CN219765756U - Vertical spraying device for frame net piece - Google Patents

Abstract

The utility model provides a vertical spraying device of support body net piece, includes telescopic flexible seat and expansion bracket, is equipped with the support column of a plurality of vertical settings on the expansion bracket, forms the place of placing the support body net piece between the support column, and the expansion bracket can be connected to the flexible seat on and stretch out and draw back along with the flexible seat and adjust the distance between the place of placing, and the expansion bracket can take off and whole sunning support body net piece from the flexible seat. The utility model supports the simultaneous vertical or inclined placement of a plurality of frame meshes for paint spraying, which can improve the spraying efficiency and avoid paint waste; in addition, the inclination angle and the distance between two adjacent frame body meshes can be conveniently adjusted after the frame body meshes are placed, and the surface of each frame body mesh can be comprehensively sprayed as required. When the spraying of the frame net sheet is finished, the frame net sheet can be directly and integrally dried without being taken down singly for drying, and the work efficiency is high, and the frame net sheet is favorable for quick drying. The utility model has the characteristics of novel structure and convenient use, and can greatly improve the renovation efficiency.

Description

Vertical spraying device for frame net piece

Technical Field

The utility model relates to building material renovation, in particular to a vertical spraying device for a frame mesh.

Background

The attached lifting scaffold (climbing scaffold for short) is widely applied to building construction, especially high-rise construction, plays a role in safety protection, and effectively reduces the occurrence of safety accidents. The climbing frame is usually reused, namely, after one project is used up and pulled back to a designated place for renovation, correction, maintenance and other works, the climbing frame is continuously recycled. The main support body of climbing frame can cause the deformation of different degree at transportation, ann tear open, in-process of using, and the support body turnover is used before, generally returns the mill to adopt modes such as abrasive machine manual polishing, flame correction to maintain according to support body surface impurity, structure deformation condition, waits to use in next building site after the manual spraying renovation at last.

At present, when paint spraying is carried out on the frame mesh, the frame mesh is generally stacked on the ground for spraying, and in the mode, paint is wasted, the efficiency is low, and the surface spraying quality is low; in addition, when the frame body net piece stacks and places, the surface is difficult to dry, so that the overall renovation efficiency is lower.

In the process of spraying the paint on the frame meshes, the frame meshes are stacked, the surfaces of the frame meshes are not easy to dry, the paint is wasted, the spraying quality of the paint on the surfaces of products is low, and the efficiency is low. Therefore, a device for surface treatment, structural correction and appearance spraying of a climbing frame product needs to be studied, an automatic or semi-automatic mechanical device is integrated to form assembly line retreading, the climbing frame retreading efficiency is improved, the retreading quality is improved, the retreading cost is reduced, and the labor intensity is reduced.

Disclosure of Invention

The utility model aims to solve the problems and provides the vertical spraying device for the frame mesh, which can improve the paint spraying efficiency and is convenient for paint drying.

In order to solve the problems, the utility model provides a vertical spraying device for a frame mesh, which is characterized by comprising a telescopic seat and a telescopic frame, wherein a plurality of vertically arranged support columns are arranged on the telescopic frame, a placing position for placing the frame mesh is formed between the support columns, the telescopic frame can be connected to the telescopic seat to adjust the distance between the placing positions along with the telescopic seat, and the telescopic frame can be taken down from the telescopic seat to integrally air-dry the frame mesh.

Further, the expansion bracket comprises a plurality of first connecting rods and second connecting rods, the middle parts of the first connecting rods and the second connecting rods are rotationally connected together, the end parts of the first connecting rods and the end parts of the second connecting rods are rotationally connected together to form a scissor structure, and the end parts and the middle parts of the first connecting rods and the second connecting rods are respectively fixedly provided with the supporting columns.

Further, positioning holes are formed in two ends of the telescopic seat, a protruding positioning column is arranged on one side, opposite to the supporting columns, of the telescopic frame, and the positioning column can be embedded into the positioning holes to enable the telescopic frame to be connected with the telescopic seat.

Further, the locating column is arranged at the middle connection part of the first connecting rod and the second connecting rod which are positioned at the two ends of the expansion bracket.

Further, a plurality of rollers are arranged on one side of the expansion bracket, which is opposite to the support column, and the rollers are respectively arranged at the connection positions of the end parts of the first connecting rod and the second connecting rod.

