CN111376395A

CN111376395A - Track adjusting method and seam beautifying and slotting method for ceramic tiles with circular arcs by using same

Info

Publication number: CN111376395A
Application number: CN202010426738.XA
Authority: CN
Inventors: 蒋卫军
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-07-26
Filing date: 2018-07-26
Publication date: 2020-07-07
Also published as: CN108943428A; CN111516156A; CN111516155A; CN108943428B

Abstract

The invention belongs to the technical field of seam beautifying, and particularly relates to a track adjusting method and a seam beautifying and slotting method for a ceramic tile with an arc, which comprises the following steps: the slotting machine comprises a track component, a frame, a slotting component, a concentric component and an arc component, wherein the track component is arranged in the frame, the slotting component and the concentric component are arranged on the track component, the slotting component moves along a square track under the driving of the track component, the arc component is used for enabling four corners of the square track to generate arcs, and the slotting component is used for slotting seams; from this structure, can realize, drive the components of slotting through the orbit subassembly and move along the orbit the same with the ceramic tile gap, simultaneously through concentric subassembly and circular arc subassembly, the fluting orbit four corners that makes the orbit subassembly form has the circular arc, has satisfied the fluting of taking circular arc ceramic tile seam beautifully to handle, makes the less clearance between the ceramic tile of not doing the seam beautifully enlarge the clearance under the effect of components of slotting to avoid the ceramic tile thermal expansion deformation, avoid the seam beautifully agent to drop because the clearance is less.

Description

Track adjusting method and seam beautifying and slotting method for ceramic tiles with circular arcs by using same

The application is a divisional application of the invention patent application 'a slotting method for beautiful seams of ceramic tiles with circular arcs'.

Application date of the original case: 2018-07-26.

Original application No.: 2018108301772.

the name of the original invention is: a method for slotting a beautiful seam of a ceramic tile with an arc.

Technical Field

The invention belongs to the technical field of seam beautifying, and particularly relates to a track adjusting method and a seam beautifying and slotting method for a ceramic tile with an arc, wherein the method is used for adjusting a track.

Background

In building decoration, in recent years, more and more people choose to carry out seam beautifying treatment on ceramic tiles, seam beautifying treatment on the ceramic tiles has the advantages of environmental protection, water resistance, impermeability and the like, the existing seam beautifying technology is more and more mature, in the construction process, as the seam beautifying ceramic tiles are larger than the seam beautifying ceramic tiles, in order to better control the gaps of the ceramic tiles, a cross seam beautifying device is embedded into the gaps of included angles of the ceramic tiles in advance when the ceramic tiles are pasted, so that the gaps of the ceramic tiles are controlled, the cross seam beautifying device is taken out after pasting is completed, and seam buckling, polishing, dust removal and agent injection are carried out to complete the seam beautifying treatment; for the ceramic tiles without seam beautifying treatment, because the gaps of the ceramic tiles are small, the ceramic tiles are easy to tilt and deform after being heated and expanded, and meanwhile, the gaps among the ceramic tiles can be changed from white to black, bacteria are bred, and peculiar smell is generated.

Disclosure of Invention

The invention overcomes the defects of the prior art, provides the seam beautifying and slotting device for the ceramic tiles with the circular arcs, and realizes seam beautifying and slotting treatment on the ceramic tiles with the circular arcs on the basis of slotting the laid ceramic tiles without seam beautifying and slotting;

the utility model provides a take circular arc ceramic tile beautiful seam fluting device, includes: the slotting machine comprises a track component, a frame, a slotting component, a concentric component and an arc component, wherein the track component is arranged in the frame, the slotting component and the concentric component for adjusting the position of the slotting component are arranged on the track component, the slotting component moves along a square track under the driving of the track component, the arc component is used for enabling four corners of the square track to generate arcs, and the slotting component is used for slotting seams;

the track assembly includes: the track motor is fixed on the frame, a rotating shaft of the track motor is connected with the track motor sleeve, the track motor sleeve is sleeved on the track motor sliding rod, one end of the track motor sliding rod is provided with a hinge seat, a spring is arranged between the hinge seat and the track motor sleeve, the hinge seat is rotatably connected with the track sliding block, the track sliding block is sleeved on the first track sliding rod, the end part of the first track sliding rod is connected with the second track sliding rod through a sliding block, the two ends of the second track sliding rod are fixed on the frame, and the movement track of the track sliding block forms a slotting track;

the concentric assembly includes: the concentric screw rod is obliquely arranged, two ends of the concentric screw rod are fixed on the frame through a shaft seat, two concentric polished rods are respectively arranged twice of the concentric screw rod in parallel, the lower end of the concentric slider is sleeved on the concentric screw rod and the concentric polished rods, and the upper end of the concentric slider is connected with the track motor;

the circular arc subassembly sets up the tip of orbit motor slide bar, the circular arc subassembly includes: circular arc slider, circular arc lead screw and circular arc motor, the inside of motor slide bar is provided with the axial cavity, and the side of axial cavity is provided with the axial spout, the circular arc slider includes: outer dog, interior slider and link, outer dog cup joints the outside at orbit motor slide bar, inside interior slider embedding orbit motor slide bar, axial spout on the link embedding orbit motor slide bar is connected outer dog and interior slider, the circular arc lead screw sets up in the axial cavity of orbit motor slide bar, and the circular arc lead screw is connected with interior slider, and the one end and the circular arc motor of circular arc lead screw are connected, and the circular arc motor is fixed orbit motor slide bar on.

