CN115370161B - Method for allowing oversized ceramic veneer to enter elevator car and limiting device - Google Patents

Abstract

The application discloses a method and a limiting device for an oversized ceramic veneer to enter an elevator car, and belongs to the technical field of constructional engineering. The method for enabling the oversized ceramic veneer to enter the elevator car comprises the following steps of: s1, measuring the lengths and the heights of a ceramic veneer and an elevator bridge box; s2, cleaning the ceramic veneer; s3, fixing one corner of the ceramic veneer; when the elevator car is used, a worker holds the ceramic veneer, under the cooperation of two workers, the ceramic veneer enters the elevator car, after the ceramic veneer is moved to a specified floor, the ceramic veneer is pulled out of the elevator car according to the opposite steps, and the ceramic veneer entering the elevator car can be pushed into the elevator car by only two workers, so that the number of workers is reduced, and meanwhile, the speed of the ceramic veneer entering the elevator car is improved.

Description

Method for allowing oversized ceramic veneer to enter elevator car and limiting device

Technical Field

The application belongs to the technical field of constructional engineering, and particularly relates to a method for enabling an oversized ceramic veneer to enter an elevator car and a limiting device.

Background

Decorative panels, commonly known as panels. The decorative board with single-sided decorative effect is made by precisely slicing the solid board into micro veneer with the thickness of about 0.2mm, taking the clamping plate as a base material and adopting an adhesive process. The decoration panel is a special mode of existence of the clamping plate, and the thickness is 3 centimetres. The decoration panel is a high-grade decoration material different from the oil mixing method, the large ceramic decoration panel is a large-area decoration ceramic product, the areas of glazed tiles and wall and floor tiles are small, the splicing is troublesome in construction, the decoration is more vivid, the construction efficiency is higher, and the decoration panel is a novel decoration ceramic with development prospect.

The large ceramic veneer is difficult to enter into the elevator bridge box due to overlarge, at least three workers are required to cooperate to lift the large ceramic veneer into the elevator car, a plurality of workers need to constantly change positions in the elevator bridge box, hands of the workers also constantly change positions on the large ceramic veneer, and the operation is too time-consuming, so that the speed of the ceramic veneer entering into the elevator car is reduced.

Disclosure of Invention

For solving the defect that exists among the above-mentioned technique, this application provides super large specification ceramic veneer and gets into elevator car's method and stop device, and its reality lies in improving and needs the cooperation of at least three staff just can lift into elevator car to large-scale ceramic veneer, and a plurality of staff need constantly change the position in elevator bridge car, and the position on large-scale ceramic veneer is also constantly changed to the hand of a plurality of staff, so the too time-consuming problem of operation.

In order to achieve the above purpose, the technical scheme of the application is as follows:

in a first aspect, the invention provides a method for entering an elevator car with an oversized ceramic veneer, comprising the steps of:

s1, measuring the length and the height of a ceramic veneer and an elevator bridge carriage, respectively measuring the length and the height of the ceramic veneer and the elevator bridge carriage by using measuring tools, and then calculating the hypotenuse of the right-angle trilateral shape of the ceramic veneer and the elevator bridge carriage;

s2, cleaning the ceramic veneer, scrubbing the ceramic veneer by using rag and clear water, and then air-drying water stains on the ceramic veneer by using an air blower;

s3, fixing one corner of the ceramic veneer, transversely arranging the ceramic veneer, enabling the high side of the ceramic veneer to be parallel to the ground, then placing one corner of the ceramic veneer into the L-shaped plate, rotating the second threaded rod, enabling the vacuum chuck to be attached to the ceramic veneer, enabling the vacuum generator on the vacuum generator connecting pipe to work, enabling the vacuum chuck to be attached to the ceramic veneer, pushing the supporting plate, and enabling the supporting plate and a part of the ceramic veneer to enter the elevator car;

s4, pushing the ceramic veneer into the elevator car, wherein one worker operates the supporting plate and the sliding block, the other worker lifts the ceramic veneer, the worker operates the supporting plate to move towards the inner angle of the elevator car, and also operates the sliding block to move towards the elevator car, meanwhile, the other worker lifts the ceramic veneer to lift the L-shaped plate and simultaneously rotate, namely, the angle and the direction between the ceramic veneer and the supporting plate are adjusted, so that the ceramic veneer and the right-angle trilateral oblique sides of the elevator bridge car are parallel to each other, the worker holds the ceramic veneer, and the ceramic veneer enters the elevator car under the cooperation of the two workers;

and S5, pulling the ceramic veneer out of the elevator car, and after the ceramic veneer is moved to the appointed floor, pulling the ceramic veneer out of the elevator car according to the opposite steps.

