CN114097495A - Full-automatic skylight structure - Google Patents

Abstract

The invention discloses a full-automatic skylight structure, which comprises a skylight frame, a driving mechanism and a plurality of groups of windowing units, wherein the skylight frame is provided with a plurality of groups of skylight units; the skylight frame comprises a fixed upper frame, a movable lower frame and a plurality of middle supports, the fixed upper frame is fixed at the top of the greenhouse framework, one end of each middle support is hinged to the fixed upper frame, and the other end of each middle support is fixed to the movable lower frame; the driving mechanism comprises a driving motor and a driving shaft, the driving motor is fixed on the greenhouse framework through a motor base and is rotatably arranged on the greenhouse framework through a shaft support, and the driving motor is in transmission connection with the driving shaft; each group of windowing units comprises an arc-shaped rack, a gear and a rack limiting seat, the upper end of the arc-shaped rack is hinged to the middle support, the gear is coaxially fixed on the driving shaft, the rack limiting seat is of a U-shaped structure, two sides of the rack limiting seat are arranged on two sides of the gear and rotatably installed on the driving shaft, and the arc-shaped rack penetrates through the bottom of the gear and the bottom of the rack limiting seat and is meshed with the gear. The invention has the advantages of high ventilation efficiency, no space occupation, high automation degree and flexible opening and closing.

Description

Full-automatic skylight structure

Technical Field

The invention relates to the technical field of greenhouses, in particular to a full-automatic skylight structure.

Background

The greenhouse is a building which uses lighting covering materials as all or part of building enclosing structures and can be used for cultivating plants in winter or other seasons which are not suitable for open plant growth, the greenhouse function classification can be divided into a productive greenhouse, a test (education) greenhouse and a commercial greenhouse which allows the public to enter according to the final use function of the greenhouse, the vegetable cultivation greenhouse, the flower cultivation greenhouse, the cultivation greenhouse and the like all belong to the productive greenhouse, the artificial climate chamber, the greenhouse laboratory and the like belong to the test (education) greenhouse, and various ornamental greenhouses, retail greenhouses, commodity wholesale greenhouses and the like belong to the commercial greenhouse.

The ventilation of the greenhouse is the key for controlling the temperature and the humidity in the greenhouse, most of the traditional sunlight greenhouses adopt mechanical ventilation and air ports are manufactured in a structural hole punching mode, and the problems of low ventilation efficiency, space occupation, low automation degree and poor opening and closing flexibility exist.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the full-automatic skylight structure which is high in ventilation efficiency, free of space occupation, high in automation degree and flexible in opening and closing.

The invention provides a full-automatic skylight structure, comprising:

the skylight frame comprises a fixed upper frame and a movable lower frame which are oppositely arranged in parallel, and a plurality of middle supports which are connected between the fixed upper frame and the movable lower frame at intervals, wherein the fixed upper frame is fixed at the top of the greenhouse framework, one end of each middle support is hinged to the fixed upper frame, and the other end of each middle support is fixed to the movable lower frame;

the driving mechanism comprises a driving motor and a driving shaft, the driving motor is fixed on the greenhouse framework through a motor base, the driving shaft is arranged below the skylight framework in parallel and is rotatably arranged on the greenhouse framework through a shaft support, and the driving motor is in transmission connection with the driving shaft;

the window opening device comprises a plurality of groups of window opening units, wherein each group of window opening units comprises an arc-shaped rack, a gear and a rack limiting seat, the upper end of the arc-shaped rack is hinged to the middle support, the gear is coaxially fixed on the driving shaft, the rack limiting seat is of a U-shaped structure, two sides of the rack limiting seat are arranged on two sides of the gear and rotatably installed on the driving shaft, and the arc-shaped rack penetrates through the space between the bottom of the gear and the bottom of the rack limiting seat and is meshed with the gear.

Further, still include temperature sensor, humidity transducer and central controller, temperature sensor is used for monitoring the temperature in the big-arch shelter, humidity transducer is used for monitoring the humidity in the big-arch shelter, central controller's input and temperature sensor and humidity transducer electricity are connected, central processor's output with driving motor electricity is connected.

Furthermore, a folding insect-proof net is longitudinally arranged between the movable lower frame and the greenhouse framework.