Further, the slotting device also comprises a track adjusting component, and the track adjusting component comprises: a first adjusting polished rod, a second adjusting polished rod, a first adjusting screw rod and a second adjusting screw rod, wherein the first adjusting polished rod and the second adjusting polished rod are arranged vertically, and the first adjusting polished rod is arranged on the moving path of the first track slide bar and used for limiting the moving distance of the track slide block in the horizontal direction, the second adjusting polished rod is arranged on a moving path of the track sliding block in the vertical direction and used for limiting the moving distance of the track sliding block in the vertical direction, the first adjusting screw rod is arranged perpendicular to the first adjusting polished rod, the first adjusting screw rod is connected with the first adjusting polished rod through a slide block, the second adjusting screw rod is vertically arranged with the second adjusting polished rod, and the second adjusting screw rod is connected with the second adjusting polished rod through a sliding block, and the end parts of the first adjusting screw rod and the second adjusting screw rod are connected through bevel gears.

Furthermore, one end of the first adjusting polished rod is connected with the first adjusting screw rod through a sliding block, the other end of the first adjusting polished rod is connected with the first auxiliary sliding rod through a sliding block, the first auxiliary sliding rod is perpendicular to the first adjusting polished rod, one end of the second adjusting polished rod is connected with the second adjusting screw rod through a sliding block, the other end of the second adjusting polished rod is connected with the second auxiliary sliding rod through a sliding block, and the second auxiliary sliding rod is perpendicular to the second adjusting polished rod.

Furthermore, the track adjusting assembly further comprises an adjusting crank, and the adjusting crank is connected with the end part of the first adjusting screw rod or the second adjusting screw rod.

Further, the slotting assembly comprises: the slotting motor is connected with the track sliding block, and a rotating shaft of the slotting motor is connected with the slotting drill bit.

Further, the concentric assembly further comprises: the device comprises a first transmission rod and a second transmission rod, wherein one end of the first transmission rod is connected with a first adjusting screw rod or a second adjusting screw rod through a bevel gear, the other end of the first transmission rod is connected with one end of the second transmission rod through a bevel gear, and the other end of the second transmission rod is connected with a concentric screw rod through a bevel gear.

A method for slotting a beautiful joint of a ceramic tile with an arc comprises the following steps:

step a: measuring to obtain the width of a ceramic tile to be grooved and the radius of the chamfering arc at the four corners of the ceramic tile, adding the width of the ceramic tile to be grooved to the width of a groove body to be grooved to obtain the width of a groove body track, and simultaneously obtaining the groove body track according to the radius of the chamfering arc at the four corners of the ceramic tile;

step b: adjusting a slotting track according to the obtained track of the groove body, adjusting the position of a first adjusting polished rod in the horizontal direction to enable the track width of a track sliding block in the horizontal direction to be equal to the width of the track of the groove body, adjusting the position of a second adjusting polished rod in the vertical direction to enable the track length of the track sliding block in the vertical direction to be equal to the width of the track of the groove body, adjusting the position of a slotting component through a concentric component to enable the slotting component to be located at the symmetrical center of the slotting track, and adjusting the initial length of a track motor sliding rod through an arc component;

step c: placing the slotting device on the surface of the ceramic tile to be slotted to enable the slotting track to coincide with the track of the groove body;

step d: the track motor slide bar is rotated through the track motor, the track motor slide bar enables the track slide block to slide on the first track slide bar, the track slide block drives the slotting component to move, the slotting component moves along the track of the slotting track in the vertical direction, when the slotting component slides to the arc of the slotting track, the length of the track motor slide bar is adjusted through the arc component to enable four corners of the slotting track to form arc chamfers, the track motor slide bar enables the first track slide bar to slide on the second track slide bar, the first track slide bar drives the track slide block to move, the track slide block drives the slotting component to move along the track of the slotting track in the horizontal direction, and the operation is repeated, so that the slotting component performs slotting on the edge of the ceramic tile to be slotted along the slotting track.

Furthermore, the first adjusting screw rod is rotated to enable the sliding block to drive the first adjusting polished rod to move in the horizontal direction, the position of the first adjusting polished rod in the horizontal direction is adjusted, the second adjusting screw rod is rotated to enable the sliding block to drive the second adjusting polished rod to move in the vertical direction, and the position of the second adjusting polished rod in the vertical direction is adjusted.

Further, when the first adjusting screw rod or the second adjusting screw rod is rotated, the first adjusting screw rod and the second adjusting screw rod are simultaneously rotated through the bevel gear meshed with the end parts of the first adjusting screw rod and the second adjusting screw rod.

Further, when the track slide block slides on the first track slide rod, the first track slide rod is pressed through the spring to keep the first track slide rod still, and when the first track slide rod slides on the second track slide rod, the track slide block is pressed through the spring to keep the track spring still.

The invention has the beneficial effects that:

1. the invention comprises the following steps: the slotting machine comprises a track component, a frame, a slotting component, a concentric component and an arc component, wherein the track component is arranged in the frame, the slotting component and the concentric component for adjusting the position of the slotting component are arranged on the track component, the slotting component moves along a square track under the driving of the track component, the arc component is used for enabling four corners of the square track to generate arcs, and the slotting component is used for slotting seams; from this structure, can realize, drive the components of slotting through the orbit subassembly and move along the orbit the same with the ceramic tile gap, simultaneously through concentric subassembly and circular arc subassembly, the fluting orbit four corners that makes the orbit subassembly form has the circular arc, has satisfied the fluting of taking circular arc ceramic tile seam beautifully to handle, makes the less clearance between the ceramic tile of not doing the seam beautifully enlarge the clearance under the effect of components of slotting to avoid the ceramic tile thermal expansion deformation, avoid the seam beautifully agent to drop because the clearance is less.

