CN214834721U - Hydraulic engineering is with pouring template - Google Patents

Abstract

The utility model relates to a hydraulic engineering is with pouring template, including the box body, one side sliding connection of box body has the lid, first opening has been seted up on the vertical surface of box body, first open-ended inside sliding connection has first pipeline, the lid for the second opening has been seted up to the position of first pipeline, second open-ended inside sliding connection has the second pipeline, the external diameter of first pipeline is less than the internal diameter of second pipeline, the second pipeline inserts the inside and relative sliding connection of first pipeline, first pipeline with the coaxial regulation that is provided with in inside of second pipeline the lid distance the regulation structure of the box bottom of box body. This application has the end that reduces remaining split bolt after the template shaping of pouring to the effect of the aesthetic property on template surface is pour in the reinforcing.

Description

Hydraulic engineering is with pouring template

Technical Field

The application relates to the technical field of constructional engineering, in particular to a pouring template for hydraulic engineering.

Background

In the water engineering, when some concrete outer walls need to be built, after the binding of the wall body reinforcing steel bars of the outer walls is finished, the positioning reinforcing steel bars with the thickness of the outer wall body need to be manufactured and are arranged along the pouring direction of the wall body, the wall body pouring templates of the outer walls are installed according to the positioning reinforcing steel bars, the templates on the two sides of the outer wall body are fixed through the split bolts, after the concrete poured on the outer wall body reaches the template removing strength, the end parts of the split bolts on the outer sides of the templates are firstly removed, then the templates on the two sides are removed, and then the head parts of the split bolts exposed outside are removed.

In view of the above-mentioned related technologies, the inventor considers that the tie bolts in the formwork casting method in the prior art are disposable materials, and the tie bolts are cut after the formwork is removed, so that the surface of the cast concrete is formed to be uneven and is unsightly.

SUMMERY OF THE UTILITY MODEL

In order to reduce the end of pouring the remaining split bolt after the template shaping to the aesthetic property on reinforcing pouring template surface, this application provides hydraulic engineering with pouring template.

The application provides a hydraulic engineering is with pouring template adopts following technical scheme:

hydraulic engineering is with pouring template, including the box body, one side sliding connection of box body has the lid, first opening has been seted up on the vertical surface of box body, first open-ended inside sliding connection has first pipeline, the lid for the second opening has been seted up to the position of first pipeline, second open-ended inside sliding connection has the second pipeline, the external diameter of first pipeline is less than the internal diameter of second pipeline, the second pipeline inserts the inside and relative sliding connection of first pipeline, first pipeline with the coaxial regulation that is provided with in inside of second pipeline the lid distance the regulation structure of the box bottom of box body.

Through adopting above-mentioned technical scheme, can adjust the interval between the box bottom and the lid of relative box body through adjusting the structure, thereby make first pipeline stretch into the inside of second pipeline, and then compress tightly the inside concrete of template, and after the intensity of the template after pouring reached the form removal requirement, take out the inside first pipeline of box body and second pipeline from first opening and second open-ended position, thereby with the inside filling concrete of space position department, and then make and reduce the remaining end to the stay bolt after the shaping of pouring template, thereby the aesthetic property on template surface is pour in the reinforcing.

Optionally, adjust the structure including the split bolt that the level set up, split bolt is including the levogyration section and the dextrorotation section of coaxial setting, the levogyration section is located the outside threaded connection of box body has first nut, the dextrorotation section is located lid outside threaded connection has the second nut, first nut can promote the box body orientation is close to one side of dextrorotation section removes, the second nut can promote the lid orientation is close to one side of levogyration section removes.

Through adopting above-mentioned technical scheme, through rotating first nut and second nut to make first nut and second nut move towards the direction that is close to relatively, and then drive the lid and move towards the box bottom direction of box body, and then will be located the inside concrete compaction of box body and carry out the shaping.