In a second aspect, the present invention further provides a limiting device, including the method for entering an elevator car by using the oversized ceramic veneer, and further including a supporting component and a limiting component.

The support assembly includes: the displacement portion and the fixed part, the fixed part sets up on the displacement portion.

The limiting assembly comprises a rotating part and a clamping part, wherein the rotating part is arranged on the fixing part, and the clamping part is arranged on the rotating part.

In the implementation process, the displacement part comprises a supporting plate, a self-locking universal wheel and a U-shaped push rod, wherein the self-locking universal wheel is fixed on the lower surface of the supporting plate, and the U-shaped push rod is fixed on the upper surface of the supporting plate.

In the implementation process, the fixing portion comprises a sliding block and a first threaded rod, the sliding block is arranged in the supporting plate in a sliding mode, and threads of the first threaded rod penetrate through the sliding block.

In the above implementation process, the fixing portion further includes a first handheld portion, and the first handheld portion is fixed at an upper end of the first threaded rod.

In the implementation process, the supporting plate is provided with the sliding groove, and the sliding block is arranged in the sliding groove in a sliding manner.

In the implementation process, the rotating part comprises a stand column, an L-shaped plate and a support column, wherein the lower end of the stand column is rotatably arranged on the upper surface of the sliding block, and the upper end of the stand column is rotatably arranged on the lower surface of the L-shaped plate.

In the implementation process, the rotating part further comprises a rotating piece, the rotating piece is fixed on the upper surface of the sliding block, and the lower end of the upright post is rotatably arranged in the rotating piece.

In the implementation process, the clamping part comprises a vertical plate, a second threaded rod, a second handheld part, a vacuum chuck and a vacuum generator connecting pipe, wherein the vertical plate is fixed on the upper surface of the L-shaped plate, the second threaded rod penetrates through the vertical plate in a threaded manner, the second handheld part is fixed on one end of the second threaded rod, the other end of the second threaded rod is fixed on the outer wall of the vacuum chuck, and one end of the vacuum generator connecting pipe is arranged on the vacuum chuck.

In the implementation process, the limiting assembly further comprises a rubber cushion, and the rubber cushion is fixed on the upper surface of the L-shaped plate.

Compared with the prior art, the application has the following advantages:

when in use, the length and the height of the ceramic veneer and the elevator bridge carriage are respectively measured by using the measuring tool, then the oblique sides of the right-angle trilateral shapes of the ceramic veneer and the elevator bridge carriage are calculated, the ceramic veneer is ensured to enter the elevator bridge carriage, the ceramic veneer is scrubbed by using the rag and the clean water, then the water stain on the ceramic veneer is air-dried by using the blower, the vacuum chuck is ensured to be firmly adsorbed on the outer surface of the ceramic veneer, the ceramic veneer is transversely arranged, the high side of the ceramic veneer is parallel to the ground, then one corner of the ceramic veneer is placed on the rubber cushion, the second threaded rod is rotated, the vacuum chuck is attached on the ceramic veneer, the vacuum generator on the connecting pipe of the vacuum generator works, the vacuum chuck is adsorbed on the ceramic veneer, the supporting plate is pushed, the supporting plate and a part of the ceramic veneer enter the elevator carriage, one worker operates the supporting plate and the sliding block, the other worker lifts the ceramic veneer, the worker operates the supporting plate to move towards the inner angle of the elevator car, the sliding block also operates to move towards the inner angle of the elevator car, meanwhile, the other worker lifts the ceramic veneer to lift the L-shaped plate and rotate at the same time, namely, the angle and the direction between the ceramic veneer and the supporting plate are adjusted to enable the right-angle trilateral oblique sides of the ceramic veneer and the elevator car to be parallel to each other, the worker holds the ceramic veneer, under the cooperation of the two workers, the ceramic veneer enters the elevator car, after the ceramic veneer is moved to a specified floor, the ceramic veneer is pulled out from the elevator car according to the opposite steps, the method for the ceramic veneer entering the elevator car can be realized by only two workers, the number of workers is reduced, and meanwhile, the speed of the ceramic veneer entering the elevator car is also improved.

Drawings

Fig. 1 is a step diagram of a method for entering an elevator car with oversized ceramic trim panels provided by embodiments of the present application;

fig. 2 is a schematic perspective view of a limiting device according to an embodiment of the present disclosure;

FIG. 3 is an exploded view of a support assembly provided in an embodiment of the present application;

fig. 4 is a schematic perspective view of a limiting component according to an embodiment of the present application.

