CN215619169U - Ceramic tile chamfering machine - Google Patents

Abstract

The utility model belongs to the technical field of building material processing machinery, and particularly relates to a tile chamfering machine which comprises a machine body, wherein the machine body comprises an inclined frame and a support frame, the upper end of the inclined frame is provided with a sliding guide rail, and a cutting machine is arranged on the sliding guide rail in a sliding manner; the cutting machine slides on the sliding guide rail to complete the cutting of the ceramic tile, and is labor-saving, efficient and accurate in cutting; move on the length spout of sloping shelf through the length adjustment subassembly to this relative position of adjusting bracket on the sloping shelf satisfies the position demand of placing of not unidimensional ceramic tile, simple structure convenient assembling, and the convenient high efficiency of regulation mode is easily handed moreover, does not delay the construction progress.

Description

Ceramic tile chamfering machine

Technical Field

The utility model belongs to the technical field of building material processing machinery, and particularly relates to a ceramic tile chamfering machine.

Background

The ceramic tile is a commonly used material in the architectural decoration industry, the existing ceramic tile finished product generally has a regular square structure, and the side with the decoration function on the ceramic tile is vertical to the side surface of the ceramic tile. However, in the actual fitment in-process, because the variety of wall body, when meetting interior and exterior wall angle, angled cylinder, windowsill etc. department, need cut and polish the ceramic tile, process out the chamfer of 45 degrees left and right sides, make things convenient for to splice the combination between two ceramic tiles to the shape that makes the ceramic tile satisfies the fitment demand, improves the aesthetic property of fitment.

Fancy various of ceramic tile on the market, it is not of uniform size, consequently when cutting the ceramic tile, need to satisfy the cutting demand according to the position that its place of size regulation of ceramic tile, the chinese utility model patent, the patent number is 2017206850032, a ceramic tile beveler is disclosed, there are upright frame and side slope frame, be equipped with the sliding frame who bears the weight of ceramic tile on the side slope frame, the sliding frame passes through the screw thread piece and slides on the side slope frame under the drive of screw rod, the screw rod dress is on the derailleur output shaft, the derailleur passes through transmission shaft and gear and hand crank connection transmission, wave hand crank drive gear when using, transmission shaft and derailleur, it rotates to drive the screw rod, the sliding frame just upwards slides along with the screw rod.

Although the structure solves the problems to a certain extent, the structure is complex, the cost is high and the assembly is inconvenient.

Disclosure of Invention

The utility model aims to provide a tile chamfering machine which is simple in structure and can conveniently adjust the placement position of a tile according to the size of the tile.

The purpose of the utility model is realized as follows:

a tile chamfering machine comprises a machine body, wherein the machine body comprises an inclined frame and a supporting frame, a sliding guide rail is arranged at the upper end of the inclined frame, and a cutting machine is arranged on the sliding guide rail in a sliding mode; the length sliding groove is formed in the inclined frame, the length adjusting assembly is arranged in the length sliding groove in a sliding mode, the bracket is installed on the length adjusting assembly, and the length adjusting assembly is used for adjusting the position of the bracket on the inclined frame.

Further, the tilting frame comprises a tile placing frame and a cutting machine mounting frame which are arranged at a certain angle, the length sliding groove is formed in the tile placing frame, the length adjusting assembly and the bracket are arranged on the tile placing frame, and the sliding guide rail is arranged on the cutting machine mounting frame.

Furthermore, the length adjusting assembly comprises a sliding part, a locking switch and a positioning block, the sliding part and the positioning block are arranged in the length sliding groove in a sliding mode, one end of the positioning block is connected with the sliding part, and the other end of the positioning block is connected with the bracket.

Furthermore, a positioning boss is formed on the positioning block, and a positioning clamping groove matched with the positioning boss is formed in the bracket.

Furthermore, a fine adjustment screw is arranged between the sliding part and the positioning block, one end of the fine adjustment screw is fixed on the positioning block, the other end of the fine adjustment screw penetrates through a fine adjustment hole in the sliding part, and the relative position of the sliding part and the positioning block can be finely adjusted by rotating the fine adjustment screw.

