CN111636659A

CN111636659A - Rapid and vertical laminating process and method

Info

Publication number: CN111636659A
Application number: CN202010548327.8A
Authority: CN
Inventors: 王燕丽
Original assignee: Shenzhen 3s Technology Co ltd
Current assignee: Shenzhen 3s Technology Co ltd
Priority date: 2020-06-16
Filing date: 2020-06-16
Publication date: 2020-09-08

Abstract

The invention discloses a rapid and vertical laminating process and a method, which comprises the following steps: step A: leveling the ground plane; and B, step: vertically adhering the attaching plate on a specified plane; c, step C: the surfaces of the adhered attaching plates are in the same plane; d, step: opening holes on the set binding plate; e, step E: attaching the perforated attaching plate to a specified plane; and F, step: checking whether the plurality of attaching plates are in the same plane; d1, moving the accessory of the positioning tool to make the positioning hole on the accessory sleeve on the projection of the appointed plane; d2, fixing and molding the auxiliary part and the main part through the firmware on the positioning tool; d3, placing the fixed and formed positioning tool on the attaching plate to be perforated for positioning; and D4, perforating at the positioning position on the attaching plate by a drilling device.

Description

Rapid and vertical laminating process and method

Technical Field

The invention belongs to the field of processing and decoration, and particularly relates to a process and a method for quick and vertical lamination.

Background

In the decoration process, ceramic tiles are laid on the wall surface and the ground; the adjusting components are needed in the process of applying and aligning a plurality of existing products on the ground; for example: when the vertical ceramic tile is fixed, most of the current constructors adjust the height of the ceramic tile by padding some things (ceramic tile pieces, paper pieces and the like) below the ceramic tile, so that each ceramic tile is on the same horizontal plane; however, this method is not only inaccurate, but also labor-and time-consuming; the prior art is therefore deficient and is in need of improvement.

Disclosure of Invention

The invention provides a rapid and vertical laminating process and a method, which solve the problems.

In order to solve the above problems, the technical scheme provided by the invention is as follows: a fast and vertical laminating process and a method thereof comprise the following steps:

a fast and vertical laminating process and a method thereof comprise the following steps:

step A: leveling the ground plane;

and B, step: vertically adhering the attaching plate B on the designated plane A;

c, step C: the surfaces of the adhered attaching plates B are in the same plane;

d, step: opening holes on the set attaching plate B;

e, step E: attaching the perforated attaching plate B to the designated plane A;

and F, step: checking whether the multiple attaching plates B are in the same plane

The step D is as follows

D1, moving the sub-part 32 of the positioning tool 3 to make the positioning hole 322 on the sub-part 32 fit on the projection of the appointed plane A;

d2, fixing and molding the auxiliary part 32 and the main part 31 through the fixing part 33 on the positioning tool 3;

d3, placing the fixed and formed positioning tool 3 on the attaching plate B to be perforated for positioning;

and D4, perforating at the positioning position on the attaching plate B by a drilling device.

In the preferred technical scheme, the step C is as follows:

c1 aligning the top of the second attaching plate B with the top of the first attaching plate B to ensure that they are in the same plane

And C2, putting the plane pressing piece 2 into the gap between two adjacent attaching plates B, and enabling the outer surfaces of the two attaching plates B to be in the same plane.

In the preferred technical scheme, the step C2 is as follows:

c21, vertically inserting the upper support 23 of the press-fit element 2 of the plane press-fit element into the gap between two adjacent attaching plates B;

c22, rotating the support shaft 21 on the stitching piece in the positive direction to make the ground support 23 in the horizontal state, so that the two ends of the ground support 23 are jointed with the back of the adjacent jointing plate B;

c23, one end of the rotating piece 25 of the plane pressing piece is clamped into the first outer convex part 24 on the sleeve 22 of the pressing piece, and the other end of the rotating piece 25 is clamped into the second outer convex part of the sleeve 22, so that the rotating piece 25 is fixed on the sleeve 22;

c24, twisting the rotating member 25 to drive the sleeve 22 to move downwards on the thread on the outer surface of the supporting shaft 21, so that the lower end face of the sleeve 22 moves in the lower end direction of the supporting shaft 21, the lower end of the sleeve 22 flattens the space between the two attaching plates B, and the outer surfaces of the two attaching plates B are ensured to be in the same plane.