In the figure: 100-a support assembly; 110-displacement part; 111-a support plate; 112-self-locking universal wheels; 113-a chute; 115-U shaped push rod; 120-fixing part; 121-a slider; 122-a first threaded rod; 123-a first hand-held portion; 200-limiting components; 210-a rotating part; 211-a rotating member; 212-stand columns; 213-L-shaped plate; 214-supporting columns; 220-clamping part; 221-risers; 222-a second threaded rod; 223-a second handpiece; 224-vacuum chuck; 225-a vacuum generator connection tube; 230-rubber cushion.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to examples.

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

In the examples, all means used are conventional in the art unless otherwise specified.

Referring to fig. 1, the present application provides a method for entering an elevator car with an oversized ceramic veneer, comprising the following steps:

2. the method for entering the elevator car by using the oversized ceramic veneer is characterized by comprising the following steps of:

s1, measuring the length and the height of a ceramic veneer and an elevator bridge carriage, respectively measuring the length and the height of the ceramic veneer and the elevator bridge carriage by using measuring tools, and then calculating the hypotenuse of the right-angle trilateral shape of the ceramic veneer and the elevator bridge carriage;

s2, cleaning the ceramic veneer, scrubbing the ceramic veneer by using rag and clear water, and then air-drying water stains on the ceramic veneer by using an air blower;

s3, fixing one corner of the ceramic veneer, transversely arranging the ceramic veneer to enable the high side of the ceramic veneer to be parallel to the ground, then placing one corner of the ceramic veneer into the L-shaped plate 213, rotating the second threaded rod 222 to enable the vacuum sucker 224 to be attached to the ceramic veneer, enabling the vacuum generator on the vacuum generator connecting pipe 225 to work, enabling the vacuum sucker 224 to be adsorbed on the ceramic veneer, pushing the supporting plate 111, and enabling the supporting plate 111 and a part of the ceramic veneer to enter an elevator car;

s4, pushing the ceramic veneer into the elevator car, one worker operating the supporting plate 111 and the sliding block 121, and the other worker lifting the ceramic veneer, and operating the supporting plate 111 to move towards the inner angle of the elevator car and the sliding block 121 to move towards the elevator car, and simultaneously lifting the ceramic veneer by the other worker to lift the ceramic veneer and enable the L-shaped plate 213 to lift and rotate, namely adjusting the angle and the direction between the ceramic veneer and the supporting plate 111, so that the ceramic veneer and the right-angle trilateral oblique sides of the elevator bridge car are parallel to each other, and the worker holds the ceramic veneer, so that the ceramic veneer enters the elevator car under the cooperation of the two workers;

and S5, pulling the ceramic veneer out of the elevator car, and after the ceramic veneer is moved to the appointed floor, pulling the ceramic veneer out of the elevator car according to the opposite steps.

Specifically, the invention further provides a limiting device, and the method for entering the elevator car by using the oversized ceramic veneer comprises the following steps:

the supporting component 100 and the limiting component 200, the limiting component 200 is arranged on the supporting component 100, the ceramic veneer is horizontally arranged, the high side of the ceramic veneer is parallel to the ground, then one corner of the ceramic veneer is placed on the rubber cushion 230, the second threaded rod 222 is rotated, the vacuum chuck 224 is attached to the ceramic veneer, the vacuum generator on the vacuum generator connecting pipe 225 works, the vacuum chuck 224 is adsorbed on the ceramic veneer, the supporting plate 111 is pushed, the supporting plate 111 and a part of the ceramic veneer enter the elevator car, the ceramic veneer can be pushed into the elevator car by only two persons, the number of workers is reduced, and meanwhile, the speed of the ceramic veneer entering the elevator car is improved.

Referring to fig. 2-3, the support assembly 100 includes: the displacement portion 110 and the fixed part 120, the fixed part 120 sets up on the displacement portion 110, the displacement portion 110 includes backup pad 111, auto-lock universal wheel 112 and U type push rod 115, auto-lock universal wheel 112 is fixed on the lower surface of backup pad 111, U type push rod 115 is fixed on the upper surface of backup pad 111, the setting of U type push rod 115 is convenient for promote backup pad 111, fixed part 120 includes slider 121 and first threaded rod 122, slider 121 slides and sets up in backup pad 111, first threaded rod 122 screw thread runs through slider 121, the lower extreme of first threaded rod 122 passes through the outer wall of extrusion backup pad 111, make slider 121 fixed in backup pad 111, fixed part 120 still includes first handheld portion 123, first handheld portion 123 is fixed in the upper end of first threaded rod 122, the setting of first handheld portion 123 is convenient for rotate first threaded rod 122, first handheld portion 123 in this embodiment is the hand wheel, the spout 113 has been seted up on the backup pad 111, slider 121 slides and sets up in spout 113, the setting of spout 113 is convenient for insert slider 121 in backup pad 111.

