CN212232375U - Double-layer dew receiving groove for greenhouse - Google Patents

Abstract

The utility model belongs to the technical field of the greenhouse structure, especially, relate to a greenhouse is with double-deck dew groove that connects. The to-be-solved technical problem of the utility model is to provide a greenhouse is with double-deck dew receiving groove that can catch greenhouse top glass surface condensate dew. A double-layer dew-receiving groove for a greenhouse comprises an upright post, an aluminum alloy herringbone beam, a clamping piece, a glass ceiling, a connecting plate, a drainage ditch, a bolt, a nut, a first layer dew-receiving groove, a second layer dew-receiving groove, a screw and an M-shaped top block; the aluminum alloy herringbone beam end portion is connected with a glass ceiling and a drainage ditch in a clamping mode through a clamping piece, the two ends of the drainage ditch are connected with a connecting plate and a first layer through bolts and nuts in a threaded mode to be connected with a dew groove, and the connecting plate is located on the inner side of the drainage ditch. The utility model discloses the effect that can catch greenhouse top glass surface condensate dew has been reached.

Description

Double-layer dew receiving groove for greenhouse

Technical Field

The utility model belongs to the technical field of the greenhouse structure, especially, relate to a greenhouse is with double-deck dew groove that connects.

Background

Greenhouse is also called warm house. Can transmit light, keep warm (or heat), and is used for cultivating plants. In seasons unsuitable for plant growth, the method can provide the growth period of the greenhouse and increase the yield, and is mainly used for cultivating or raising seedlings of plants like warm vegetables, flowers and trees in low-temperature seasons. The types of greenhouses are various, and the greenhouses can be divided into a great number according to different roof truss materials, lighting materials, shapes, heating conditions and the like.

In winter, due to the temperature difference between the greenhouse and the outside, water dew can be condensed on the surface of the glass at the top in the greenhouse, and the water dew can slide off the end part of the glass, so that troubles are caused to workers or viewers.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome when winter, because the greenhouse and outdoor difference in temperature that exists, so the glass surface at top can the condensate dew in the greenhouse, these condensate dew can cause the shortcoming of puzzlement at the glass tip landing to staff or sight, the to-be-solved technical problem of the utility model is to provide a greenhouse that can catch greenhouse top glass surface condensate dew is with double-deck dew groove that connects.

The utility model is achieved by the following concrete technical means:

a double-layer dew-receiving groove for a greenhouse comprises an upright post, an aluminum alloy herringbone beam, a clamping piece, a glass ceiling, a connecting plate, a drainage ditch, a bolt, a nut, a first layer dew-receiving groove, a second layer dew-receiving groove, a screw and an M-shaped top block; the end part of the aluminum alloy herringbone beam is clamped with a glass ceiling and a drainage ditch through a clamping piece, two ends of the drainage ditch are in threaded connection with a connecting plate and a first layer dew receiving groove through bolts and nuts, and the connecting plate is positioned on the inner side of the drainage ditch and used for supporting a sun shading system outside the greenhouse; the first layer connects the dew groove to be located the escape canal outside, and its bottom has the second layer to connect the dew groove through the screw connection, and connects dew groove bottom and stand top to agree with for the second time.

Furthermore, the first layer of dew receiving groove is a V-shaped long plate, and two sides of the first layer of dew receiving groove are bent inwards, extend upwards and are bent outwards and clamped in the clamping piece; the second layer of dew-receiving groove is a V-shaped long plate, two sides of the second layer of dew-receiving groove are bent outwards, and grooves are formed at the inward bending positions of the two sides of the second layer of dew-receiving groove and the first layer of dew-receiving groove.

Furthermore, an M-shaped top block is arranged in the middle of the first layer of the dew receiving groove, and the top of the M-shaped top block is matched with the bottom of the drainage ditch.

Furthermore, a plurality of first water leakage holes are uniformly distributed on two sides of the drainage ditch, and a plurality of second water leakage holes are uniformly distributed on two sides of the first layer dew receiving groove.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model arranges the first layer dew-receiving groove and the second layer dew-receiving groove outside the drainage ditch of the greenhouse, and the bottom of the second layer dew-receiving groove is matched with the top of the upright post of the greenhouse, so that the whole structure is stable; the first layer connects dew groove and second floor to connect the dew groove to be the V-arrangement structure, and the both sides cooperation forms the slot, can conveniently catch dew and discharge winter, and when rainy day rainwater volume was too big, the rainwater in the escape canal also can get into the first layer and connect the dew groove in, has improved drainage effect.

Drawings

Fig. 1 is a schematic view of the structure of the present invention.