In the preferred technical scheme, the step D1 is as follows:

d11, placing the bottom end of the main part 31 on the top of the joint plate B at the lower end of the convex part;

d12, the auxiliary member 32 drives the fixing member 33 to move in the horizontal moving slit 311 on the main member 31, so that the positioning hole 322 on the auxiliary member 32 is sleeved on the projection on the designated plane A.

In the preferred technical scheme, the step D3 is as follows:

d31, placing the fixed positioning tool 3 on the binding plate B with the required hole;

d32, attaching the top end of the main part 31 in the positioning tool 3 to the bottom end of the attaching plate B to be perforated, and attaching the auxiliary part 32 to the surface of the attaching plate B to be perforated;

d33 marking the positioning hole 322 on the accessory 32 by a marking pen, wherein the mark is displayed on the opening attaching plate B.

In the preferred technical scheme, the step A is as follows:

a1, displaying a horizontal line on the designated plane A by using infrared rays;

a2, placing the adjusting device 1 at the bottom of the designated plane A;

a3, placing the bottom of the attaching plate B on the upper surface of the adjusting device 1;

a4, checking whether the top of the attaching plate B is overlapped with the infrared ray;

a5, when the laminated board B in the step A4 is overlapped with the infrared ray, executing the step B;

and A6, when the attaching plate B does not overlap with the infrared ray in the step A4, the attaching plate B overlaps with the infrared ray through the adjusting device 1, and the step B is executed.

According to the preferable technical scheme, when the attaching plates B are in the same plane in the step F, the following steps are executed:

e1, reversely rotating the support shaft 21 on the press-fit member to make the ground support 23 in a vertical state, thereby separating the two ends of the ground support 23 from the back of the adjacent attaching plate B;

e2 the rotating member 25 is twisted to move the sleeve 22 upwardly on the screw thread of the outer surface of the supporting shaft 21, thereby separating the lower end of the sleeve 22 from the adjacent two abutting plates B.

In a preferred embodiment, the main member 31 is a plate, and a horizontal movement slit 311 enabling the auxiliary member 32 to horizontally move on the main member 31 is formed in the middle of the main member 31.

In a preferred technical scheme, the auxiliary member 32 is strip-shaped, a plurality of positioning holes 322 are arranged at the upper part of the auxiliary member 32, and a vertical slit 321 is formed at the lower part of the auxiliary member 32; the vertical slit 321 is engaged with the horizontal movement slit 311, and both the main member 31 and the sub-member 32 are fixed by the fixing member 33.

Preferably, the plurality of positioning holes 322 are vertically arranged at the upper end of the sub 32, and the pitch of the plurality of positioning holes 322 is gradually increased or decreased according to a predetermined setting.

Compared with the prior art, the adhesive plate has the advantages that by adopting the scheme, the adhesive plate can be quickly and vertically adhered to a specified plane through the process, and can be quickly perforated when the hole is required to be perforated at a specified position, so that the adhesive efficiency is high, the adhesive plates are ensured to be flat on the outer surface, the gaps among the adhesive plates are on the same line, and the precision is greatly improved.

Drawings

For a clearer explanation of the embodiments or technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for a person skilled in the art that other drawings can be obtained from the drawings without creative efforts.

FIG. 1 is a general schematic diagram of the structure of the present solution;

FIG. 2 is a schematic view of the top placement structure of the present solution;

FIG. 3 is a general schematic diagram of the structure of the present solution;

FIG. 4 is a schematic view of a support block according to the present embodiment;

FIG. 5 is a schematic view of a pressing member in the planar pressing member structure according to the present embodiment;

FIG. 6 is a schematic view of a rotary member in the planar pressing member structure according to the present embodiment;

FIG. 7 is a schematic view of the operation of the planar pressing member according to the present embodiment;

FIG. 8 is a schematic view of a positioning tool according to the present embodiment;

fig. 9 is a schematic view of the present embodiment.

