CN218934615U - Waterproof splicing structure of concrete tower and concrete tower - Google Patents

Abstract

The utility model relates to the technical field of tower barrels, and provides a waterproof splicing structure of a concrete tower barrel and the concrete tower barrel. This waterproof mosaic structure of concrete tower section of thick bamboo includes: the tower tube comprises a plurality of tube sheets, wherein one end of each tube sheet is provided with a convex key, the other end of each tube sheet is provided with a concave key, and the plurality of tube sheets are spliced with the convex keys and the concave keys along the circumferential direction to form a tower tube structure; and the waterproof layer is arranged at the splicing position of the two adjacent duct pieces. According to the waterproof splicing structure of the concrete tower barrel and the concrete tower barrel, the plurality of pipe pieces are prefabricated, the convex key and the concave key are connected in a meshed mode between two adjacent pipe pieces, the waterproof layer is arranged between the two pipe pieces, the waterproof effect of the spliced part is guaranteed, and water leakage and water seepage at the joint part are avoided.

Description

Waterproof splicing structure of concrete tower and concrete tower

Technical Field

The utility model relates to the technical field of towers, in particular to a waterproof splicing structure of a concrete tower and the concrete tower.

Background

The maximum diameter of the fan tower barrel adopting the concrete tower barrel technology can reach 8-10 m, and in the installation process of the tower barrel, the problem that the transportation cost of the tower barrel is high due to the fact that proper vehicle transportation cannot be found or road transportation conditions are not allowed and the like exists. For the reasons and problems above, the industry has begun to adopt prefabricated segmented tower technology to solve the above problems, and the mixing tower is divided into a plurality of tower segments along the height direction, and the tower segments are divided into a plurality of segments (typically 2 segments or 4 segments) along the central axis. On the basis, the prefabricated segmented tower barrel inevitably has a horizontal splicing seam and a vertical splicing seam of a segment tower section in the actual operation process, and the splicing seam is a challenge for the waterproof performance of the tower body.

At present, the conventional splicing scheme of the tower section and the duct piece of the mixing tower is planar butt joint, and epoxy resin glue is smeared on the butt joint surface. According to the running condition of the built wind field, water leakage and water seepage occur at the splicing joint of the segments of the mixing tower, and the waterproof reliability of the splicing joint is low.

Disclosure of Invention

The utility model provides a waterproof splicing structure of a concrete tower and the concrete tower, which are used for solving the defects that water leakage and water seepage are easy to occur at the splicing position of the concrete tower in the prior art and the waterproof reliability is poor.

The utility model provides a waterproof splicing structure of a concrete tower, which comprises the following components:

the tower tube comprises a plurality of first tube sheets, wherein one end of each first tube sheet is provided with a first convex key, the other end of each first tube sheet is provided with a first concave key, and two adjacent first tube sheets are spliced with each other along the circumferential direction through the first convex keys and the first concave keys to form a tower tube structure;

the first waterproof layer is arranged at the splicing position of two adjacent first duct pieces.

According to the waterproof splicing structure of the concrete tower, the first waterproof layer comprises: the first waterproof adhesive tape is adhered between the first convex key and the first concave key.

According to the waterproof splicing structure of the concrete tower, the first waterproof layer comprises: and the first sealant is respectively smeared on the surfaces of the first convex key and the first concave key.

The utility model provides a waterproof splicing structure of a concrete tower, which further comprises: the first sealing plate is arranged on the outer side of the first duct piece and is positioned at the joint of the first convex key and the first concave key.

The utility model also provides a waterproof splicing structure of the concrete tower, which comprises the following components:

the tower tube structure comprises a plurality of second tube pieces, wherein one end of each second tube piece is provided with a second convex key, the other end of each second tube piece is provided with a second concave key, and two adjacent second tube pieces are vertically spliced to form the tower tube structure through the second convex keys and the second concave keys;

the second waterproof layer is arranged at the splicing position of two adjacent second duct pieces.

According to the waterproof splicing structure of the concrete tower, the second waterproof layer comprises: the second waterproof adhesive tape is adhered between the second convex key and the second concave key.

According to the waterproof splicing structure of the concrete tower, the second waterproof layer comprises: and the second sealant is respectively smeared on the surfaces of the second convex keys and the second concave keys.

The utility model provides a waterproof splicing structure of a concrete tower, which further comprises: the second sealing plate is arranged on the outer side of the second duct piece and is positioned at the joint of the second convex key and the second concave key.

The utility model also provides a concrete tower, comprising: the utility model provides a waterproof splicing structure of a concrete tower.

According to the waterproof splicing structure of the concrete tower, the plurality of segments are prefabricated, the convex keys and the concave keys are connected in a meshed mode between two adjacent segments, and the waterproof layer is arranged between the two segments, so that the waterproof effect of the spliced part is ensured, and the phenomena of water leakage and water seepage at the joint part are avoided.