Further, the telescopic seat comprises a first substrate and a second substrate which are movably connected, one end of the first substrate is movably inserted into the second substrate and can move relative to the second substrate to adjust the length of the telescopic seat.

Further, the device also comprises a hydraulic telescopic rod, one end of the hydraulic telescopic rod is fixedly connected with the first base plate, and the other end of the hydraulic telescopic rod is fixedly connected with the second base plate; the telescopic seat can be driven to stretch out and draw back by controlling the hydraulic telescopic rod to stretch out and draw back.

Further, supporting seats are further arranged on two sides of the telescopic seat respectively, and the upper surface of each supporting seat is flush with the upper surface of each telescopic seat so as to support the telescopic frame.

Further, one end of the first substrate far away from the second substrate is fixedly connected with the supporting seat.

The present utility model has an advantageous contribution in that it effectively solves the above-mentioned problems. The vertical spraying device for the frame meshes supports the simultaneous vertical or inclined placement of a plurality of frame meshes for paint spraying, so that the spraying efficiency can be improved and the paint waste can be avoided as much as possible; in addition, the inclination angle and the distance between two adjacent frame body meshes can be conveniently adjusted after the frame body meshes are placed, so that the surfaces of all frame body meshes can be conveniently and comprehensively sprayed according to the needs. In addition, when the spraying of support body net piece finishes, can directly dry in vertical state and need not transport each support body net piece to do benefit to follow-up drying. The vertical spraying device for the frame mesh has the characteristics of novel structure and convenience in use, can improve the spraying efficiency, reduce the paint waste, is beneficial to paint drying, has strong practicability and is suitable for being widely popularized.

Drawings

Fig. 1 is a schematic diagram of the overall structure.

Fig. 2 is a schematic overall structure.

Fig. 3 is a schematic view of the structure of the telescopic frame separated from the telescopic seat.

Fig. 4 is a schematic diagram of the principle of use.

Fig. 5 is a schematic diagram of the principle of use.

The attached drawings are identified: the telescopic support comprises a telescopic seat 10, a positioning hole 11, a first substrate 12, a second substrate 13, a telescopic frame 20, a support column 21, a placement position 22, a first connecting rod 23, a second connecting rod 24, an end connection 25, a middle connection 26, rollers 27, a frame mesh 30, a hydraulic telescopic rod 40 and a support seat 50.

Detailed Description

The following examples are further illustrative and supplementary of the present utility model and are not intended to limit the utility model in any way.

As shown in fig. 1 to 5, the vertical spraying device for the frame mesh comprises a telescopic seat 10 and a telescopic frame 20.

As shown in fig. 1 to 3, the expansion bracket 20 is used for supporting a rack mesh 30, and a plurality of vertically arranged support columns 21 are arranged on the expansion bracket. A plurality of placement positions 22 for placing the frame meshes 30 are formed between the support columns 21, and the plurality of frame meshes 30 can be placed vertically or obliquely. The telescopic frame 20 can be connected to the telescopic seat 10 and can be conveniently removed from the telescopic seat 10. The telescopic seat 10 can control the telescopic; when the telescopic frame 20 is connected to the telescopic seat 10, the telescopic frame 20 can stretch and retract along with the stretching of the telescopic seat 10. When the telescopic frame 20 is telescopic, the distance between the support columns 21 is changed, so that the distance between the placement positions 22 can be adjusted, and the placement angle of the frame mesh 30 and the distance between the frame mesh 30 can be adjusted.

Further, as shown in fig. 1 to 3, the expansion bracket 20 includes a plurality of first links 23 and second links 24. The middle parts of the first connecting rod 23 and the second connecting rod 24 are rotationally connected together, and the end parts of the first connecting rod 23 and the second connecting rod 24 are rotationally connected together to form a scissor structure, so that the scissor structure can be telescopic. The support columns 21 are respectively and fixedly arranged at end connection parts 25 and middle connection parts 26 of the first connecting rod 23 and the second connecting rod 24. The support column 21 is cylindrical, and the contact surface between the support column 21 and the frame mesh 30 can be reduced as much as possible. The height of the support column 21 may be set as desired.

For quick connection with the telescopic seat 10, the two ends of the telescopic seat 10 are provided with positioning holes 11, and the bottom of the telescopic frame 20, i.e. the side opposite to the supporting column 21, is provided with a convex positioning column. The positioning posts can be embedded into the positioning holes 11 to connect the telescopic frame 20 with the telescopic seat 10.

