CN219528364U - Climbing frame adhesion enhancing device - Google Patents

Abstract

The utility model discloses a climbing frame adhesion enhancing device, which comprises a stand column, wherein a first end of the stand column is arranged on a roof layer along the vertical direction, and the stand column extends upwards from the roof layer to form a second end of the stand column above the first end; diagonal bracing with two ends respectively arranged on the roof layer and the upright post; and the first support is arranged on the upright post and the diagonal brace and used for installing the climbing frame. Because the stand passes through the bracing to be connected with the roof layer, the security and the stability of stand connection on the roof layer have been strengthened, again because the stand is installed on the roof layer along vertical direction for the first support that sets up on the stand can be higher than the roof layer a distance, especially make the application of climbing the frame on the frame construction of floor about 5 meters possible, under the prerequisite of adhering to standard requirement, improve and climb the frame utilization efficiency, optimize construction process, increased the application scope of climbing the frame, thereby make the climbing the frame of installing on first support can satisfy the protection construction requirement of the higher special-shaped structures such as roof flower frame of top layer installation height.

Description

Climbing frame adhesion enhancing device

Technical Field

The utility model relates to the technical field of building machinery, in particular to a climbing frame adhesion enhancing device.

Background

Because the roof layer height is different from the standard layer height, the roof layer height is 5.6m, and the standard layer height is 2.9m, therefore, the climbing frame is difficult to attach on the roof, the protection construction of the outer facade of the roof cannot be realized, and the protection construction of the roof flower frame installed on the top layer cannot be met.

In order to realize the roof attachment climbing frame and meet the requirement of roof outer elevation protection construction, the prior art selects overhanging I-steel 20 on roof layer 30, the overhanging length is about 1.2m (i.e. the length of the I-steel in the horizontal plane is about 1.2m, which extends out of roof layer 30 and is in a suspended state (as shown in fig. 1), the total length of the I-steel is 3m, the I-steel with the remaining length is buried in the roof layer), and then the overhanging I-steel pipe frame 40 is erected on overhanging I-steel 20 (as shown in fig. 2). However, because the cantilever steel pipe rack or the climbing frame is erected on the suspended cantilever I-steel, the length of the cantilever steel pipe rack or the climbing frame can only be erected to be 7m high at the highest, the strength of the cantilever steel pipe rack or the climbing frame cannot be ensured, and when the roof flower frame with higher height is required to be installed on the top layer, the cantilever steel pipe rack or the climbing frame with limited height cannot meet the protection construction requirement.

Disclosure of Invention

In order to solve at least one of the problems that the strength and stability of the existing overhanging steel pipe frame are low, the protection construction requirement of the roof flower frame with high top layer installation height cannot be met, and the like, according to one aspect of the utility model, a climbing frame adhesion enhancing device is provided.

The climbing frame attachment enhancing device comprises a stand column with a first end arranged on the roof layer along the vertical direction, wherein the stand column extends upwards from the roof layer to form a second end of the stand column above the first end; diagonal bracing with two ends respectively arranged on the roof layer and the upright post; and the first support is arranged on the upright post and the diagonal brace and used for installing the climbing frame.

The upright post is connected with the roof layer through the inclined support, so that the stability of the upright post connected to the roof layer is enhanced, and the upright post is arranged on the roof layer along the vertical direction, so that a first support arranged on the upright post can be higher than the roof layer by a distance, the climbing frame arranged on the first support can be higher than 7m, and further, the protection construction requirements of special-shaped structures such as roof flower frames and the like with higher top layer installation heights are met.

In some embodiments, the angle a between the diagonal strut and the horizontal plane of the roof deck is in the range of 35 ° to 65 °. Therefore, a stable triangle structure can be formed among the upright post, the diagonal brace and the roof layer, so that the stability of the upright post is further enhanced.

In some embodiments, the upright comprises a steel square; and/or the diagonal bracing is angle steel or steel pipe, and the opening of the angle steel is arranged towards one side where the roof layer is positioned. Therefore, the strength of the upright post can be ensured through steel square tubes, and the stability of the upright post can also be ensured through angle steel or steel tubes; moreover, when the diagonal bracing is angle steel, the supporting property of the diagonal bracing to the upright post can be improved through the arrangement of the opening direction of the angle steel.