Further, the utility model also provides a concrete tower, which has the same advantages as above due to the waterproof splicing structure of the concrete tower.

Drawings

In order to more clearly illustrate the utility model or the technical solutions of the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the utility model, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of an embodiment 1 of a waterproof splicing structure of a concrete tower provided by the utility model;

fig. 2 is a schematic structural view of an embodiment 2 of a waterproof splicing structure of a concrete tower provided by the utility model;

fig. 3 is a schematic structural view of a concrete tower provided by the utility model.

Reference numerals:

1: a first segment; 2: a first protruding key; 3: a first female key; 4: a first waterproof adhesive tape; 5: a first sealant; 6: a first sealing plate; 7: a second segment; 8: a second protruding key; 9: a second concave key; 10: a second waterproof adhesive tape; 11: a second sealant; 12: a second sealing plate; 100: a vertical splice seam; 200: and (5) transverse splicing seams.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present utility model, not all embodiments. 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.

A waterproof splicing structure of a concrete tower according to the present utility model, which is composed of a plurality of segments and a waterproof layer, will be described below with reference to fig. 1 and 2. Wherein, connect through protruding key and concave key between two adjacent section of jurisdictions, the waterproof layer sets up between protruding key and concave key, guarantees the water-proof effects of seam.

According to different joint modes of the tower, the utility model provides two embodiments: as shown in fig. 3, one (embodiment 1) is to use a vertical splicing seam 100, that is, the segments are spliced along the circumferential direction; another (embodiment 1) is to use a transverse splice 200, i.e. the segments are spliced along the height of the tower.

Example 1:

as shown in fig. 1, the present embodiment provides a waterproof splicing structure of a concrete tower. This waterproof mosaic structure of concrete tower section of thick bamboo includes: a plurality of first segments 1 (typically 2 to 4 segments) and a first waterproof layer.

One end of each first duct piece 1 is provided with a first convex key 2, the other end of each first duct piece 1 is provided with a first concave key 3, and two adjacent first duct pieces 1 are spliced in the circumferential direction through the first convex keys 2 and the first concave keys 3 to form a tower barrel structure; the first waterproof layer is arranged at the splicing position of two adjacent first duct pieces 1. A section of tower section of thick bamboo has been formed through the concatenation of a plurality of first section of jurisdictions 1, and each layer of tower section of thick bamboo has all adopted prefabricated section of jurisdiction promptly, and the mode of scene concatenation is assembled, and it is understood that first protruding key 2 and first concave key 3 are located left end and the right-hand member of first section of jurisdiction 1 respectively, interlock each other and form wholly.

In this embodiment, the first waterproof layer includes: the first waterproof adhesive tape 4 is adhered between the first convex key 2 and the first concave key 3. The first waterproof adhesive tape 4 in this embodiment is made of plasticized polyvinyl chloride or other waterproof materials.

In this embodiment, the first waterproof layer includes: the first sealant 5 is coated on the surface of the first convex key 2 and the surface of the first concave key 3 respectively. Specifically, a first sealant 5 is applied to the joint of the first convex key 2 and the first concave key 3, and the first sealant 5 can be epoxy resin sealant to tightly press and seal the first convex key 2 and the first concave key 3.

In this embodiment, the waterproof splicing structure of the concrete tower in this embodiment further includes: a first sealing plate 6 (indicated by a broken line in the figure), the first sealing plate 6 is disposed outside the first segment 1 and located at the junction of the first male key 2 and the first female key 3. After the first convex key 2 and the first concave key 3 are tightly pressed and sealed, the first sealing plate 6 is fixed on the outer sides of the first concave key 3 and the first convex key 2, so that stable installation of duct pieces is realized, and the first sealing plate 6 can be sealed and fixed with the first convex key 2 and the first concave key 3 in a bolt, nut connection or clamping mode. The waterproof system is well formed through the structure of the concave-convex key and the use of the waterproof adhesive tape, the sealant and the sealing plate.

Example 2:

as shown in fig. 2, the present embodiment provides a waterproof splicing structure of a concrete tower. This waterproof mosaic structure of concrete tower section of thick bamboo includes: a plurality of second segments 7 (typically 2 to 4 segments) and a second waterproof layer.

One end of the second duct piece 7 is provided with a second convex key 8, the other end of the second duct piece 7 is provided with a second concave key 9, and two adjacent second duct pieces 7 are vertically spliced through the second convex key 8 and the second concave key 9 to form a tower barrel structure; the second waterproof layer is arranged at the joint of two adjacent second duct pieces 7. The tower barrel is integrally formed by splicing the second duct pieces 7, namely, the tower barrel is integrally assembled by adopting prefabricated duct pieces in a field splicing mode, and it is understood that the second convex keys 8 and the second concave keys 9 are respectively positioned at the upper end and the lower end of the second duct pieces 7 and are mutually meshed to form the whole.

