CN108491669A - A kind of ceramic tile distribution calculation device - Google Patents

Abstract

The present invention relates to floor tiles to be laid with analog machine technical field, specially a kind of ceramic tile distribution calculation device, including ceramic tile distribution simulation phantom frame and ceramic tile distribution simulation bar group；The ceramic tile distribution simulation bar group of several groups vertical interlaced setting is provided in the ceramic tile distribution simulation frame；The present invention simulates ground laying condition by selling place in prior floor tile now, it directly finds out and has what size residue or spilling, floor tile is cut in scene by special tool, or directly selects the aesthetics that the floor tile guarantee of purchase other sizes is laid with.

Description

A kind of ceramic tile distribution calculation device

Technical field

The present invention relates to floor tiles to be laid with analog machine technical field more particularly to a kind of ceramic tile distribution calculation device.

Background technology

A kind of floor decorative material of floor tile, also known as floor tile.It is fired with clay；Specification is a variety of；Matter heavily fortified point, unit weight Small, pressure resistance is wear-resisting, can be moisture-proof；Some has decoration function through glazing treatment；It is chiefly used in the ground of public building and civil buildings And flooring；The kind of floor tile has all-body tile, glazed tile, entire body polishing brick and tile, pattern permeating tile, oozes colored polished bricks etc., these floors Brick is not all anti-skidding, especially there is old man and child in family, has to do anti-skidding test in purchase, in order to avoid go out to ask Topic.Common floor tile has：Full-glazed tile, vitrified tile, polished bricks, matt brick, glazed tile, stamp brick, anti-skid brick, extraordinary acid-proof Brick；

There are two types of laid process for floor tile, and one is dry-laids, and one is wet-layings.The two difference lies in：

1, dry-laid is the marmorean method of paving in fact, 1：3 cement mortar, hand are pinched agglomerating, and landing is bloomed.The hollowing of dry-laid Possibility is relatively low, also compares saving, the duration is saved, but the mortar thickness of dry-laid is bigger (3~4cm), in parlor as It is that dry-laid can be used in big specification brick.

2, wet-laying is directly to be put on behind brick by cement, and then directly on the wall or ground, metope tiling is all with wet for paving Paving, bit brick and ground flat degree it is preferable if it is relatively good with wet-laying, can frugally face thickness；

The quality of two kinds of laid process is identical, and selecting which kind of method to see concrete condition, (laid process that general bricklayer's makes is determined It is correct to establish a capital.) general kitchen and toilet be all to use wet-laying, parlor can dry-laid.Dry-laid ground mortar needs certain thickness (at least 3~4cm), kitchen surface thickness affirmative is inadequate, wet-laying.

However no matter which kind of laying method, current floor tile is all directly to be laid with by worker, and worker is with an end wall surface Basis is laid with successively, when size is inadequate or slightly error, the progress for ensureing to be laid with work by cutting floor tile, and due to The tool of paviour is limited, and the cutting of floor tile is not only easily damaged floor tile, increases decoration cost, destroys and is laid with beauty

Invention content

The present invention overcomes above-mentioned the deficiencies in the prior art, provide a kind of ceramic tile distribution calculation device.The present invention passes through Place is sold in prior floor tile now and simulates ground laying condition, is directly found out and is had what size residue or spilling, it is existing Floor tile is cut in field by special tool, or directly selects the aesthetics that the floor tile guarantee of purchase other sizes is laid with.

Technical scheme of the present invention：

A kind of ceramic tile distribution calculation device, including ceramic tile distribution simulation phantom frame and ceramic tile distribution simulation bar group；It is described The ceramic tile distribution simulation bar group of several groups vertical interlaced setting is provided in ceramic tile distribution simulation frame；