2. The track assembly of the present invention comprises: the structure can realize that the track motor drives the track slider to slide on the first track slide bar to form a vertical track line, so that the first track slide bar slides on the second track slide bar to form a horizontal track line, and the vertical track line and the horizontal track line form a track line attached to the edge of a ceramic tile, thereby ensuring that the motion track of the slotting component is matched with the track line of a gap of the ceramic tile, and ensuring the slotting precision.

3. The arc component is arranged at the end part of the track motor slide bar and comprises: the structure of the arc sliding block, the arc screw rod and the arc motor can realize that the arc screw rod is controlled to rotate by the arc motor, so that the position of the arc sliding block is changed, four corners of a square slotting track formed by the original track assembly generate arcs, the slotting track is matched with the outline of the ceramic tile with the arc, and the requirement of seam beautifying and slotting of the ceramic tile with the arc is met.

4. The concentric assembly of the present invention comprises: the structure can realize that the slotting assembly is positioned at the central position of the slotting track by rotating the concentric screw rod, thereby being convenient for the arc assembly to generate an arc.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the track assembly of FIG. 1;

FIG. 3 is a schematic structural diagram of the track adjustment assembly of FIG. 1;

FIG. 4 is a schematic diagram of the concentric assembly of FIG. 1;

FIG. 5 is a schematic cross-sectional view A-A of FIG. 1;

FIG. 6 is a schematic cross-sectional view B-B of FIG. 1;

FIG. 7 is a schematic cross-sectional view taken at C-C of FIG. 1;

FIG. 8 is a schematic diagram of a seventh embodiment of the present invention;

FIG. 9 is a schematic structural view of the present invention in an eighth embodiment;

FIG. 10 is a schematic structural diagram of the present invention in a ninth embodiment;

in the figure: 1-a track assembly; 2-a trajectory adjustment component; 3-a frame; 4-a slotting component; 5-a positioning assembly; 6-a positioning device; 7-concentric assembly; 8-a circular arc component; 11-a track motor; 12-a track motor sleeve; 13-a track motor slide bar; 14-track sliders; 15-a first track slide; 16-a second track slide; 21-a first adjusting polish rod; 22-a second adjusting polish rod; 23-a first adjusting screw rod; 24-a second adjusting screw rod; 25-a first auxiliary slide bar; 26-a second auxiliary slide bar; 41-a slotted motor; 42-a slot drill bit; 51-a positioning frame; 52-a positioning wheel; 61-horizontal positioning block; 62-a vertical positioning block; 63-horizontal moving block; 64-horizontally moving the slide block; 71-concentric lead screw; 72-concentric polished rod; 73-concentric slider; 81-arc slide block; 82-arc screw rod; 83-arc motor; 100-a slotted track; 200-groove track; 811-outer stop; 812-an inner slider; 813-connecting end.

Detailed Description

The invention will be described in detail below with reference to the following drawings:

detailed description of the invention

With reference to fig. 1 and 4, the utility model discloses a take circular arc ceramic tile seam beautifying and slotting device, includes: the slotting and slotting integrated machine comprises a track component 1, a track adjusting component 2, a frame 3, a slotting component 4, a concentric component 7 and an arc component 8, wherein the track component 1 is arranged in the frame 3, the slotting component 4 and the concentric component 7 for adjusting the position of the slotting component 4 are arranged on the track component 1, the slotting component 4 moves along a square track under the driving of the track component 1, the arc component 8 is used for enabling four corners of the square track to generate arcs, and the slotting component 4 is used for slotting and slotting seams; the track which is the same as that of a tile groove body is formed through the track assembly 1, for tiles with circular arcs, square slotting tracks formed through the track assembly 1 cannot be matched, four corners of the slotting tracks formed by the track assembly 1 generate circular arcs through the circular arc assembly 8, so that the square slotting tracks are matched with the outlines of the tiles with the circular arcs, meanwhile, the slotting assembly 4 is driven by the track assembly 1 to move along the tracks of the tile groove body, slotting treatment is carried out on gaps among the tiles through the slotting assembly 4, and the problem that for tiles which are not subjected to seam beautifying treatment, due to the fact that gaps among the tiles are small, the tiles are heated to expand and deform, and meanwhile, seam beautifying agents are easy to;