Optionally, one side of the first pipeline, which is away from the box body, is fixedly connected with a first sealing plate, the first sealing plate is arranged corresponding to a position opening of a horizontal projection of the first pipeline, the first sealing plate is abutted against the box cover, one side of the second pipeline, which is away from the box cover, is fixedly connected with a second sealing plate, the second sealing plate is arranged corresponding to a position opening of a horizontal projection of the second pipeline, and the second sealing plate is abutted against the box body.

By adopting the technical scheme, the gap between the first pipeline and the box body can be sealed through the first sealing plate, and the condition that concrete leaks from the gap in the compacting process is reduced; can seal the gap between second pipeline and the lid through the second closing plate to reduce the condition that flows out from the gap at the in-process concrete of compaction.

Optionally, an elastic member is coaxially disposed inside the second pipe, the elastic member has the same diameter as the first pipe, and when the first pipe is inserted into the second pipe, the first pipe abuts against the elastic member.

Through adopting above-mentioned technical scheme, when stretching into the inside of second pipeline through with first pipeline, first pipeline can compress the elastic component to when separating lid and box body, can push out one side that deviates from the second pipeline with first pipeline orientation through the elastic component of compression, thereby the operating personnel of being convenient for operates.

Optionally, a third pipeline is fixedly connected to the inside of the second pipeline, the third pipeline and the second pipeline are coaxially arranged, and the diameter of the third pipeline is smaller than that of the first pipeline.

Through adopting above-mentioned technical scheme, can protect the elastic component through the third pipeline to when the reduction stretches into the stay bolt, because the slope stretches into and produces the collision to the elastic component, thereby reduce the condition that the elastic component is caused the damage to the stay bolt.

Optionally, the diapire of box body is provided with the slip casting pipe, the roof of box body is provided with out the thick liquid pipe.

Through adopting above-mentioned technical scheme, through setting up the slip casting pipe at the diapire of box body, and with the roof of slip casting pipe setting at the box body to the messenger is obtained from the below and pours into the concrete, and the inside that the concrete is located the box body risees gradually, and when the concrete flowed out from the play grout pipe of top, can show that the concrete that is located the box body inside is filled up.

Optionally, a first sliding groove is formed in the position, relative to the first opening, of the box body, a first sealing plate is slidably connected inside the first sliding groove, and the first sealing plate can seal the first opening; the box cover is provided with a second sliding groove relative to the position of the second opening, the sliding rod inside the second sliding groove is connected with a second sealing plate, and the second sealing plate can seal the second opening.

Through adopting above-mentioned technical scheme, through the inside relative slip of first shrouding at first spout to make when taking first pipeline and second pipeline out the back from the inside of box body, seal first opening through first shrouding, and then pour into the concrete from the inside of second opening towards the box body, then remove the second shrouding again and seal the second opening, thereby pour first pipeline and second pipeline at the inside hole that produces of box body.

Optionally, the first pipe and the second pipe are arranged in multiple groups along the surface of the box cover.

Through adopting above-mentioned technical scheme, through the first pipeline of the multiunit and the second pipeline that set up for the removal between lid and the box body is more firm, and more even to the shaping pressure of the concrete of pouring, improves the quality of concrete of finally pouring.

In summary, the present application includes at least one of the following beneficial technical effects:

1. can adjust the interval between the box bottom and the lid of relative box body through adjusting the structure, thereby make first pipeline stretch into the inside of second pipeline, and then compress tightly the inside concrete of template, and after the intensity of the template after pouring reached the form removal requirement, take out the inside first pipeline of box body and second pipeline from first opening and second open-ended position, thereby with the inside packing concrete of space position department, and then make and reduce the end of pouring remaining split bolt behind the template shaping, thereby the aesthetic property on template surface is pour in the reinforcing.

2. When stretching into the inside of second pipeline through with first pipeline, first pipeline can compress the elastic component to when separating lid and box body, can push out the one side that deviates from the second pipeline with first pipeline orientation through the elastic component of compression, thereby the operating personnel of being convenient for operates.