The ceramic tile distribution simulation frame includes simulation crossbeam group and simulation vertical beam group；The simulation crossbeam group includes actively Extend to simulate crossbeam and be servo-actuated to extend and simulate crossbeam, the active extension simulation crossbeam includes first crossbeam and second cross beam, institute It states first crossbeam and the second cross beam is oppositely arranged, extension groove one there are four processing on the left side of the first crossbeam, Four groups of extension connecting rods one are provided on the second cross beam end face opposite with the first crossbeam, the extension connecting rod one is arranged In the extension groove one, extension connecting rod one end is provided with one group of limit card board one, the setting of extension groove one end There is limited location snap ring one corresponding with the limit card board one, one group of extension driving device, institute are additionally provided in the first crossbeam The movable end for stating extension driving device is fixedly connected with the second cross beam, the upper end of the first crossbeam and the second cross beam Face is equipped with one group of scale tape measure, and 0 groove of the scale tape measure is arranged in the end of the first crossbeam, the scale tape measure The other end is also rolled up on one group of wind-up roll, and the point of contact of the scale tape measure and the wind-up roll is reading groove point, the winding Roller is arranged in the second cross beam, and the wind-up roll both ends are fixedly connected with one group of torsional spring respectively, and the torsional spring other end is also It is fixedly connected with the second cross beam inner wall；The servo-actuated extension simulation crossbeam includes third crossbeam and the 4th crossbeam, and described the Three crossbeams and the 4th crossbeam are oppositely arranged, and there are four extension grooves two for processing on the left side of the third crossbeam, described Four groups of extension connecting rods two are provided on the 4th crossbeam end face opposite with the third crossbeam, the extension connecting rod two is arranged in institute It states in extension groove two, extension connecting rod one end is provided with one group of limit card board two, one end setting of the extension groove two There is limited location snap ring corresponding with the limit card board two two；

The simulation vertical beam group includes that vertical beam and the servo-actuated simulation vertical beam that extends are simulated in actively extension；The active, which is extended, simulates Vertical beam includes the first vertical beam and the second vertical beam, and beam structure phase is simulated in active extension simulation vertical beam and active extension Together, the servo-actuated extension simulation vertical beam includes third vertical beam and the 4th vertical beam, and servo-actuated the extensions simulation vertical beam and it is described with The dynamic simulation beam structure that extends is identical；The active extension simulates crossbeam and simulates vertical beam with active extension respectively and be servo-actuated extension Simulation vertical beam is detachably connected, and the other end of the active extension simulation vertical beam and the servo-actuated simulation vertical beam that extends also is servo-actuated with described The simulation crossbeam that extends is detachably connected, and the active, which is extended, simulates opposite two of crossbeam and the servo-actuated simulation crossbeam that extends It is machined with one group of movement T-slot on end face, ceramic tile distribution simulation bar group is provided in two groups of mobile T-slots being oppositely arranged；

The ceramic tile distribution simulation bar group includes that more dry group simulation cross bars and several groups simulate montant, and the simulation montant is equal It is arranged between the mobile T-slot being oppositely arranged at two groups, is in left end and being on the simulation montant of right end and is arranged with Several groups move supporting block, and installation groove corresponding with the simulation cross bar is machined in the removable supporting block, described The simulation cross bar is provided in installation groove.

Further, the active extension simulation crossbeam and the servo-actuated both ends for extending simulation crossbeam are both provided with one group first Extend and connect wing plate, described first extends connection wing plate as right angled triangle wing plate, and first extends on the bevel edge for connecting wing plate It is provided with one group of connection positioning column, the active extension simulation vertical beam and the servo-actuated both ends for extending simulation vertical beam are respectively arranged with one Group the second extension connection wing plate, the second extension connection wing plate is also right angled triangle wing plate, and extends with first and connect wing plate Size is corresponding, and it is recessed to be machined with connection positioning corresponding with the connection positioning column on the bevel edge of the second extension connection wing plate Slot, the first extension connection wing plate and the second extension connection wing plate 160 pass through the connection positioning column and connection positioning The matching relationship of groove is detachably connected, and the first extension connection wing plate and second extends outside connection wing plate 160 after connection End cap is equipped with one group of fixed frame, and there are four threaded holes for the fixed frame upper surface processing, and first extension connects the wing Plate and second extends on connection wing plate 160 also processing respectively there are two threaded hole, and the fixed frame is by fixing bolt by institute It states the first extension connection wing plate and the second extension connection wing plate 160 is fixed.

