CN204571130U - A kind of connector for connecting stringer and landing beam and syndeton thereof - Google Patents

Abstract

The utility model provides a kind of connector for connecting stringer and landing beam and syndeton thereof.Wherein the first end (101) of the first cant beam (10) is fixedly connected with by the first connector (30) with landing beam (20); In connector (30), the first end of the first plate is fixedly connected with and form right angle bending structure with the first end of the second plate, the first end of the 3rd plate is fixedly connected with the second end of the second plate and forms the right-angle bending structure contrary with the wrap direction of above-mentioned right-angle bending structure, the upper flange of the first plate and landing beam (20) is bolted to connection, the web of the second plate and landing beam (20) is bolted to connection, and the 3rd plate and the first cant beam (10) are bolted to connection.Syndeton in the utility model have employed three connectors and connects cant beam and landing beam, effectively can ensure that cant beam is connected with the stable of platform, improves stability and the safety of the syndeton of stair and platform.

Description

A kind of connector for connecting stringer and landing beam and syndeton thereof

Technical field

The utility model relates to integrated house technical field, particularly relates to a kind of connector for connecting stringer and landing beam and syndeton thereof.

Background technology

At present, integrated house with its short construction period, safe and reliable, environmental pollution is little, the advantage such as handsome in appearance is widely applied.In order to better ensure the security and stability of integrated house, not only its agent structure entirety requires good fastness and stability, and also needs good connection between each component.Such as, stair.Stair hand over standard member as between building interbed, and it is by closely linking together between layers in house.Particularly in low-rise building, such as integrated house, it is main space communication channel.

In integrated house, the application of integrated house is comparatively extensive.In integrated house, so how providing the stair of stability and safety, and be simply firmly connected between ensureing between stair with platform, is the technical problem being badly in need of at present solving.

Utility model content

For the problems referred to above, the utility model object is to provide a kind of connector for connecting stringer and landing beam and syndeton thereof that overcome the above problems, solves the stability and safety problem of staircase structure in present steel work integrated house and makes it simply firmly connect.

The utility model provides a kind of syndeton, it is characterized in that, described syndeton comprises the first cant beam, landing beam and connector, and the first end of described first cant beam is fixedly connected with by the first connector with landing beam;

Described connector comprises the first plate, the second plate, the 3rd plate; The first end of described first plate is fixedly connected with and form right angle bending structure with the first end of described second plate, the first end of described 3rd plate is fixedly connected with the second end of described second plate and forms the right-angle bending structure contrary with the wrap direction of described right-angle bending structure, and on described second plate, the second end is vertical with first end;

In described connector, the upper flange of the first plate and described landing beam is bolted to connection, and the web of the second plate and described landing beam is bolted to connection, and the 3rd plate and described first cant beam are bolted to connection.

Wherein, described syndeton also comprises the second cant beam and the second connector, and the first end of described second cant beam is fixedly connected with by the second connector with described landing beam;

Described second connector comprises the first plate, the second plate, the 3rd plate; The first end of described first plate is fixedly connected with and form right angle bending structure with the first end of described second plate, the first end of described 3rd plate is fixedly connected with the 3rd end of described second plate and forms the right-angle bending structure contrary with the wrap direction of described right-angle bending structure, and the 3rd end of described second plate is vertical with described first end;

In described second connector, the upper flange of the first plate and described landing beam is bolted to connection, and the web of the second plate and described landing beam is bolted to connection, and the 3rd plate and described first cant beam are bolted to connection.

Wherein, on described first plate and described second plate, the number of through hole is 12, and diameter is 5 millimeters, is all set to four row three row, and on described 3rd plate, the number of through hole is 9, and diameter is 5 millimeters, is set to three row three row.

Wherein, the length of the first end of the first plate is 76.3 millimeters, and the length of second end vertical with first end is 80 millimeters; The length of the first end of the second plate is 76.3 millimeters, and the length of second end vertical with first end and the 3rd end is 169 millimeters; The length of the first end of the 3rd plate is 120 millimeters, and the length of second end vertical with first end is 70 millimeters; The 4th end vertical with first end on second plate and the second end of the 3rd plate are positioned at same plane.

