CN211306979U - Oblique-pulling type ceramic tile cutting ruler - Google Patents

Abstract

The utility model discloses a draw formula ceramic tile cutting chi to one side relates to ceramic tile cutting technical field, draws formula ceramic tile cutting chi to one side and includes first mainboard, second mainboard, slant mainboard, first slider, second slider, slant slider, sets up first scale, second scale and the slant scale on three mainboard respectively. The first sliding part and the second sliding part are respectively arranged on the first main board and the second main board in a sliding way and are respectively contacted with two adjacent vertical surfaces of a to-be-cut object, the first sliding part is provided with a first bump, and the second sliding part is provided with a second bump; the oblique main plate is arranged at the upper ends of the first sliding part and the second sliding part and is provided with an oblique guide groove for the first lug and the second lug to extend into; the oblique sliding piece is arranged on the oblique main plate in a sliding mode. So set up, the process is simple, reduces intensity of labour, and operating efficiency improves, avoids appearing measurement error.

Description

Oblique-pulling type ceramic tile cutting ruler

Technical Field

The utility model relates to a ceramic tile cutting technical field, more specifically say, relate to a draw formula ceramic tile cutting chi to one side.

Background

In the tile laying process, a plurality of triangular tiles or trapezoidal tiles with the same size are sometimes used for combining and splicing patterns, which is beneficial to improving artistic and comfortable feelings and creating good living environment,

among the prior art, cut into triangle-shaped or trapezoidal shape with the ceramic tile, place the ceramic tile generally and cut in manual ceramic tile cutting machine, do not have the size display during the cutting, need carry out a lot of measurements, measure triangle-shaped's base or side, right-angle side and triangle-shaped's height need be measured to right angled triangle's the case. And if need the polylith cutting, just need move the ceramic tile repeatedly to manual ceramic tile cutting machine's platform on, every cutting one carries out multiple measurements, and the repetitive motion is many, and the measuring process is loaded down with trivial details, and then with having improved intensity of labour, reduces operating efficiency, can lead to measuring error to increase moreover, still need carry out the secondary cutting to the ceramic tile sometimes after the cutting and just can reach and lay the requirement.

Therefore, how to solve the problems of no size display, repeated measurement, complex process, high labor intensity, low operation efficiency and large measurement error when the manual tile cutting machine cuts triangular or trapezoidal tiles in the prior art becomes an important technical problem to be solved by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a draw formula ceramic tile cutting chi to one side does not have size display when solving the cutting triangle-shaped or trapezoidal ceramic tile that manual ceramic tile cutting machine exists among the prior art, and multiple measurements, process are loaded down with trivial details, intensity of labour is big, operating efficiency is low, the big technical problem of measuring error. The utility model provides a plurality of technical effects that preferred technical scheme among a great deal of technical scheme can produce see the explanation below in detail.

The utility model provides a draw formula ceramic tile cutting chi to one side, include:

the first main board and the second main board extend along the length direction of the first main board and are arranged at the end part of the first main board;

the first sliding part and the second sliding part are respectively arranged on the first main board and the second main board in a sliding manner, the sliding directions of the first sliding part and the second sliding part are respectively consistent with the length direction of the first main board and the length direction of the second main board, the first sliding part and the second sliding part are respectively contacted with two adjacent vertical surfaces of a to-be-cut object, and the upper end surfaces of the first sliding part and the second sliding part are respectively provided with a first bump and a second bump;

the oblique main plate is provided with an oblique guide groove for the first lug and the second lug to extend into so that the first lug and the second lug can slide relative to the oblique main plate along the guide direction of the oblique guide groove, and the first main plate, the second main plate and the oblique main plate jointly form a part to be cut of a to-be-cut object which needs to be cut and is triangular;

the oblique sliding piece is arranged on the oblique main plate in a sliding mode, the sliding direction of the oblique sliding piece is consistent with the length direction of the oblique main plate, and a cutting assembly used for cutting the oblique edge of the part to be cut is arranged on the oblique sliding piece;

the first scale, the second scale and the oblique scale are respectively used for displaying the length values of the two side edges and the oblique edge of the part to be cut, and the first scale, the second scale and the oblique scale are respectively arranged on the side parts of the first main board, the second main board and the oblique main board.

Preferably, the first projection and the second projection are respectively a first handle and a second handle which penetrate through the inclined guide groove, and the first handle and the second handle are respectively provided with a first fastener for controlling the first handle and the second handle to fix and slide relative to the inclined guide groove; and a third handle for driving the oblique sliding part to move is arranged on the oblique sliding part.