Further, the extension driving device includes extension leading screw, and one group of leading screw spiral shell is provided on the extension leading screw Mother is provided with two groups of extension drive rods on the feed screw nut, the other end of extension drive rod described in two groups with one group of extension Push plate is fixedly connected, and the other end of the extension leading screw is provided with one group of driven helical gear, the driven helical gear and one group of drive Dynamic helical gear engagement, the driving helical gear are fixedly connected with one group of driving handle, and prolonging inside the first crossbeam is arranged Exhibition push plate is fixedly connected with the end of second cross beam；The end of extension push plate and the second vertical beam inside first vertical beam is set Portion is fixedly connected.

Further, it is respectively arranged on the third crossbeam and the 4th crossbeam and is provided with one group of datum plate, and set Set the front end face of the datum plate on the third crossbeam and the 4th crossbeam and the wind-up roll being arranged in the second vertical beam Central axes are in same level.

Further, it is also respectively arranged with one group of datum plate on the third vertical beam and the 4th vertical beam, and be arranged The right end face of the third vertical beam and the datum plate on the 4th vertical beam and it is arranged in the wind-up roll in second cross beam Axis is in same level.

Further, the simulation cross bar and the simulation montant include several groups square bar and several groups intermediate connecting rod, It is arranged and is machined with one group of link groove corresponding with the intermediate connecting rod size, other all described square bars on the square bar at both ends Both ends be respectively machined with link groove, square bar described in every two groups passes through the adjustable connection of one group of intermediate connecting rod.

Further, the width of the simulation cross bar and several groups simulation montant is 1.5-2mm.

A kind of computational methods of ceramic tile distribution calculation device, this method comprises the following steps：

Step a：Ground is laid with to divide：According to the size on ground to be laid, ground to be laid is divided into different rectangles, Ground after each division is simulated respectively,

Step b：；The simulation of ground width：Ceramic tile distribution simulation phantom frame is adjusted, according to the width on ground to be laid, Active is extended to simulate vertical beam and be servo-actuated the simulation vertical beam that extends and fix with active extension simulation crossbeam by fixed frame respectively and is connected It connecing, rotation, which is actively extended, simulates vertical beam extension driving device, and the second vertical beam in active extension vertical beam is driven to extend, due to Actively extension simulation vertical beam and servo-actuated extension simulation vertical beam are fixedly connected with the simulation crossbeam that actively extends, so described be servo-actuated is prolonged Exhibition simulation vertical beam extends therewith, until the active graduated scale reading on simulation vertical beam that extends is of same size with ground to be laid When, stop extending；Complete the simulation to ground width

Step c：The simulation of patch length：Active is extended and simulates vertical beam and servo-actuated simulation vertical beam and the active extension mould of extending Active is extended by fixed frame and simulates crossbeam and servo-actuated extension simulation crossbeam and prolong by the fixed frame dismounting between quasi- crossbeam Servo-actuated extension simulation vertical beam after exhibition is fixedly connected, and rotation, which is actively extended, simulates the extension driving device of crossbeam, and driving is actively prolonged Second cross beam in exhibition simulation crossbeam, due to active extend simulation crossbeam and it is servo-actuated extend simulate crossbeam with being servo-actuated after extension The simulation vertical beam that extends is fixedly connected, so the servo-actuated extension simulation crossbeam extends therewith, after the completion of extension, is completed to be laid The simulation of patch length

Step d：The simulation that floor tile is laid with：Montant will be simulated and open distribution according to the size uniform of floor tile to be laid Extend between simulation vertical beam and the servo-actuated simulation vertical beam that extends in active, while the removable supporting block on montant will be simulated according to ground Plate brick size uniform is arranged on simulation montant, and then simulation cross bar is placed in removable supporting block, is completed to floor tile The simulation of laying.

The present invention has the advantages that compared with the existing technology：

The present invention simulates ground laying condition by selling place in prior floor tile now, directly finds out and how many ruler understood Floor tile is cut in very little residue or spilling, scene by special tool, or directly selects the floor tile of purchase other sizes Ensure the aesthetics being laid with；

Simulation crossbeam group and simulation vertical beam group is arranged in the present invention, adjustable by simulation crossbeam group and the length for simulating vertical beam group The performance of section ensures that the present invention can simulate the ground of most sizes, the present apparatus different by the way that multigroup size is arranged, often A device can simulate the ground of certain size range, it is only necessary to buy the several groups present apparatus can simulate life in it is exhausted The floor measurements of most of families；