Furthermore, the connecting end of the tile placing frame and the cutting machine mounting frame is provided with an angle limiting part, the angle limiting part comprises a horizontal part and an inclined part, the horizontal part is connected with the cutting machine mounting frame, and the inclined part is connected with the tile placing frame.

Furthermore, the last shaping of angle locating part has spacing portion of level and the spacing portion of slope, horizontal spacing groove and the spacing groove of slope are seted up respectively to the side of cutting machine mounting bracket and ceramic tile rack, and the spacing portion of level card is in horizontal spacing inslot, and the spacing portion of slope card is in the spacing inslot of slope.

Further, the left and right sides on the cutting machine mounting bracket all is provided with guide rail installation position, and the guide rail installation position of both sides is erect at the both ends of guide rail roof beam on, the guide rail parallel arrangement that slides in on the guide rail roof beam, the bottom of cutting machine install with the sliding block set spare of slide rail looks adaptation, sliding block set spare include the connecting plate of being connected with the cutting machine bottom, be provided with the slider on the connecting plate, the slider with the guide rail that slides contacts.

Furthermore, an angle adjusting assembly is arranged at the joint of the inclined frame and the supporting frame, the angle adjusting assembly comprises an angle adjusting piece and an angle adjusting switch, one end of the angle adjusting piece is connected with the inclined frame, and the other end of the angle adjusting piece is hinged with the supporting frame; an angle sliding groove is formed in the angle adjusting piece, one end of the angle adjusting switch is arranged in the angle sliding groove, and the other end of the angle adjusting switch is connected with the supporting frame.

Further, the ceramic tile placing frame comprises a left oblique beam and a right oblique beam which are arranged in parallel from left to right, and a placing frame cross beam is connected between the left oblique beam and the right oblique beam; the support frame includes left supporting beam and right supporting beam that control parallel arrangement, is provided with the support frame crossbeam between left supporting beam and the right supporting beam.

Compared with the prior art, the utility model has the outstanding and beneficial technical effects that:

the ceramic tile cutting machine comprises an inclined frame and a support frame, wherein a sliding guide rail is arranged at the upper end of the inclined frame, the cutting machine slides on the sliding guide rail to cut ceramic tiles, and compared with the traditional mode that the cutting machine is fixed and does not move, the mode that the ceramic tiles are manually pushed to finish cutting is more labor-saving and efficient, and the cutting is more accurate; the ceramic tile storage rack is simple in structure and convenient to assemble, the adjusting mode is convenient, efficient and easy to operate, and construction progress is not delayed.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a partially enlarged view of the structure at a in fig. 1.

Figure 3 is an enlarged view of a portion of the tile-placing shelf shown in figure 1 with the structure broken away.

Fig. 4 is a partially enlarged view of the structure at B in fig. 1.

FIG. 5 is a schematic view of the length adjustment assembly (with one set broken away) and the bracket.

Fig. 6 is a partially enlarged view of the structure at C in fig. 5.

Fig. 7 is a schematic structural view of a part of the frame body of the present invention.

Fig. 8 is a partial enlarged view of the structure at D in fig. 7.

Fig. 9 is a structural view in which the coupling parts of the angle adjusting assembly are disassembled.

Fig. 10 is a schematic view of the structure of the cutter mount and the cutter.

Fig. 11 is a partial enlarged view of the structure at E in fig. 10.

Fig. 12 is one of the structural diagrams of the use state of the present invention.

FIG. 13 is a second schematic structural view of the present invention in use.

The reference numerals in the figures denote the meanings:

1-body; 2-a tilting frame; 3-a support frame; 4-a sliding guide rail; 5-a cutting machine; 6-length chute;

7-a length adjustment assembly; 8-a bracket; 9-placing the ceramic tile; 10-a cutter mounting frame; 11-a slide;

12-a locking switch; 13-positioning blocks; 14-positioning the boss; 15-positioning the clamping groove; 16-fine adjustment screws;

17-fine tuning holes; 18-an angle limiter; 19-a horizontal section; 20-an inclined portion; 21-a horizontal limiting part;

22-an inclination limiting part; 23-horizontal limiting groove; 24-inclined limiting grooves; 25-a guide rail mounting location;

26-a guide rail beam; 27-a slider assembly; 28-an angle adjustment assembly; 29-an angle adjustment;

30-an angle adjustment switch; 31-angle chute; 32-left sloping beam; 33-right oblique beam; 34-placing frame beam;

35-left support beam; 36-right support beam; 37-a support frame cross member; 38-a sliding part; 39-locking holes;

40-a rotary wrench; 41-positioning support columns; 42-a mounting plate; 43-a connecting part; 44-a snap-in part;

45-hinge section; 46-a mount cross beam; 47-ceramic tile.