In this embodiment, the second waterproof layer includes: and a second waterproof adhesive tape 10, wherein the second waterproof adhesive tape 10 is adhered between the second convex key 8 and the second concave key 9. The second waterproof adhesive tape 10 in this embodiment is made of plasticized polyvinyl chloride or other waterproof materials.

In this embodiment, the second waterproof layer includes: and the second sealant 11 is respectively smeared on the surfaces of the second convex keys 8 and the second concave keys 9. Specifically, a second sealant 11 is applied to the joint of the second convex key 8 and the second concave key 9, and the second sealant 11 can be epoxy resin sealant to tightly press and seal the second convex key 8 and the second concave key 9.

In this embodiment, the waterproof splicing structure of the concrete tower in this embodiment further includes: a second sealing plate 12 (indicated by a broken line in the figure), the second sealing plate 12 is disposed outside the second segment 7 and at the junction of the second male key 8 and the second female key 9. After the second convex key 8 and the second concave key 9 are tightly pressed and sealed, the second sealing plate 12 is fixed on the outer sides of the second concave key 9 and the second convex key 8, so that stable installation of duct pieces is realized, and the second sealing plate 12 can be sealed and fixed with the second convex key 8 and the second concave key 9 in a bolt, nut connection or clamping mode. The waterproof system is well formed through the structure of the concave-convex key and the use of the waterproof adhesive tape, the sealant and the sealing plate.

In summary, according to the waterproof splicing structure of the concrete tower barrel, the plurality of duct pieces are prefabricated, the convex key and the concave key are adopted to be connected between two adjacent duct pieces in a meshed mode, and the waterproof layer is arranged between the two duct pieces, so that the waterproof effect of the spliced part is ensured, and the phenomena of water leakage and water seepage at the joint part are avoided.

As shown in fig. 3, the utility model also provides a concrete tower. It comprises the following steps: the waterproof splicing structure of the concrete tower in the above embodiment 1 and/or embodiment 2.

Specifically, the concrete tower in this embodiment, the tower of each festival and the mosaic structure between the tower of each festival have all adopted protruding key, concave key concatenation and have cooperated waterproof adhesive tape, waterproof sealant and closing plate to realize waterproofly, guarantee the waterproof effect between the seam, avoid its emergence to leak and the phenomenon of infiltration. The waterproof splicing structure of the concrete tower in the above embodiment 1 can ensure that the vertical splicing seam 100 has a waterproof effect, and the waterproof splicing structure of the concrete tower in the above embodiment 2 can ensure that the horizontal splicing seam 200 has a waterproof effect.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (10)

1. A waterproof splice structure of a concrete tower section of thick bamboo, characterized by comprising:

the tower tube comprises a plurality of first tube sheets, wherein one end of each first tube sheet is provided with a first convex key, the other end of each first tube sheet is provided with a first concave key, and two adjacent first tube sheets are spliced with each other along the circumferential direction through the first convex keys and the first concave keys to form a tower tube structure;

the first waterproof layer is arranged at the splicing position of two adjacent first duct pieces.

2. The waterproof splice structure of a concrete tower according to claim 1, wherein the first waterproof layer includes: the first waterproof adhesive tape is adhered between the first convex key and the first concave key.

3. The waterproof splice structure of a concrete tower according to claim 1, wherein the first waterproof layer includes: and the first sealant is respectively smeared on the surfaces of the first convex key and the first concave key.

4. A waterproof splicing structure of a concrete tower according to any one of claims 1 to 3, further comprising: the first sealing plate is arranged on the outer side of the first duct piece and is positioned at the joint of the first convex key and the first concave key.

5. A waterproof splice structure of a concrete tower section of thick bamboo, characterized by comprising:

the tower tube structure comprises a plurality of second tube pieces, wherein one end of each second tube piece is provided with a second convex key, the other end of each second tube piece is provided with a second concave key, and two adjacent second tube pieces are vertically spliced to form the tower tube structure through the second convex keys and the second concave keys;

the second waterproof layer is arranged at the splicing position of two adjacent second duct pieces.

6. The waterproof splice structure of a concrete tower according to claim 5, wherein the second waterproof layer includes: the second waterproof adhesive tape is adhered between the second convex key and the second concave key.

7. The waterproof splice structure of a concrete tower according to claim 5, wherein the second waterproof layer includes: and the second sealant is respectively smeared on the surfaces of the second convex keys and the second concave keys.

8. The waterproof splicing structure of a concrete tower according to any one of claims 5 to 7, further comprising: the second sealing plate is arranged on the outer side of the second duct piece and is positioned at the joint of the second convex key and the second concave key.

9. A concrete tower comprising: a waterproof splicing structure of a concrete tower according to any one of claims 1 to 4.

10. A concrete tower comprising: a waterproof splicing structure of a concrete tower according to any one of claims 5 to 8.

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