Detailed Description

In order to facilitate an understanding of the invention, the invention is described in more detail below with reference to the accompanying drawings and specific examples. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The use of the terms "fixed," "integrally formed," "left," "right," and the like in this specification is for illustrative purposes only, and elements having similar structures are designated by the same reference numerals in the figures.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1-9, one embodiment of the present invention is: a fast and vertical laminating process and method comprises an adjusting device 1, a positioning tool 3, an infrared ray 4, a drilling device (drilling machine) and a plane laminating piece 2;

adjusting device 1

The adjusting device 1 is provided with an upper placing structure, a supporting structure 14 and a lower adjusting structure from top to bottom in sequence; the lifting of the lower adjustment structure is achieved by the adjustment of the support structure 14; the supporting structure 14 is provided with a supporting block 143, a supporting rod 142 and an adjusting rod 141; the adjusting rod 141 and the supporting rod 142 are mutually crossed; one end of the adjusting rod 141 is fixed on the lower adjusting structure, and the other end of the adjusting rod 141 penetrates through the supporting rod 142 and the upper placing structure to extend upwards; two ends of the supporting rod 142 are respectively fixed on the two supporting blocks 143; one end of the supporting block 143 is movably connected with the upper placing structure; the other end of the supporting block 143 is movably connected with the lower placing structure.

The upper placing structure is provided with a supporting part 11 and a connecting part; the two connecting parts are movably connected with the supporting part 11 through bearings; the upper surface of the support part 11 is provided with an adjusting hole for installing the adjusting rod 141.

A first groove, a first bump and a second groove are formed in the left side of the supporting part 11; the supporting part 11 is provided with a through hole 1431, and the through hole 1431 sequentially passes through the first groove, the first bump and the second groove from the left side of the supporting part 11 and extends through to the right side of the supporting part 11; the right structure of the support part 11 is horizontally mirrored with the left structure of the support part 11.

The structure of the left side connecting part is identical to that of the left side of the supporting part 11; the structure of the connecting portion on the right side coincides with the structure of the right side of the supporting portion 11.

The upper end and the lower end of the supporting block 143 are both provided with a through hole 1431, the through hole 1431 is matched with the connecting part, and the connecting part and the through hole 1431 of the supporting block 143 are movably connected through a transmission shaft.

The support rod 142 is provided with a threaded hole, and the threaded hole is matched with the adjusting rod 141.

Positioning tool 3

The positioning tool 3 is provided with a main part 31, an auxiliary part 32 and a fixing part 33; the main part 31 and the auxiliary part 32 are both strip-shaped; the middle part of the main part 31 is provided with a horizontal moving crack 311; a plurality of positioning holes 322 are vertically arranged at the upper part of the accessory 32, and a vertical crack 321 is arranged at the lower part of the accessory 32; the vertical slit 321 is engaged with the horizontal movement slit 311, and both the main member 31 and the sub-member 32 are fixed by the fixing member 33; the fixing member 33 is provided with a stud, a nut and a nut; the diameter of the stud is smaller than the gap between the vertical slit 321 and the horizontal moving slit 311; the nut is in threaded connection with the lower end of the stud; the upper end of the stud penetrates through the horizontal moving crack 311 and the vertical crack 321 in sequence and is screwed at the extending part of the upper end of the stud by a nut; further, the diameter of the nut is larger than the gap between the vertical slit 321 and the horizontal movement slit 311.