3. Through setting up the slip casting pipe at the diapire of box body, and with the slip casting pipe setting at the roof of box body to the messenger is obtained from the below and pours into the concrete into, and the concrete is located the interior gradual rise of box body, and when the concrete flowed out from the play thick liquid pipe of top, can show that the concrete that is located the box body inside is filled up.

Drawings

Fig. 1 is a schematic diagram of a box cover side of a pouring template for hydraulic engineering in an embodiment of the present application;

fig. 2 is a schematic structural view of a box body side of a pouring template for hydraulic engineering in an embodiment of the present application;

fig. 3 is a schematic diagram of the internal structure of the box body side of the pouring template for hydraulic engineering in the embodiment of the application;

fig. 4 is a schematic view of the internal structure of the box cover side of the pouring template for hydraulic engineering in the embodiment of the present application;

fig. 5 is a first pipe on the box body side of the pouring formwork for hydraulic engineering in the embodiment of the present application. The internal structure of the second pipeline is schematic.

Description of reference numerals: 1. a box body; 11. a grouting pipe; 12. a pulp outlet pipe; 13. a first opening; 14. a first chute; 141. a first seal plate; 15. a first connecting groove; 151. a first shifting block; 2. a box cover; 21. a second opening; 22. a second chute; 221. a second seal plate; 23. a second communicating groove; 231. a second shifting block; 3. a first conduit; 31. a first sealing plate; 4. a second conduit; 41. a second sealing plate; 42. a third pipeline; 43. a spring cavity; 44. sealing a ring; 45. a spring; 5. oppositely pulling the bolts; 51. a left-handed segment; 511. a first nut; 512. a first push plate; 52. a right-handed segment; 521. a second nut; 522. a second push plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses hydraulic engineering is with pouring template. Referring to fig. 1 and 2, the pouring template for the hydraulic engineering comprises a box body 1, wherein the box body 1 is of a rectangular hollow shell structure, and an opening is formed in one side of the box body 1. The opening of the box body 1 is connected with a box cover 2 in a sliding way, and the opening of the box body 1 can be completely sealed by the box cover 2.

The vertical slip casting pipe 11 that is provided with of lower surface that is located box body 1, slip casting pipe 11 is linked together with the inside of box body 1, and the vertical grout outlet pipe 12 that is provided with of upper surface that is located box body 1, grout outlet pipe 12 is linked together with the inside of box body 1, thereby pour into the concrete from slip casting pipe 11 towards the inside of box body 1, and after the concrete that is located box body 1 inside is filled up, can discharge from grout outlet pipe 12, when being located grout outlet pipe 12 and having the concrete outflow, can represent and be located the inside concrete of box body 1 and fill up.

Referring to fig. 3 and 4, a plurality of first openings 13 are formed in a surface of the box body 1 on a side away from the box cover 2, and the first openings 13 are circular. The inside horizontal sliding connection who is located first opening 13 has first pipeline 3, is located the one end fixedly connected with first closing plate 31 that first pipeline 3 deviates from lid 2, and first closing plate 31 sets up for the horizontal projection position opening of first pipeline 3 for first closing plate 31 exposes the inside of first pipeline 3, and first closing plate 31 is located one side and relative butt that box body 1 deviates from lid 2, thereby reduces the concrete that is located box body 1 inside and exposes.

The surface of the box cover 2 is provided with a second opening 21 corresponding to the first opening 13, the second opening 21 is a circle center structure, and the first opening 13 and the second opening 21 are coaxially arranged. The inside horizontal sliding connection that is located second opening 21 has second pipeline 4, and second pipeline 4 is located the one end fixedly connected with second closing plate 41 that deviates from first pipeline 3, and second closing plate 41 is located lid 2 and deviates from one side of box body 1 and with lid 2 butt to the concrete that the reduction is located box body 1 inside exposes from the second opening 21 position department of lid 2.