Further, the positioning column is cylindrical and is disposed at a middle connection part 26 of the first connecting rod 23 and the second connecting rod 24 at two ends of the expansion bracket 20. When the telescopic frame 20 is connected with the telescopic seat 10 by embedding the positioning column into the positioning hole 11, the telescopic seat 10 can drive the telescopic frame 20 to stretch and retract when the telescopic seat 10 is controlled to stretch and retract. The distance between the support columns 21 can be adjusted when the telescopic frame 20 stretches and contracts.

For the convenience of stable expansion of the expansion bracket 20, a plurality of rollers 27 are arranged at the bottom of the expansion bracket 20, and the expansion bracket 20 is supported by the rollers 27, so that the expansion bracket 20 can be expanded and contracted when bearing load. In this embodiment, the rollers 27 are disposed at the end portions and end portion connection portions 25 of the first and second links 23 and 24, and the rollers 27 are disposed at the end portion connection portions 25 of the first and second links 23 and 24, and at the end portions of the first and second links 23 and 24, respectively. The roller 27 may be a known universal wheel.

Further, the telescopic seat 10 includes a first base plate 12 and a second base plate 13 movably connected. One end of the first substrate 12 is movably inserted into the second substrate 13, and is movable relative to the second substrate 13, so as to be telescopic to adjust the length of the telescopic seat 10.

The movable connection between the first substrate 12 and the second substrate 13 may refer to the known technology, which is common in the prior art.

The positioning holes 11 are formed at opposite ends of the first substrate 12 and the second substrate 13.

In order to drive the telescopic seat 10 to extend and retract, a hydraulic telescopic rod 40 is arranged at the bottom of the telescopic seat 10. The hydraulic telescopic rod 40 may be a known hydraulic telescopic rod 40, one end of which is fixedly connected to the first base plate 12, and the other end of which is fixedly connected to the second base plate 13. The telescopic seat 10 is driven to extend and retract by controlling the hydraulic telescopic rod 40 to extend and retract.

Further, for supporting the telescopic frame 20, supporting seats 50 are provided on both sides of the telescopic seat 10, respectively. The upper surface of the supporting seat 50 is flush with the upper surface of the telescopic seat 10, so that the telescopic frame 20 can be conveniently supported.

One end of the first substrate 12 far away from the second substrate 13 is fixedly connected with the supporting seat 50, so that the first substrate 12 is relatively fixed, and the second substrate 13 is movably arranged and can stretch and retract relative to the first substrate 12.

To facilitate the translation of the second substrate 13, a roller for walking may be provided at the bottom of the second substrate 13.

Thus, the vertical spraying device for the frame mesh is formed. When in use, the positioning column at one end of the expansion bracket 20 can be inserted into the positioning hole 11 of the first substrate 12, and then the expansion bracket 20 is expanded and contracted, so that the positioning column at the other end of the expansion bracket 20 can be inserted into the positioning hole 11 of the second substrate 13; after the telescopic frame 20 is installed on the telescopic seat 10, the frame mesh 30 can be placed in the placement position 22 of the telescopic frame 20, so that the top of the frame mesh 30 can lean on the support column 21, and the bottom of the frame mesh 30 is propped against the other support column 21, so that the frame mesh 30 can be vertically or obliquely placed between the adjacent support columns 21; the specific placement method of the frame mesh 30 can be varied from person to person (as shown in fig. 4 and 5), and is convenient for the operators to use flexibly. Subsequently, the hydraulic telescopic rod 40 is started to control the telescopic seat 10 to be telescopic so as to adjust the distance between the frame body meshes 30 on the telescopic frame 20, so that the frame body meshes 30 are obliquely placed at an angle suitable for the operation of operators. The operator may then spray the frame mesh 30 using a paint gun.

Because the frame meshes 30 are evenly spaced and vertically placed, and the frame meshes 30 are meshed, paint can be sprayed to the rear frame meshes 30 through the front frame meshes 30, so that a plurality of frame meshes 30 can be sprayed at the same time during spraying, the spraying efficiency can be improved, paint waste can be avoided, and the renovation cost can be saved.