Preferably, the upper end surfaces of the first main plate and the second main plate are respectively provided with a first guide groove and a second guide groove and respectively extend along the respective length directions, the first sliding member and the second sliding member are respectively arranged in the first guide groove and the second guide groove, the first fastening member on the first handle sequentially passes through the inclined guide groove, the first sliding member and the first guide groove and is tightened or loosened to fix or slide the first sliding member relative to the first main plate, and the first fastening member on the second handle sequentially passes through the inclined guide groove, the second sliding member and the second guide groove and is tightened or loosened to fix or slide the second sliding member relative to the second main plate.

Preferably, the oblique sliding member includes a main body portion disposed on an upper end surface of the oblique main plate and an extension portion connected to the main body portion, the extension portion is offset from the oblique main plate, and the cutting assembly is vertically disposed on the extension portion.

Preferably, the first sliding member and the second sliding member are respectively provided with a first groove and a second groove, the cutting position of the cutting assembly comprises a first position and a second position, and when the oblique sliding member drives the cutting assembly to slide to the first position, the cutting assembly is located in the first groove; when the oblique sliding piece drives the cutting assembly to slide to the second position, the cutting assembly is located in the second groove.

Preferably, the two extending parts are symmetrically arranged at two ends of the main body part, and the cutting assemblies are arranged on the two extending parts; and the first grooves and the second grooves are arranged into two, the two first grooves and the two second grooves are respectively positioned at two sides of the inclined main plate, and the two cutting assemblies can respectively extend into the two first grooves and the two second grooves.

Preferably, the cutting assembly comprises a cutting knife bar arranged on the extension portion, a cutting knife wheel arranged at the lower end of the cutting knife bar, and a cutting handle arranged at the upper end of the cutting knife bar, the cutting knife wheel is located below the extension portion, and the cutting handle is located on the upper end surface of the extension portion.

Preferably, vertical bearings used for being in contact with the upper end face of the to-be-cut object are arranged on the vertical faces, facing the to-be-cut object, of the first sliding part and the second sliding part.

Preferably, the vertical bearings on the first sliding part and the second sliding part are respectively arranged in two numbers and are respectively located on two sides of the inclined main plate.

Preferably, the length direction of the first main board is perpendicular to that of the second main board, a right-angle piece is arranged between the first main board and the second main board, the right-angle piece comprises a first connecting portion and a second connecting portion which are connected perpendicularly, the first connecting portion is connected with the first main board, the second connecting portion is connected with the second main board, and a hanging hole is formed in the right-angle piece.

In the technical scheme provided by the utility model, the diagonal tile cutting ruler comprises a first main board, a second main board, an oblique main board, a first sliding part, a second sliding part, an oblique sliding part, a first scale, a second scale and an oblique scale, wherein the first main board, the second main board and the oblique main board respectively extend along the length direction of the first main board, and the second main board is arranged at the end part of the first main board; the first sliding part and the second sliding part are respectively arranged on the first main board and the second main board in a sliding manner, the sliding directions of the first sliding part and the second sliding part are respectively consistent with the length direction of the first main board and the length direction of the second main board, the first sliding part and the second sliding part are respectively contacted with two adjacent vertical surfaces of a to-be-cut object, and the upper end surfaces of the first sliding part and the second sliding part are respectively provided with a first bump and a second bump; the oblique main plate is arranged at the upper ends of the first sliding part and the second sliding part and extends along the length direction of the oblique main plate, and an oblique guide groove for the first lug and the second lug to extend into is formed in the oblique main plate, so that the first lug and the second lug can slide relative to the oblique main plate along the guide direction of the oblique guide groove; the oblique sliding piece is arranged on the oblique main plate in a sliding mode, the sliding direction of the oblique sliding piece is consistent with the length direction of the oblique main plate, and a cutting assembly used for cutting the oblique edge of the part to be cut is arranged on the oblique sliding piece; the first scale, the second scale and the oblique scale are respectively used for displaying the length values of two sides and an oblique edge of the part to be cut, and the first scale, the second scale and the oblique scale are respectively arranged on the side parts of the first main board, the second main board and the oblique main board. So set up, when needs carry out the cutting of triangle-shaped or trapezoidal wait shape, slide first slider and second slider to suitable position respectively, be about to first slider slide to corresponding scale interval be waiting to cut one side length of part, the second slider slides to corresponding scale interval be waiting to cut another side length of part simultaneously, first mainboard, second mainboard and slant mainboard three constitute exactly be waiting to cut the shape of the part that waits to be cut that needs to be cut off on the thing, then make the cutting assembly on the slant slider cut the hypotenuse of waiting to cut the part, the part that waits to cut will be cut off. In the whole process, all sides and hypotenuse of the part to be cut have scales to display the size, a plurality of times of measurement is not needed, the process is direct and simple, and the labor intensity is reduced, so that the operation efficiency is improved, and the occurrence of measurement errors is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a diagonal tile cutting ruler in an embodiment of the present invention;