Further, an insect-proof net supporting plate is fixedly mounted on the greenhouse framework below the movable lower frame, a lower insect-proof net bayonet extending along the longitudinal direction is arranged on the insect-proof net supporting plate, an upper insect-proof net bayonet extending along the longitudinal direction is arranged on the movable lower frame, the lower edge of the foldable insect-proof net is clamped at the lower insect-proof net bayonet, and the upper edge of the foldable insect-proof net is clamped at the upper insect-proof net bayonet.

Furthermore, a fixed lower frame is fixedly arranged on the greenhouse framework below the movable lower frame, and when the skylight frame is closed, the movable lower frame presses on the fixed lower frame.

Furthermore, the utility model also comprises a rubber clamping strip and a film, a top clamping groove extending along the longitudinal direction is arranged on the fixed lower frame, two sides of the notch of the top clamping groove protrude towards the middle to form a top necking port, the lower part of the rubber clamping strip is provided with a clamping joint, the clamping connector can be clamped into the top clamping groove through the top necking opening, two sides of the lower part of the clamping connector are provided with guide inclined planes for guiding the clamping connector through the top necking opening, a fixing hole is arranged in the clamping joint of the rubber clamping strip along the longitudinal direction, a fracture surface extending from the fixing hole to the side part of the rubber clamping strip extending out of the top clamping groove and far away from one side of the fixed upper frame is arranged in the rubber clamping strip, the film covers the greenhouse framework, a connecting sleeve is arranged on one side of the film extending along the rubber clamping strip, a fixed shaft is inserted in the connecting sleeve, and the connecting sleeve and the fixed shaft inserted in the connecting sleeve are clamped in the fixed hole through the fracture surface.

Further, still include a plurality of press mold ropes, the press mold rope is pressed on the film, the top of rubber card strip is equipped with the recess, the one end of press mold rope is passed the recess is fixed and is close to in the fixed lower frame one side of fixed upper ledge.

Further, still include a plurality of mountings, the mounting has head and pole portion, fixed lower carriage is close to one side of fixed upper frame is along vertically being equipped with the lateral part draw-in groove, the both sides of the notch department of lateral part draw-in groove are to middle protrusion in order to form the lateral part neck finish, the head adaptation of mounting is in the lateral part draw-in groove, and the pole portion of mounting is worn out lateral part neck finish and threaded connection have the nut, press mold rope cover is tightly fixed on this pole portion.

Furthermore, a lower frame guard plate is further arranged on one side, away from the fixed upper frame, of the movable lower frame.

The invention has the beneficial effects that: when the window is opened and closed, the driving motor drives the driving shaft to rotate, then the driving shaft drives the gears of the window opening units to rotate, the gears are meshed with the arc-shaped racks, and then the arc-shaped racks of the window opening units are driven to upwards extend out to drive the middle support of the skylight frame to synchronously upwards rotate to open the window, or the arc-shaped racks of the window opening units are driven to downwards retract to drive the middle support of the skylight frame to synchronously downwards rotate to close the window, therefore, the skylight structure can be installed on a shed roof and automatically opens and closes the skylight through the motor drive, the ventilation efficiency is high, the space is not occupied, the automation degree is high, and the opening and closing are flexible.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a top view of a skylight structure installation in an embodiment of the present invention;

FIG. 2 is a cross-sectional view of the skylight structure installed in an embodiment of the present invention;

FIG. 3 is a schematic view of the installation of a driving motor according to an embodiment of the present invention;

FIG. 4 is a schematic view of the mounting of the shaft support in an embodiment of the present invention;

FIG. 5 is a schematic structural view of the windowing unit expanding the skylight according to the embodiment of the invention;

FIG. 6 is a schematic structural view of the skylight when the windowing unit closes the skylight in the embodiment of the invention;

fig. 7 is a partially enlarged view of fig. 6.

In the drawings, 100-skylight frame; 110-fixing the upper frame; 120-movable lower frame; 121-installing an insect-proof net bayonet; 122-lower frame guard board; 130-middle support; 200-a drive mechanism; 210-a drive motor; 211-motor base; 220-a drive shaft; 221-axis support; 300-a windowing unit; 310-arc rack; 320-gear; 330-a rack limiting seat; 400-folding insect-proof net; 410-insect-proof net pallet; 411-lower insect-proof net bayonet; 500-fixing the lower frame; 510-rubber snap strips; 511-a bayonet joint; 512-a guide slope; 513-fixation holes; 514-fracture surface; 515-grooves; 520-a top card slot; 521-top necking; 530-a fixture; 531-head; 532-rod part; 533-nut; 540-side card slot; 541-lateral neckdown; 610-greenhouse framework; 620-film; 621-connecting sleeve; 622-fixed axis; 630-film pressing rope.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the invention pertains.