Detailed Description

The utility model is further described below with reference to specific examples:

a tile chamfering machine comprises a machine body 1, wherein the machine body 1 comprises an inclined frame 2 and a support frame 3, a sliding guide rail 4 is arranged at the upper end of the inclined frame 2, and a cutting machine 5 is arranged on the sliding guide rail 4 in a sliding manner; the length sliding groove 6 is formed in the inclined frame 2, the length sliding groove 6 is internally provided with the length adjusting assembly 7 in a sliding mode, the length adjusting assembly 7 is provided with the bracket 8, and the length adjusting assembly 7 is used for adjusting the position of the bracket 8 on the inclined frame 2.

The traditional processing method needs to manually hold a tile cutting machine to cut or the tile cutting machine is fixed, tiles are manually pushed to finish cutting, and due to the technical level of operators and uncertain factors such as shaking and uneven force application degree easily occurring in the manual control process, the cutting precision is low, chamfers are difficult to accurately and efficiently process, even splicing coincidence between the cut tiles cannot be realized, the defective rate is high, decoration quality is affected, and material waste is caused. Simultaneously, can produce a large amount of dust when the ceramic tile is cut, structure among the prior art needs to keep processing apart from the too close distance of machine for a long time, is unfavorable for operating workman's healthy, also has the potential safety hazard.

As shown in fig. 1, the ceramic tile cutting machine comprises an inclined frame 2 and a support frame 3, a sliding guide rail 4 is arranged at the upper end of the inclined frame 2, and a cutting machine 5 slides on the sliding guide rail 4 to cut ceramic tiles; the ceramic tile placing device is simple in structure and convenient to assemble, the cost is reduced, the adjusting mode is convenient, efficient and convenient, the operation is easy, and the construction progress is not delayed.

Preferably, the tilting frame 2 comprises a tile placing frame 9 and a cutting machine mounting frame 10 which are arranged at a certain angle, the length sliding groove 6 is formed in the tile placing frame 9, the length adjusting assembly 7 and the bracket 8 are arranged on the tile placing frame 9, and the sliding guide rail 4 is arranged on the cutting machine mounting frame 10.

The utility model discloses a specific tilting frame 2 structure, wherein the tilting frame 2 comprises a tile placing frame 9 and a cutter mounting frame 10 which are arranged at a certain angle, preferably, the tile placing frame 9 is obliquely arranged, the cutter mounting frame 10 is horizontally arranged at the upper end of the tile placing frame 9, and a sliding guide rail 4 is arranged on the cutter mounting frame 10. The lower extreme and the ground contact of ceramic tile rack 9, the cooperation support frame 3 is accomplished and is fixed the support of organism 1, ceramic tile rack 9, support frame 3 and ground form a triangular shape for place that organism 1 can stabilize subaerial. Certain angle can be processed into different angles according to the actual cutting angle demand, and the conventionality can be about 45 degrees, makes things convenient for two ceramic tiles to splice into 90 degrees after chamfering, and is more pleasing to the eye. The length sliding groove 6 is formed in the tile placing frame 9, the length adjusting assembly 7 and the bracket 8 are arranged on the tile placing frame 9, as shown in fig. 12-13, the tile placing frame 9 is used for placing a tile 47 to be processed, the bottom surface of the tile 47 is in contact with the tile placing frame 9, the lower end of the tile 47 is in contact with the bracket 8, and the tile 47 is prevented from sliding off the inclined tile placing frame 9, so that the tile placing frame 9 and the bracket 8 jointly complete supporting and limiting effects on the tile 47; the length adjusting piece moves up and down in the range of the length sliding groove 6, and drives the bracket 8 connected with the length adjusting piece to move up and down on the tile placing rack 9 so as to be matched with tiles 47 with different sizes. Since the upper end of the tile 47 is aligned with the cutting blade of the cutter 5 when the tile is placed on the tile 47 placing frame 9, and the bracket 8 serves as a limit structure for supporting the lower end of the tile 47, the tiles 47 of different sizes need to have their cutting positions accurately secured by adjusting the position of the bracket 8 on the tile placing frame 9.