It is respectively arranged on third crossbeam of the present invention and the 4th crossbeam and is provided with one group of datum plate, and be arranged described The central axes of the front end face of third crossbeam and the datum plate on the 4th crossbeam and the wind-up roll being arranged in the second vertical beam are in same One horizontal plane；Also it is respectively arranged with one group of datum plate on third vertical beam and the 4th vertical beam, and is arranged in the third vertical beam It is in same level with the right end face of the datum plate on the 4th vertical beam and the central axes for the wind-up roll being arranged in second cross beam Face；By the way that datum plate is arranged, ensure device in simulation process, all sizes comply fully with floor measurements, from the end of a face wall Face mould is intended to the end face of another face wall, without scale error；

It is 1.5-2mm that the present invention, which simulates cross bar and the width of several groups simulation montant, in simulation process, is not only led to It crosses simulation cross bar and simulates the simulation that montant carries out floor tile laying, also pass through the size of the size and simulation montant of simulating cross bar The gap being laid with to floor tile is simulated, and 1.5-2mm is the best gap that floor tile is laid with, and ensures the complete of simulation process It is beautiful.

Description of the drawings

Fig. 1 is the structural schematic diagram of the present invention；

Fig. 2 is the internal structure schematic diagram of the active extension simulation crossbeam of the present invention；

Fig. 3 is the A partial enlarged views of Fig. 2；

Fig. 4 is the B partial enlarged views of Fig. 2；

Fig. 5 is the position of graduated scale and the servo-actuated datum plate for extending and simulating crossbeam that the active of the present invention is extended on simulation vertical beam Set relation schematic diagram；

Fig. 6 is the position of graduated scale and the servo-actuated datum plate for extending and simulating vertical beam that the active of the present invention is extended on simulation crossbeam Set relation schematic diagram；

Fig. 7 is the internal structure schematic diagram of the servo-actuated extension simulation crossbeam of the present invention；

Fig. 8 is the internal structure schematic diagram of the simulation cross bar of the present invention；

Fig. 9 is the schematic diagram of the simulation of the ground width of the present invention；

Figure 10 is the schematic diagram of the simulation of the patch length of the present invention；

Figure 11 is the structural schematic diagram of the mobile T-slot of the present invention；

Figure 12 is the structural schematic diagram of the removable supporting block of invention.

1- ceramic tiles distribution simulation frame in figure；2- ceramic tile distribution simulation bar groups；3- extension driving devices；4- scale tape measures； 5- wind-up rolls；6- datum plates；11- simulates crossbeam group；22- simulates vertical beam group；111- first crossbeams；112- second cross beams；1110- Extension groove one；1120- extensions connecting rod one；1111- limited location snap rings one；1121- limit card boards one；121- third crossbeams；122- 4th crossbeam；1210- extensions groove two；1220- extensions connecting rod two；1211- limited location snap rings two；1221- limit card boards two；220- Actively extend simulation vertical beam；The servo-actuated simulation vertical beams that extend of 221-；The first vertical beams of 2201-；The second vertical beams of 2202-；2211- thirds are horizontal Beam；The 4th crossbeams of 2212-；110-, which actively extends, simulates crossbeam；The servo-actuated simulation crossbeams that extend of 120-；130- moves T-slot；140- First, which extends, connects wing plate；150- connection positioning columns；160- second, which extends, connects wing plate；170- connection location holes；180- is fixed Frame；301- extension leading screws；302- feed screw nuts；303- extension drive rods；304- extension push plates；305- drives handle；201- Simulate cross bar；202- simulates montant；203- moves supporting block；2021- square bars；2022- intermediate connecting rods；2023- link grooves.

Specific implementation mode

Below with reference to attached drawing, the present invention is described in detail.