As shown in fig. 1 to 7, an embodiment of the present invention provides a fully automatic sunroof structure, which includes a sunroof frame 100, a driving mechanism 200, and a plurality of sets of window opening units 300.

The skylight frame 100 comprises a fixed upper frame 110 and a movable lower frame 120 which are oppositely arranged in parallel, and a plurality of middle supports 130 which are connected between the fixed upper frame 110 and the movable lower frame 120 at intervals, wherein the fixed upper frame 110 is fixed at the top of the greenhouse framework 610, one end of each middle support 130 is hinged to the fixed upper frame 110, and the other end is fixed at the movable lower frame 120.

The driving mechanism 200 comprises a driving motor 210 and a driving shaft 220, the driving motor 210 is fixed on the greenhouse frame 610 through a motor base 211, the driving shaft 220 is arranged below the skylight frame 100 in parallel and is rotatably mounted on the greenhouse frame 610 through a shaft support 221, and the driving motor 210 is in transmission connection with the driving shaft 220.

Each group of windowing units 300 comprises an arc-shaped rack 310, a gear 320 and a rack limiting seat 330, the upper end of the arc-shaped rack 310 is hinged to the middle support 130, the gear 320 is coaxially fixed on the driving shaft 220, the rack limiting seat 330 is of a U-shaped structure, two side parts of the rack limiting seat 330 are arranged on two sides of the gear 320 and rotatably mounted on the driving shaft 220, and the arc-shaped rack 310 penetrates through the space between the gear 320 and the bottom of the rack limiting seat 330 and is meshed with the gear 320.

When the window is opened and closed, the driving motor 210 drives the driving shaft 220 to rotate, then the driving shaft 220 drives the gears 320 of the window opening units 300 to rotate, the gears 320 are meshed with the arc-shaped racks 310, and further the arc-shaped racks 310 of the window opening units 300 are driven to extend upwards to drive the middle supports 130 of the skylight frame 100 to synchronously rotate upwards for opening the window, or the arc-shaped racks 310 of the window opening units 300 are driven to retract downwards to drive the middle supports 130 of the skylight frame 100 to synchronously rotate downwards for closing the window, therefore, the skylight structure can be installed on a shed roof and can be automatically opened and closed through the driving of the motor, the ventilation efficiency is high, the space is not occupied, meanwhile, the automation degree is high, and the opening and closing are flexible.

This embodiment should still include temperature sensor (not shown in the figure), humidity transducer (not shown in the figure) and central controller (not shown in the figure), temperature sensor is used for the temperature in the monitoring big-arch shelter, humidity transducer is used for the humidity in the monitoring big-arch shelter, central controller's input and temperature sensor and humidity transducer electricity are connected, central processor's output and driving motor 210 electricity are connected, like this, the skylight can detect the temperature and humidity in the big-arch shelter through temperature sensor and humidity transducer, the opening and closing of automatic control skylight, do not need artifical tour and guard on duty.

In this embodiment, be provided with folding fly net 400 along vertically between activity lower frame 120 and the big-arch shelter skeleton 610, when the skylight was closed, folding fly net 400 was folded, and when the skylight was opened, activity lower frame 120 upwards rotated in order to drive folding fly net 400 and expand to prevent the pest from getting into the big-arch shelter from the skylight in, can effectively prevent that the plant diseases and insect pests from taking place.

Preferably, referring to fig. 7, in order to facilitate installation of the foldable anti-insect net 400, an anti-insect net supporting plate 410 is fixedly installed on the greenhouse frame 610 below the movable lower frame 120, a lower anti-insect net bayonet 411 extending along the longitudinal direction is arranged on the anti-insect net supporting plate 410, an upper anti-insect net bayonet 121 extending along the longitudinal direction is arranged on the movable lower frame 120, the lower edge of the foldable anti-insect net 400 is clamped to the lower anti-insect net bayonet 411, and the upper edge of the foldable anti-insect net 400 is clamped to the upper anti-insect net bayonet 121.