Referring to fig. 4 and 5, the outer diameter of the first pipe 3 is the same as the inner diameter of the second pipe 4, so that the first pipe 3 can be inserted into the second pipe 4 and the first pipe 3 and the second pipe 4 are relatively slidably coupled. A third pipe 42 is coaxially arranged inside the second pipe 4, and the outer diameter of the third pipe 42 is the same as the inner diameter of the first pipe 3, and an annular spring cavity 43 is formed between the second pipe 4 and the third pipe 42. A sealing ring 44 is fixedly connected to one end of the third pipe 42 close to the box cover 2, the sealing ring 44 is of an annular structure, an outer side wall of the sealing ring 44 is fixedly connected to the second pipe 4, and an inner side wall of the sealing ring 44 is fixedly connected to the third pipe 42, so that an opening of one end of the spring cavity 43 is closed by the sealing ring 44.

A spring 45 is arranged in the spring cavity 43, the spring 45 is coaxially arranged with the second pipeline 4, and one end of the spring 45 close to the box cover 2 is fixedly connected with the sealing ring 44. So that when the first tube 3 is inserted inside the second tube 4, the first tube 3 can be inserted inside the cavity 43 of the spring 45, compressing the spring 45.

Referring to fig. 3 and 4, a split bolt 5 is coaxially arranged inside the first pipeline 3, the split bolt 5 includes a left-handed section 51 close to one side of the box body 1 and a right-handed section 52 close to one side of the box cover 2, which are coaxially arranged, and a first nut 511 is threadedly connected to the outer side of the left-handed section 51. And one side of the first nut 511 close to the box body 1 is provided with a first push plate 512, the first push plate 512 is slidably connected with the split bolt 5, and the cross section of the first push plate 512 is larger than that of the first pipeline 3, so that the opening of the first sealing plate 31 is closed by the first push plate 512, and by rotating the first nut 511, the first nut 511 moves along the axial direction of the split bolt 5, and further the first push plate 512 is driven to move along the axial direction of the split bolt 5.

The outside threaded connection who is located dextrorotation section 52 has second nut 521, and one side that second nut 521 is close to lid 2 is provided with second push pedal 522, second push pedal 522 and split bolt 5 sliding connection, and through rotating second nut 521 for second nut 521 moves along split bolt 5's axis direction, and then second nut 521 promotes second push pedal 522 and moves towards one side that is close to lid 2, and then promotes the inside of box body 1 with lid 2.

Through rotating first nut 511 and second nut 521 to drive first push pedal 512 and second push pedal 522 and move towards the direction that is close to relatively, and then adjust lid 2 and move towards the direction that is close to the box bottom of box body 1, thereby compress tightly the inside concrete of box body 1.

The first chute 14 is vertically arranged in the box body 1, and the first chute 14 is opposite to the first opening 13. A first sealing plate 141 is slidably connected to the inside of the first chute 14, and the first opening 13 can be sealed by the first sealing plate 141. And the side of the first chute 14 departing from the box cover 2 is vertically provided with a first connecting groove 15, the first connecting groove 15 is communicated with the first chute 14, and the first connecting groove 15 is communicated with the side wall of the box body 1 departing from the box cover 2. The inside sliding connection that is located first connecting groove 15 has first shifting block 151, first shifting block 151 and first shrouding 141 fixed connection to operating personnel is through removing first shifting block 151, and then can drive first shrouding 141 and reciprocate in the inside of first spout 14.

A second sliding groove 22 is vertically formed in the box cover 2, and the second sliding groove 22 is opposite to the second opening 21. A second sealing plate 221 is slidably connected to the inside of the second chute 22, and the second sealing plate 221 can seal the second opening 21. And the side of the second sliding groove 22 departing from the box body 1 is vertically provided with a second communicating groove 23, the second communicating groove 23 is communicated with the second sliding groove 22, and the second communicating groove 23 is communicated with the side wall of the box cover 2 departing from the box body 1. The inside sliding connection who is located second intercommunication groove 23 has second shifting block 231, second shifting block 231 and second shrouding 221 fixed connection to operating personnel is through removing second shifting block 231, and then can drive second shrouding 221 and reciprocate in the inside of second spout 22.

