CN220620933U - Directional scraping plate type leveling device for building external windowsill inclined plane structure - Google Patents

Abstract

The utility model discloses a directional scraper type leveling device for a slope structure of an outer windowsill of a building, which comprises the following components: a support rod body structure, the distance between two end parts along the extending direction of which is adjustable; the sliding box structure is assembled and arranged on the supporting rod body structure in a sliding manner; the directional scraping plate structure is fixedly connected and assembled on the assembling slide box structure. Solves the technical problem existing in the prior art for the construction of the inclined plane of the windowsill of the building.

Description

Directional scraping plate type leveling device for building external windowsill inclined plane structure

Technical Field

The utility model relates to the technical field of building construction devices, in particular to a directional scraper type leveling device for a slope structure of an outer windowsill of a building.

Background

At present, in the construction and decoration process of building construction, the standard requirements are met for the slope of the inclined plane of the outer windowsill. The current exterior sill inclined plane mainly relies on the manual plastering construction, has a plurality of drawbacks, and is mainly expressed as:

1. the uneven level of operators can cause the unsmooth gradient of the inclined plane, so that the drainage requirement can not be met;

2. the thickness of the artificial plastering is uneven, and quality problems such as uneven surface layer, hollowness, cracks and the like are easy to occur;

3. the large-area construction efficiency is low, and especially, the plastering of the outer windowsill needs to be carried out in the hanging basket, so that the risk of falling in the high altitude is increased.

Disclosure of Invention

Therefore, the utility model provides a directional scraper type leveling device for the slope construction of the building outer windowsill, which aims to solve the technical problems existing in the construction of the slope of the building outer windowsill in the prior art.

In order to achieve the above object, the present utility model provides the following technical solutions:

a directional blade leveling device for use in a building exterior sill slope construction, comprising:

a support rod body structure, the distance between two end parts along the extending direction of which is adjustable;

the sliding box structure is assembled and arranged on the supporting rod body structure in a sliding manner;

the directional scraping plate structure is fixedly connected and assembled on the assembling slide box structure.

On the basis of the technical scheme, the utility model is further described as follows:

as a further scheme of the utility model, the support rod body structure comprises a support rod main body, a rubber cushion support and an adjusting jacking;

the support rod is characterized in that one end part of the support rod main body along the extending direction of the support rod main body is fixedly connected with the rubber pad support seat in an assembling manner, and the adjusting jacking adjustable position type assembling device is arranged at the other end part of the support rod main body along the extending direction of the support rod main body.

As a further scheme of the utility model, the supporting rod body structure further comprises a jacking adjusting nut;

the other end of the stay bar main body along the extending direction is connected with the adjusting jacking in a sliding assembly mode, and the jacking adjusting nut is assembled at the other end of the stay bar main body in a switching mode.

As a further scheme of the utility model, the support rod body structures are arranged into at least two groups, and the support rod bodies corresponding to the at least two groups of support rod body structures are arranged in parallel;

the assembling slide box structure is assembled and arranged on at least two groups of the stay bar main bodies in a sliding way.

As a further aspect of the present utility model, the method further comprises:

the vertical positioning structure comprises a vertical rod main body and a vertical adjusting nut;

the vertical rod main body is arranged on the assembling slide box structure in a vertical sliding manner;

the vertical adjusting nut is assembled in a switching way and is arranged on the assembling sliding box structure, and the vertical adjusting nut and the vertical rod main body are assembled in a threaded mode.

As a further aspect of the present utility model, the method further comprises:

a sliding positioning structure and an angle adjusting structure;

the sliding positioning structure is connected with the bottom end part of the vertical rod main body through the angle adjusting structure in a positioning type switching assembly mode.

As a further scheme of the utility model, the sliding positioning structure comprises a positioning rod main body and a sliding positioning ball seat;

the bottom end part of the positioning rod main body is fixedly connected with the sliding position ball seat in an assembling manner, the positioning rod main body is connected with the bottom end part of the vertical rod main body through the angle adjusting structure in a positioning type switching assembling manner, and the sliding position ball seat is connected with the directional scraping plate structure in a positioning type sliding assembling manner.

As a further scheme of the utility model, the angle adjusting structure comprises an angle adjusting screw rod and an angle adjusting positioning nut;

the angle adjusting screw rod sequentially extends through the bottom end part of the vertical rod main body and the top end part of the position adjusting rod main body and then is assembled with the angle adjusting positioning nut in a threaded manner.