Preferably, the length adjustment assembly 7 includes a sliding member 11, a locking switch 12 and a positioning block 13, the sliding member 11 and the positioning block 13 are slidably disposed in the length sliding slot 6, one end of the positioning block 13 is connected to the sliding member 11, and the other end is connected to the bracket 8.

The utility model discloses a length adjusting structure with simple structure and convenient adjustment, and particularly relates to a length adjusting structure which is shown in figures 2-3 and 5-6.A length adjusting component 7 comprises a sliding part 11 and a positioning block 13, sliding parts 38 are formed at the lower ends of the sliding part 11 and the positioning block 13, the sliding parts 38 are installed in a length sliding groove 6, a locking hole 39 is formed in the sliding part 11, and a locking switch 12 is installed in the locking hole 39. The upper end of locking switch 12 is rotary wrench 40, and the lower extreme is the threaded rod, and the fixing base is installed to the threaded rod below, and threaded rod and fixing base all set up in length spout 6, through rotatory rotary wrench 40, the elasticity of the fixing base in adjustable threaded rod below to adjust the slip and the fixed of slider 11 and locating piece 13. The specific principle is as follows: rotate rotatory spanner 40, it is not hard up locking switch 12, the sliding block can drive locating piece 13 free movement on length spout 6 to drive bracket 8 and remove suitable position, then rotate rotatory spanner 40, screw up locking switch 12, sliding block, locating piece 13 and bracket 8 fixed motionless. The locking switch 12 is large in locking force, not easy to slide, safe and firm, can be made of aluminum alloy, is firm and wear-resistant, and prolongs the service life.

Preferably, a positioning boss 14 is formed on the positioning block 13, and a positioning slot 15 matched with the positioning boss 14 is formed on the bracket 8.

The utility model discloses a convenient detachable structure, as shown in figure 6, a positioning boss 14 is formed on a positioning block 13, a positioning clamping groove 15 is formed on a bracket 8, the bracket 8 can be conveniently installed or detached through clamping type matching, the detachable arrangement is also used for meeting the requirements of transportation and storage, the bracket 8 is used for adapting to tiles with various sizes and firmly supporting the lower end of the tile, the length of the bracket is usually longer, if the bracket is not detached during transportation, the occupied space is large on one hand, and the bending damage is easily caused on the other hand, the structure of the utility model can avoid the trouble, the bracket 8 can be detached according to the actual condition, the replacement can be conveniently carried out even if the bracket is broken, and the service life of a machine body 1 is prolonged.

Preferably, the bracket 8 is provided with a positioning support column 41, the positioning support column 41 is provided with the positioning clamping groove 15, and the positioning support column 41 is fixedly connected with the bracket 8 through a screw. Preferably, as shown in fig. 5 and 6, bracket 8 is "Z" font, and during the bearing ceramic tile, the contact surface is bigger, and the bearing is more firm, and the screw that will be used for fixed bracket 8 all sets up in the upper end of bracket 8 "Z" font for all be smooth level and smooth with the face of ceramic tile contact, be difficult to the fish tail ceramic tile, the structure is more reasonable.

Preferably, a fine adjustment screw 16 is arranged between the sliding member 11 and the positioning block 13, one end of the fine adjustment screw 16 is fixed on the positioning block 13, the other end of the fine adjustment screw 16 is inserted into a fine adjustment hole 17 of the sliding member 11, and the relative position of the sliding member 11 and the positioning block 13 can be finely adjusted by rotating the fine adjustment screw 16.