In some embodiments, the upright comprises two steel square tubes and a base, the two steel square tubes are vertically arranged on the base, the openings of the two steel square tubes are arranged in a deviating manner, and the direction of the openings of the steel square tubes is 90 degrees with the included angle of projection lines of the connecting lines of the steel square tubes and the diagonal braces on the horizontal plane. From this, can improve the intensity of stand through the setting mode of steel square, moreover, the connection of first support on the stand of being convenient for.

In some embodiments, the frame attachment enhancement device further comprises a reinforcement post having one end connected between the ends of the diagonal strut and the other end connected between the first and second ends of the upright. From this, can further improve the support to the stand through the spliced pole, improve the stability of stand.

In some embodiments, the reinforcement columns are parallel to the horizontal plane of the roofing layer. Thereby, the compactness of the climbing frame adhesion enhancing structure can be ensured.

In some embodiments, the reinforcement post is positioned at a distance corresponding to 1/5D to 4/5D from the mounting location of the first support on the post, where D is the distance from the mounting location of the first support on the post to the roof deck. Thereby, the reinforcement effect of the reinforcement column against the column can be ensured by arranging the reinforcement column at a suitable position.

In some embodiments, the diagonal braces are removably connected to at least one of the roof deck and the stud by screws; and/or the upright post and the roof layer are detachably connected through a screw, or the first end of the upright post is pre-buried in parapet (short wall around the building roof). Therefore, after the construction work is completed, the diagonal braces and the upright posts can be conveniently removed, so that the cleanness of the building is ensured.

In some embodiments, the climbing frame attachment enhancing device further comprises a second support provided on the roof layer or the pillar adjacent to the first end thereof: and/or the first support is provided on the upright adjacent the first end thereof. Thereby, the stability of the installed climbing frame can be further ensured by the first support and the second support.

In some embodiments, the first support is detachably connected to the upright by a screw; and/or the second support is detachably connected with the roof layer through screws. Therefore, after the construction work is completed, the first support and the second support can be conveniently removed, so that the building is tidy.

Drawings

FIG. 1 is a schematic view of a cantilever I-steel structure in the prior art;

fig. 2 is a schematic structural view of a cantilever steel pipe rack for installing cantilever i-steel in the prior art;

FIG. 3 is a schematic view of a structure of a device for enhancing attachment of a climbing frame according to an embodiment of the present utility model;

FIG. 4 is a schematic cross-sectional view of a diagonal brace of the attachment enhancement device of the climbing frame of FIG. 3;

FIG. 5 is a schematic view of a cross-section a-a of the attachment enhancement device of the climbing frame shown in FIG. 3;

FIG. 6 is a schematic view of a structure of a climbing frame attachment enhancing device according to another embodiment of the present utility model;

reference numerals: 20. overhanging I-steel; 30. a roof layer; 40. overhanging steel pipe rack; 51. a column; 511. a first end; 512. a second end; 501. steel square through; 502. a base; 52. diagonal bracing; 53. a first support; 54. a second support; 60. a climbing frame; 70. a reinforcing column; 100. and (5) waiting for a layer to be built.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

It is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," comprising, "or" includes not only those elements but also other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element. The terms used herein are generally terms commonly used by those skilled in the art, and if not consistent with the commonly used terms, the terms herein are used.

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Fig. 3 to 5 schematically show a climbing frame attachment enhancing device according to an embodiment of the present utility model.

As shown in fig. 3, the climbing frame attachment enhancing device includes a column 51, a diagonal brace 52, and a first support 53; wherein the first end 511 of the stud 51 is fixedly mounted to the roof layer 30 and the stud 51 extends upwardly from the roof layer 30 in a vertical direction to form a second end 512 of the stud 51 above the first end 511; diagonal braces 52 having both ends of the diagonal braces 52 mounted on the roof layer 30 and the columns 51, respectively; the first support 53 is fixedly mounted to the upright 51 and the diagonal braces 52, and the first support 53 can be used to mount the climbing frame 60. By way of example, the first support 53 may be a wall mount commonly used in the art.