The implementation principle of the pouring template for the hydraulic engineering in the embodiment of the application is as follows: through pouring into the inside of box body 1 with the concrete from the inside of slip casting pipe 11, and through rotating first nut 511 and second nut 521 for lid 2 moves towards the box bottom position of box body 1, and then consolidates lid 2 and box body 1 and compresses tightly. After the concrete in the box body 1 is dried, the split bolt 5 is taken out from the inside of the first pipeline 3 and the second pipeline 4, the first pipeline 3 and the second pipeline 4 are taken out from the inside of the box body 1, the first opening 13 of the box body 1 is covered by the first sealing plate 141, so that the concrete is injected from the position of the second opening 21 toward the inside of the box body 1, the gap generated by the original positions of the first pipeline 3 and the second pipeline 4 is covered, and then the second opening 21 is sealed by the second sealing plate 221.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. Hydraulic engineering is with pouring template, its characterized in that: including box body (1), one side sliding connection of box body (1) has lid (2), first opening (13) have been seted up on the vertical surface of box body (1), the inside sliding connection of first opening (13) has first pipeline (3), lid (2) for second opening (21) have been seted up to the position of first pipeline (3), the inside sliding connection of second opening (21) has second pipeline (4), the external diameter of first pipeline (3) is less than the internal diameter of second pipeline (4), second pipeline (4) insert the inside and relative sliding connection of first pipeline (3), first pipeline (3) with the inside coaxial regulation that is provided with of second pipeline (4) lid (2) distance the regulation structure of the box bottom of box body (1).

2. The casting template for the hydraulic engineering according to claim 1, wherein: adjust structure including split bolt (5) that the level set up, split bolt (5) including levogyration section (51) and dextrorotation section (52) of coaxial setting, levogyration section (51) are located the outside threaded connection of box body (1) has first nut (511), dextrorotation section (52) are located lid (2) outside threaded connection has second nut (521), first nut (511) can promote box body (1) orientation is close to one side of dextrorotation section (52) is removed, second nut (521) can promote lid (2) orientation is close to one side of levogyration section (51) is removed.

3. The casting template for the hydraulic engineering according to claim 1, wherein: the first pipeline (3) deviates from one side fixedly connected with first sealing plate (31) of box body (1), first sealing plate (31) for the position opening setting of the horizontal projection of first pipeline (3), first sealing plate (31) with lid (2) butt, second pipeline (4) deviate from one side fixedly connected with second sealing plate (41) of lid (2), second sealing plate (41) for the position opening setting of the horizontal projection of second pipeline (4), second sealing plate (41) with box body (1) butt.

4. The casting template for the hydraulic engineering according to claim 1, wherein: an elastic piece is coaxially arranged inside the second pipeline (4), the diameter of the elastic piece is the same as that of the first pipeline (3), and when the first pipeline (3) is inserted into the second pipeline (4), the first pipeline (3) is abutted to the elastic piece.

5. The casting template for the hydraulic engineering according to claim 4, wherein: the inner part of the second pipeline (4) is fixedly connected with a third pipeline (42), the third pipeline (42) and the second pipeline (4) are coaxially arranged, and the diameter of the third pipeline (42) is smaller than that of the first pipeline (3).

6. The casting template for the hydraulic engineering according to claim 1, wherein: the bottom wall of the box body (1) is provided with a grouting pipe (11), and the top wall of the box body (1) is provided with a grout outlet pipe (12).

7. The casting template for the hydraulic engineering according to claim 1, wherein: a first sliding groove (14) is formed in the position, relative to the first opening (13), of the box body (1), a first sealing plate (141) is connected inside the first sliding groove (14) in a sliding mode, and the first opening (13) can be sealed by the first sealing plate (141); the box cover (2) is provided with a second sliding groove (22) relative to the position of the second opening (21), a second sealing plate (221) is connected to an inner sliding rod of the second sliding groove (22), and the second sealing plate (221) can seal the second opening (21).

8. The casting template for the hydraulic engineering according to claim 1, wherein: the first pipeline (3) and the second pipeline (4) are arranged in multiple groups along the surface of the box cover (2).

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