CN219343994U - Shaping outer windowsill coping slope finding die - Google Patents

Abstract

The utility model relates to a shaping outer windowsill jacking slope finding die which comprises an inner die plate, an outer die plate, split bolts, limit clamps and positioning nuts, wherein the split bolts are arranged on the inner die plate; the inner template is of a vertical plate-shaped structure, the outer side of the outer template is provided with a gradient structure, the inner template and the outer template are respectively clamped on the inner side and the outer side of a wall body, corresponding round holes are formed in the two templates, the limiting clamps are of a U-shaped structure and are sleeved on the outer sides of the inner template and the outer template, through holes corresponding to the round holes are formed in the limiting clamps, the split bolt is adaptively sleeved in the round holes and the through holes, fastening nuts are arranged at the two ends of the split bolt, and the positioning nuts are in threaded connection with the middle of the split bolt and can prop against the outer side of the outer template.

Description

Shaping outer windowsill coping slope finding die

Technical Field

The utility model relates to the technical field of constructional engineering, in particular to a shaping outer windowsill jacking slope finding die.

Background

At present, there are two modes for outer windowsill capping treatment in the building engineering: firstly, the wooden form is adopted to support the form, the pull bolt is fixed, the upper opening of the pressing top is directly trowelled, and slope finding is carried out through plastering in the later stage, so that although the early-stage pressing top construction is simpler and more convenient, the plastering thickness of 1-2 cm in the later stage is difficult to find the slope, and the concrete forming quality is poorer and worse after the wooden form is used for many times.

Secondly, the outward slope finding treatment is not carried out during the roof pressing and plastering construction, and foaming agents are filled in gaps at the bottom of the windowsill after the later window is installed, so that water can be stored in the outer window in the face of rainy season, water can not be effectively drained, hidden leakage hazards exist, and on the basis, the research on the shaping outer windowsill roof pressing slope finding die is necessary.

Disclosure of Invention

In view of the above, the utility model aims to provide a shaping outer windowsill coping slope finding die, which effectively solves the problems of complicated construction, difficult subsequent slope finding and poor slope flatness of the existing slope finding die.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: a shaping outer windowsill jacking slope finding die comprises an inner die plate, an outer die plate, split bolts, limit clamps and positioning nuts; the inner template is of a vertical platy structure, the outer side of the outer template is provided with a gradient structure, the inner template and the outer template are respectively clamped on the inner side and the outer side of a wall body, corresponding round holes are formed in the two templates, the limiting clamp is of a U-shaped structure, the limiting clamp is sleeved on the outer sides of the inner template and the outer template, through holes corresponding to the round holes are formed in the limiting clamp, the matched sleeve of the split bolt is arranged in the round holes and the through holes, fastening nuts are arranged at the two ends of the split bolt, and the positioning nuts are in threaded connection with the middle of the split bolt and can prop against the outer side of the outer template.

Further, the outer template comprises a lower plate block, a gradient block and an upper plate block, wherein the lower plate block and the upper plate block are of vertical structures, the gradient block is of a structure with gradient, a round hole is formed in the upper plate block, and the split bolt is sleeved in the round hole.

Further, the opposite-pulling screw comprises an inner section and an outer section, threads are arranged at two ends of the inner section, a thread section is arranged at the outer end of the outer section, a connecting sleeve is arranged at the inner end of the outer section, the inner section penetrates through one side of the limit clamp, the inner template and the outer template and is connected with the connecting sleeve through threads, and the inner end of the outer section can prop against the outer side face of the outer template.

Further, the outer end of the opposite-pull screw is provided with a thread section, and the positioning nut is in threaded connection with the thread section and can be propped against the outer side of the outer template in a combined state.

Furthermore, the positioning nut and the fastening nut respectively lean against the outer sides of the outer template and the limiting clamp through gaskets.

The beneficial effects of the technical scheme are as follows: aiming at the problems that the construction of a slope finding die is complicated, the subsequent slope finding is difficult, and the slope flatness is poor, the utility model provides a detachable combined type template structure, which structurally comprises an inner template and an outer template, wherein the inner template and the outer template are respectively arranged at the inner side and the outer side, the inner template is of a flat plate structure, the outer template has a certain gradient, the upper part and the lower part of the outer template can be arranged into a staggered plate structure according to construction requirements, the middle part of the outer template is connected through a gradient block, then the positions of the inner template and the outer template are limited by utilizing a limiting clamp and a counter-pulling screw, in a specific limiting mode, the inner template is attached to one side of the limiting clamp, the lower plate of the outer template is attached to the limiting clamp for fixing the outer template, and the upper plate is limited by the counter-pulling screw, namely the limiting clamp, the inner template and the outer template are synchronously connected, so that the limiting of the inner template and the outer template is stable.