as shown in fig. 2, the track assembly 1 includes: the track motor comprises a track motor 11, a track motor sleeve 12, a track motor slide rod 13, a track slide block 14, a first track slide rod 15 and a second track slide rod 16, wherein the track motor 11 is fixed on the frame 3, a rotating shaft of the track motor 11 is connected with the track motor sleeve 12, the track motor sleeve 12 is sleeved on the track motor slide rod 13, one end of the track motor slide rod 13 is provided with a hinge seat, a spring is arranged between the hinge seat and the track motor sleeve 12, the hinge seat is rotatably connected with the track slide block 14, the track slide block 14 is sleeved on the first track slide rod 15, the end part of the first track slide rod 15 is connected with the second track slide rod 16 through a slide block, the two ends of the second track slide rod 16 are fixed on the frame 3, and the movement track of the track slide block 14 forms a slotting track; because the slotting component 4 is arranged on the track sliding block 14, the motion track of the track sliding block 14 is the same as that of the slotting component 4, when the track motor 11 rotates, the track motor sleeve 12 drives the track motor slide rod 13 to rotate, meanwhile, the position between the first track slide rod 15 and the second track slide rod 16 is kept still through the spring between the hinged seat and the track motor sleeve 12, the track sliding block 14 slides along the first track slide rod 15 under the driving of the track motor slide rod 13, so as to form a vertical track line, after the track sliding block 14 slides to the upper end of the first track slide rod 15, the spring between the hinged seat and the track motor sleeve 12 keeps the position between the track sliding block 14 and the first track slide rod 15 different, under the driving of the track motor slide rod 13, the first track slide rod 15 slides along the second track slide rod 16, so as to form a horizontal track line, the horizontal trajectory line and the vertical trajectory line jointly form a slotting trajectory line 100, so that the slotting component 4 accurately moves along the slotting trajectory line 100, and the accuracy of the slotting component 4 in the slotting process of the ceramic tile is ensured;

as shown in fig. 3, the trajectory adjusting assembly 2 includes: the track adjusting mechanism comprises a first adjusting polished rod 21, a second adjusting polished rod 22, a first adjusting screw rod 23 and a second adjusting screw rod 24, wherein the first adjusting polished rod 21 is used for limiting the moving distance of a track sliding block 14 in the horizontal direction, the first adjusting screw rod 23 is connected with the first adjusting polished rod 21 through a sliding block, the second adjusting polished rod 22 is used for limiting the moving distance of the track sliding block 14 in the vertical direction, and the second adjusting screw rod 24 is connected with the second adjusting polished rod 22 through a sliding block;

as shown in fig. 4 and 5, the concentric assembly 7 includes: the track motor comprises a concentric screw rod 71, concentric polished rods 72 and concentric sliding blocks 73, wherein the concentric screw rod 71 is obliquely arranged, two ends of the concentric screw rod 71 are fixed on the frame 3 through shaft seats, the two sides of the concentric screw rod 71 are respectively provided with one concentric polished rod 72 in parallel, the lower ends of the concentric sliding blocks 73 are sleeved on the concentric screw rod 71 and the concentric polished rods 72, and the upper ends of the concentric sliding blocks 73 are connected with the track motor 11; the concentric screw rod 71 is arranged along the diagonal line of a square slotting track formed by the track assembly 1, the concentric slide block 73 drives the slotting assembly 4 to move through the rotation of the concentric screw rod 71, so that the slotting assembly 4 is positioned at the center of the slotting track, and the arc track is generated by limiting the farthest position of the track slide block 14 due to the adoption of the adjustment of the length of the track motor slide rod 13, so that the slotting assembly 4 is ensured to be positioned at the center of the slotting track, and the adjustment of the length of the track motor slide rod 13 is facilitated;

referring to fig. 7, the arc assembly 8 is disposed at an end of the track motor sliding rod 13, and the arc assembly 8 includes: circular arc slider 81, circular arc lead screw 82 and circular arc motor 83, the inside of orbit motor slide bar 13 is provided with the axial cavity, and the side of axial cavity is provided with the axial spout, circular arc slider 81 includes: the outer block 811 is sleeved outside the track motor sliding rod 13, the inner block 812 is embedded inside the track motor sliding rod 13, the connecting end 813 is embedded in an axial sliding groove in the track motor sliding rod 13 and connects the outer block 811 with the inner block 812, the arc screw 82 is arranged in an axial cavity of the track motor sliding rod 13, the arc screw 82 is connected with the inner block 812, one end of the arc screw 82 is connected with the arc motor 83, and the arc motor 83 is fixed on the track motor sliding rod 13; after the concentric component 7 moves the slotting component to the center of the slotting track, the arc lead screw 82 is rotated by the arc motor 83, the arc lead screw 82 pushes the inner slide block 812 to move, the inner slide block 812 drives the outer stop block 811 to slide on the outer side of the track motor slide bar 13, the distance from the outer stop block 811 to one end of the track motor slide bar 13 towards one end of the track slide block 14 is adjusted, so that the maximum extending distance of the track motor slide bar 13 towards one end of the track slide block 14 is limited, when the track slide block 14 moves to an arc, the maximum extending distance of the track motor slide bar 13 towards one end of the track slide block 14 is changed by changing the position of the outer stop block 811, the track motor slide bar 13 is enabled to always keep the maximum extending distance through a spring on the track motor slide bar 13, arcs can be drawn at four corners of the slotting track, and the slotting.