Wherein, on described first plate, in every exhausting hole, the central point spacing of adjacent through-holes is 23.2 millimeters, from the 4th end relative with first end apart from described first plate near to order far away, the distance of the central point of first row through hole the 4th end is therewith 15 millimeters, the central point of second row through hole and the central point spacing of first row through hole are 16 millimeters, the central point of the 3rd exhausting hole and the central point spacing of second row through hole are 17 millimeters, and the central point of the 4th exhausting hole and the central point spacing of the 3rd exhausting hole are 17 millimeters.Distance apart from central point second end therewith of the nearest row through hole of second end vertical with the first end of the first plate is 15 millimeters.

Wherein, the spacing 20 millimeters of adjacent through-holes in every exhausting hole on described second plate, often in row through hole, the central point spacing of adjacent through-holes is 30 millimeters; The distance of the central point of the exhausting hole that the 4th end relative with first end on described second plate is nearest 4th end is therewith 34 millimeters, and the distance of the central point of the row through hole that the 3rd end apart from described second plate is nearest 3rd end is therewith 17 millimeters.

Wherein, on described 3rd plate, in every exhausting hole, the spacing of adjacent through-holes is 20 millimeters, and often in row through hole, the central point spacing of adjacent through-holes is 30 millimeters; The distance of the central point of the row through hole that the 4th end relative with first end on described 3rd plate is nearest 4th end is therewith 15 millimeters, and the distance apart from central point second end therewith of the nearest exhausting hole of second end vertical with the first end of described 3rd plate is 30 millimeters.

The utility model additionally provides a kind of connector for connecting stringer and landing beam, and described connector comprises the first plate, the second plate, the 3rd plate; The first end of described first plate is fixedly connected with and form right angle bending structure with the first end of described second plate, the first end of described 3rd plate is fixedly connected with the second end of described second plate and forms the right-angle bending structure contrary with the wrap direction of described right-angle bending structure, and on described second plate, the second end is vertical with first end;

In described connector, the first plate having the through hole for being fixedly connected with the upper flange of landing beam, the second plate having the through hole for being fixedly connected with the web of landing beam, the 3rd plate having the through hole for being fixedly connected with the first cant beam.

The utility model additionally provides a kind of connector for connecting stringer and landing beam, and described connector comprises the first plate, the second plate, the 3rd plate; The first end of described first plate is fixedly connected with and form right angle bending structure with the first end of described second plate, the first end of described 3rd plate is fixedly connected with the 3rd end of described second plate and forms the right-angle bending structure contrary with the wrap direction of described right-angle bending structure, and on described second plate, the 3rd end is vertical with first end;

In described connector, the first plate having the through hole for being fixedly connected with the upper flange of landing beam, the second plate having the through hole for being fixedly connected with the web of landing beam, the 3rd plate having the through hole for being fixedly connected with the first cant beam.

Syndeton provided by the utility model have employed three connectors and connects cant beam and landing beam, effectively can ensure that cant beam is connected with the stable of platform, improves stability and the safety of the syndeton of stair and platform.

Accompanying drawing explanation

To be incorporated in manual and the accompanying drawing forming a part for manual shows embodiment of the present utility model, and together with the description for explaining principle of the present utility model.In the drawings, similar Reference numeral is used for key element like representation class.Accompanying drawing in the following describes is embodiments more of the present utility model, instead of whole embodiment.For those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of the syndeton of stringer and landing beam;

Fig. 2 is the structural representation of the first connector;

Fig. 3 is the structural representation of the second connector.

Detailed description of the invention

For making the object of the utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can be combined mutually.

Basic thought of the present utility model is, three connectors connect cant beam and landing beam, effectively can ensure that cant beam is connected with the stable of platform, adds stability and safety.Stair provided by the utility model can be applied with in any house being suitable for using, such as steel house.

Be described in detail according to provided syndeton of the present utility model below in conjunction with accompanying drawing.