Embodiment one：

In conjunction with shown in Fig. 1-Fig. 4 and Fig. 7, a kind of ceramic tile distribution calculation device disclosed in the present embodiment, including ceramic tile distribution Phantom frame 1 and ceramic tile distribution simulation bar group 2；The setting of several groups vertical interlaced is provided in the ceramic tile distribution simulation frame 1 Ceramic tile distribution simulation bar group 2；

The ceramic tile distribution simulation frame 1 includes simulation crossbeam group 11 and simulation vertical beam group 22；The simulation crossbeam group 11 Extend to simulate crossbeam 110 and be servo-actuated to extend including active and simulate crossbeam 120, the active extension simulation crossbeam 110 includes first Crossbeam 111 and second cross beam 112, the first crossbeam 111 and the second cross beam 112 are oppositely arranged, the first crossbeam 111 Left side on processing there are four extension groove 1, the end face opposite with the first crossbeam 111 of the second cross beam 112 On be provided with four groups of extension connecting rods 1, the extension connecting rod 1 is arranged in the extension groove 1, described One 1120 end of extension connecting rod is provided with one group of limit card board 1, and one 1110 end of extension groove is provided with and the limit One 1121 corresponding limited location snap ring 1 of snap-gauge is additionally provided with one group of extension driving device 3, institute in the first crossbeam 111 The movable end for stating extension driving device 3 is fixedly connected with the second cross beam 112, the first crossbeam 111 and second cross The upper surface of beam 112 is equipped with one group of scale tape measure 4, and 0 groove of the scale tape measure 4 is arranged in the first crossbeam 111 End, 4 other end of scale tape measure are also rolled up on one group of wind-up roll 5, the point of contact of the scale tape measure 4 and the wind-up roll 5 For read groove point, the wind-up roll 5 be arranged in the second cross beam 112,5 both ends of the wind-up roll respectively with one group of torsional spring It is fixedly connected, the torsional spring other end is also fixedly connected with 112 inner wall of the second cross beam；Crossbeam is simulated in the servo-actuated extension 120 include third crossbeam 121 and the 4th crossbeam 122, and the third crossbeam 121 and the 4th crossbeam 122 are oppositely arranged, described There are four extension groove 2 1210, the 4th crossbeam 122 and the third crossbeams for processing on the left side of third crossbeam 121 Four groups of extension connecting rods 2 1220 are provided on 121 opposite end faces, the extension connecting rod 2 1220 is arranged in the extension groove In 2 1210,2 1220 end of extension connecting rod is provided with one group of limit card board 2 1221, and the one of the extension groove 2 1210 End is provided with limited location snap ring corresponding with the limit card board 2 1,221 2 1211；

The simulation vertical beam group 22 includes that vertical beam 220 and the servo-actuated simulation vertical beam 221 that extends are simulated in actively extension；The active Extend simulation vertical beam 220 include the first vertical beam 2201 and the second vertical beam 2202, and the active extend simulation vertical beam 220 with it is described Simulation 110 structure of crossbeam that actively extends is identical, and the servo-actuated extension simulation vertical beam 221 includes third vertical beam 2211 and the 4th vertical beam 2212, and the servo-actuated extension simulation vertical beam 221 is identical as servo-actuated extension simulation 120 structure of crossbeam；The active is extended It simulates crossbeam 110 and is detachably connected respectively with active extension simulation vertical beam 220 and servo-actuated extension simulation vertical beam 221, the master It is removable that the other end of dynamic extension simulation vertical beam 220 and the servo-actuated simulation vertical beam 221 that extends also simulates crossbeam 120 with the servo-actuated extension Connection is unloaded, the active extends to simulate to be added on crossbeam 110 and the servo-actuated two opposite end faces for simulating crossbeam 120 of extending Work has one group of movement T-slot 130, and ceramic tile distribution simulation bar group 2 is provided in two groups of mobile T-slots 130 being oppositely arranged；

The ceramic tile distribution simulation bar group 2 includes that more dry group simulation cross bars 201 and several groups simulate montant 202, the mould Quasi- montant 202 is arranged between the mobile T-slot 130 that two groups are oppositely arranged, and is in left end and is in the simulation of right end It is arranged with several groups on montant 202 and moves supporting block 203, is machined with and the simulation in the removable supporting block 203 201 corresponding installation groove of cross bar is provided with the simulation cross bar 201 in the installation groove.