The tile chamfering device in the prior art is not provided with a fine adjustment mechanism generally, and can only roughly adjust the position of a tile on a placing rack, so that the processing precision is not high. The utility model discloses a structure capable of finely adjusting the placing position of a bracket 8, and referring to fig. 6, a fine adjustment screw 16 is arranged between a sliding part 11 and a positioning block 13, a fine adjustment hole 17 is formed in the sliding part 11, a threaded part at one end of the fine adjustment screw 16 is fixed on the positioning block 13, and the head at the other end of the fine adjustment screw passes through the fine adjustment hole 17. The specific principle is as follows: when needing the fine setting, the sliding block is fixed motionless under locking switch 12's locking, rotates fine setting screw 16's head, adjust locating piece 13 and keep away from or be close to slider 11 direction to the drive advances forward or draws far backward with bracket 8 that locating piece 13 is connected, because fine setting screw 16 rotates the displacement of adjusting at every turn and all is less, can carry out bracket 8's position adjustment more finely, make ceramic tile processing place the time more accurate with cutting blade's on the cutting machine 5 relative position, improved the accuracy of cutting greatly, improved processingquality and yield.

Preferably, an angle limiting member 18 is arranged at the connecting end of the tile placing frame 9 and the cutting machine mounting frame 10, the angle limiting member 18 comprises a horizontal portion 19 and an inclined portion 20, the horizontal portion 19 is connected with the cutting machine mounting frame 10, and the inclined portion 20 is connected with the tile placing frame 9.

As shown in fig. 4, the angle limiting member 18 is used for determining the installation positions of the tile placing frame 9 and the cutting machine mounting frame 10 and limiting the installation angle between the two, referring to fig. 7, the angle limiting member 18 comprises a horizontal portion 19 and an inclined portion 20, the horizontal portion 19 is connected with the cutting machine mounting frame 10, the inclined portion 20 is connected with the tile placing frame 9, it is guaranteed that the tile placing frame 9 is placed at an angle of 45 degrees relative to the ground, the cutting machine mounting frame 10 is horizontally arranged, the assembly is more efficient, and the angle limitation is more accurate.

Preferably, a horizontal limiting portion 21 and an inclined limiting portion 22 are formed on the angle limiting member 18, a horizontal limiting groove 23 and an inclined limiting groove 24 are respectively formed in the side edges of the cutter mounting frame 10 and the tile placing frame 9, the horizontal limiting portion 21 is clamped in the horizontal limiting groove 23, and the inclined limiting portion 22 is clamped in the inclined limiting groove 24.

The utility model discloses a structure with more firm connection, as shown in figure 8, a horizontal limiting part 21 and an inclined limiting part 22 are formed on an angle limiting part 18, the horizontal limiting part 21 is matched and connected with a horizontal limiting groove 23 formed in the side edge of a cutting machine mounting frame 10, the inclined limiting part 22 is matched and connected with an inclined limiting groove 24 formed in the side edge of a tile placing frame 9, the assembly angle between the cutting machine mounting frame 10 and the tile placing frame 9 can be determined, the assembly and the positioning are convenient, and the angle between the cutting machine mounting frame 10 and the tile placing frame 9 is not easy to deviate in the using process due to the clamping and matching of the limiting part and the limiting groove.

Preferably, the left and right sides on the cutting machine mounting bracket 10 all is provided with guide rail installation position 25, and the guide rail installation position 25 of both sides is erect at the both ends of guide rail roof beam 26 on, slide guide 4 parallel arrangement in on the guide rail roof beam 26, the bottom of cutting machine 5 install with the sliding block set 27 of slide guide 4 looks adaptation, sliding block set 27 include the connecting plate of being connected with the bottom of cutting machine 5, are provided with the slider on the connecting plate, the slider with slide guide 4 contacts.

As shown in fig. 10-11, the left and right sides all is provided with mounting panel 42 in pairs on cutting machine mounting bracket 10, and mounting panel 42 includes horizontal connecting portion 43 and vertical joint portion 44, and the two liang of relative shaping of joint portion 44 of one side has guide rail installation position 25, and the guide rail installation position 25 of the left and right sides is put on the shelf and is equipped with guide rail roof beam 26, and the slide rail 4 parallel set up in on the guide rail roof beam 26, the bottom of cutting machine 5 install with the slider assembly 27 of slide rail 4 looks adaptation, slider assembly 27 includes the connecting plate of being connected with the bottom of cutting machine 5 and sets up the square slider on the slide rail 4.

