CN216377077U - Elevator shaft top cap - Google Patents

Abstract

The utility model provides an elevator shaft top cap which is applied to the top of an elevator shaft and comprises a ceiling eave arranged at the top of the elevator shaft, wherein a through groove is formed in the ceiling eave, and a top cover covers the upper side of the through groove; the utility model improves the water leakage prevention performance of the top cap after long-time use and has simple and convenient installation.

Description

Elevator shaft top cap

Technical Field

The utility model relates to the field of elevator shaft installation, in particular to an elevator shaft top cap.

Background

When the top of an elevator additionally installed on the existing market is sealed, the top is sealed by adopting modes such as flat top pouring and the like generally, but when the flat top is poured, if concrete is used for pouring, the adhesion degree between the concrete and a metal plate is loose along with time, and the situation of leakage is very easy to occur after long-time use, but in the prior art, an SBS waterproof coiled material is generally adopted for further waterproof treatment, but the waterproof performance of the SBS waterproof coiled material stuck on a metal part is only two years at most, and the long-time waterproof effect cannot be ensured; and when the current closed processing to the elevartor shaft top, it is comparatively loaded down with trivial details and difficult to operate usually.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an elevator shaft top cap which improves the water leakage prevention performance of the elevator shaft top cap after being used for a long time and is simple and convenient to install.

In order to solve the technical problem, the utility model provides an elevator shaft top cap which is applied to the top of an elevator shaft and comprises a ceiling eave arranged at the top of the elevator shaft, wherein a through groove is formed in the ceiling eave, and a top cover covers the upper side of the through groove.

Furthermore, a skirt panel is arranged on the periphery of the top of the elevator shaft and is positioned on the inner side of the roof eave.

Furthermore, the position that the roof eave is kept away from the top cap is equipped with the kink, the apron board with the kink links to each other.

Furthermore, the top of the elevator shaft is located on the inner side of the through groove, a keel is arranged, and the ceiling eave is connected with the keel.

Furthermore, the periphery of the top of the elevator shaft is provided with an edge keel, and the skirt panel is connected with the edge keel.

Furthermore, the top surface of the ceiling eave is of an inclined structure.

Furthermore, the bottom of the apron board is provided with a folding part which is arranged towards the elevator shaft.

Furthermore, the apron board and the roof eave are vertically arranged.

Furthermore, the top cover side is provided with a folding edge, the ceiling eave is close to the side of the top cover is provided with a folding edge, and the folding edge of the top cover and the folding edge of the ceiling eave are oppositely arranged.

Furthermore, the ceiling eave is formed by splicing at least two eave plates, and the skirt plate is formed by splicing at least two skirt sub-plates.

When the top of the elevator shaft is subjected to sealing and waterproof treatment, the ceiling eave is placed at the top of the elevator shaft, so that the ceiling eave shields and surrounds the upper part of the side of the top of the elevator shaft, then a constructor can stand in the elevator shaft and pass through the through groove, so that the constructor can keep standing on the basis of the inside of the elevator shaft, can adjust the placement position of the ceiling eave from the outside of the elevator shaft, fix the ceiling eave after the position of the ceiling eave is determined, then cover the top cover to the upper side of the through groove from the outside of the elevator shaft, prevent rainwater from entering the elevator shaft from the through groove, and perform waterproof sealing treatment on the top of the elevator shaft through the matching of the ceiling eave and the top cover, and simultaneously, because the ceiling eave and the top cover are mechanically connected, flat-top pouring operation is not needed, and the top of the elevator shaft can still prevent water leakage after being used for a long time, the water leakage prevention performance and the time efficiency of the top of the elevator shaft are improved; and because in foretell installation, constructor can follow the elevartor shaft inboard and be under construction, need not to build the scaffold frame in the outside of elevartor shaft, has reduced construction cost, has improved the convenience in the work progress.

Drawings

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

Fig. 2 is a schematic view of the ceiling eave of the present invention in an inclined configuration.

Reference numerals: 1. a ceiling eave; 2. a through groove; 3. a top cover; 4. an apron board; 5. a bending section; 6. a keel; 7. and a side keel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or components must be constructed and operated in a particular orientation and thus are not to be considered limiting.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

As shown in fig. 1-2, the utility model provides an elevator shaft top hat, which is applied to the top of an elevator shaft and comprises a ceiling eave 1 arranged at the top of the elevator shaft, wherein a through groove 2 is arranged on the ceiling eave 1, and a top cover 3 covers the upper side of the through groove 2.