In this embodiment, the fixed lower frame 500 is fixedly mounted on the greenhouse frame 610 below the movable lower frame 120, and when the skylight frame 100 is closed, the movable lower frame 120 presses on the fixed lower frame 500.

Preferably, referring to fig. 7, this embodiment further includes a rubber clip strip 510 and a film 620, a top slot 520 extending along a longitudinal direction is disposed on the fixed lower frame 500, two sides of the slot of the top slot 520 protrude towards the middle to form a top necking mouth 521, a clip head 511 is disposed at the lower portion of the rubber clip strip 510, the clip head 511 can be clipped into the top slot 520 through the top necking mouth 521, two sides of the lower portion of the clip head 511 have guiding inclined planes 512 for guiding the clip head 511 through the top necking mouth 521, a fixing hole 513 is disposed in the clip head 511 of the rubber clip strip 510 along the longitudinal direction, a fracture surface 514 extending from the fixing hole 513 to a side portion of the rubber clip strip 510 extending out of the top slot 520 and far away from the fixed upper frame 110 is disposed in the rubber clip strip 510, the film 620 covers the greenhouse frame 610, a connecting sleeve is disposed on one side of the film 620 extending along the rubber clip strip 510, a fixing shaft 622 is inserted in the connecting sleeve, the connecting sleeve 621 and the fixing shaft 622 inserted therein are also inserted into the fixing hole 513 through the fracture surface 514.

The fixed lower frame 500 of this embodiment passes through the rubber card strip 510 with the film 620 at the top of the greenhouse, when processing the film 620, need to process a adapter sleeve 621 at the side that film 620 and fixed lower frame 500 are connected, during the installation, penetrate the fixed axle 622 into this adapter sleeve 621 earlier, go into its inside fixed orifices 513 with adapter sleeve 621 and the fixed axle 622 of cartridge in its inside together through the fracture face 514 card on the rubber card strip 510, then go into the card joint 511 of rubber card strip 510 in the top draw-in groove 520 through top necking down mouth 521 card, this limit of film 620 can be pressed from both sides tightly and be fixed in the rubber card strip 510, this structure simple to operate, swiftly, firm in connection, and the junction of film 620 and rubber card strip 510 is difficult to take place the damage when rolling up the film and pulling, rubber card strip 510 can also advance the buffering to activity lower frame 120 when closing the window simultaneously.

Preferably, the embodiment further comprises a plurality of film pressing ropes 630, the film pressing ropes 630 press on the film 620 and are used for pressing the film 620 on the greenhouse frame 610, the top of the rubber clamping strip 510 is provided with a groove 515, one end of the film pressing rope 630 passes through the groove 515 and is fixed on one side of the fixed lower frame 500 close to the fixed upper frame 110, so that the film pressing rope 630 can pass through the upper part of the rubber clamping strip 510, the film pressing ropes 630 have a certain pressing effect on the rubber clamping strip 510, and meanwhile, the groove 515 on the top of the rubber clamping strip 510 passes through, so that the movable lower frame 120 can be ensured to be more attached to the rubber clamping strip 510 when being combined.

The embodiment further comprises a plurality of fixing pieces 530, each fixing piece 530 has a head portion 531 and a rod portion 532, a side portion clamping groove 540 is longitudinally formed in one side of the fixing lower frame 500 close to the fixing upper frame 110, two sides of the groove of the side portion clamping groove 540 protrude towards the middle to form a side portion necking opening 541, the head portion 531 of each fixing piece 530 is fitted into the corresponding side portion clamping groove 540, the rod portion 532 of each fixing piece 530 penetrates through the corresponding side portion necking opening 541 and is in threaded connection with a nut 533, and the film pressing rope 630 is fixedly sleeved on the rod portion 532. The fixing member 530 serves as a connection point of the film pressing rope 630, and can be adjusted freely along the side clamping groove 540, so that the position of the film pressing rope 630 can be adjusted conveniently.