fig. 2 is a front view of the first slider in the embodiment of the present invention;

fig. 3 is a plan view of the first slider in the embodiment of the present invention;

fig. 4 is a front view of the oblique sliding member in the embodiment of the present invention;

fig. 5 is a top view of the oblique sliding member according to the embodiment of the present invention.

In FIGS. 1-5:

1. a first main board; 2. a second main board; 3. an oblique main board; 4. a first slider; 5. a second slider; 6. an oblique sliding member; 601. a main body portion; 602. an extension portion; 7. a first scale; 8. a second scale; 9. oblique scales; 10. a first guide groove; 11. a second guide groove; 12. an inclined guide groove; 13. a first handle; 14. a second handle; 15. a third handle; 16. a cutting assembly; 1601. cutting the cutter bar; 1602. cutting the cutter wheel; 1603. a cutting handle; 1604. fixing screws; 1605. a jack; 17. a first fastener; 18. a second fastener; 19. a third fastener; 20. a first groove; 21. a second groove; 22. a vertical bearing; 23. a right angle member; 2301. a first connection portion; 2302. a second connecting portion; 24. hanging holes; 25. a slider; 26. and a positioning pin.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

An object of this embodiment is to provide a draw formula ceramic tile cutting chi to one side, does not have the size display when solving the cutting triangle-shaped or trapezoidal ceramic tile that manual ceramic tile cutting machine exists among the prior art, and multiple measurements, process are loaded down with trivial details, intensity of labour is big, operating efficiency is low, the problem that measuring error is big.

Hereinafter, embodiments will be described with reference to the drawings. The embodiments described below do not limit the scope of the invention described in the claims. Further, the entire contents of the configurations shown in the following embodiments are not limited to those necessary as a solution of the invention described in the claims.

Referring to fig. 1, in the present embodiment, the diagonal tile cutting ruler includes a first main plate 1, a second main plate 2, an oblique main plate 3, a first slider 4, a second slider 5, an oblique slider 6, a first scale 7, a second scale 8, and an oblique scale 9. Wherein, first mainboard 1, second mainboard 2, slant mainboard 3 extend along the length direction of self respectively, and second mainboard 2 sets up the tip at first mainboard 1, and is certain contained angle between first mainboard 1 and the second mainboard 2. First slider 4 and second slider 5 set up on first mainboard 1 and second mainboard 2 slidable respectively, and the sliding direction of the two is unanimous with the length direction of first mainboard 1, the length direction of second mainboard 2 respectively, specifically, can all set up the guide structure who extends along self length direction on first mainboard 1 and second mainboard 2, first slider 4 and second slider 5 set up respectively in the guide structure who corresponds to realize the slidable connection between slider and the mainboard. The first main plate 1 and the second main plate 2 are respectively contacted with two adjacent vertical surfaces of the object to be cut, namely, the side surface of the first main plate 1 at the lower end in the figure 1 is contacted with one vertical surface of the object to be cut, the side surface of the second main plate 2 at the left side in the figure 1 is contacted with the other vertical surface of the object to be cut, and when the first sliding part 4 and the second sliding part 5 are respectively aligned with the side surfaces of the first main plate 1 and the second main plate 2, the two adjacent vertical surfaces of the object to be cut are also contacted with the first sliding part 4 and the second sliding part 5. The upper end surfaces of the first sliding part 4 and the second sliding part 5 are respectively provided with a first lug and a second lug; the slant mainboard 3 sets up in the upper end of first slider 4 and second slider 5 and extends along the length direction of self, be equipped with oblique guide way 12 on the slant mainboard 3, oblique guide way 12 extends along the length direction of slant mainboard 3 and is used for supplying first lug and second lug to stretch into, thereby make first lug and second lug all can slide along the relative slant mainboard 3 of the direction of slant guide way 12, so, when first slider 4 or second slider 5 removed, first lug or second lug will remove in oblique guide way 12, finally make slant mainboard 3 remove. The oblique sliding part 6 is slidably disposed on the oblique main plate 3, a sliding direction of the oblique sliding part 6 is the same as a length direction of the oblique main plate 3, and the oblique sliding part 6 is provided with a cutting assembly 16 for cutting a bevel edge of a portion to be cut. The first scale 7, the second scale 8 and the slant scale 9 are respectively used for displaying the length values of two sides and the bevel edge of the triangular part to be cut, and the three are respectively arranged on the side parts of the first main board 1, the second main board 2 and the slant main board 3. In a preferred embodiment, the material to be cut is ceramic tiles.

