, and meanwhile, a normally-open flow path is arranged to flexibly supplement a water source.

2) A pressurizing space is formed by the dislocation between the plurality of fan-shaped holes to drive the swing plate to swing.

4. Aiming at the 4 th point provided by the background technology, the solution method is four:

1) Cutting off a power shaft between the swinging mechanism and the power mechanism, so that the rotation speed of the power mechanism is not synchronous with the rotation speed of the swinging mechanism;

2) The weight is added on the impeller shaft of the vane, the vane plate weight is used for reducing the rotation speed of the vane of the impeller;

3) Through the control of the rotation angle period, the swinging plate only swings back and forth by 90 degrees in one period; the blade plate rotates for 360 degrees in one period, so that the swing speed is reduced relative to the rotation speed;

4) The rotation angle of the blades can be flexibly adjusted, and the circumferential component force can be adjusted.

5. Aiming at the 5 th point of the background technology, the water flow at a lower water level is blocked outside the inner component of the spray head by arranging the baffle plate, so that the occurrence of dripping is avoided.

Note that: the above designs are not sequential, each of which provides a distinct and significant advance over the prior art.

Drawings

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

FIG. 1 is a schematic view of the entire shower head of the present invention

FIG. 2 is a schematic view of a front axle bracket of the present invention

FIG. 3 is a schematic view of a blade according to the present invention

FIG. 4 is a schematic view of a blade of the present invention

FIG. 5 is a schematic view of a rear axle bracket of the present invention

FIG. 6 is a schematic view of the internal piping of the connecting chamber of the present invention

FIG. 7 is a schematic view of a front panel of a swing chamber according to the invention

FIG. 8 is a schematic diagram of the swing structure of the present invention

FIG. 9 is a schematic view of a rear panel of the swing chamber of the present invention

FIG. 10 is a block diagram of the application of the support sunshade system of the present invention to the top floor of a building

FIG. 11 is a block diagram of a single support unit according to the present invention

FIG. 12 is a block diagram of a photovoltaic power generation system according to the present invention

In the drawings, reference numerals are as follows:

1. connecting wall 2, housing 3, front axle housing 4, drive shaft 5, vane 6, vane 7, rear axle housing 8, fan-shaped channel 9, swing case 10, normally open channel 11, swing shaft 12, nozzle 13, base 14, orifice 15, third orifice 16, baffle 17, fourth orifice 18, first orifice 19, second orifice 20, first orifice 21, second orifice 22, swing plate 23, first hollowed out plate 24, first limiting plate 25, second hollowed out plate 26, second limiting plate 27, hollowed out plate 28, left through hole 29, right through hole 30, normally open hole 31, vertical rod 32, block 33, front panel 34, rear panel 35, connecting cavity 36, water outlet cavity 37, lower beam 38, lower beam tube 39, main tube 40, spray head 41, photovoltaic sun visor 42, grille 43, wire mesh 44, upper beam 45, upper beam tube 46, side beam 47, connecting square column 48, lateral support unit 49, longitudinal support unit 49

Detailed Description

As shown in the figure: a support sunshade ventilation system for a building comprises a support unit, a photovoltaic sun shield and a connecting square column; the support units comprise an upper beam, a lower beam and side beams on two sides, the support units are divided into transverse support units and longitudinal support units according to an arrangement mode, two sides of the connecting square column are respectively connected with one transverse support unit, and the front and the rear of the connecting square column are respectively connected with one longitudinal support unit; the upper beam of the transverse supporting unit in the supporting unit is connected with the photovoltaic sun shield; a lower beam pipe is arranged above a lower beam of the transverse supporting unit in the supporting unit, the main pipeline is arranged in the lower beam pipe, a nozzle unit is arranged on the main pipeline, the nozzle unit extends to extend out of the lower beam pipe perpendicular to the main pipeline, and the lower beam pipe is a square pipe;

The working process is as follows, as shown in the figure: the vertical water flow impacts the inclined blades to cause a component force in the circumferential direction, so that the blades rotate to drive the coaxial blades to rotate, and the blades can rotate along with the driving shaft to cover or separate from the first plate holes and the second plate holes, so that water alternately enters the left fan-shaped channel, the right fan-shaped channel and the first round holes, and the water entering the first round holes is not blocked until the nozzle is sprayed out. The water in the sector channels and the right sector channels enters the space between the hollowed-out plate and the limiting plate through the third plate hole and the fourth plate hole, the swinging plate is pushed to swing back and forth through the hollowed-out holes on the hollowed-out plate, and the movement of the swinging plate drives the coaxial nozzle mechanism to swing; and water passing through the left through hole, the right through hole and the normal through hole enters the nozzle mechanism to be sprayed out. And the gaps between the upper beam and the lower beam can be ventilated to guide wind power flow, so that air flow between the inside and the outside of the building is realized.