As a further scheme of the utility model, the directional scraping plate structure comprises a guide sliding seat and a scraping plate fixedly assembled at the bottom end part of the guide sliding seat;

the extending direction of the guide sliding seat is perpendicular to the extending direction of the supporting rod main body and the extending direction of the vertical rod main body;

the sliding seat is connected with the guiding sliding seat in a positioning type sliding assembly manner.

As a further scheme of the utility model, the sliding positioning structure further comprises a sliding positioning nut;

the sliding positioning nut is assembled with the positioning rod main body in a threaded manner.

The utility model has the following beneficial effects:

1. the device can be through the length adjustable supporting rod body structure effectively form firm directional bearing structure based on between the lateral wall of outer window both sides, can utilize the assembly slide case structure that the supporting rod body structure was located in the slip assembly simultaneously through its self slip effect synchronous drive directional scraper blade structure realization to the directional construction operation of strickling of outer windowsill, in addition can also effectively correspond the position and the angle parameter of adjustment directional scraper blade structure for the assembly slide case structure with the help of vertical position adjustment structure, slip position adjustment structure and angle adjustment structure, thereby showing the function adaptation flexibility that has strengthened whole framework, construction work efficiency has been promoted, quality and functional practicality.

2. The construction speed is high, the efficiency is high, and the construction quality is high;

compared with the method of plastering by artificial plastering, the method has the advantages that plastering can be performed rapidly and continuously, the working efficiency is improved, the uniformity and flatness of a plaster layer can be ensured, and the problems of non-uniformity and concave-convex possibly occurring in artificial construction are reduced.

3. The operation is simple, and the labor is saved;

the operation is simple, and the operator only needs to master the basic use skills and does not need higher operation experience.

4. The construction risk is reduced, and the efficiency is improved;

the high-altitude operation can be effectively reduced, the safety risk in operation is reduced, the feeding is convenient, the links of feeding and discharging materials during construction on the hanging basket are avoided, and the construction efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the following description will simply refer to the drawings required in the embodiments or the description of the prior art, and structures, proportions, sizes and the like which are shown in the specification are merely used in conjunction with the disclosure of the present utility model, so that those skilled in the art can understand and read the disclosure, and any structural modifications, changes in proportion or adjustment of sizes should still fall within the scope of the disclosure of the present utility model without affecting the effects and the achieved objects of the present utility model.

Fig. 1 is a schematic overall front view of a directional scraper leveling device for a slope structure of an external sill of a building according to an embodiment of the present utility model.

Fig. 2 is a schematic diagram of an overall side view structure of a directional blade-type leveling device for a slope structure of an external sill of a building according to an embodiment of the present utility model.

In the drawings, the list of components represented by the various numbers is as follows:

support rod body structure 1: the support rod comprises a support rod main body 11, a rubber cushion support 12, an adjusting jacking 13 and a jacking adjusting nut 14;

assembling a slide box structure 2;

vertical positioning structure 3: a vertical rod body 31, a vertical adjustment nut 32;

sliding positioning structure 4: a positioning rod main body 41, a sliding position ball seat 42 and a sliding position nut 43;

angle adjusting structure 5: angle adjusting screw 51, angle adjusting positioning nut 52;

directional squeegee structure 6: a guide slide 61 and a scraper 62.

Detailed Description

Other advantages and advantages of the present utility model will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but 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.

The terms such as "upper", "lower", "left", "right", "middle" and the like are also used herein for descriptive purposes only and are not intended to limit the scope of the utility model for which the utility model may be practiced or for which the relative relationship may be altered or modified without materially altering the technical context.

As shown in fig. 1 to 2, the embodiment of the utility model provides a directional scraper leveling device for a slope structure of an external window sill of a building, which comprises a support rod body structure 1, an assembly slide box structure 2, a vertical positioning structure 3, a sliding positioning structure 4, an angle adjusting structure 5 and a directional scraper structure 6, wherein the support rod body structure 1 with adjustable length is used for effectively forming a stable directional support structure based on the two side walls of the external window, meanwhile, the assembly slide box structure 2 arranged on the support rod body structure 1 by utilizing sliding assembly can synchronously drive the directional scraper structure 6 through the sliding action of the assembly slide box structure, so that the directional scraping construction operation of the external window sill can be realized, and in addition, the position and angle parameters of the directional scraper structure 6 relative to the assembly slide box structure 2 can be effectively correspondingly adjusted by the vertical positioning structure 3, the sliding positioning structure 4 and the angle adjusting structure 5, so that the functional adaptation flexibility of the overall architecture is obviously enhanced, and the construction operation efficiency, the quality and the functional practicability are improved. The specific arrangement is as follows:

referring to fig. 1 and 2, the support rod structure 1 is provided with at least two groups, and each group of support rod structures 1 includes a support rod main body 11, a rubber pad support 12, an adjusting jacking 13 and a jacking adjusting nut 14; the supporting rod comprises a supporting rod main body 11, a rubber pad support 12, a supporting rod adjusting nut 14, a supporting rod main body 11 and a supporting window, wherein the supporting rod main body 11 is fixedly connected with the supporting rod main body 12 through the fixedly connected assembly, the supporting rod main body 11 is connected with the supporting rod main body along the other end of the extending direction of the supporting rod main body through the sliding assembly, the supporting rod adjusting nut 14 is assembled with the other end of the supporting rod main body 11 in a switching mode, the supporting rod adjusting nut 14 is assembled with the supporting rod main body 13 in a screwing mode, and the supporting rod main body 11 is used for driving the supporting rod main body 13 to slide and adjust positions through rotation of the supporting rod main body 14, so that the whole length of the supporting rod body structure 1 is changed, and the supporting rod main body is stably supported between two side walls of an outer window through directional adaptation.

At least two sets of the supporting rod bodies 1 are corresponding to the supporting rod bodies 11 and are arranged in parallel, and the assembling slide box structure 2 is assembled on at least two sets of the supporting rod bodies 11 in a sliding manner and is used as a directional sliding basis of the directional scraper structure 6 by utilizing the sliding action of the assembling slide box structure 2 based on the supporting rod bodies 11.

With continued reference to fig. 1 and 2, the vertical positioning structures 3 are provided with at least two groups, and each group of vertical positioning structures 3 includes a vertical rod main body 31 and a vertical adjusting nut 32; the vertical rod main body 31 is arranged in the assembling slide box structure 2 in a vertical sliding manner, the vertical adjusting nut 32 is arranged in the assembling slide box structure 2 in a switching manner, and the vertical adjusting nut 32 is assembled in a threaded manner with the vertical rod main body 31, so that the vertical rod main body 31 is driven to slide and position through rotating the vertical adjusting nut 32 based on the assembling slide box structure 2, and the bottom height position of the vertical rod main body 31 is effectively adjusted.

The sliding positioning structures 4 are provided with at least two groups, and the at least two groups of sliding positioning structures 4 are connected with the bottom ends of the at least two groups of vertical rod main bodies 31 through the angle adjusting structures 5 in a positionable switching assembly manner; specifically, each group of sliding positioning structures 4 comprises a positioning rod main body 41, a sliding positioning ball seat 42 and a sliding positioning nut 43, and the angle adjusting structure 5 comprises an angle adjusting screw 51 and an angle adjusting positioning nut 52; the angle adjusting screw rods 51 sequentially extend through at least two groups of bottom end parts of the vertical rod main bodies 31 and top end parts of the positioning rod main bodies 41, and then are assembled with the angle adjusting positioning nuts 52 in a threaded manner, so that relative angle adjustment and fixation of the vertical rod main bodies 31 and the positioning rod main bodies 41 are realized by means of the threaded assembly fastening effect between the angle adjusting screw rods 51 and the angle adjusting positioning nuts 52.

The bottom end part of the positioning rod main body 41 is fixedly assembled and connected with the sliding position ball seat 42; the directional scraping plate structure 6 comprises at least two groups of guiding sliding seats 61 and scraping plate 62 fixedly assembled at the bottom end parts of the at least two groups of guiding sliding seats 61, and is used for realizing directional scraping construction operation on an outer windowsill by utilizing the scraping plate 62; the extending direction of the guide sliding seat 61 is perpendicular to the extending direction of the supporting rod main body 11 and the extending direction of the vertical rod main body 31; at least two sets of slide ball seats 42 are respectively in one-to-one correspondence with at least two sets of guide sliding seats 61 in a sliding manner, and the slide positioning nuts 43 are in threaded engagement with the positioning rod main bodies 41, so that the slide positioning nuts 43 and the slide ball seats 42 can form a fastening and clamping effect based on the threaded engagement effect between the slide positioning nuts 43 and the positioning rod main bodies 41, and the guide sliding seats 61 and the scraping plate 62 can be effectively fixed.