Fig. 1 is the schematic diagram of the syndeton of cant beam and landing beam.This syndeton comprises the first cant beam 10, landing beam 20 and connector 30.The first end 101 of cant beam 10 is fixedly connected with by the first connector 30 with landing beam 20.

Fig. 2 is the structural representation of the first connector.First connector 30 comprises the first plate 301, second plate 302, the 3rd plate 303; The first end 3011 of the first plate 301 is fixedly connected with and form right angle bending structure with the first end 3021 of the second plate 302, and the second end 3022 of the second plate 302 is vertical with first end 3021.The first end 3031 of the 3rd plate 303 is fixedly connected with the second end 3022 of the second plate 302 and forms the right-angle bending structure contrary with the wrap direction of described right-angle bending structure.Second end 3022 of the second plate 302 and the first end 3021 of the second plate be vertical to be connected and with the left side being positioned at the first end of the second plate 302 when the second plate 302 to the first plate 301 direction is positive apparent direction.

In first connector 30, the first plate 301 is bolted to connection with the upper flange of landing beam 20, and the second plate 302 is bolted to connection with the web of landing beam 20, and the 3rd plate 303 and the first cant beam 10 are bolted to connection.First plate 301 of the first connector 30 has the through hole for being fixedly connected with the upper flange of landing beam or floor joist, second plate 302 having the through hole for being fixedly connected with the web of landing beam or floor joist, the 3rd plate 303 having the through hole for being fixedly connected with the first cant beam 10.

The first connector 30 shown in Fig. 2 is generally applicable to the first cant beam i.e. connection of left side cant beam and landing beam in stair, is generally applicable to the second cant beam i.e. connection of right side cant beam and landing beam in stair with the connector as shown in Figure 3 of similar in Fig. 2.The first end of the second cant beam is fixedly connected with by the second connector with landing beam 20.The similar of this second connector and the first connector.Second connector comprises the first plate, the second plate, the 3rd plate; The first end of the first plate is fixedly connected with and form right angle bending structure with the first end of the second plate, the first end of the 3rd plate is fixedly connected with the 3rd end of the second plate and forms the right-angle bending structure contrary with the wrap direction of right-angle bending structure, and the 3rd end of the second plate and first end be vertical to be connected and with the right side being positioned at the first end of the second plate when the second plate to the first plate direction is positive apparent direction.

In second connector, the upper flange of the first plate and landing beam 20 is bolted to connection, and the web of the second plate and landing beam is bolted to connection, and the 3rd plate and the second cant beam are bolted to connection.First connector and the number of through hole on each plate in the second connector, the diameter of through hole are corresponding with set-up mode identical.Mainly be described the first connector shown in Fig. 2 in detail in the application, the second connector shown in Fig. 3 with it in like manner.

On each plate of connector 30, the number of through hole, the diameter of through hole and set-up mode can do different settings according to the difference of the stressing conditions of stair.

Composition graphs 2, is illustrated as follows to the first connector 30.The first end 3011 of the first plate 301 adopts welding manner to be fixedly connected with the first end 3021 of the second plate 302, and the part away from the first plate 301 on the second end 3022 of the second plate 302 adopts welding manner to be fixedly connected with the first end 3031 of the 3rd plate 303.The length of the first end 3011 of the first plate 301 is 76.3 millimeters, and the length of second end 3012 vertical with first end 3011 is 80 millimeters.The length of the first end 3021 of the second plate 302 is 76.3 millimeters, and the length of second end 3022 vertical with first end 3021 is 169 millimeters.The length of the first end 3031 of the 3rd plate 303 is 120 millimeters, and the length of second end 3032 vertical with first end 3031 is 70 millimeters.The 4th end 3024 vertical with first end 3021 on second plate 302 and the second end 3032 of the 3rd plate 303 are positioned at same plane.

On first plate 301 of the first connector 30, the number of through hole is 12, and diameter is 5 millimeters, is set to four row three row.In every exhausting hole, the central point spacing of adjacent through-holes is 23.2 millimeters.From the 4th end 3014 relative with first end 3011 apart from the first plate 301 near to order far away, the distance of the central point of first row through hole the 4th end 3014 is therewith 15 millimeters, the central point of second row through hole and the central point spacing of first row through hole are 16 millimeters, the central point of the 3rd exhausting hole and the central point spacing of second row through hole are 17 millimeters, and the central point of the 4th exhausting hole and the central point spacing of the 3rd exhausting hole are 17 millimeters.Distance apart from central point second end 3012 therewith of the nearest row through hole of second end 3012 vertical with the first end 3011 of the first plate 301 is 15 millimeters.