Referring to fig. 2 and 4, the limiting assembly 200 includes a rotating portion 210 and a clamping portion 220, the rotating portion 210 is disposed on the fixing portion 120, the clamping portion 220 is disposed on the rotating portion 210, the rotating portion 210 includes a column 212, an L-shaped plate 213 and a supporting column 214, the lower end of the column 212 is rotatably disposed on the upper surface of the slider 121, the upper end of the column 212 is rotatably disposed on the lower surface of the L-shaped plate 213, the vertical column 212 is configured to facilitate adjusting the angle and the orientation between the L-shaped plate 213 and the supporting plate 111, the upper end of the column 212 in this embodiment is rotatably disposed on the lower surface of the L-shaped plate 213 through a universal ball, the rotating portion 210 further includes a rotating member 211, the rotating member 211 is fixed on the upper surface of the slider 121, the lower end of the column 212 is rotatably disposed in the rotating member 211, the rotating member 211 is configured to facilitate rotating the column 212, the rotating member 211 in this embodiment is a bearing, the clamping portion 220 includes a vertical plate 221, a second threaded rod 222, a second handheld portion 223, a vacuum chuck 224 and a vacuum generator 225, the vertical plate 221 is fixed on the upper surface of the L-shaped plate 213, the second threaded rod 222 is not disposed on the second threaded rod 222, and the second threaded rod 222 is disposed on the second threaded rod 230 is not in the threaded portion, and the vacuum cushion 230 is disposed on the upper surface of the second threaded rod 230 is not in the threaded portion, and the vacuum generator 225 is disposed on the threaded portion of the threaded rod.

Specifically, the working principle of the method and the limiting device for the oversized ceramic veneer to enter the elevator car is as follows: when in use, the length and the height of the ceramic veneer and the elevator bridge carriage are respectively measured by using the measuring tool, then the oblique sides of the right-angle trilateral shapes of the ceramic veneer and the elevator bridge carriage are calculated, the ceramic veneer is ensured to enter the elevator bridge carriage, the ceramic veneer is scrubbed by using the rag and the clean water, then the water stain on the ceramic veneer is air-dried by using the blower, the vacuum chuck 224 is ensured to be firmly adsorbed on the outer surface of the ceramic veneer, the ceramic veneer is transversely arranged, the high side of the ceramic veneer is parallel to the ground, then one corner of the ceramic veneer is placed on the rubber cushion 230, the second threaded rod 222 is rotated, the vacuum chuck 224 is attached on the ceramic veneer, the vacuum generator on the connecting pipe 225 of the vacuum generator works, the vacuum chuck 224 is adsorbed on the ceramic veneer, the supporting plate 111 is pushed, the supporting plate 111 and a part of ceramic veneer enter the elevator car, one worker operates the supporting plate 111 and the sliding block 121, the other worker lifts the ceramic veneer, the worker operates the supporting plate 111 to move towards the inner angle of the elevator car, the sliding block 121 to move towards the inner angle of the elevator car, the other worker lifts the ceramic veneer to lift the L-shaped plate 213 and simultaneously rotate, namely, the angle and the orientation between the ceramic veneer and the supporting plate 111 are adjusted, the right-angle trilateral oblique sides of the ceramic veneer and the elevator car are parallel to each other, the worker holds the ceramic veneer, the ceramic veneer enters the elevator car under the cooperation of the two workers, after the ceramic veneer is moved to a specified floor, the ceramic veneer is pulled out of the elevator car according to the opposite steps, the method for the ceramic veneer to enter the elevator car can push the ceramic veneer into the elevator car only by two persons, reduces the number of workers and improves the speed of the ceramic veneer entering the elevator car.

The foregoing examples represent only a few embodiments of the present application, which are described in detail and are not thereby to be construed as limiting the scope of the claims.

It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the protection scope of the present application is subject to the appended claims.