When the top of the elevator shaft is subjected to closed waterproof treatment, the ceiling eave is placed at the top of the elevator shaft, so that the ceiling eave shields and surrounds the upper part of the side of the top of the elevator shaft, then a constructor can stand in the elevator shaft and pass through the through groove, so that the constructor can keep standing on the basis of the inside of the elevator shaft, can adjust the placement position of the ceiling eave from the outside of the elevator shaft, fix the ceiling eave after the position of the ceiling eave is determined, then cover the top cover to the upper side of the through groove from the outside of the elevator shaft, prevent rainwater from entering the elevator shaft from the through groove, and perform waterproof closed treatment on the top of the elevator shaft through the matching of the ceiling eave and the top cover, meanwhile, because the ceiling eave and the top cover are mechanically connected, the flat-top pouring operation is not needed, and the top of the elevator shaft can still prevent water leakage after being used for a long time, the water leakage prevention performance and the time efficiency of the top of the elevator shaft are improved; and because in foretell installation, constructor can follow the elevartor shaft inboard and be under construction, need not to build the scaffold frame in the outside of elevartor shaft, has reduced construction cost, has improved the convenience in the work progress.

In this scheme, lead to the central point that the groove is located the ceiling eave and put, the top cap lid closes to leading to the groove upside back, and the top cap is located the central point of ceiling eave equally and puts for constructor is exploring out the in-process that leads to the groove and carry out the adjustment to the ceiling eave, and adjustment central point that can be more accurate puts ceiling eave all around.

Preferably, a skirt panel 4 is arranged on the periphery of the top of the elevator shaft, and the skirt panel 4 is positioned on the inner side of the ceiling eave 1.

The utility model discloses a novel elevator shaft, including roof, elevator shaft, apron board, roof eaves and elevator shaft top, the setting of apron board is through the gap between roof eaves and the elevator shaft top encirclement protection, avoids the rainwater to scrape into the elevator shaft from the gap during, sets up the apron board that inclines all at elevator shaft top simultaneously and also can protect the top avris of elevator shaft to increase the aesthetic property of elevator shaft top outward appearance.

Preferably, the position of the ceiling eave 1 far away from the top cover 3 is provided with a bent part 5, and the skirt panel 4 is connected with the bent part 5.

Specifically, when installing apron board and ceiling eave, at first fix the apron board in the week side at elevartor shaft top, locate the upside of apron board with the ceiling eave lid afterwards, this moment because one side of ceiling eave is equipped with the kink, make ceiling eave lid establish the apron board upside back, constructor pulling ceiling eave, and hug closely the inboard of kink to the apron board outside, make the position that the ceiling eave was placed can fix a position through the cooperation between kink and the apron board, improve the accuracy when the ceiling eave was placed, through the mode that links to each other apron board and kink afterwards, fix the position of apron board and ceiling eave.

In the preferred embodiment of this scheme, the kink is "U" type structure for the inboard side laminating of "U" type of kink in the outside of apron board, so that fix a position and fix the ceiling eave, the fixed mode adoption bolt fastening of apron board and kink in this scheme simultaneously.

Preferably, a keel 6 is arranged on the top of the elevator shaft and positioned on the inner side of the through groove 2, and the ceiling eave 1 is connected with the keel 6.

It is specific, when fixing the ceiling eave, link to each other ceiling eave and fossil fragments, because fossil fragments set up on the girder steel at elevartor shaft top, consequently the ceiling eave can link to each other with the girder steel through fossil fragments, guarantee the fixed structural stability of ceiling eave, fossil fragments also play the supporting role to the ceiling eave simultaneously, guarantee the ceiling eave and receive heavy rainfall, firm when strong wind weather, link to each other with the apron board in the outside of ceiling eave in addition, make the ceiling eave under the fixed of apron board and fossil fragments, guarantee the stability in the inboard and the outside of ceiling eave self.

Preferably, the periphery of the top of the elevator shaft is provided with an edge keel 7, and the skirt panel 4 is connected with the edge keel 7.

When the skirt panel is fixed, the inner side of the skirt panel is connected with the side keel, and the side keel is arranged on the side of the steel beam of the elevator shaft, so that the skirt panel is connected with the steel beam through the side keel, the stability of the skirt panel is improved, and meanwhile, one side of a ceiling eave is connected with the skirt panel, and the fixing stability of the ceiling eave is improved.

In this scheme, because kink and apron board adopt the bolt to fix, at the in-process of bolt fastening, the bolt passes kink, apron board and avris fossil fragments in proper order for kink and apron board pass through the bolt fastening simultaneously on avris fossil fragments.

In an embodiment of this scheme, the apron board upside is equipped with barb type structure, and this barb type structure is hung and is established the upper end at the avris fossil fragments for when the apron board has not passed through the bolt fastening on fossil fragments, can hang on the avris fossil fragments through barb type structure, so that the installation.

Preferably, the top surface of the ceiling eave 1 is of an inclined structure.

Specifically, because the top surface of ceiling eave adopts the slope structure, consequently when the rainwater drips to the top surface of ceiling eave, the drop of water can increase the drainage effect of ceiling eave along the downward landing of slope structure, simultaneously through the orientation of the slope structure of adjustment ceiling eave, the direction of dripping of guide rainwater that can be orderly to direct drippage to the pedestrian is on one's body when avoiding the rainwater to discharge.