In addition, the telescopic frame 20 can be used for adjusting the distance between the support columns 21 in a telescopic manner, so that the inclination angle of the frame mesh 30 and the distance between the frame meshes 30 can be conveniently adjusted; in this way, operators can adjust the frame mesh 30 to a proper state for spraying according to the needs, and ensure that the surface of each frame mesh 30 is comprehensively sprayed; after the spraying of one surface of the frame mesh 30 is finished, the frame mesh 30 is not required to be turned over greatly, and the spraying can be continued by leaning on the support column 21 only by turning the frame mesh 30 once, so that labor can be saved, and the renovation efficiency can be improved.

After the spraying is finished, the whole telescopic frame 20 can be taken down from the telescopic seat 10 without singly taking out the frame mesh 30; then a new telescopic bracket 20 is placed on the telescopic seat 10, and the next round of spraying can be continued.

The telescopic frame 20 taken off from the telescopic seat 10 can be directly used for airing. At this time, the frame body meshes 30 on the expansion bracket 20 are vertically placed, and the frame body meshes 30 are spaced from each other, which is favorable for ventilation and is very easy to dry, so that the drying efficiency can be greatly improved, and the refreshing efficiency is further improved.

Although the present utility model has been disclosed by the above embodiments, the scope of the present utility model is not limited thereto, and each of the above components may be replaced with similar or equivalent elements known to those skilled in the art without departing from the spirit of the present utility model.

Claims (9)

1. The utility model provides a vertical spraying device of support body net piece, its characterized in that includes telescopic flexible seat (10) and expansion bracket (20), be equipped with a plurality of vertical support column (21) that set up on expansion bracket (20), form place position (22) of rack body net piece (30) between support column (21), expansion bracket (20) can be connected to on flexible seat (10) and follow flexible seat (10) stretches out and draws back and adjust distance between place position (22), just expansion bracket (20) can follow take off on flexible seat (10) and whole sunning rack body net piece (30).

2. The vertical spraying device for the frame mesh according to claim 1, wherein the telescopic frame (20) comprises a plurality of first connecting rods (23) and second connecting rods (24), the middle parts of the first connecting rods (23) and the second connecting rods (24) are rotationally connected together, the end parts of the first connecting rods (23) and the second connecting rods (24) are rotationally connected together to form a scissor structure, and the support columns (21) are respectively and fixedly arranged at the end parts and the middle parts of the first connecting rods (23) and the second connecting rods (24).

3. The vertical spraying device for the frame mesh according to claim 2, wherein positioning holes (11) are formed in two ends of the telescopic seat (10), a protruding positioning column is arranged on one side of the telescopic frame (20) opposite to the supporting column (21), and the positioning column can be embedded into the positioning holes (11) to enable the telescopic frame (20) to be connected with the telescopic seat (10).

4. A vertical spraying device for frame meshes according to claim 3, characterized in that the positioning column is arranged at the middle joint (26) of the first connecting rod (23) and the second connecting rod (24) which are positioned at two ends of the telescopic frame (20).

5. The vertical spraying device for the frame mesh according to claim 4, wherein a plurality of rollers (27) are arranged on one side of the telescopic frame (20) opposite to the supporting column (21), and the rollers (27) are respectively arranged at end connection positions (25) of the first connecting rod (23) and the second connecting rod (24).

6. The vertical spraying device for the frame mesh according to claim 5, wherein the telescopic seat (10) comprises a first base plate (12) and a second base plate (13) which are movably connected, and one end of the first base plate (12) is movably inserted into the second base plate (13) and can move relative to the second base plate (13) to adjust the length of the telescopic seat (10).

7. The vertical spraying device for the frame mesh according to claim 6, further comprising a hydraulic telescopic rod (40), wherein one end of the hydraulic telescopic rod (40) is fixedly connected with the first substrate (12), and the other end of the hydraulic telescopic rod (40) is fixedly connected with the second substrate (13); the telescopic seat (10) can be driven to stretch and retract by controlling the hydraulic telescopic rod (40) to stretch and retract.

8. The vertical spraying device for the frame mesh according to claim 7, wherein supporting seats (50) are further arranged on two sides of the telescopic seat (10), and the upper surface of the supporting seat (50) is flush with the upper surface of the telescopic seat (10) so as to support the telescopic frame (20).

9. The vertical spraying device for the frame mesh according to claim 8, wherein one end of the first substrate (12) far away from the second substrate (13) is fixedly connected with the supporting seat (50).