Detailed description of the invention

In this embodiment, on the basis of the first embodiment, as shown in fig. 3, the first adjusting polish rod 21 and the second adjusting polish rod 22 are arranged perpendicular to each other, and a first adjusting polish rod 21 is provided on a moving path of the first track sliding bar 15, the first adjusting polish rod 21 serves to limit a moving distance of the track slider 14 in a horizontal direction, the second adjusting polish rod 22 is disposed on a moving path of the track slider 14 in a vertical direction, the second adjusting polish rod 22 is used for limiting a moving distance of the track slider 14 in the vertical direction, the first adjusting screw rod 23 is disposed perpendicular to the first adjusting polish rod 21, and the first adjusting screw 23 is connected with the first adjusting polish rod 21 through a slide block, the second adjusting screw 24 is arranged vertically to the second adjusting polish rod 22, the second adjusting screw rod 24 is connected with the second adjusting polished rod 22 through a sliding block, and the end parts of the first adjusting screw rod 23 and the second adjusting screw rod 24 are connected through bevel gears; rotate through first adjustment lead screw 23 and make first adjustment polished rod 21 remove in the horizontal direction, block second orbit slide bar 16 in the horizontal direction through first adjustment polished rod 21, thereby the length of the horizontal trajectory line that second orbit slide bar 16 formed is restricted, rotate through second adjustment lead screw 24 and make second adjustment polished rod 22 remove in vertical direction, block orbit slider 14 in vertical direction through second adjustment polished rod 22, thereby the length of the vertical trajectory line that the restriction returns the family slider 14 to form, and then realize the adjustment of 100 sizes of slotting trajectory line, thereby adapt to the not ceramic tile of equidimension, the slotting needs of the not ceramic tile of equidimension have been satisfied.

Detailed description of the invention

In this embodiment, on the basis of the second embodiment, as shown in fig. 3, specifically, one end of the first adjusting polished rod 21 is connected to the first adjusting screw 23 through a slider, the other end of the first adjusting polished rod 21 is connected to the first auxiliary slide rod 25 through a slider, the first auxiliary slide rod 25 is disposed perpendicular to the first adjusting polished rod 21, one end of the second adjusting polished rod 22 is connected to the second adjusting screw 24 through a slider, the other end of the second adjusting polished rod 22 is connected to the second auxiliary slide rod 26 through a slider, and the second auxiliary slide rod 26 is disposed perpendicular to the second adjusting polished rod 22; the first auxiliary slide bar 25 is arranged at the other end of the first adjusting polished rod 21, so that the condition that the upper end and the lower end are asynchronous when the first adjusting screw rod 23 drives the first adjusting polished rod 21 to move is avoided, the first adjusting polished rod 21 deflects to cause the deviation of a vertical track line, the second auxiliary slide bar 26 is arranged at the other end of the second adjusting polished rod 22, the condition that the left end and the right end are asynchronous when the second adjusting screw rod 24 drives the second adjusting polished rod 22 to move is avoided, the second adjusting polished rod 22 deflects to cause the deviation of a horizontal track line, and the grooving accuracy is further ensured.

Detailed description of the invention

In this embodiment, on the basis of the third specific embodiment, with reference to fig. 8, specifically, the trajectory adjustment assembly 2 further includes an adjustment crank 27, and the adjustment crank 27 is connected to an end of the first adjustment screw 23 or the second adjustment screw 24; the manual control of the track adjusting assembly 2 is realized by controlling the rotation of the first adjusting screw 23 and the second adjusting screw 24 through the adjusting crank 27.

Detailed description of the invention

In this embodiment, on the basis of the first embodiment, as shown in fig. 5, specifically, the slotting component 4 includes: the slotting motor 41 is connected with the track slider 14, a rotating shaft of the slotting motor 41 is connected with the slotting drill 42, and the slotting motor 41 drives the slotting drill 42 to slot the gaps of the ceramic tiles.

Detailed description of the invention

In this embodiment, on the basis of the first, second, third, fourth or fifth specific embodiments, as shown in fig. 6, the concentric component 7 further includes: the automatic slotting mechanism comprises a first transmission rod 74 and a second transmission rod 75, one end of the first transmission rod 74 is connected with the first adjusting screw 23 or the second adjusting screw 24 through a bevel gear, the other end of the first transmission rod 74 is connected with one end of the second transmission rod 75 through a bevel gear, the other end of the second transmission rod 75 is connected with the concentric screw 71 through a bevel gear, when the track adjusting assembly 2 is adjusted, the first adjusting screw 23 and the second adjusting screw 24 rotate, the concentric screw 71 rotates through the first transmission rod 74 and the second transmission rod 75, the track adjusting assembly 2 and the concentric assembly 7 are adjusted simultaneously, the slotting track can be automatically adjusted synchronously along the diagonal line of the slotting track while being enlarged, and the adjusting time is saved.

Detailed description of the invention

In this embodiment, on the basis of the first specific implementation manner, as shown in fig. 8, specifically, the trajectory adjusting component 2 further includes a trajectory indicating component 28, where the trajectory indicating component 28 includes: a track pointer 281 and a track scale 282, wherein a bar-shaped through hole is arranged on one side of the frame 3 opposite to the first adjusting screw rod 23, the track scale 282 is arranged on the bar-shaped through hole in parallel, the track pointer 281 is arranged on a slide block connecting the first adjusting screw rod 23 and the first adjusting polish rod 21, and the track pointer 281 passes through the bar-shaped through hole and points to the track scale 282;

the track pointer 281 is fixed on the slider connected with the first adjusting screw rod 23 and the first adjusting polish rod 21, so that the track pointer 281 and the first adjusting polish rod 21 move simultaneously, the size of the grooved track 100 can be obtained from the moving distance of the track pointer 281, and a specific numerical value is read out through the track scale 282, so that when the grooved track 100 is adjusted, the adjustment can be more efficient.