In an embodiment of this scheme, the limit structure sets up towards the vestibule between house and the elevartor shaft for when the drop of water along the limit structure landing, the drop of water can drip the vestibule top, and can not influence pedestrian's normal current.

Preferably, the bottom of the skirt panel 4 is provided with a folded part, and the folded part is arranged towards the elevator shaft.

In particular, since a drip plate needs to be installed at the outside of the elevator shaft during the construction of the elevator shaft to ensure that the outside of the elevator shaft can be waterproofed, after the water dropping plate is installed, a certain gap is formed between the uppermost water dropping plate and the top of the elevator shaft, so that the uppermost water dropping plate cannot be clamped when being installed, but the gap easily causes rainwater to directly enter the elevator shaft, the uppermost water dropping plate can be surrounded and protected by the apron plate, the rainwater is prevented from floating to the uppermost water dropping plate and the gap, by arranging the folding part, the rain water shielding effect is further increased, so that in windy weather, the rainwater is difficult to enter the uppermost drip plate and the gap through the blocking of the turnover part, and because the folded part is shielded, the appearance of the uppermost side of the drip plate after being installed is more attractive and tidy.

Preferably, the skirt panel 4 is perpendicular to the ceiling eave 1.

Specifically, through the perpendicular setting of apron board and ceiling eave, avoided the apron board to incline outwards, the rainwater that leads to gets into the most upside drip board and gap department easily, also avoided the apron board to incline inwards, the apron board bottom that leads to collides with the condition of drip board mutually, guarantees the effect that the apron board used.

Preferably, the side of the top cover 3 is provided with a folded edge, the side of the ceiling eave 1 close to the top cover 3 is provided with a folded edge, and the folded edge of the top cover 3 and the folded edge of the ceiling eave 1 are oppositely arranged.

Specifically, when closing the top cap lid to the logical groove of ceiling eave on, hem on the top cap and the ceiling eave also can lock each other, make the top cap when the lid closes, can fix a position through two hems, avoid top cap offset and the logical groove that leads to do not have the condition of closing completely, increase the accuracy of top cap position, simultaneously because the setting of two hems, make when fixing the top cap, can beat to glue or bolt fastening to the position that two hems pressed close to, so that carry out fixed connection to the top cap.

Preferably, the ceiling eave 1 is formed by splicing at least two eave plates, and the skirt plate 4 is formed by splicing at least two skirt sub-plates.

The utility model discloses an elevator shaft, including roof eave, apron board, and the roof eave is spliced to form by two at least eave boards, and the apron board is then formed by two at least apron subplate concatenations, makes the weight of single subassembly reduce, so that constructor pulls the operation such as, simultaneously by the mode of polylith concatenation, adjust the position of roof eave and apron board more easily, ensure the accuracy of fixed position, adopt the mode of polylith eave board and apron board concatenation in addition, also be favorable to removing the top to the elevartor shaft with the work piece.

The present invention is not limited to the above-mentioned preferred embodiments, and any other products in various forms can be obtained by anyone in the light of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as those of the present application, fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides an elevator shaft hood, is applied to the elevator shaft top, its characterized in that: the elevator shaft is characterized by comprising a ceiling eave (1) arranged at the top of the elevator shaft, wherein a through groove (2) is formed in the ceiling eave (1), and a top cover (3) covers the upper side of the through groove (2).

2. The elevator hoistway ceiling cap of claim 1, wherein: the periphery of the top of the elevator shaft is provided with a skirt panel (4), and the skirt panel (4) is positioned at the inner side of the ceiling eave (1).

3. The elevator hoistway ceiling cap of claim 2, wherein: roof eave (1) is kept away from the position of top cap (3) is equipped with kink (5), apron board (4) with kink (5) link to each other.

4. The elevator hoistway ceiling cap of claim 1, wherein: the elevator shaft top is located the inboard of logical groove (2) is equipped with fossil fragments (6), ceiling eave (1) with fossil fragments (6) link to each other.

5. The elevator hoistway ceiling cap of claim 2, wherein: all sides at elevartor shaft top are equipped with avris fossil fragments (7), apron board (4) with avris fossil fragments (7) link to each other.

6. The elevator hoistway ceiling cap of claim 1, wherein: the top surface of the ceiling eave (1) is of an inclined structure.

7. The elevator hoistway ceiling cap of claim 2, wherein: the bottom of the apron board (4) is provided with a folding part, and the folding part faces the elevator shaft.

8. The elevator hoistway ceiling cap of claim 2, wherein: the apron board (4) and the ceiling eave (1) are arranged vertically.

9. The elevator hoistway ceiling cap of claim 1, wherein: the side of the top cover (3) is provided with a folded edge, the side of the top cover (3) is close to the ceiling eave (1) and is provided with a folded edge, and the folded edge of the top cover (3) and the folded edge of the ceiling eave (1) are oppositely arranged.

10. The elevator hoistway ceiling cap of claim 2, wherein: the roof eave (1) is formed by splicing at least two eave plates, and the skirt panel (4) is formed by splicing at least two skirt sub-plates.

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