The bottom of cutting machine 5 has the bottom plate, the bottom plate with the connecting plate is connected through modes such as welding, and the middle part shaping of connecting plate has the slider groove, the slider sets up in the slider groove, the downward bulge shaping of slider both sides and with 4 joints of slide guide rail.

Preferably, the cutter 5 can slide out and be separated from one end of the sliding guide rail 4, and the structure is convenient to disassemble and assemble.

Preferably, an angle adjusting assembly 28 is arranged at the joint of the tilting frame 2 and the supporting frame 3, the angle adjusting assembly 28 comprises an angle adjusting piece 29 and an angle adjusting switch 30, one end of the angle adjusting piece 29 is connected with the tilting frame 2, and the other end of the angle adjusting piece 29 is hinged with the supporting frame 3; an angle sliding groove 31 is formed in the angle adjusting piece 29, one end of the angle adjusting switch 30 is arranged in the angle sliding groove 31, and the other end of the angle adjusting switch is connected with the support frame 3.

The utility model discloses a folding structure convenient to store, as shown in fig. 4 and 9, a cutter mounting frame 10 at the upper end of an inclined frame 2 is connected with a support frame 3 through an angle adjusting assembly 28, the angle adjusting assembly 28 comprises an angle adjusting part 29 and an angle adjusting switch 30, the upper end of the angle adjusting part 29 is fixedly connected with the cutter mounting frame 10, the lower end of the angle adjusting part 29 is hinged with the support frame 3, the angle sliding groove 31 is an arc-shaped groove, the circle center of the angle sliding groove 31 is a hinged part 45 of the angle adjusting part 29 and the support frame 3, the loose adjustment or the fastening connection is controlled through the angle adjusting switch 30, the principle of the angle adjusting switch 30 is similar to that of a length adjusting switch, and redundant description is omitted. The supporting piece can rotate around the hinge part 45 in the range of the angle sliding groove 31, can switch different functional states of unfolding, using, storing, transporting and the like, and is very convenient and fast.

Preferably, the tile placing frame 9 comprises a left oblique beam 32 and a right oblique beam 33 which are arranged in parallel left and right, and a placing frame beam 34 is connected between the left oblique beam 32 and the right oblique beam 33; the support frame 3 comprises a left support beam 35 and a right support beam 36 which are arranged in parallel left and right, a support frame cross beam 37 is arranged between the left support beam 35 and the right support beam 36,

as shown in fig. 7, the tile placing frame 9 includes a left oblique beam 32 and a right oblique beam 33 which are arranged in parallel left and right, the left oblique frame and the right oblique frame are both provided with a length adjusting mechanism and a fine adjustment screw 16, and the bracket 8 is also arranged on the left oblique frame and the right oblique frame; the upper end and the lower end between the left oblique beam 32 and the right oblique beam 33 are respectively provided with a placing frame cross beam 34, and a supporting frame cross beam 37 is arranged between the left supporting beam 35 and the right supporting beam 36; the cutting machine mounting frame 10 comprises a left mounting frame and a right mounting frame which are arranged in parallel from left to right, and a mounting frame cross beam 46 is arranged between the left mounting frame and the right mounting frame. The arrangement of the cross beams ensures the connection stability, the left oblique beam 32 and the right oblique beam 33 are prevented from shifting left and right by the placing frame cross beam 34, the left supporting beam 35 and the right supporting beam 36 are prevented from shifting left and right by the supporting frame cross beam 37, and the left mounting frame and the right mounting frame are prevented from shifting left and right by the mounting frame cross beam 46, so that the operation and the use of the utility model are not influenced.

Preferably, the tilting frame 2, the support frame 3, the placing frame beam 34, the support frame beam 37 and the mounting frame beam 46 are aluminum profiles, corrosion resistance and light weight are achieved, the concave T-shaped groove structure improves bearing capacity and structural stability, and production and assembly are very convenient.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered by the protection scope of the utility model.

Claims (10)

1. The utility model provides a ceramic tile beveler which characterized in that: the machine comprises a machine body (1), wherein the machine body (1) comprises an inclined frame (2) and a support frame (3), a sliding guide rail (4) is arranged at the upper end of the inclined frame (2), and a cutting machine (5) is arranged on the sliding guide rail (4) in a sliding manner; the length sliding groove (6) is formed in the inclined frame (2), the length sliding groove (6) is provided with the length adjusting assembly (7) in a sliding mode, the length adjusting assembly (7) is provided with the bracket (8), and the length adjusting assembly (7) is used for adjusting the position of the bracket (8) on the inclined frame (2).