Embodiment two：

As seen in figs. 5-6, on the basis of embodiment one, the active, which extends to simulate crossbeam 110 and be servo-actuated to extend, simulates The both ends of crossbeam 120 are both provided with one group of first connection wing plate 140 that extends, and described first extends connection wing plate 140 as right angle three Angular wing plate, and it is provided with one group of connection positioning column 150, the active extension mould on the bevel edge of the first extension connection wing plate 140 Quasi- vertical beam 220 and the servo-actuated both ends for extending simulation vertical beam 221 are respectively arranged with one group of second connection wing plate 160 that extends, and second prolongs Exhibition connection wing plate 160 is also right angled triangle wing plate, and corresponding with the first extension connection 140 size of wing plate, described second It is machined with connection location hole corresponding with the connection positioning column 150 on the bevel edge of extension connection wing plate 160, described first extends Connect that the extension connection wing plate 160 of wing plate 140 and second passes through the connection positioning column 150 and the connection location hole 170 It is detachably connected with relationship, and 160 outer end of the first extension connection extension connection wing plate of wing plate 140 and second is arranged after connection There is one group of fixed frame 180, there are four threaded holes for the processing of 180 upper surface of the fixed frame, and first extension connects the wing Plate 140 and second extends to connect also to be processed on wing plate 160 there are two threaded hole respectively, and the fixed frame 180 passes through fixed spiral shell Bolt fixes the first extension connection wing plate 140 and second extension connection wing plate 160, passes through setting connection positioning column and connection The matching relationship of location hole, ensure ceramic tile distribution simulation frame 1 is installed as right angle frame, ensures that size does not have error.

Embodiment three；

As in Figure 2-4 on the basis of embodiment two, extension driving device described in the present embodiment 3 includes extension leading screw 301, one group of feed screw nut 302 is provided on the extension leading screw 301, and two groups of extensions are provided on the feed screw nut 302 and are driven Lever 303, the other end of extension drive rod 303 described in two groups are fixedly connected with one group of extension push plate 304, the extension leading screw 301 other end is provided with one group of driven helical gear, and the driven helical gear is engaged with one group of driving helical gear, and the driving is oblique Gear is fixedly connected with one group of driving handle 305, the extension push plate 304 being arranged inside the first crossbeam 111 and the second cross The end of beam 112 is fixedly connected；The end of extension push plate 304 inside first vertical beam 2201 and the second vertical beam 2202 is set Portion is fixedly connected.

Example IV；

As shown in figure 5, on the basis of embodiment three, third crossbeam described in the present embodiment 121 and the 4th crossbeam It is respectively arranged on 122 and is provided with one group of datum plate 6, and be arranged on the third crossbeam 121 and the 4th crossbeam 122 The central axes of the front end face of datum plate 6 and the wind-up roll 5 being arranged in the second vertical beam 2202 are in same level.

Embodiment five；

As shown in fig. 6, on the basis of example IV, third vertical beam described in the present embodiment 2211 and the 4th vertical beam Also it is respectively arranged with one group of datum plate 6 on 2212, and is arranged on the third vertical beam 2211 and the 4th vertical beam 2212 The central axes of the right end face of datum plate 6 and the wind-up roll 5 being arranged in second cross beam 112 are in same level.

Embodiment six：

As shown in figure 8, on the basis of embodiment five, cross bar 201 and the simulation montant are simulated described in the present embodiment 202 include several groups square bar 2021 and several groups intermediate connecting rod 2022, is arranged and is machined with one group on the square bar 2021 at both ends The both ends of link groove 2023 corresponding with 2022 size of the intermediate connecting rod, other all square bars 2021 respectively process There is link groove 2023, square bar 2021 described in every two groups by the adjustable connection of one group of intermediate connecting rod 2022, is either simulated Cross bar still simulates montant and can therewith convert with the change in size of ceramic tile distribution simulation frame 1, ensure the normal of device It uses.

Embodiment seven：

The width of cross bar 201 and several groups simulation montant 202 is simulated on the basis of embodiment six, described in the present embodiment It is 1.5-2mm；In simulation process, the simulation of floor tile laying is carried out not only by simulation cross bar and simulation montant, also It is simulated by simulating the gap that the size of cross bar and the size of simulation montant are laid with floor tile, and 1.5-2mm is floor The best gap that brick is laid with, ensures the perfection of simulation process.