On second plate 302 of the first connector 30, the number of through hole is 12, and diameter is 5 millimeters, is set to four row three row.In every exhausting hole, the central point spacing of adjacent through-holes is 20 millimeters, and often in row through hole, the central point spacing of adjacent through-holes is 30 millimeters.Distance apart from central point the 4th end 3024 therewith of the nearest exhausting hole of the 4th end 3024 relative with first end 3021 on the second plate 302 is 34 millimeters, and the distance of the central point of the row through hole that the 3rd end 3023 apart from the second plate 302 is nearest 3rd end 3323 is therewith 17 millimeters.

On 3rd plate 303 of the first connector 30, the number of through hole is 9, and diameter is 5 millimeters, is set to three row three row.In every exhausting hole, the central point spacing of adjacent through-holes is 20 millimeters, and often in row through hole, the central point spacing of adjacent through-holes is 30 millimeters.Distance apart from central point the 4th end 3034 therewith of the nearest row through hole of the 4th end 3034 relative with first end 3031 on the 3rd plate 303 is 15 millimeters, and the distance apart from central point second end 3032 therewith of the nearest exhausting hole of second end 3032 vertical with the first end 3031 of the 3rd plate 303 is 30 millimeters.

Have employed three connectors connection cant beams and landing beam in syndeton provided by the utility model, effectively can ensure that cant beam is connected with the stable of platform, improving stability and the safety of the syndeton of stair and platform.

Concrete dimensional values involved in the utility model is exemplary description, is not formed restriction of the present utility model, can carry out corresponding concrete setting in actual applications according to stressed needs to the numerical value of each size.

Above-described content can combine enforcement individually or in every way, and these variant are all within protection domain of the present utility model.

It should be noted that, in this article, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the article of a series of key element or equipment not only comprises those key elements, but also comprise other key elements clearly do not listed, or also comprise by this article or the intrinsic key element of equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within the article or equipment comprising described key element and also there is other identical element.

Above embodiment only in order to the technical solution of the utility model and unrestricted to be described, has only been described in detail the utility model with reference to preferred embodiment.Those of ordinary skill in the art should be appreciated that and can modify to the technical solution of the utility model or equivalent replacement, and does not depart from the spirit and scope of technical solutions of the utility model, all should be encompassed in the middle of right of the present utility model.

Claims (9)

1. a syndeton (1), it is characterized in that, described syndeton (1) comprises the first cant beam (10), landing beam (20) and connector (30), and the first end (101) of described first cant beam (10) is fixedly connected with by the first connector (30) with landing beam (20);

Described connector (30) comprises the first plate, the second plate, the 3rd plate; The first end of described first plate is fixedly connected with and form right angle bending structure with the first end of described second plate, the first end of described 3rd plate is fixedly connected with the second end of described second plate and forms the right-angle bending structure contrary with the wrap direction of described right-angle bending structure, and on described second plate, the second end is vertical with first end;

In described connector, the upper flange of the first plate and described landing beam (20) is bolted to connection, the web of the second plate and described landing beam (20) is bolted to connection, and the 3rd plate and described first cant beam (10) are bolted to connection.

2. syndeton (1) as claimed in claim 1, is characterized in that,

Described syndeton (1) also comprises the second cant beam and the second connector, and the first end of described second cant beam is fixedly connected with by the second connector with described landing beam;

Described second connector comprises the first plate, the second plate, the 3rd plate; The first end of described first plate is fixedly connected with and form right angle bending structure with the first end of described second plate, the first end of described 3rd plate is fixedly connected with the 3rd end of described second plate and forms the right-angle bending structure contrary with the wrap direction of described right-angle bending structure, and the 3rd end of described second plate is vertical with described first end;

In described second connector, the upper flange of the first plate and described landing beam (20) is bolted to connection, the web of the second plate and described landing beam (20) is bolted to connection, and the 3rd plate and described first cant beam (10) are bolted to connection.