2. The tile chamfering machine according to claim 1, wherein: the tile cutting machine is characterized in that the inclined frame (2) comprises a tile placing frame (9) and a cutting machine mounting frame (10) which are arranged at a certain angle, a length sliding groove (6) is formed in the tile placing frame (9), a length adjusting assembly (7) and a bracket (8) are arranged on the tile placing frame (9), and a sliding guide rail (4) is installed on the cutting machine mounting frame (10).

3. The tile chamfering machine according to claim 1 or 2, wherein: the length adjusting assembly (7) comprises a sliding piece (11), a locking switch (12) and a positioning block (13), the sliding piece (11) and the positioning block (13) are arranged in the length sliding groove (6) in a sliding mode, one end of the positioning block (13) is connected with the sliding piece (11), and the other end of the positioning block is connected with the bracket (8).

4. The tile chamfering machine according to claim 3, wherein: the positioning block (13) is provided with a positioning boss (14), and the bracket (8) is provided with a positioning clamping groove (15) matched with the positioning boss (14).

5. The tile chamfering machine according to claim 3, wherein: a fine adjustment screw (16) is arranged between the sliding part (11) and the positioning block (13), one end of the fine adjustment screw (16) is fixed on the positioning block (13), the other end of the fine adjustment screw penetrates through a fine adjustment hole (17) in the sliding part (11), and the relative position of the sliding part (11) and the positioning block (13) can be finely adjusted by rotating the fine adjustment screw (16).

6. The tile chamfering machine according to claim 2, wherein: the angle limiting piece (18) is arranged at the connecting end of the ceramic tile placing frame (9) and the cutting machine mounting frame (10), the angle limiting piece (18) comprises a horizontal portion (19) and an inclined portion (20), the horizontal portion (19) is connected with the cutting machine mounting frame (10), and the inclined portion (20) is connected with the ceramic tile placing frame (9).

7. The tile chamfering machine according to claim 6, wherein: the angle limiting part (18) is formed with a horizontal limiting part (21) and an inclined limiting part (22), the side edges of the cutting machine mounting frame (10) and the tile placing frame (9) are respectively provided with a horizontal limiting groove (23) and an inclined limiting groove (24), the horizontal limiting part (21) is clamped in the horizontal limiting groove (23), and the inclined limiting part (22) is clamped in the inclined limiting groove (24).

8. The tile chamfering machine according to claim 2, wherein: the left and right sides on cutting machine mounting bracket (10) all is provided with guide rail installation position (25), and the both ends of guide rail roof beam (26) are erect on the guide rail installation position (25) of both sides, slide guide rail (4) parallel arrangement in on guide rail roof beam (26), the bottom of cutting machine (5) install with slider assembly (27) of slide guide rail (4) looks adaptation, slider assembly (27) include the connecting plate of being connected with cutting machine (5) bottom, are provided with the slider on the connecting plate, the slider with slide guide rail (4) contact.

9. The tile chamfering machine according to claim 1, wherein: an angle adjusting assembly (28) is arranged at the joint of the inclined frame (2) and the support frame (3), the angle adjusting assembly (28) comprises an angle adjusting piece (29) and an angle adjusting switch (30), one end of the angle adjusting piece (29) is connected with the inclined frame (2), and the other end of the angle adjusting piece is hinged with the support frame (3); an angle sliding groove (31) is formed in the angle adjusting piece (29), one end of the angle adjusting switch (30) is arranged in the angle sliding groove (31), and the other end of the angle adjusting switch is connected with the supporting frame (3).

10. The tile chamfering machine according to claim 2, wherein: the ceramic tile placing frame (9) comprises a left oblique beam (32) and a right oblique beam (33) which are arranged in parallel from left to right, and a placing frame cross beam (34) is connected between the left oblique beam (32) and the right oblique beam (33); the support frame (3) comprises a left support beam (35) and a right support beam (36) which are arranged in parallel from left to right, and a support frame cross beam (37) is arranged between the left support beam (35) and the right support beam (36).

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