So set up, when needs carry out the cutting of triangle-shaped or trapezoidal wait shape, slide first slider 4 and second slider 5 respectively to suitable position, be about to first slider 4 slide to corresponding scale interval be the length of one side of the part of waiting to cut, second slider 5 slides to corresponding scale interval be the length of another side of the part of waiting to cut simultaneously, first mainboard 1, second mainboard 2 and slant mainboard 3 three constitute very exactly be waiting to cut the shape of the part of waiting to cut that needs to be cut off on the thing, then make the cutting assembly 16 on the slant slider 6 cut the hypotenuse of the part of waiting to cut off, the part of waiting to cut off will be cut off. In the whole process, all sides and hypotenuse of the part to be cut have scales to display the size, a plurality of times of measurement is not needed, the process is direct and simple, and the labor intensity is reduced, so that the operation efficiency is improved, and the occurrence of measurement errors is avoided.

As an alternative embodiment, as shown in fig. 1, the first and second protrusions are a first handle 13 and a second handle 14 respectively penetrating the inclined guide groove 12, and the first slider 4 can be controlled to be displaced in the longitudinal direction of the first main plate 1 by pulling the first handle 13, and the second slider 5 can be controlled to be displaced in the longitudinal direction of the second main plate 2 by pulling the second handle 14. Preferably, the diagonal sliding member 6 is provided with a third handle 15, and the displacement of the diagonal sliding member 6 along the length direction of the diagonal main plate 3 can be controlled by pulling the third handle 15. The first handle 13 and the second handle 14 are both provided with a first fastener 17, the first handle 13 can be controlled to be fixed and slide relative to the inclined guide groove 12 through the first fastener 17 on the first handle 13, and the second handle 14 can be controlled to be fixed and slide relative to the inclined guide groove 12 through the first fastener 17 on the second handle 14.

Specifically, the upper end surface of the first main board 1 is provided with a first guide groove 10 and extends along the length direction of the first main board 1, the upper end surface of the second main board 2 is provided with a second guide groove 11 and extends along the length direction of the second main board 2, and the first sliding member 4 and the second sliding member 5 are respectively arranged in the first guide groove 10 and the second guide groove 11. In a preferred embodiment, the lower end surfaces of the first guide groove 10 and the second guide groove 11 are respectively provided with a slide block 25, the first handle 13 and the second handle 14 are respectively provided with a first fastening member 17, the first fastening member 17 on the first handle 13 sequentially passes through the inclined guide groove 12, the first sliding member 4, the first guide groove 10 and the corresponding slide block 25 and is tightened or loosened, so that the first sliding member 4 is fixed or slid relative to the first main plate 1, and similarly, the first fastening member 17 on the second handle 14 sequentially passes through the inclined guide groove 12, the second sliding member 5, the second guide groove 11 and the corresponding slide block 25 and is tightened or loosened, so that the second sliding member 5 is fixed or slid relative to the second main plate 2. In a preferred embodiment, as shown in fig. 1 and 4, the second fastening member 18 is disposed on the third handle 15, the sliding block 25 is also disposed on the lower end surface of the inclined guide slot 12, and the second fastening member 18 on the third handle 15 sequentially passes through the inclined sliding member 6, the inclined guide slot 12 and the corresponding sliding block 25 and is tightened or loosened, so that the inclined sliding member 6 is fixed or slid with respect to the inclined main plate 3.

Preferably, as shown in fig. 2 and 3, each of the first sliding member 4 and the second sliding member 5 is provided with a third fastening member 19 for further controlling the fixing and sliding of the first sliding member 4 and the second sliding member 5 relative to the first main plate 1 and the second main plate 2, respectively, and the third fastening member 19 on the first sliding member 4 passes through the first sliding member 4 and the first guiding slot 10 and is tightened or loosened, so that the first sliding member 4 is fixed or slid relative to the first guiding slot 10; the third fastening member 19 of the second slider 5 passes through the second slider 5 and the second guide groove 11 and is tightened or loosened, thereby fixing or sliding the second slider 5 with respect to the second guide groove 11. In the preferred embodiment, two third fastening members 19 are disposed on the first sliding member 4 and the second sliding member 5, and are respectively disposed on two sides of the inclined main plate 3.