As one example of the upright 51, the upright 51 may be made of a rigid material to meet the supporting requirement of the upright 51, and preferably, the upright 51 is made of a high-strength alloy steel or aluminum alloy material. Illustratively, the stud 51 includes a steel square 501. Preferably, as shown in fig. 5, the upright post 51 includes two steel square tubes 501 and a base 502, the two steel square tubes 501 are vertically and fixedly installed on the base 502, the openings of the two steel square tubes 501 are arranged in a deviating manner, the angle between the direction of the opening of the steel square tube 501 and the projection line of the connecting line of the steel square tube 501 and the diagonal bracing 52 on the horizontal plane is 90 degrees, so that the strength of the upright post 51 is improved in a setting mode of the steel square tubes 501, and meanwhile, the connection of the first support 53 on the upright post 51 is facilitated.

As one example of the diagonal braces 52, the diagonal braces 52 may be made of a rigid material to meet the supporting requirements of the opposite post 51, and preferably, the diagonal braces 52 are made of a high strength alloy steel or an aluminum alloy material. Illustratively, the diagonal braces 52 are angle steel or tube, as shown in FIG. 4. Preferably, when the diagonal braces 52 are angle steel, the openings of the angle steel are provided toward the side of the roof layer 30 to improve the support of the diagonal braces 52 against the columns 51.

When the climbing frame adhesion enhancing device is adopted, the upright posts 51 are fixedly arranged on the roof layer 30 and are supported by the diagonal braces 52 arranged on the roof layer 30, so that the stability of the upright posts 51 is enhanced, and the upright posts 51 are arranged on the roof layer 30 along the vertical direction, so that the first support 53 arranged on the upright posts 51 can be higher than the roof layer 30 by a certain distance, the climbing frame formed by the climbing frames 60 arranged on the first support 53 can be higher than 7m, the protection construction requirement of roof flower frames with higher top layer installation height is met, and the climbing frame formed by the climbing frames 60 arranged on the first support 53 can provide protection for the construction of the layer 100 to be built; furthermore, since the first stand 53 is connected to the diagonal braces 52 while being connected to the upright posts 51, the stability of the installation of the first stand 53 is improved.

In some preferred embodiments, as shown in fig. 3, the diagonal braces 52 have an angle a with respect to the horizontal plane of the roof layer 30, so that a relatively stable triangular structure is formed among the columns 51, the diagonal braces 52 and the roof layer 30, to further enhance the stability of the columns 51. Preferably, the included angle a is in the range of 35 ° to 65 ° to further enhance the stability of the triangle formed between the post 51, the diagonal strut 52 and the roof layer 30.

In some preferred embodiments, with continued reference to FIG. 3, the climbing frame attachment enhancing device further includes a second abutment 54 provided on the roof layer 30 or stud 51 adjacent the first end 511 thereof. Thereby, the stability of the installed climbing frame 60 can be further ensured by the first support 53 and the second support 54. Preferably, the first support 53 is provided on the upright 51 adjacent the first end 511 thereof, whereby the top end of the climbing frame 60 mounted on the first support 53 can be further away from the roof layer 30, thereby further increasing the protective height of the climbing frame 60.

In some of the preferred embodiments, the diagonal braces 52 are removably connected to at least one of the roof layer 30 and the stud 51 by screws, i.e., the diagonal braces 52 are removably connected to the roof layer 30 by screws; or the diagonal brace 52 is detachably connected with the upright post 51 through a screw; or the diagonal braces 52 are detachably connected with the upright posts 51 by screws. In other preferred embodiments, the stud 51 is removably attached to the roof layer 30 by screws. In still other preferred embodiments, the first stand 53 is removably attached to the post 51 by screws. In still other preferred embodiments, the second abutment 54 is removably attached to the roof deck 30 by screws. Thus, when the construction work is completed, the diagonal braces 52, the upright posts 51, the first support 53 and the second support 54 can be easily removed to ensure the cleanliness of the building.

In other embodiments, the first end 511 of the stud 51 is embedded in the parapet of the roof layer 30, for example, the first end 511 of the stud 51 may be embedded in the parapet by a concrete structure.