Detailed description of the invention

In this embodiment, on the basis of the first specific implementation manner, as shown in fig. 9, specifically, the arc-shaped ceramic tile seam beautifying and slotting device further includes a positioning assembly 5, the frames 3 outside the first adjusting screw 23 and the second adjusting screw 24 are both provided with one positioning assembly 5, an axis of the positioning assembly 5 outside the first adjusting screw 23 coincides with a left side track of the slotting track 100, the positioning assembly 5 outside the second adjusting screw 24 coincides with an upper side track of the slotting track 100, and the positioning assembly 5 includes: the positioning device comprises a positioning frame 51 and a positioning wheel 52, wherein the positioning wheel 52 is rotatably connected to the positioning frame 51, the positioning frame 51 is fixedly connected with the frame 3, and the section of the wheel surface of the positioning wheel 52 is wedge-shaped;

through 5 imbeds and fixes a position in waiting the clearance of the adjacent ceramic tile of fluting ceramic tile through locating component, utilize the clearance of waiting around the fluting ceramic tile and the parallel location that realizes the fluting device in adjacent ceramic tile clearance, not only satisfied the location needs of fluting device, realize quick location simultaneously, the locate mode is simple, quick.

Detailed description of the invention

In this embodiment, on the basis of the first embodiment, as shown in fig. 10, specifically, the slotting device with circular arc ceramic tiles further includes a positioning device 6, and the positioning device 6 includes: the horizontal positioning block 61 is arranged on the frame 3 outside the first adjusting screw rod 23, the vertical positioning block 62 is arranged on the frame 3 outside the second adjusting screw rod 24, the axis of the horizontal positioning block 61 coincides with the track on the left side of the slotting track 100, the axis of the vertical positioning block 62 coincides with the track on the upper side of the slotting track 100, a sliding groove is arranged on the frame 3 outside the first adjusting screw rod 23, a horizontal moving sliding block 64 is arranged in the sliding groove, the upper end of the horizontal moving sliding block 64 is connected with the horizontal moving sliding block 63, and the lower end of the horizontal moving sliding block 64 is fixedly connected to the sliding block, which is connected with the first adjusting screw rod 23 and the first adjusting polish rod 21;

through 6 imbeds and fixes a position in waiting the clearance of the adjacent ceramic tile of fluting ceramic tile through positioner, utilize the clearance of waiting around the fluting ceramic tile and the parallel location that realizes the fluting device in adjacent ceramic tile clearance, not only satisfied the location needs of fluting device, realize quick location simultaneously, the locate mode is simple, quick.

Detailed description of the preferred embodiment

The method for slotting and beautifying the gaps of the ceramic tiles with the circular arcs disclosed in the embodiment is implemented on the slotting and beautifying device for the ceramic tiles with the circular arcs in the first, second, third, fourth, fifth or sixth specific embodiments, and as shown in fig. 1 to fig. 10, the method specifically comprises the following steps:

step a: measuring to obtain the width of a ceramic tile to be grooved and the radius of the chamfering arc at the four corners of the ceramic tile, adding the width of the ceramic tile to be grooved to the width of a groove body to be grooved to obtain the width of a groove body track 200, and obtaining the groove body track 200 according to the radius of the chamfering arc at the four corners of the ceramic tile; obtaining the shape of a groove body track 200 according to the measurement result, and setting a slotting track 100;

step b: adjusting a slotting track 100 according to the obtained slot track 200, adjusting the position of a first adjusting polished rod 21 in the horizontal direction to enable the track width of a track sliding block 14 in the horizontal direction to be equal to the width of the slot track 200, adjusting the position of a second adjusting polished rod 22 in the vertical direction to enable the track length of the track sliding block 14 in the vertical direction to be equal to the width of the slot track 200, adjusting the position of a slotting component 4 through a concentric component 7 to enable the slotting component 4 to be located at the symmetrical center of the slotting track 100, and adjusting the initial length of a track motor sliding rod 13 through an arc component 8; the initial length is the length of the track motor slide bar 13 when the slotting component 4 moves to the starting point of the arc of the slotting track 100;

step c: placing the slotting device on the surface of a ceramic tile to be slotted to enable the slotting track 100 to coincide with the groove body track 200;

step d: the track motor slide bar 13 is rotated through the track motor 11, the track motor slide bar 13 enables the track slide block 14 to slide on the first track slide bar 15, the track slide block 14 drives the slotting component 4 to move, the slotting component 4 is enabled to move along the track of the slotting track 100 in the vertical direction, when the slotting component 4 slides to the arc position of the slotting track 100, the length of the track motor slide bar 13 is adjusted through the arc component 8, so that the four corners of the slotting track 100 form arc-shaped chamfers, the track motor slide bar 13 enables the first track slide bar 15 to slide on the second track slide bar 16, the track slide bar 15 enables the track slide block 14 to move, the track slide block 14 enables the slotting component 4 to move along the track of the slotting track 100 in the horizontal direction, and the steps are repeated, so that the slotting component 4 performs slotting on the edge of the ceramic tile to be slotted along. The arc lead screw 82 is rotated through the arc motor 83, the arc lead screw 82 pushes the inner sliding block 812 to move, the inner sliding block 812 drives the outer stop block 811 to slide outside the track motor sliding rod 13, the distance from the outer stop block 811 to the track motor sliding rod 13 towards one end of the track sliding rod 14 is adjusted, so that the maximum extending distance of the track motor sliding rod 13 towards one end of the track sliding rod 14 is limited, when the track sliding rod 14 moves to an arc, the maximum extending distance of the track motor sliding rod 13 towards one end of the track sliding rod 14 is changed by changing the position of the outer stop block 811, the track motor sliding rod 13 is always kept at the maximum extending distance through a spring on the track motor sliding rod 13, arcs can be drawn at four corners of a slotting track, and the slotting requirement of tiles with arcs is met.