As an alternative embodiment, as shown in fig. 4 and 5, the diagonal slider 6 includes a main body 601 and an extension 602, wherein the main body 601 is disposed on the upper end surface of the diagonal main plate 3, the extension 602 is connected to the main body 601, the extension 602 is offset from the diagonal main plate 3, and the cutting assembly 16 is vertically disposed on the extension 602, so that the diagonal slider 6 moves on the diagonal guide groove 12 without affecting the cutting of the cutting assembly 16. In a preferred embodiment, the cutting assembly 16 includes a cutting knife bar 1601, a cutting knife wheel 1602, a cutting handle 1603, wherein the cutting knife bar 1601 is disposed on the extension 602 and penetrates through the extension 602, specifically, as shown in fig. 5, a socket 1605 is vertically disposed on the extension 602, the cutting knife bar 1601 is disposed in the socket 1605, and a fixing screw 1604 is disposed on a sidewall of the extension 602 for fixing the cutting knife bar 1601; the cutting wheel 1602 is disposed at the lower end of the cutting bar 1601 and below the extension 602, and the cutting handle 1603 is disposed at the upper end of the cutting bar 1601 and on the upper end surface of the extension 602. Also, the cutter wheel 1602 is connected to a cutting handle 1603 so that the cutting handle 1603 is pressed to press the cutting knife bar 1601 to cause the cutter wheel 1602 to cut the tile.

Among the prior art, when manual tile cutting machine cut, thereby be to cutting member applys pressure and break off the ceramic tile, and at this in-process, can produce decurrent pressure to manual tile cutting machine's guide to make the guide take place to warp, the guide length of the time of being of a specified duration is big more, and the deformation is also big more. With such an arrangement, the cutting assembly 16 is arranged on the extending portion 602 deviating from the inclined main plate 3, and the cutting assembly 16 is pressed and stressed, so that an acting force cannot be generated on the inclined main plate 3, and errors caused by deformation of the inclined main plate 3 are avoided.

As an alternative embodiment, as shown in fig. 1-3, a first groove 20 is provided on a side surface of the first sliding member 4, a second groove 21 is provided on the second sliding member 5, and the cutting position of the cutting assembly 16 includes a first position and a second position, when the oblique sliding member 6 drives the cutting assembly 16 to slide to the first position, the cutting assembly 16 is located in the first groove 20, and at this time, the cutting assembly 16 is exactly located at an initial cutting position of the oblique edge of the portion to be cut; when the oblique sliding member 6 drives the cutting assembly 16 to slide to the second position, the cutting assembly 16 is located in the second groove 21, and the cutting assembly 16 is located at a finishing position when the cutting assembly finishes cutting the bevel edge of the portion to be cut. Preferably, the first groove 20 and the second groove 21 are arc-shaped grooves with the same shape and size, and the profile of the arc-shaped grooves is exactly a circle with a central angle of 90 degrees when viewed from the top in fig. 3.

With the arrangement, the lengths of the two side plates of the part to be cut, which is displayed by the scales on the first main plate 1 and the second main plate 2, can be clearly seen through the first groove 20 and the second groove 21; when the cutting assembly 16 slides to the position of the first groove 20 or the second groove 21, a space for accommodating the extension 602 can be reserved, so as to avoid the situation that the cutting assembly 16 cannot move to the initial position or the finished position of the bevel edge of the part to be cut, which results in incomplete cutting.

In a preferred embodiment, two extending portions 602 are symmetrically disposed at two ends of the main body 601, the two extending portions 602 are provided with the cutting assembly 16, and two sides of the inclined main plate 3 are provided with the inclined scales 9. First recess 20 and second recess 21 all set up to two, and two first recesses 20, two second recesses 21 are located the both sides of slant mainboard 3 respectively, and two cutting assembly 16 can stretch into respectively in two first recesses 20 and two second recesses 21.

So configured, the object to be cut can be cut by the cutting assembly 16, whether through the left side portion or the right side portion of the inclined main plate 3 in fig. 1.

Preferably, the vertical bearings 22 are arranged on the vertical surfaces of the first sliding part 4 and the second sliding part 5 facing the object to be cut, and when the object to be cut is placed below the inclined main plate 3 and two adjacent vertical surfaces of the object to be cut are respectively contacted with the first sliding part 4 and the second sliding part 5, the vertical bearings 22 on the first sliding part 4 and the second sliding part 5 are respectively contacted with the upper end surface of the ceramic tile. Specifically, as shown in fig. 1, the vertical bearings 22 on the first slider 4 and the second slider 5 are disposed in two and located on two sides of the oblique main plate 3, respectively.