Meanwhile, in order to facilitate operation, the split screw is arranged into a two-section structure, namely an inner section and an outer section, threads are arranged at two ends of the inner section, threads are arranged at the outer end of the outer section, and a connecting sleeve is arranged at the inner end, so that the split screw can be assembled from two opposite sides, and meanwhile, the inner and outer templates are fixed.

Therefore, the utility model adopts the shaping galvanized steel sheet as the mould, thereby improving the turnover times and the shaping quality of the concrete; the slope finding modeling of the upper opening of the die and the cover plate capable of being opened and closed are adopted, so that the effects of pressing the top, finding the slope in place once and fast closing up are achieved, the forming quality of concrete is greatly improved, the galvanized steel sheet die can be repeatedly turned over, the cost is saved, the die is green and environment-friendly, the slope finding modeling of the upper opening of the die enables the pressing top, finding the slope and forming once, and the defects of high construction difficulty and poor forming effect of the secondary slope finding in the later period are avoided. The shaping outer windowsill is pressed against the slope finding die, so that the installation and the disassembly are simple, and the construction is convenient.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the present utility model an internal structural schematic;

fig. 3 is a schematic view of another construction of the split screw.

Reference numerals: 1 is an inner template, 2 is an outer template, 21 is a gradient block, 22 is a lower plate, 23 is an upper plate, 3 is a counter-pulling screw, 31 is an outer section, 32 is an inner section, 33 is a connecting sleeve, 4 is a fastening nut, 5 is a gasket, 6 is a positioning nut, and 7 is a limiting clamp.

Detailed Description

The utility model is described in further detail below with reference to the attached drawings and detailed description:

embodiment 1, this embodiment aims at providing a shaping outer windowsill coping slope finding die, which is mainly used for carrying out slope finding on windowsill coping, and aims at solving the problems that the construction of the slope finding die is complicated, the subsequent slope finding is difficult, and the slope flatness is poor; the embodiment provides a shaping outer windowsill jacking slope finding die, and achieves the effect of jacking and slope finding in place once through slope finding modeling of an upper opening of the die.

As shown in fig. 1-3, a shaping outer windowsill coping slope finding die comprises an inner die plate 1, an outer die plate 2, a split bolt 3, a limit clamp 7 and a positioning nut 6; specifically as shown in fig. 1, the inner formwork 1 is of a vertical plate-shaped structure, the outer side of the outer formwork 2 is provided with a gradient structure, the inner formwork 1 and the outer formwork 2 are respectively clamped on the inner side and the outer side of a wall body, corresponding round holes are formed in the two formworks, in a specific implementation mode, as shown in fig. 2, the outer formwork 2 comprises a lower plate 22, a gradient block 21 and an upper plate 23, the lower plate 22 and the upper plate 23 are of vertical structures, the lower plate 22 is arranged outside, the upper plate 23 is arranged inside, the gradient block 21 is of a structure with a gradient, the upper plate 23 is provided with a round hole, a split bolt 3 is sleeved in the round hole, in the implementation, the gradient block 21 is made of a 5mm galvanized steel plate, the concrete size and the upper slope finding modeling can be designed according to a drawing, the upper side and the lower side of the inner mold are respectively provided with a pressing top edge of 10cm, the upper opening of the die is fixed by adopting a U-shaped limit buckle when the die is supported.

The spacing card 7 is U-shaped structure, spacing card 7 is provided with the multiunit, as show in fig. 1, spacing card has been arranged 4 groups, 4 spacing card space suit of group is in the outside of interior template 1 and exterior sheathing 2, be provided with the through-hole that the round hole corresponds on spacing card 4, the suit of split bolt 3 adaptation is in round hole and through-hole, and be provided with fastening nut 4 at the both ends of split bolt 3, positioning nut 6 threaded connection is in the middle part of split bolt 3, and can push up the outside of leaning on exterior sheathing 2, through the U type spacing card of mould upper shed, can avoid the bolt to wear to press top or masonry wall's quality hidden danger.

In a further implementation structure, the outer end of the split screw 3 is provided with a thread section, the positioning nut 6 is in threaded connection with the thread section, and in a combined state, the positioning nut 6 can be propped against the outer side of the outer template 2, and through the structure, the position of the positioning nut 6 can be allowed to be adjusted, so that corresponding propping force is provided for the outer template 2.