Flat surface pressing piece 2

The plane pressing piece 2 is provided with a pressing piece and a rotating piece 25; the pressing member is provided with a support shaft 21, a sleeve 22 and a ground support 23; the lower end surface of the support shaft 21 is provided with threads; the inner wall of the sleeve 22 is provided with a thread groove matched with the thread on the support shaft 21, and the outer surface of the sleeve 22 is provided with a first outer convex part 24 and a second outer convex part which are symmetrical; the earthnut 23 is T-shaped; the sleeve 22 is sleeved at the threaded position of the support shaft 21; the middle end of the ground support 23 is fixed with the bottom end of the support shaft 21; the structure between the first convex portion 24 and the second convex portion of the sleeve 22 is a locking structure, and the structure of the rotating member 25 is matched with the locking structure, so that the rotating member 25 is locked on the sleeve 22.

step A: leveling the ground plane;

d, step: opening holes on the set attaching plate B;

and F, step: and checking whether the plurality of attaching plates B are in the same plane.

A1, displaying a horizontal line at a designated position on a designated plane A by using infrared rays;

a2, placing the adjusting device 1 at the bottom of the designated plane A;

a6, when the attachment plate B in the step A4 is not overlapped with the infrared ray, the attachment plate B is overlapped with the infrared ray through the adjusting device 1, and the step B is executed; the support part 11 of the lower adjusting structure is pulled to rise or fall by rotating the adjusting rod 141, and the connecting parts at both sides of the lower adjusting structure are in bearing connection with the support block 143 and the support part 11 of the lower adjusting structure, so that the support part 11 of the lower adjusting structure can rise or fall, and the attaching plate B rises or falls.

When the bottom of the attaching plate B is placed on the supporting portion 11 in the upper placing structure, whether the top end of the attaching plate B is in the same plane with the infrared ray 4 is checked, if not, the supporting portion 111 in the lower adjusting structure is pulled to ascend or descend by rotating the adjusting rod 141 (forward rotation or reverse rotation), and the supporting portion 111 in the lower adjusting structure can ascend or descend due to the fact that the connecting portions on the two sides of the lower adjusting structure are connected with the supporting block 14343 and the supporting portion 111 in the lower adjusting structure in a bearing mode, so that the first attaching plate B and the infrared ray 4 are in the same plane.

And B, step: the attaching plate B is vertically attached to the designated plane a (a plane to be vertically attached such as a wall or a vertical mounting plate), and can be applied to the back of the attaching plate B by an object having an adhesive strength such as a colloid (liquid) or cement, so as to be attached to the designated plane a.

c1, aligning the upper end of the second attaching plate B with the upper end of the first attaching plate B to ensure that the upper ends of the second attaching plate B and the first attaching plate B are in the same plane;

c24, twisting the rotating member 25 to drive the sleeve 22 to move downwards on the thread on the outer surface of the supporting shaft 21, so that the lower end face of the sleeve 22 moves in the lower end direction of the supporting shaft 21, the lower end of the sleeve 22 flattens the two attaching plates B, and the outer surfaces of the two attaching plates B are ensured to be in the same plane:

d, step: opening holes on the set attaching plate B;

d1, moving the accessory 32 of the positioning tool 3 to make the positioning hole 322 on the accessory 32 fit on the projection of the appointed plane A;

When the attaching plates B are in the same plane in the step F, executing the following steps:

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

Claims

1. A rapid and vertical laminating process and a method thereof are characterized by comprising the following steps:

step A: leveling the ground plane;

and B, step: vertically adhering the attaching plate on a specified plane;

c, step C: the surfaces of the adhered attaching plates are in the same plane;

d, step: opening holes on the set binding plate;

e, step E: attaching the perforated attaching plate to a specified plane;

and F, step: checking whether the multiple attaching plates are in the same plane

The step D is as follows

D1, moving the accessory of the positioning tool to make the positioning hole on the accessory sleeve on the projection of the appointed plane;

d2, fixing and molding the auxiliary part and the main part through the firmware on the positioning tool;

d3, placing the fixed and formed positioning tool on the attaching plate to be perforated for positioning;

and D4, perforating at the positioning position on the attaching plate by a drilling device.