So set up, can reduce the first slider 4 and the relative ceramic tile of second slider 5 the removal in-process and the ceramic tile surface between the frictional force for remove more smoothly.

As an alternative embodiment, the first main board 1 is perpendicular to the length direction of the second main board 2, and a right angle member 23 is disposed between the first main board 1 and the second main board 2, as shown in fig. 1, the right angle member 23 includes a first connecting portion 2301 and a second connecting portion 2302 that are perpendicularly connected, wherein the first connecting portion 2301 is connected to an end portion of the first main board 1 by a positioning pin 26, the second connecting portion 2302 is connected to an end portion of the second main board 2 by a positioning pin 26, and a hanging hole 24 is disposed on the right angle member 23. The function of the oblique-pulling type tile cutting knife is separated from the hanging hole 24, the hanging hole 24 can be used for cutting a circle, specifically, an external rope or other connecting pieces can pass through the hanging hole 24 and be fixed at a fixed position, then the oblique sliding piece 6 is adjusted to a proper position, the first fastening piece 17 on the first handle 13 and the second handle 14 is screwed, the first sliding piece 4 and the second sliding piece 5 are fixed, then the oblique-pulling type tile cutting knife is rotated by taking the hanging hole 24 as the center of a circle, the cutting assembly 16 is rotated and cut, and a circle of tile can be cut after one circle of rotation.

This oblique-pulling ceramic tile cutting ruler is specifically explained by combining each of the above embodiments, in this embodiment, the oblique-pulling ceramic tile cutting ruler includes a first main board 1 extending along the length direction of the oblique-pulling ceramic tile cutting ruler itself, a second main board 2 and an oblique main board 3, and a first slider 4, a second slider 5 and an oblique slider 6 respectively disposed on the first main board 1, the second slider 5 and the oblique slider 6, the first main board 1 is perpendicularly disposed at the end of the second main board 2, the oblique main board 3 is disposed to intersect with the first main board 1 and the second main board 2, the first main board 1, the second main board 2 and the oblique main board 3 are respectively provided with a first scale 7, a second scale 8 and an oblique scale 9, and the first scale, the second scale and the oblique scale are respectively used for displaying the. Wherein, all be equipped with the guide way on first mainboard 1 and the second mainboard 2, first slider 4 and second slider 5 set up respectively in the guide way that corresponds, and the slip direction is unanimous with the length direction of first mainboard 1 and second mainboard 2 respectively, all be equipped with on the facade that first slider 4 and second slider 5 faced the thing that waits to cut and be used for with the vertical bearing 22 that the up end of waiting to cut the thing contacts. The upper end surfaces of the first sliding part 4 and the second sliding part 5 are respectively provided with a first handle 13 and a second handle 14, the inclined main plate 3 is provided with an inclined guide groove 12 for the first handle 13 and the second handle 14 to extend into, so that the first handle and the second handle 14 can slide relative to the inclined main plate 3 along the guide direction of the inclined guide groove 12, and the first handle 13 and the second handle 14 are respectively provided with a first fastening piece 17 for controlling the first handle 13 and the second handle 14 to be fixed and slide relative to the inclined guide groove 12. Be equipped with right-angle part 23 between first mainboard 1 and the second mainboard 2, right-angle part 23 includes perpendicular first connecting portion 2301 and the second connecting portion 2302 of connecting, and first connecting portion 2301 is connected with first mainboard 1, and second connecting portion 2302 is connected with second mainboard 2, and is equipped with hanging hole 24 on the right-angle part 23.

The diagonal sliding member 6 is disposed in the diagonal guide groove 12, the diagonal sliding member 6 includes a main body 601 disposed on the upper end surface of the diagonal main plate 3 and extending portions 602 symmetrically disposed at two ends of the main body 601, the extending portions 602 are offset from the diagonal main plate 3, a third handle 15 for driving the diagonal sliding member 6 to move, a cutting knife bar 1601 disposed on the extending portions 602, a cutting knife wheel 1602 disposed at the lower end of the cutting knife bar 1601, and a cutting handle 1603 disposed at the upper end of the cutting knife bar 1601 are disposed on each of the two extending portions 602. The first sliding part 4 and the second sliding part 5 are respectively provided with two first grooves 20 and two second grooves 21, the two first grooves 20 and the two second grooves 21 are respectively located on two sides of the inclined main plate 3, the cutting positions of the two cutting knife wheels 1602 respectively comprise a first position and a second position, and when the inclined sliding part 6 drives the cutting knife wheels 1602 to slide to the first position, the two cutting knife wheels 1602 are respectively located in the two first grooves 20; when the oblique sliding member 6 drives the cutter wheel 1602 to slide to the second position, the two cutter wheels 1602 are respectively located in the two second grooves 21.