Claims (5)

1. Limiting device for an oversized ceramic veneer entering an elevator car, comprising:

-a support assembly (100), the support assembly (100) comprising: a displacement portion (110) and a fixing portion (120), the fixing portion (120) being provided on the displacement portion (110); and

a limiting assembly (200), wherein the limiting assembly (200) comprises a rotating part (210) and a clamping part (220), the rotating part (210) is arranged on the fixed part (120), and the clamping part (220) is arranged on the rotating part (210);

the displacement part (110) comprises a supporting plate (111), a self-locking universal wheel (112) and a U-shaped push rod (115), wherein the self-locking universal wheel (112) is fixed on the lower surface of the supporting plate (111), and the U-shaped push rod (115) is fixed on the upper surface of the supporting plate (111);

the fixing part (120) comprises a sliding block (121) and a first threaded rod (122), the sliding block (121) is arranged in the supporting plate (111) in a sliding mode, and the first threaded rod (122) penetrates through the sliding block (121) in a threaded mode;

the rotating part (210) comprises an upright post (212), an L-shaped plate (213) and a support column (214), wherein the lower end of the upright post (212) is rotatably arranged on the upper surface of the sliding block (121), and the upper end of the upright post (212) is rotatably arranged on the lower surface of the L-shaped plate (213);

the rotating part (210) further comprises a rotating piece (211), the rotating piece (211) is fixed on the upper surface of the sliding block (121), and the lower end of the upright post (212) is rotatably arranged in the rotating piece (211);

clamping part (220) are including riser (221), second threaded rod (222), second handheld portion (223), vacuum chuck (224) and vacuum generator connecting pipe (225), riser (221) are fixed on the upper surface of L template (213), second threaded rod (222) screw thread runs through riser (221), second handheld portion (223) are fixed on the one end of second threaded rod (222), the other end of second threaded rod (222) is fixed on the outer wall of vacuum chuck (224), one end setting of vacuum generator connecting pipe (225) is in on vacuum chuck (224).

2. The limit device for the oversized ceramic veneer to enter the elevator car of claim 1, wherein the fixing portion (120) further comprises a first holding portion (123), and the first holding portion (123) is fixed at the upper end of the first threaded rod (122).

3. The limiting device for the oversized ceramic veneer to enter the elevator car according to claim 1, wherein a sliding groove (113) is formed in the supporting plate (111), and the sliding block (121) is slidably arranged in the sliding groove (113).

4. A limit device for an oversized ceramic veneer into an elevator car according to claim 3, wherein the limit assembly (200) further comprises a rubber cushion (230), the rubber cushion (230) being fixed on the upper surface of the L-shaped plate (213).

5. A method for entering an elevator car by using an oversized ceramic veneer according to any one of claims 1-4, comprising the steps of:

s1, measuring the length and the height of a ceramic veneer and an elevator bridge carriage, respectively measuring the length and the height of the ceramic veneer and the elevator bridge carriage by using measuring tools, and then calculating the hypotenuse of the right-angle trilateral shape of the ceramic veneer and the elevator bridge carriage;

s2, cleaning the ceramic veneer, scrubbing the ceramic veneer by using rag and clear water, and then air-drying water stains on the ceramic veneer by using an air blower;

s3, fixing one corner of the ceramic veneer, transversely arranging the ceramic veneer to enable the high side of the ceramic veneer to be parallel to the ground, then placing one corner of the ceramic veneer into an L-shaped plate (213), rotating a second threaded rod (222) to enable a vacuum sucker (224) to be attached to the ceramic veneer, enabling a vacuum generator on a vacuum generator connecting pipe (225) to work, enabling the vacuum sucker (224) to be adsorbed on the ceramic veneer, pushing a supporting plate (111), and enabling the supporting plate (111) and a part of the ceramic veneer to enter an elevator car;

s4, pushing the ceramic veneer into the elevator car, wherein one worker operates the supporting plate (111) and the sliding block (121), the other worker lifts the ceramic veneer, the worker operates the supporting plate (111) to move towards the inner angle of the elevator car, and also operates the sliding block (121) to move towards the elevator car, and meanwhile, the other worker lifts the ceramic veneer to lift the L-shaped plate (213) and simultaneously rotate, namely, the angle and the direction between the ceramic veneer and the supporting plate (111) are adjusted, so that right-angle trilateral oblique sides of the ceramic veneer and the elevator bridge car are parallel to each other, the worker holds the ceramic veneer, and the ceramic veneer enters the elevator car under the cooperation of the two workers;

and S5, pulling the ceramic veneer out of the elevator car, and after the ceramic veneer is moved to the appointed floor, pulling the ceramic veneer out of the elevator car according to the opposite steps.