Detailed description of the invention

In this embodiment, on the basis of the tenth embodiment, with reference to fig. 1, specifically, in the step b, the first adjusting screw 23 is rotated to enable the slider to drive the first adjusting polished rod 21 to move in the horizontal direction, so as to adjust the position of the first adjusting polished rod 21 in the horizontal direction, and the second adjusting screw 24 is rotated to enable the slider to drive the second adjusting polished rod 22 to move in the vertical direction, so as to adjust the position of the second adjusting polished rod 22 in the vertical direction. The structure of the screw rod sliding block is used for adjustment, fine adjustment is realized due to the screw propulsion of the screw rod to the sliding block, and the size after adjustment is prevented from changing due to the self-locking effect of the screw rod sliding block;

detailed description of the invention

In this embodiment, on the basis of the tenth embodiment, as shown in fig. 1, specifically, when the first adjusting screw 23 or the second adjusting screw 24 is rotated, the bevel gear engaged with the end portions of the first adjusting screw 23 and the second adjusting screw 24 causes the first adjusting screw 23 and the second adjusting screw 24 to rotate simultaneously, so that the adjustment in the horizontal direction and the adjustment in the vertical direction are performed synchronously, and the adjustment efficiency is improved.

Detailed description of the invention

In this embodiment, in addition to the tenth embodiment, as shown in fig. 1, specifically, in the step d, when the track slider 14 slides on the first track slide 15, the first track slide 15 is pressed by a spring to keep the first track slide 15 stationary, and when the first track slide 15 slides on the second track slide 16, the track slider 14 is pressed by a spring to keep the track slider 14 stationary.

Detailed description of the invention fourteen

In this embodiment, on the basis of the tenth embodiment, with reference to fig. 8, specifically, when the grooved track 100 is adjusted, the size of the grooved track 100 is obtained by reading the reading of the track pointer 281 fixed on the slider where the first adjusting screw 23 is connected to the first adjusting polished rod 21 on the track scale 282, and the grooved track 100 is adjusted according to the reading value until the size of the grooved track 100 is equal to the size of the grooved track 200.

Detailed description of the invention

In this embodiment, on the basis of the tenth embodiment, with reference to fig. 9, specifically, after the grooving apparatus is placed on the surface of the tile to be grooved, the positioning assembly 5 is inserted into the gap between the tiles adjacent to the tile to be grooved for positioning, the positioning assembly 5 outside the first adjusting screw 23 positions the grooving locus 100 in the horizontal direction, and the positioning assembly 5 outside the second adjusting screw 24 positions the grooving locus 100 in the vertical direction;

Detailed description of the invention

In this embodiment, on the basis of the tenth embodiment, with reference to fig. 10, specifically, after the slotting device is placed on the surface of the tile to be slotted, the lower end of the slotting device is lifted up, so that the upper end of the slotting device contacts with the ground, the lower end of the slotting device is embedded into the gap between the two sides of the adjacent tile at the upper end of the tile to be slotted through the vertical positioning block 62 and the horizontal moving block 63 to perform positioning in the horizontal direction, and the lower end of the slotting device is embedded into the gap between the adjacent tiles at the left side of the tile to be slotted through the horizontal positioning block 61 to perform positioning in the vertical direction;

The above embodiments are merely illustrative of the present patent and do not limit the scope of the patent, and those skilled in the art can make modifications to the parts thereof without departing from the spirit and scope of the patent.

Claims

1. A track adjusting method is characterized in that when a slotting track (100) is adjusted, the size of the slotting track (100) is obtained by reading the reading of a track pointer (281) fixed on a sliding block, connected with a first adjusting screw rod (21), of a first adjusting screw rod (23) on a track scale (282), and the slotting track (100) is adjusted according to the size of the reading value until the size of the slotting track (100) is equal to the size of a groove body track (200).

2. The track adjusting method according to claim 1, wherein the track width of the track slider (14) in the horizontal direction is equal to the width of the trough body track (200) by adjusting the position of the first adjusting polished rod (21) in the horizontal direction, the track length of the track slider (14) in the vertical direction is equal to the width of the trough body track (200) by adjusting the position of the second adjusting polished rod (22) in the vertical direction, the position of the slotting component (4) is adjusted by the concentric component (7), the slotting component (4) is positioned at the symmetrical center of the slotting track (100), and the initial length of the track motor sliding rod (13) is adjusted by the arc component (8).

3. The trajectory adjusting method according to claim 2, wherein the trajectory adjusting method is used for a slotting method for ceramic tiles with circular arcs, and the slotting method for ceramic tiles with circular arcs comprises the following steps: step a: obtaining a tank body track (200); step b: adjusting a slotting track (100) according to the obtained track (200) of the groove body; step c: the slotting track (100) is overlapped with the groove body track (200); step d: and grooving the edge of the ceramic tile to be grooved.