So set up, whole in-process, each side and the hypotenuse of waiting to cut the part all have the scale to show the size, need not multiple measurements, and the process is direct simple, has also reduced intensity of labour simultaneously for operating efficiency improves, avoids appearing measuring error.

The method or process for cutting the ceramic tile by using the inclined ceramic tile cutting ruler comprises the following steps:

firstly, placing the object to be cut below the inclined main board 3, and respectively attaching two adjacent vertical faces of the object to be cut to the side faces of the first main board 1 and the second main board 2. In the preferred embodiment, the side of the lower end of the first slide 4, as in fig. 1, is aligned with the side of the first main plate 1, and the side of the second slide 5, as in fig. 1, on the left side, is aligned with the side of the second main plate 2, then the two adjacent vertical faces of the article to be cut are also in contact with the sides of the first slide 4 and the second slide 5, respectively.

And secondly, sliding the first sliding part 4 by pulling the first handle 13, when the first sliding part 4 slides to a length value of one side of the part to be cut corresponding to the first groove 20, namely the first sliding part 4 slides to a proper position, stopping moving the first sliding part 4, and then screwing the first fastener 17 on the first handle 13, so that the first sliding part 4 is fixed relative to the first main plate 1, and the first handle 13 is fixed relative to the inclined guide groove 12.

And thirdly, sliding the second sliding part 5 by pulling the second handle 14, when the second sliding part 5 slides to a length value of the other side of the part to be cut corresponding to the second groove 21, that is, the second sliding part 5 slides to a proper position, at this time, stopping moving the second sliding part 5, and then screwing the first fastener 17 on the second handle 14, so that the second sliding part 5 is fixed relative to the second main plate 2, and the second handle 14 is fixed relative to the inclined guide groove 12. Of course, it is also possible to adjust the second sliding member 5 to a suitable position first and then adjust the first sliding member 4 to a suitable position; the second step and the third step may be performed first, the first handle 13 and the second handle 14 are adjusted to appropriate positions, and then the object to be cut is placed below the inclined main plate 3, that is, the first step is performed.

Fourth, the third handle 15 is pulled to slide the diagonal sliding member 6 to the first position, that is, the third handle 15 slides the cutting assembly 16 to the initial position of the oblique side of the portion to be cut, so as to start cutting, and then the cutting handle 1603 is pressed to make the cutter wheel 1602 start cutting the oblique side of the portion to be cut of the work piece.

And fifthly, simultaneously pulling the third handle 15 and the cutting handle 1603 along the guiding direction of the oblique main plate 3, namely, the direction from the first position to the second position, so that the cutting knife wheel 1602 cuts along the oblique edge of the part to be cut, and stopping pulling the third handle 15 and the cutting handle 1603 when the oblique sliding piece 6 slides to the second position, namely stopping cutting, wherein the cutting of the oblique edge of the part to be cut is finished.

It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments. The utility model provides a plurality of schemes contain the basic scheme of itself, mutual independence to restrict each other, but it also can combine each other under the condition of not conflicting, reaches a plurality of effects and realizes jointly.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a draw formula ceramic tile cutting chi to one side which characterized in that includes:

the main board structure comprises a first main board (1) and a second main board (2), wherein the first main board and the second main board extend along the length direction of the first main board and the second main board (2), and the second main board (2) is arranged at the end part of the first main board (1);

the first sliding part (4) and the second sliding part (5) are respectively arranged on the first main board (1) and the second main board (2) in a sliding mode, the sliding directions of the first sliding part and the second sliding part are respectively consistent with the length direction of the first main board (1) and the length direction of the second main board (2), the first sliding part (4) and the second sliding part (5) are respectively contacted with two adjacent vertical faces of an object to be cut, and the upper end faces of the first sliding part (4) and the second sliding part (5) are respectively provided with a first bump and a second bump;

the oblique main plate (3) is arranged at the upper ends of the first sliding part (4) and the second sliding part (5) and extends along the length direction of the oblique main plate (3), an oblique guide groove (12) for the first lug and the second lug to extend into is formed in the oblique main plate (3), so that the first lug and the second lug can slide relative to the oblique main plate (3) along the guide direction of the oblique guide groove (12), and the first main plate (1), the second main plate (2) and the oblique main plate (3) jointly form a part to be cut of a triangular object to be cut;

the oblique sliding part (6) is arranged on the oblique main plate (3) in a sliding mode, the sliding direction of the oblique sliding part is consistent with the length direction of the oblique main plate (3), and a cutting assembly (16) used for cutting the oblique edge of the part to be cut is arranged on the oblique sliding part (6);

the cutting device comprises a first scale (7), a second scale (8) and an oblique scale (9), wherein the first scale, the second scale and the oblique scale are used for displaying the length values of two sides and oblique edges of the part to be cut, and the first scale, the second scale and the oblique scale are respectively arranged on the side portions of the first main board (1), the second main board (2) and the oblique main board (3).