As shown in the figure: the connecting cavity is internally provided with a left fan-shaped channel, a right fan-shaped channel and a normally-open channel which are isolated from each other. One end of the left fan-shaped channel is abutted to the first plate hole, the other end of the left fan-shaped channel is abutted to the third plate hole, one end of the right fan-shaped channel is abutted to the second plate hole, and the other end of the right fan-shaped channel is abutted to the fourth plate hole. One end of the normal-through channel is abutted against the first round hole, and the other end of the normal-through channel is abutted against the second round hole. Part of spray holes are directly communicated with the space, and part of spray holes are directly communicated with the water outlet cavity. The lengths of the first hollowed-out plate and the second hollowed-out plate are equal to the fan-shaped side length of the swinging plate. The lengths of the first limiting plate and the second limiting plate are equal to the fan-shaped side length of the swinging plate. The first hollowed-out plate and the second hollowed-out plate are not connected with the swinging shaft. The first limiting plate and the second limiting plate are not connected with the swinging shaft. The number of the blades is four or six. An upper beam pipe is arranged below the upper beam.

The foregoing detailed description is directed to embodiments of the invention which are not intended to limit the scope of the invention, but rather to cover all modifications and variations within the scope of the invention.

Claims

1. A support sunshade ventilation system for building, characterized in that: comprises a supporting unit, a photovoltaic sun shield and a connecting square column; the support units comprise an upper beam, a lower beam and side beams on two sides, the support units are divided into transverse support units and longitudinal support units according to an arrangement mode, two sides of the connecting square column are respectively connected with one transverse support unit, and the front and the rear of the connecting square column are respectively connected with one longitudinal support unit; the upper beam of the transverse supporting unit in the supporting unit is connected with the photovoltaic sun shield; a lower beam pipe is arranged above a lower beam of the transverse supporting unit in the supporting unit, a main pipeline is arranged in the lower beam pipe, a nozzle unit is arranged on the main pipeline, the nozzle unit extends to extend out of the lower beam pipe perpendicular to the main pipeline, and the lower beam pipe is a square pipe;

2. A support sunshade ventilation system for a building according to claim 1, wherein: the connecting cavity is internally provided with a left fan-shaped channel, a right fan-shaped channel and a normally-open channel which are isolated from each other.

3. A support sunshade ventilation system for a building according to claim 2, wherein: one end of the left fan-shaped channel is abutted to the first plate hole, the other end of the left fan-shaped channel is abutted to the third plate hole, one end of the right fan-shaped channel is abutted to the second plate hole, and the other end of the right fan-shaped channel is abutted to the fourth plate hole.

4. A support sunshade ventilation system for a building according to claim 3, wherein: one end of the normal-through channel is abutted against the first round hole, and the other end of the normal-through channel is abutted against the second round hole.

5. A support sunshade ventilation system for a building according to claim 1, wherein: part of spray holes are directly communicated with the space, and part of spray holes are directly communicated with the water outlet cavity.

6. A support sunshade ventilation system for a building according to claim 1, wherein: the lengths of the first hollowed-out plate and the second hollowed-out plate are equal to the fan-shaped side length of the swinging plate.

7. A support sunshade ventilation system for a building according to claim 1, wherein: the lengths of the first limiting plate and the second limiting plate are equal to the fan-shaped side length of the swinging plate.

8. A support sunshade ventilation system for a building according to claim 1, wherein: the first hollowed-out plate and the second hollowed-out plate are not connected with the swinging shaft.

9. A support sunshade ventilation system for a building according to claim 1, wherein: the first limiting plate and the second limiting plate are not connected with the swinging shaft.

10. A support sunshade ventilation system for a building according to claim 1, wherein: an upper beam pipe is arranged below the upper beam.