In terms of structure, the positioning nut 6 and the fastening nut 4 respectively lean against the outer sides of the outer die plate 2 and the limiting clamp 7 through the gasket 5, and the gasket 5 can be in a separated state with the positioning nut 6 and the fastening screw 4 or can be in a structure fixed together.

In operation, in the first step, the mould is cleaned: cleaning a die by adopting a pressurized water pipe nozzle, and brushing a release agent;

secondly, positioning and paying off: determining the position of the die and the jacking elevation, ensuring the jacking thickness, and observing whether the left side, the right side, the upper side and the lower side of the die are enough;

thirdly, reinforcing a die: the method comprises the steps that an inner template and an outer template are reinforced by adopting a U-shaped limiting buckle, a pull bolt is tied from the 5cm position of the upper part of the press top, three groups of pull bolts and the limiting buckle are arranged, and the press top modeling and the integral die are reinforced respectively;

fourth, concrete is poured: and pouring concrete from the upper opening, prolonging the concrete vibrating time, ensuring the compactness of the concrete surface at the slope finding modeling position, and carrying out surface collecting on the top pressing surface after the pouring is finished.

Fifthly, removing the template: and dismantling the split bolt and the U-shaped buckle, checking the slope finding molding quality of the top of the pressing head, and repairing the corner of the missing edge by adopting polymer adhesive mortar.

Example 2, which is substantially identical to example 1, differs in that the structure of this example is further described.

In this embodiment, the opposite-pulling screw 3 includes an inner section 32 and an outer section 31, both ends of the inner section 32 are provided with threads, the outer end of the outer section 31 is provided with a threaded section, the inner end thereof is provided with a connecting sleeve 33, the inner section 32 penetrates through one side of the limit clamp 7, the inner die plate 1 and the outer die plate 2 and is in threaded connection with the connecting sleeve 33 at the end of the outer section, and the inner end of the outer section can lean against the outer side surface of the outer die plate 2.

In the embodiment, the opposite-pulling screw 3 is of a two-section structure, namely an inner section 32 and an outer section 31, threads are arranged at two ends of the inner section 32, threads are arranged at the outer end of the outer section, and a connecting sleeve is arranged at the inner end, so that the opposite-pulling screw can be assembled from two sides and the inner and outer templates can be fixed.

The positioning clamping sleeves can be arranged on each limiting clamp 7, and the outer sections 31 can be sleeved on the positioning clamping sleeves and the limiting clamps simultaneously, so that the outer sections can stably move horizontally and then are butted with the inner sections.

Claims (5)

1. The shaping outer windowsill jacking slope finding die is characterized by comprising an inner die plate, an outer die plate, split bolts, limit clamps and positioning nuts; the inner template is of a vertical platy structure, the outer side of the outer template is provided with a gradient structure, the inner template and the outer template are respectively clamped on the inner side and the outer side of a wall body, corresponding round holes are formed in the two templates, the limiting clamp is of a U-shaped structure, the limiting clamp is sleeved on the outer sides of the inner template and the outer template, through holes corresponding to the round holes are formed in the limiting clamp, the matched sleeve of the split bolt is arranged in the round holes and the through holes, fastening nuts are arranged at the two ends of the split bolt, and the positioning nuts are in threaded connection with the middle of the split bolt and can prop against the outer side of the outer template.

2. The shaped outer sill coping slope finding die of claim 1, wherein: the outer template comprises a lower plate block, a gradient block and an upper plate block, wherein the lower plate block and the upper plate block are of vertical structures, the gradient block is of a structure with gradient, a round hole is formed in the upper plate block, and the split bolt is sleeved in the round hole.

3. The shaped outer sill coping slope finding die of claim 2, wherein: the split bolt comprises an inner section and an outer section, threads are arranged at two ends of the inner section, a threaded section is arranged at the outer end of the outer section, a connecting sleeve is arranged at the inner end of the outer section, the inner section penetrates through one side of the limit clamp, the inner template and the outer template and is connected with the connecting sleeve through threads, and the inner end of the outer section can prop against the outer side face of the outer template.

4. The shaped outer sill coping slope finding die of claim 1, wherein: the outer end of the split bolt is provided with a threaded section, and the positioning nut is in threaded connection with the threaded section and can be propped against the outer side of the outer template in a combined state.

5. The shaped outer sill coping slope finding die according to any of claims 1-4, wherein: the positioning nut and the fastening nut respectively lean against the outer sides of the outer template and the limiting clamp through gaskets.

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