4. A slotting method with an arc ceramic tile seam beautifying function with a track adjusting method is characterized in that the method runs on a slotting device with an arc ceramic tile seam beautifying function, and the slotting device comprises: track subassembly (1), orbit adjustment subassembly (2), frame (3), fluting subassembly (4), concentric subassembly (7) and circular arc subassembly (8), frame (3) inside is provided with track subassembly (1), is provided with fluting subassembly (4) on track subassembly (1) and is used for adjusting concentric subassembly (7) of fluting subassembly (4) position, and fluting subassembly (4) moves along square orbit under the drive of track subassembly (1), circular arc subassembly (8) are used for making the four corners of square orbit produces the circular arc, fluting subassembly (4) are used for the beautiful seam fluting, track subassembly (1) includes: a track motor (11), a track motor sleeve (12), a track motor slide bar (13), a track slide block (14), a first track slide bar (15) and a second track slide bar (16), the track motor (11) is fixed on the frame (3), the rotating shaft of the track motor (11) is connected with a track motor sleeve (12), the track motor sleeve (12) is sleeved on a track motor sliding rod (13), one end of the track motor sliding rod (13) is provided with a hinge base, a spring is arranged between the hinge base and the track motor sleeve (12), the hinged seat is rotationally connected with a track sliding block (14), the track sliding block (14) is sleeved on a first track sliding rod (15), the end part of the first track sliding rod (15) is connected with a second track sliding rod (16) through a sliding block, and both ends of the second track slide bar (16) are fixed on the frame (3), the motion track of the track sliding block (14) forms a slotting track (100); the trajectory adjustment assembly (2) comprises: the track adjusting mechanism comprises a first adjusting polished rod (21), a second adjusting polished rod (22), a first adjusting screw rod (23) and a second adjusting screw rod (24), wherein the first adjusting polished rod (21) is used for limiting the moving distance of a track sliding block (14) in the horizontal direction, the first adjusting screw rod (23) is connected with the first adjusting polished rod (21) through a sliding block, the second adjusting polished rod (22) is used for limiting the moving distance of the track sliding block (14) in the vertical direction, and the second adjusting screw rod (24) is connected with the second adjusting polished rod (22) through a sliding block; the concentric assembly (7) comprises: the track motor comprises a concentric screw rod (71), concentric polished rods (72) and concentric sliding blocks (73), wherein the concentric screw rod (71) is obliquely arranged, two ends of the concentric screw rod (71) are fixed on the frame (3) through shaft seats, the two sides of the concentric screw rod (71) are respectively provided with one concentric polished rod (72) in parallel, the lower ends of the concentric sliding blocks (73) are sleeved on the concentric screw rod (71) and the concentric polished rods (72), and the upper ends of the concentric sliding blocks (73) are connected with the track motor (11); circular arc subassembly (8) set up the tip of orbit motor slide bar (13), circular arc subassembly (8) include: circular arc slider (81), circular arc lead screw (82) and circular arc motor (83), the inside of orbit motor slide bar (13) is provided with the axial cavity, and the side of axial cavity is provided with the axial spout, circular arc slider (81) include: the track motor comprises an outer stop block (811), an inner sliding block (812) and a connecting end (813), wherein the outer stop block (811) is sleeved outside a track motor sliding rod (13), the inner sliding block (812) is embedded inside the track motor sliding rod (13), the connecting end (813) is embedded in an axial sliding groove in the track motor sliding rod (13) and connects the outer stop block (811) with the inner sliding block (812), an arc lead screw (82) is arranged in an axial cavity of the track motor sliding rod (13), the arc lead screw (82) is connected with the inner sliding block (812), one end of the arc lead screw (82) is connected with an arc motor (83), and the arc motor (83) is fixed on the track motor sliding rod (13);

the slotting method comprises the following steps:

step a: measuring to obtain the width of a ceramic tile to be grooved and the radius of the chamfering arc at the four corners of the ceramic tile, adding the width of the ceramic tile to be grooved to the width of a groove body to be grooved to obtain the width of a groove body track (200), and simultaneously obtaining the groove body track (200) according to the radius of the chamfering arc at the four corners of the ceramic tile;

step b: adjusting a slotting track (100) according to the obtained groove body track (200), adjusting the position of a first adjusting polished rod (21) in the horizontal direction to enable the track width of a track sliding block (14) in the horizontal direction to be equal to the width of the groove body track (200), adjusting the position of a second adjusting polished rod (22) in the vertical direction to enable the track length of the track sliding block (14) in the vertical direction to be equal to the width of the groove body track (200), adjusting the position of a slotting component (4) through a concentric component (7) to enable the slotting component (4) to be located at the symmetrical center of the slotting track (100), and adjusting the initial length of a track motor sliding rod (13) through an arc component (8); when the slotting track (100) is adjusted, reading of a track pointer (281) fixed on a sliding block, connected with a first adjusting screw rod (23) and a first adjusting polished rod (21), on a track scale (282) is read to obtain the size of the slotting track (100), and the slotting track (100) is adjusted according to the size of the read value until the size of the slotting track (100) is equal to that of the slot body track (200);

step c: placing the slotting device on the surface of a ceramic tile to be slotted to enable the slotting track (100) to be overlapped with the groove body track (200);

step d: a track motor sliding rod (13) is rotated through a track motor (11), a track sliding block (14) is made to slide on a first track sliding rod (15) through the track motor sliding rod (13), the track sliding block (14) drives a slotting component (4) to move, the slotting component (4) is made to move along the track of a slotting track (100) in the vertical direction, when the slotting component (4) slides to the arc position of the slotting track (100), the length of the track motor sliding rod (13) is adjusted through an arc component (8) to enable four corners of the slotting track (100) to form arc chamfers, the track motor sliding rod (13) enables the first track sliding rod (15) to slide on a second track sliding rod (16), the first track sliding rod (15) drives the track sliding block (14) to move, and the track sliding block (14) drives the slotting component (4) to move along the track of the slotting track in the horizontal direction, repeating the steps, so that the slotting component (4) slots the edge of the ceramic tile to be slotted along the slotting track (100).