The labels in the figures are: the structure comprises 1-upright posts, 2-aluminum alloy herringbone beams, 3-clamping pieces, 4-glass ceilings, 5-connecting plates, 6-drainage ditches, 7-bolts, 8-nuts, 9-first-layer exposure grooves, 10-second-layer exposure grooves, 11-screws, 12-M-shaped top blocks, 13-first water leakage holes and 14-second water leakage holes.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

Examples

A double-layer dew-receiving groove for a greenhouse is shown in figure 1 and comprises an upright post 1, an aluminum alloy herringbone beam 2, a clamping piece 3, a glass ceiling 4, a connecting plate 5, a drainage ditch 6, a bolt 7, a nut 8, a first layer dew-receiving groove 9, a second layer dew-receiving groove 10, a screw 11 and an M-shaped top block 12; the end part of the aluminum alloy herringbone beam 2 is clamped with a glass ceiling 4 and a drainage ditch 6 through a clamping piece 3, two ends of the drainage ditch 6 are in threaded connection with a connecting plate 5 and a first layer dew receiving groove 9 through bolts 7 and nuts 8, and the connecting plate 5 is positioned on the inner side of the drainage ditch 6 and used for supporting a sun shading system outside the greenhouse; the first layer of dew-receiving groove 9 is positioned on the outer side of the drainage ditch 6, the bottom of the first layer of dew-receiving groove is connected with a second layer of dew-receiving groove 10 through a screw 11, and the bottom of the second layer of dew-receiving groove is matched with the top of the upright post 1.

Escape canal 6 is used for discharging the rainwater that the greenhouse top was gathered when the rainy day, and the first layer connects dew groove 9 to be fixed in the 6 outsides in escape canal through bolt 7 and nut 8, and the second layer connects dew groove 10 to be fixed in the first layer through screw 11 and connects the dew groove 9 outsides, and the second layer connects dew groove 10 bottom to agree with the stand 1 top in greenhouse for overall structure is firm.

In winter, the temperature difference between the greenhouse and the outdoor is large, condensed water dew can be condensed on the glass ceiling 4 at the top of the greenhouse, the condensed water dew slides to the groove between the second layer dew receiving groove 10 and the first layer dew receiving groove 9 and is discharged, and the effect of preventing the dew from falling in the greenhouse is achieved.

The first layer of dew receiving groove 9 is a V-shaped long plate, and two sides of the first layer of dew receiving groove are bent inwards, extend upwards and are bent outwards and clamped in the clamping piece 3; the second layer of dew-receiving grooves 10 are V-shaped long plates, two sides of each second layer of dew-receiving grooves are bent outwards, and grooves are formed at the inward bending positions of the two sides of each second layer of dew-receiving groove and the first layer of dew-receiving grooves 9; more convenient for discharging dew.

Wherein, the middle part in the first layer of dew-receiving groove 9 is provided with an M-shaped top block 12, and the top of the M-shaped top block 12 is fit with the bottom of the drainage ditch 6; the whole structure is more stable.

Wherein, a plurality of first water leakage holes 13 are uniformly distributed on both sides of the drainage ditch 6, and a plurality of second water leakage holes 14 are uniformly distributed on both sides of the first layer dew receiving groove 9; when the rainfall is too large, the rainwater in the drainage ditch 6 flows into the first layer dew receiving groove 9 through the first water leakage holes 13, so that the drainage effect is improved; in winter, dew drops to first layer and connects dew groove 9 and second floor to connect in the slot between dew groove 10, can get into first layer through second hole 14 that leaks and connect in the dew groove 9, more conveniently discharges.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (4)

1. A double-layer dew-receiving groove for a greenhouse is characterized by comprising upright posts (1), aluminum alloy herringbone beams (2), clamping pieces (3), a glass ceiling (4), a connecting plate (5), a drainage ditch (6), bolts (7), nuts (8), a first layer dew-receiving groove (9), a second layer dew-receiving groove (10), screws (11) and an M-shaped top block (12); the end part of the aluminum alloy herringbone beam (2) is clamped with a glass ceiling (4) and a drainage ditch (6) through a clamping piece (3), two ends of the drainage ditch (6) are in threaded connection with a connecting plate (5) and a first layer dew receiving groove (9) through bolts (7) and nuts (8), and the connecting plate (5) is positioned on the inner side of the drainage ditch (6) and used for supporting a sun-shading system outside the greenhouse; the first layer of dew-receiving groove (9) is positioned on the outer side of the drainage ditch (6), the bottom of the first layer of dew-receiving groove is connected with a second layer of dew-receiving groove (10) through a screw (11), and the bottom of the second layer of dew-receiving groove is matched with the top of the upright post (1).

2. The double-layer dew-receiving groove for the greenhouse as claimed in claim 1, wherein the first layer dew-receiving groove (9) is a V-shaped long plate, and two sides of the first layer dew-receiving groove are bent inwards, extended upwards and then bent outwards to be clamped in the clamping piece (3); the second layer of dew-receiving grooves (10) are V-shaped long plates, two sides of the second layer of dew-receiving grooves are bent outwards, and grooves are formed at the inward bending positions of the two sides of the second layer of dew-receiving grooves and the first layer of dew-receiving grooves (9).

3. The double-layer dew-receiving groove for the greenhouse as claimed in claim 2, wherein the middle part in the first layer dew-receiving groove (9) is provided with an M-shaped top block (12), and the top of the M-shaped top block (12) is matched with the bottom of the drainage ditch (6).

4. A double-layered dew receiving groove for a greenhouse as claimed in claim 3, wherein the drainage ditch (6) has a plurality of first water leakage holes (13) on both sides, and the first dew receiving groove (9) has a plurality of second water leakage holes (14) on both sides.

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