In addition, a lower frame guard plate 122 is further arranged on one side, away from the fixed upper frame 110, of the movable lower frame 120, and the lower frame guard plate 122 has a rain shielding effect, so that rainwater can be effectively prevented from flowing into the greenhouse between the movable lower frame 120 and the fixed lower frame 500 after the window is closed.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims (9)

1. A full-automatic skylight structure, characterized by comprising:

the skylight frame comprises a fixed upper frame and a movable lower frame which are oppositely arranged in parallel, and a plurality of middle supports which are connected between the fixed upper frame and the movable lower frame at intervals, wherein the fixed upper frame is fixed at the top of the greenhouse framework, one end of each middle support is hinged to the fixed upper frame, and the other end of each middle support is fixed to the movable lower frame;

the driving mechanism comprises a driving motor and a driving shaft, the driving motor is fixed on the greenhouse framework through a motor base, the driving shaft is arranged below the skylight framework in parallel and is rotatably arranged on the greenhouse framework through a shaft support, and the driving motor is in transmission connection with the driving shaft;

the window opening device comprises a plurality of groups of window opening units, wherein each group of window opening units comprises an arc-shaped rack, a gear and a rack limiting seat, the upper end of the arc-shaped rack is hinged to the middle support, the gear is coaxially fixed on the driving shaft, the rack limiting seat is of a U-shaped structure, two sides of the rack limiting seat are arranged on two sides of the gear and rotatably installed on the driving shaft, and the arc-shaped rack penetrates through the space between the bottom of the gear and the bottom of the rack limiting seat and is meshed with the gear.

2. The full-automatic skylight structure of claim 1, further comprising a temperature sensor for monitoring the temperature inside the greenhouse, a humidity sensor for monitoring the humidity inside the greenhouse, and a central controller having an input electrically connected to the temperature sensor and the humidity sensor and an output electrically connected to the driving motor.

3. The full-automatic skylight structure of claim 1, characterized in that a folding insect net is arranged between the movable lower frame and the greenhouse frame along the longitudinal direction.

4. The full-automatic skylight structure of claim 3, wherein an insect-proof net supporting plate is fixedly installed on the greenhouse framework below the movable lower frame, a lower insect-proof net bayonet extending along the longitudinal direction is arranged on the insect-proof net supporting plate, an upper insect-proof net bayonet extending along the longitudinal direction is arranged on the movable lower frame, the lower edge of the folded insect-proof net is clamped in the lower insect-proof net bayonet, and the upper edge of the folded insect-proof net is clamped in the upper insect-proof net bayonet.

5. The full-automatic skylight structure of claim 1, wherein a fixed lower frame is fixedly mounted on the greenhouse frame below the movable lower frame, and when the skylight frame is closed, the movable lower frame presses against the fixed lower frame.

6. The fully automatic skylight structure of claim 5, further comprising a rubber strip and a film, wherein the fixed lower frame is provided with a top slot extending along a longitudinal direction, two sides of the slot of the top slot protrude towards the middle to form a top necking port, the lower portion of the rubber strip is provided with a clamping head, the clamping head can be clamped into the top slot through the top necking port, two sides of the lower portion of the clamping head are provided with guide inclined planes for guiding the clamping head through the top necking port, a fixing hole is longitudinally arranged in the clamping head of the rubber strip, the rubber strip is provided with a fracture surface extending from the fixing hole to a side portion of the rubber strip extending out of the top slot, which is far away from one side of the fixed upper frame, the film covers the greenhouse frame, one side of the film extending along the rubber strip is provided with a connecting sleeve, and a fixing shaft is inserted in the connecting sleeve, the connecting sleeve and the fixing shaft inserted in the connecting sleeve are clamped into the fixing hole through the fracture surface.

7. The full-automatic skylight structure of claim 6, further comprising a plurality of film pressing ropes, wherein the film pressing ropes press on the film, a groove is formed in the top of the rubber clamping strip, and one end of each film pressing rope passes through the groove and is fixed on one side, close to the fixed upper frame, of the fixed lower frame.

8. The structure of claim 7, further comprising a plurality of fixing members, wherein each fixing member has a head and a rod, a side slot is longitudinally formed on one side of the lower fixing frame close to the upper fixing frame, two sides of the slot of the side slot protrude towards the middle to form a side necking port, the head of each fixing member is fitted into the side slot, the rod of each fixing member penetrates through the side necking port and is in threaded connection with a nut, and the film pressing rope is tightly fixed on the rod.

9. The full-automatic skylight structure of claim 5, characterized in that a lower frame guard plate is further arranged on one side of the movable lower frame away from the fixed upper frame.

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