When the support rod structure is used, an operator aligns one end of a rubber pad support 12 of the support rod structure 1 with a wall body on one side of an outer window, then rotates an adjusting jacking adjusting nut 14 on the other end to enable an adjusting jacking 13 to stretch, fixes the support rod structure 1 to the position of the window hole based on two side walls, and then starts construction;

the method comprises the steps of adjusting a scraping plate 62 aiming at a windowsill position and a preset angle, specifically, firstly, adjusting the bottom end height position of a vertical rod main body 31 by rotating a vertical adjusting nut 32 to enable the scraping plate 62 to reach a position 20 cm above an outer windowsill inclined plane, then, enabling the scraping plate 62 to reach a construction required angle by an angle adjusting structure 5, adjusting the bottom end height position of the vertical rod main body 31 again to enable the scraping plate 62 to reach a windowsill construction position, and further, enabling the sliding positioning nut 43 and a sliding position ball seat 42 to form a fastening clamping function corresponding to a guide sliding seat 61 by rotating a sliding positioning nut 43 in a sliding positioning structure 4, fixing the position of the scraping plate 62, enabling the scraping plate 62 to be attached to the outer windowsill inclined plane, and enabling the position of the scraping plate 62 to be adjusted completely;

and finally, plastering construction is carried out, an operator places the mortar which is mixed in advance on the inclined plane of the outer windowsill, and then the sliding box structure 2 is pushed and assembled in a reciprocating manner for two to three times to finish plastering, and the dead angle is manually leveled.

While the utility model has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the utility model and are intended to be within the scope of the utility model as claimed.

Claims (8)

1. A directional blade leveling device for a building exterior sill slope construction, comprising:

a support rod body structure, the distance between two end parts along the extending direction of which is adjustable;

the support rod body structure comprises a support rod main body, a rubber cushion support and an adjusting jacking;

one end part of the stay bar main body along the extending direction of the stay bar main body is fixedly connected with the rubber pad support in an assembling manner, and the adjusting jacking position-adjustable type is assembled at the other end part of the stay bar main body along the extending direction of the stay bar main body;

the support rod body structure further comprises a jacking adjusting nut;

the other end part of the stay bar main body along the extending direction is connected with the adjusting jacking in a sliding assembly manner, and the jacking adjusting nut is assembled at the other end part of the stay bar main body in a switching manner;

the sliding box structure is assembled and arranged on the supporting rod body structure in a sliding manner;

the directional scraping plate structure is fixedly connected and assembled on the assembling slide box structure.

2. The directional blade leveling apparatus for a building exterior sill chamfer construction as in claim 1 wherein,

the support rod body structures are arranged into at least two groups, and the support rod bodies corresponding to the at least two groups of support rod body structures are arranged in parallel;

the assembling slide box structure is assembled and arranged on at least two groups of the stay bar main bodies in a sliding way.

3. The directional blade leveling apparatus for a building exterior sill chamfer construction as in claim 1 further comprising:

the vertical positioning structure comprises a vertical rod main body and a vertical adjusting nut;

the vertical rod main body is arranged on the assembling slide box structure in a vertical sliding manner;

the vertical adjusting nut is assembled in a switching way and is arranged on the assembling sliding box structure, and the vertical adjusting nut and the vertical rod main body are assembled in a threaded mode.

4. A directional blade leveling apparatus for a building exterior sill chamfer construction as in claim 3 further comprising:

a sliding positioning structure and an angle adjusting structure;

the sliding positioning structure is connected with the bottom end part of the vertical rod main body through the angle adjusting structure in a positioning type switching assembly mode.

5. The directional blade leveling apparatus for a building exterior sill chamfer construction as in claim 4 wherein,

the sliding positioning structure comprises a positioning rod main body and a sliding positioning ball seat;

the bottom end part of the positioning rod main body is fixedly connected with the sliding position ball seat in an assembling manner, the positioning rod main body is connected with the bottom end part of the vertical rod main body through the angle adjusting structure in a positioning type switching assembling manner, and the sliding position ball seat is connected with the directional scraping plate structure in a positioning type sliding assembling manner.

6. The directional blade leveling apparatus for a building exterior sill chamfer construction as in claim 5 wherein,

the angle adjusting structure comprises an angle adjusting screw rod and an angle adjusting positioning nut;

the angle adjusting screw rod sequentially extends through the bottom end part of the vertical rod main body and the top end part of the position adjusting rod main body and then is assembled with the angle adjusting positioning nut in a threaded manner.

7. The directional blade leveling apparatus for a building exterior sill chamfer construction as in claim 5 wherein,

the directional scraping plate structure comprises a guide sliding seat and a scraping plate fixedly assembled at the bottom end part of the guide sliding seat;

the extending direction of the guide sliding seat is perpendicular to the extending direction of the supporting rod main body and the extending direction of the vertical rod main body;

the sliding seat is connected with the guiding sliding seat in a positioning type sliding assembly manner.

8. The directional blade leveling apparatus for a building exterior sill chamfer construction as in claim 5 wherein,

the sliding positioning structure further comprises a sliding positioning nut;

the sliding positioning nut is assembled with the positioning rod main body in a threaded manner.