Embodiment eight：

As shown in Figure 9 and Figure 10：

A kind of computational methods of ceramic tile distribution calculation device, this method comprises the following steps：

Step a：Ground is laid with to divide：According to the size on ground to be laid, ground to be laid is divided into different rectangles, Ground after each division is simulated respectively,

Step b：；The simulation of ground width：Ceramic tile distribution simulation frame 1 is adjusted, according to the width on ground to be laid, will be led Dynamic extend simulates vertical beam 220 and is servo-actuated the simulation vertical beam 221 that extends respectively by fixed frame 180 and active extension simulation crossbeam 110 are fixedly connected, and rotation, which is actively extended, simulates 220 extension driving device 3 of vertical beam, drives the second vertical beam in active extension vertical beam 2202 extend, and extend to simulate vertical beam 220 and be servo-actuated the simulation vertical beam 221 that extends due to active and simulate crossbeam with active extension 110 are fixedly connected, so the servo-actuated extension simulation vertical beam 221 extends therewith, until active is extended the quarter on simulation vertical beam 220 Spend ruler reading with ground to be laid it is of same size when, stop extend；Complete the simulation to ground width

Step c；The simulation of patch length：Active is extended and simulates vertical beam 220 and servo-actuated extend simulation vertical beam 221 and active Extend simulation crossbeam 110 between fixed frame 180 remove, by fixed frame 180 will actively extend simulation crossbeam 110 and with The dynamic simulation crossbeam 120 that extends is fixedly connected with the servo-actuated extension simulation vertical beam 221 after extension, and rotation, which is actively extended, simulates crossbeam 110 extension driving device 3, actively the second cross beam 112 in crossbeam 110 is simulated in extension for driving, due to the simulation cross that actively extends Beam 110 and the servo-actuated simulation crossbeam 120 that extends are fixedly connected with the servo-actuated extension simulation vertical beam 221 after extension, thus it is described with The dynamic simulation crossbeam 120 that extends extends therewith, after the completion of extension, completes the simulation to patch length to be laid

Step d：The simulation that floor tile is laid with：Montant 202 will be simulated to open according to the size uniform of floor tile to be laid It is distributed in and actively extends between simulation vertical beam 220 and the servo-actuated simulation vertical beam 221 that extends, while is removable on montant 202 by simulating Dynamic supporting block 203 is arranged according to floor tile size uniform on simulation montant 202, is then placed on simulation cross bar 201 removable In dynamic supporting block 203, the simulation being laid with to floor tile is completed.

Embodiment nine：

As shown in figure 11, on the basis of embodiment one, both ends are also respectively provided with T on the simulation cross bar in the present embodiment Type sliding block 131, the T-type sliding block match with 130 size of mobile T-slot, and one is posted inside the mobile T-slot 130 Group magnetic metal piece, the T-type sliding block upper and lower ends are respectively arranged with one group of auxiliary shifting roller 132, and the T-type sliding block One end is provided with one group of electromagnet 133, and the electromagnet is electrically connected with one group of control switch, and the control switch is arranged described It simulates on cross bar.

Embodiment ten：

As shown in figure 12, on the basis of embodiment nine, the removable support that is arranged on the simulation cross bar in the present embodiment It is machined with one group of threaded hole on block 203, one group of positioning bolt 204,204 one end of the positioning bolt are provided in the threaded hole It is in contact with the simulation cross bar, the other end is provided with one group and screws handle 205, and positioning bolt is turned by screwing handle, will Removable supporting block 203 is fixed with simulation cross bar.

Embodiment 11：

Unlike embodiment three, the extension driving device in the present embodiment is one group of electric pushrod or one group of hydraulic pressure Cylinder.

Above example is only to the exemplary description of this patent does not limit its scope of protection, people in the art Member can also be changed its part, as long as it does not exceed the essence of this patent, within the protection scope of the present patent.

It should be noted that in the embodiment above, as long as reconcilable technical solution can carry out permutation and combination, this Field technology personnel can be possible to according to the mathematical knowledge limit of permutation and combination, and therefore, the present invention is no longer to permutation and combination Technical solution afterwards is illustrated one by one, but it is understood that presently disclosed for the technical solution after permutation and combination.