2. The oblique-pulling tile cutting rule of claim 1, characterized in that the first projection and the second projection are a first handle (13) and a second handle (14) respectively penetrating the oblique guide slot (12), and the first handle (13) and the second handle (14) are respectively provided with a first fastener (17) for controlling the first handle (13) and the second handle (14) to be fixed and slide relative to the oblique guide slot (12); and a third handle (15) for driving the oblique sliding part (6) to move is arranged on the oblique sliding part (6).

3. The cable-stayed tile cutting rule according to claim 2, wherein the upper end surfaces of the first main plate (1) and the second main plate (2) are respectively provided with a first guide groove (10) and a second guide groove (11) and respectively extend along the respective length directions, the first sliding member (4) and the second sliding member (5) are respectively arranged in the first guide groove (10) and the second guide groove (11), the first fastening member (17) on the first handle (13) sequentially passes through the inclined guide groove (12), the first sliding member (4) and the first guide groove (10) and is tightened or loosened so that the first sliding member (4) is fixed or slid with respect to the first main plate (1), and the first fastening member (17) on the second handle (14) sequentially passes through the inclined guide groove (12), The second sliding piece (5) and the second guide groove (11) are tightened or loosened to fix or slide the second sliding piece (5) relative to the second main plate (2).

4. The diagonal tile cutting rule according to claim 1, wherein the diagonal slider (6) comprises a main body portion (601) disposed on an upper end surface of the diagonal main plate (3) and an extension portion (602) connected to the main body portion (601), the extension portion (602) is offset from the diagonal main plate (3), and the cutting assembly (16) is vertically disposed on the extension portion (602).

5. The oblique-pulling tile cutting ruler of claim 4, wherein the first sliding member (4) and the second sliding member (5) are respectively provided with a first groove (20) and a second groove (21), the cutting position of the cutting assembly (16) comprises a first position and a second position, and when the oblique sliding member (6) drives the cutting assembly (16) to slide to the first position, the cutting assembly (16) is positioned in the first groove (20); when the oblique sliding piece (6) drives the cutting assembly (16) to slide to the second position, the cutting assembly (16) is located in the second groove (21).

6. The cable-stayed tile cutting rule according to claim 5, wherein the extension parts (602) are arranged in two and symmetrically arranged at two ends of the main body part (601), and the cutting assembly (16) is arranged on each of the two extension parts (602); and the first grooves (20) and the second grooves (21) are arranged into two, the first grooves (20) and the second grooves (21) are respectively positioned at two sides of the inclined main plate (3), and the cutting assemblies (16) can respectively extend into the first grooves (20) and the second grooves (21).

7. The cable-stayed tile cutting rule according to claim 4, wherein the cutting assembly (16) comprises a cutting knife bar (1601) provided on the extension portion (602), a cutting knife wheel (1602) provided at a lower end of the cutting knife bar (1601), and a cutting handle (1603) provided at an upper end of the cutting knife bar (1601), the cutting knife wheel (1602) being located below the extension portion (602), the cutting handle (1603) being located on an upper end surface of the extension portion (602).

8. The diagonal tile cutting rule according to claim 1, wherein the first slider (4) and the second slider (5) are provided with vertical bearings (22) on their vertical faces facing the work piece for contacting the upper end face of the work piece.

9. The diagonal tile cutting rule according to claim 8, wherein the vertical bearings (22) of the first sliding member (4) and the second sliding member (5) are provided in two and located at two sides of the inclined main plate (3).

10. The diagonal tile cutting rule according to claim 1, wherein the first main board (1) is perpendicular to the length direction of the second main board (2), a right angle member (23) is arranged between the first main board (1) and the second main board (2), the right angle member (23) comprises a first connecting portion (2301) and a second connecting portion (2302) which are perpendicularly connected, the first connecting portion (2301) is connected with the first main board (1), the second connecting portion (2302) is connected with the second main board (2), and a hanging hole (24) is arranged on the right angle member (23).

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