Fig. 6 schematically illustrates a creeper attachment enhancement apparatus according to another embodiment of the utility model. As shown in fig. 6, the frame attachment enhancing device of the present embodiment is different from the frame attachment enhancing device of the previous embodiment mainly in that the frame attachment enhancing device further includes a reinforcing column 70 having one end connected between both ends of the diagonal strut 52 and the other end connected between the first end 511 and the second end 512 of the upright 51 in addition to the frame attachment enhancing device of the previous embodiment. As one example of the reinforcing column 70, the reinforcing column 70 may be made of a rigid material to meet the supporting requirement of the reinforcing column 70, and preferably, the reinforcing column 70 is made of a high-strength alloy steel or an aluminum alloy material. Illustratively, the reinforcing column 70 is a steel tube or a triangular iron. Thus, the support for the column 51 can be further improved by the reinforcing column 70, and the stability of the column 51 can be improved. In some preferred embodiments, as shown in fig. 6, the reinforcement posts 70 are parallel to the horizontal plane of the roof deck 30 to ensure compactness of the frame attachment enhancement structure. Preferably, the reinforcement post 70 is positioned at a distance corresponding to 1/5D to 4/5D from the mounting position of the first support 53 on the upright 51, i.e., the vertical distance of the reinforcement post 70 from the first support 53 corresponds to 1/5D to 4/5D, where D is the distance from the mounting position of the first support 53 on the upright 51 to the roof layer 30. Thereby, the reinforcement of the pillar 51 by the reinforcement column 70 can be ensured by arranging the reinforcement column 70 in a proper position.

In the present utility model, the connection or installation is a fixed connection without special emphasis. The fixed connection may be implemented as a detachable connection or as a non-detachable connection as is commonly used in the art. The detachable connection may be implemented in the prior art, for example, by screwing or keying. The non-detachable connection may also be achieved using prior art techniques, such as welding or gluing.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (10)

1. Climb frame and adhere to reinforcing means, its characterized in that includes:

a post having a first end mounted to a roof deck in a vertical direction, the post extending upwardly from the roof deck to form a second end of the post above the first end;

diagonal bracing with two ends respectively arranged on the roof layer and the upright post;

and the first support is arranged on the upright post and the diagonal brace and used for installing the climbing frame.

2. The climbing frame attachment enhancing apparatus according to claim 1, wherein the included angle a between the diagonal brace and the horizontal plane of the roof layer is in a range of 35 ° to 65 °.

3. The climbing frame attachment enhancing apparatus according to claim 1, wherein the upright comprises a steel square; and/or

The diagonal bracing is angle steel or steel pipe, and the opening of angle steel is towards the side that the roof layer is located sets up.

4. The climbing frame attachment reinforcing device according to claim 3, wherein the upright post comprises two steel square tubes and a base, the two steel square tubes are vertically arranged on the base, openings of the two steel square tubes are arranged in a deviating manner, and an included angle between the opening of the steel square tube and a projection line of a connecting line of the steel square tube and the diagonal brace on a horizontal plane is 90 degrees.

5. The climbing frame attachment enhancing device according to any one of claims 1 to 4, further comprising a reinforcing post having one end connected between both ends of the diagonal strut and the other end connected between the first end and the second end of the upright.

6. The climbing frame attachment enhancing device according to claim 5, wherein the stiffening post is parallel to a horizontal plane of the roof layer.

7. The attachment enhancement device of claim 6, wherein the reinforcement post is positioned at a distance from the first support post mounting location on the post corresponding to 1/5D to 4/5D, wherein D is the distance from the first support post mounting location on the post to the roof deck.

8. The climbing frame attachment enhancing apparatus according to claim 5, wherein the diagonal brace is detachably connected to at least one of the roof layer and the pillar by a screw; and/or

The upright post is detachably connected with the roof layer through a screw, or the first end of the upright post is embedded in the parapet wall.

9. The climbing frame attachment enhancing apparatus according to claim 5, further comprising a second mount provided on the roof layer or column adjacent a first end thereof: and/or

The first support is disposed on the upright at a location adjacent the first end thereof.

10. The frame attachment enhancement device of claim 9, wherein the first support is detachably connected to the upright by a screw; and/or

The second support is detachably connected with the roof layer through screws.