3. syndeton (1) as claimed in claim 1 or 2, is characterized in that,

On described first plate and described second plate, the number of through hole is 12, and diameter is 5 millimeters, is all set to four row three row, and on described 3rd plate, the number of through hole is 9, and diameter is 5 millimeters, is set to three row three row.

4. syndeton (1) as claimed in claim 1 or 2, is characterized in that,

The length of the first end of the first plate is 76.3 millimeters, and the length of second end vertical with first end is 80 millimeters; The length of the first end of the second plate is 76.3 millimeters, and the length of second end vertical with first end and the 3rd end is 169 millimeters; The length of the first end of the 3rd plate is 120 millimeters, and the length of second end vertical with first end is 70 millimeters; The 4th end vertical with first end on second plate and the second end of the 3rd plate are positioned at same plane.

5. syndeton (1) as claimed in claim 1 or 2, is characterized in that,

On described first plate, in every exhausting hole, the central point spacing of adjacent through-holes is 23.2 millimeters, from the 4th end relative with first end apart from described first plate near to order far away, the distance of the central point of first row through hole the 4th end is therewith 15 millimeters, the central point of second row through hole and the central point spacing of first row through hole are 16 millimeters, the central point of the 3rd exhausting hole and the central point spacing of second row through hole are 17 millimeters, and the central point of the 4th exhausting hole and the central point spacing of the 3rd exhausting hole are 17 millimeters; Distance apart from central point second end therewith of the nearest row through hole of second end vertical with the first end of the first plate is 15 millimeters.

6. syndeton (1) as claimed in claim 1 or 2, is characterized in that,

The spacing 20 millimeters of adjacent through-holes in every exhausting hole on described second plate, often in row through hole, the central point spacing of adjacent through-holes is 30 millimeters; The distance of the central point of the exhausting hole that the 4th end relative with first end on described second plate is nearest 4th end is therewith 34 millimeters, and the distance of the central point of the row through hole that the 3rd end apart from described second plate is nearest 3rd end is therewith 17 millimeters.

7. syndeton (1) as claimed in claim 1 or 2, is characterized in that,

On described 3rd plate, in every exhausting hole, the spacing of adjacent through-holes is 20 millimeters, and often in row through hole, the central point spacing of adjacent through-holes is 30 millimeters; The distance of the central point of the row through hole that the 4th end relative with first end on described 3rd plate is nearest 4th end is therewith 15 millimeters, and the distance apart from central point second end therewith of the nearest exhausting hole of second end vertical with the first end of described 3rd plate is 30 millimeters.

8., for connecting a connector for stringer and landing beam, it is characterized in that,

Described connector comprises the first plate, the second plate, the 3rd plate; The first end of described first plate is fixedly connected with and form right angle bending structure with the first end of described second plate, the first end of described 3rd plate is fixedly connected with the second end of described second plate and forms the right-angle bending structure contrary with the wrap direction of described right-angle bending structure, and on described second plate, the second end is vertical with first end;

In described connector, the first plate has the through hole for being fixedly connected with the upper flange of landing beam (20), second plate having the through hole for being fixedly connected with the web of landing beam (20), the 3rd plate having the through hole for being fixedly connected with the first cant beam (10).

9., for connecting a connector for stringer and landing beam, it is characterized in that,

Described connector comprises the first plate, the second plate, the 3rd plate; The first end of described first plate is fixedly connected with and form right angle bending structure with the first end of described second plate, the first end of described 3rd plate is fixedly connected with the 3rd end of described second plate and forms the right-angle bending structure contrary with the wrap direction of described right-angle bending structure, and on described second plate, the 3rd end is vertical with first end;

In described connector, the first plate has the through hole for being fixedly connected with the upper flange of landing beam (20), second plate having the through hole for being fixedly connected with the web of landing beam (20), the 3rd plate having the through hole for being fixedly connected with the first cant beam (10).