Claims (1)

1. a kind of ceramic tile distribution calculation device, it is characterised in that：Including ceramic tile distribution simulation frame (1) and ceramic tile distribution simulation bar Group (2)；The ceramic tile distribution simulation bar group (2) of several groups vertical interlaced setting is provided in the ceramic tile distribution simulation frame (1)；

The ceramic tile distribution simulation frame (1) includes simulation crossbeam group (11) and simulation vertical beam group (22)；The simulation crossbeam group (11) include actively extending to simulate crossbeam (110) and the servo-actuated simulation crossbeam (120) that extends, the active, which is extended, simulates crossbeam (110) include first crossbeam (111) and second cross beam (112), the first crossbeam (111) and the second cross beam (112) phase To being arranged, there are four extension groove one (1110), the second cross beams for processing on the left side of the first crossbeam (111) (112) and four groups of extension connecting rods one (1120), the extension connecting rod one are provided on the opposite end face of the first crossbeam (111) (1120) in the extension groove one (1110), extension connecting rod one (1120) end is provided with one group of limit card board one for setting (1121), extension groove one (1110) end is provided with limited location snap ring corresponding with the limit card board one (1121) one (1111), one group of extension driving device (3), the work of the extension driving device (3) are additionally provided in the first crossbeam (111) Moved end is fixedly connected with the second cross beam (112), the upper surface of the first crossbeam (111) and the second cross beam (112) It is equipped with one group of scale tape measure (4), zero groove of the scale tape measure (4) is arranged in the end of the first crossbeam (111), institute It states scale tape measure (4) other end also to roll up on one group of wind-up roll (5), the point of contact of the scale tape measure (4) and the wind-up roll (5) To read groove point, the wind-up roll (5) setting is in the second cross beam (112), and wind-up roll (5) both ends are respectively with one Group torsional spring is fixedly connected, and the torsional spring other end is also fixedly connected with the second cross beam (112) inner wall；The servo-actuated extension mould Quasi- crossbeam (120) includes third crossbeam (121) and the 4th crossbeam (122), the third crossbeam (121) and the 4th crossbeam (122) it is oppositely arranged, extension groove two (1210) there are four processing on the left side of the third crossbeam (121), the described 4th Four groups of extension connecting rods two (1220) are provided on crossbeam (122) and the opposite end face of the third crossbeam (121), the extension connects In the extension groove two (1210), extension connecting rod two (1220) end is provided with one group of limiting card for bar two (1220) setting One end of plate two (1221), the extension groove two (1210) is provided with limiting card corresponding with the limit card board two (1221) Ring two (1211)；

The simulation vertical beam group (22) includes actively extend simulation vertical beam (220) and the servo-actuated simulation vertical beam (221) that extends；The master The dynamic simulation vertical beam (220) that extends includes the first vertical beam (2201) and the second vertical beam (2202), and active extension simulation vertical beam (220) simulation crossbeam (110) structure that extends with the active is identical, and the servo-actuated extension simulation vertical beam (221) includes that third is perpendicular Beam (2211) and the 4th vertical beam (2212), and the servo-actuated extension simulation vertical beam (221) simulates crossbeam with the servo-actuated extension (120) structure is identical；The active simulation crossbeam (110) that extends prolongs with the simulation vertical beam (220) and being servo-actuated of extending respectively with active Exhibition simulation vertical beam (221) is detachably connected, and the active extension simulates vertical beam (220) and is servo-actuated the simulation vertical beam (221) that extends The other end is also detachably connected with the servo-actuated extension simulation crossbeam (120), and the active is extended simulation crossbeam (110) and described It is machined with one group of movement T-slot (130) on two opposite end faces of the servo-actuated simulation crossbeam (120) that extends, two groups set relatively It is provided with ceramic tile distribution simulation bar group (2) in the mobile T-slot (130) set；

The ceramic tile distribution simulation bar group (2) includes that more dry group simulation cross bars (201) and several groups simulate montant (202), described Simulation montant (202) is arranged between the mobile T-slot (130) that two groups are oppositely arranged, and is in left end and is in right end Simulation montant (202) on be arranged with several groups and move supporting block (203), process on the removable supporting block (203) There is installation groove corresponding with simulation cross bar (201), the simulation cross bar (201) is provided in the installation groove.