2. The process and method for rapid, vertical attachment according to claim 1, wherein step C is as follows:

c1 aligning the upper end of the second attaching plate with the upper end of the first attaching plate to ensure that they are in the same plane

And C2, putting the plane pressing piece into the gap between two adjacent attaching plates, and enabling the outer surfaces of the two attaching plates to be in the same plane.

3. The process and method of claim 2, wherein the step C2 is as follows:

c21, vertically inserting the upper support of the press-fit piece of the plane press-fit piece into the gap between two adjacent joint plates;

c22, rotating the support shaft on the stitching piece in the positive direction to make the ground leg become horizontal, so that the two ends of the ground leg are jointed with the back of the adjacent jointing plate;

c23, one end of the rotating piece of the plane pressing piece is clamped into the first outer convex part on the sleeve of the pressing piece, and the other end of the rotating piece is clamped into the second outer convex part of the sleeve, so that the rotating piece is fixed on the sleeve;

c24, twisting the rotating piece to drive the sleeve to move downwards on the thread on the outer surface of the supporting shaft, so that the lower end face of the sleeve moves in the direction of the lower end of the supporting shaft, the lower end of the sleeve flattens the space between the two attaching plates, and the outer surfaces of the two attaching plates are ensured to be in the same plane.

4. The process and method for rapid, vertical attachment according to claim 1, wherein the step D1 is as follows:

d11, placing the bottom end of the main part on the top of the joint plate at the lower end of the convex part;

d12, the secondary part drives the fixing part to move in the horizontal moving crack on the primary part, so that the positioning hole on the secondary part is sleeved on the convex part on the appointed plane.

5. The process and method for rapid, vertical attachment according to claim 1, wherein the step D3 is as follows:

d31, placing the fixed positioning tool on the binding plate with the required hole;

d32, attaching the top end of the main part in the positioning tool to the bottom end of the attaching plate to be perforated, and attaching the auxiliary part to the surface of the attaching plate to be perforated;

d33, marking the positioning hole on the accessory by using a marking pen, and displaying the mark on the hole attaching plate.

6. The process and method for rapid, vertical attachment according to claim 1, wherein step a is as follows:

a1, displaying a horizontal line at a designated position on a designated plane by using infrared rays;

a2, placing the adjusting device at the bottom of the designated plane;

a3, placing the bottom of the attaching plate on the upper surface of the adjusting device;

a4, checking whether the top of the attaching plate is overlapped with the infrared ray;

a5, when the laminated board in the step A4 is overlapped with the infrared ray, executing the step B;

and A6, when the attaching plate does not overlap with the infrared ray in the step A4, overlapping the attaching plate with the infrared ray through an adjusting device, and executing the step B.

7. The process and method for rapid, vertical attachment of claim 1, wherein when step F, multiple attachment plates are in the same plane, the following steps are performed:

e1, rotating the support shaft on the stitching piece reversely to make the ground leg in vertical state, so as to separate the two ends of the ground leg from the back of the adjacent binding plate;

e2 twisting the rotary member to move the sleeve upward on the screw thread on the outer surface of the support shaft, thereby separating the lower end of the sleeve from the adjacent two abutment plates.

8. The process and method for rapid and vertical attachment according to claim 1, wherein the main member is a plate, and a horizontal movement slit enabling the auxiliary member to move horizontally on the main member is provided at a middle position of the main member.

9. The process and method for rapid and vertical attachment according to claim 2, wherein the sub-part is in the form of a strip, the upper part of the sub-part is vertically arranged with a plurality of positioning holes, and the lower part of the sub-part is provided with vertical slits; the vertical slit is fitted with the horizontal movement slit, and both the main member and the sub-member are fixed by the fixing member.

10. The process and method for rapid vertical attachment according to claim 1, wherein a plurality of said positioning holes are vertically arranged at the upper end of said sub-member, and the pitch of the plurality of positioning holes is gradually increased or decreased according to a predetermined setting.