CN110524729B

CN110524729B - Interior decoration uses manual ceramic tile cutting device

Info

Publication number: CN110524729B
Application number: CN201910874767.XA
Authority: CN
Inventors: 丁国松
Original assignee: Individual
Current assignee: Beijing Hechengfutong Construction Engineering Co.,Ltd.
Priority date: 2019-09-17
Filing date: 2019-09-17
Publication date: 2021-04-09
Anticipated expiration: 2039-09-17
Also published as: CN110524729A; CN112847843A; CN112959523A

Abstract

The invention belongs to the technical field of cutting machines, and particularly relates to a manual tile cutting device for interior decoration, which comprises a driving rod, a trigger plate, a transmission mechanism, a cutting blade, a base and a support frame, wherein the cutting machine is designed in the invention, only the driving rod needs to be pressed downwards in the use process, so that the cutting blade swings, a driving block for installing the cutting blade is triggered by the swinging of the cutting blade to slide on the driving rod, an adjusting slide block slides to drive the cutting blade to slide relative to a tile, the tile is cut, after the cutting is finished, the trigger plate is triggered to knock the tile, so that the tile is separated from two ends of a cutting line, and the cutting machine is more convenient; according to the ceramic tile cutting machine, the first swing rod, the second swing rod, the third swing rod, the fourth swing rod, the fifth swing rod and the sixth swing rod form two groups of prismatic structures, so that the moving distance of the adjusting slide block is increased, and the cutting length of the ceramic tile cutting machine to a ceramic tile is increased.

Description

Interior decoration uses manual ceramic tile cutting device

Technical Field

The invention belongs to the technical field of cutting machines, and particularly relates to a manual ceramic tile cutting device for interior decoration.

Background

The ceramic tile has the advantages of easy cleaning, simple maintenance, difficult dirt storage, long service life and the like, and is widely applied to various buildings; in the process of processing the ceramic tile, cutting is the first step, and a cutting machine is usually used to perform cutting operation on the ceramic tile.

The ceramic tile cutting machine is processing equipment special for cutting ceramic tiles, and is mainly used for decoration construction; the ceramic tile can be cut into any required shape, and the use is very convenient; however, the conventional tile cutting machine is generally handheld, and when cutting, the cutting knife needs to be pulled to slide on a specified cutting line on the tile once, and then both sides of the cutting line are manually pressed downwards, so that the tile is separated from both ends of the cutting line; the use is inconvenient, the workload is large, and the labor intensity is high; it is very necessary to design a simple tile cutter.

The invention designs a manual ceramic tile cutting device for interior decoration to solve the problems.

Disclosure of Invention

In order to solve the defects in the prior art, the invention discloses a manual tile cutting device for interior decoration, which is realized by adopting the following technical scheme.

The utility model provides a manual ceramic tile cutting device that interior decoration used which characterized in that: the device comprises a driving rod, a reset spring, a trigger plate, a transmission mechanism, a cutting blade, a base, a support frame and a plate spring, wherein the support frame is U-shaped, the upper end of the support frame is provided with an avoiding square opening, and a hinge rod is fixedly arranged in a U-shaped groove in the upper end of the support frame; the lower end of the supporting frame is fixedly arranged on the upper end surface of one end of the base; two sliding grooves are symmetrically formed in the upper side surface and the lower side surface of the driving rod, one end of the driving rod is installed on a hinge rod installed on the supporting frame in a rotating fit mode, and the driving rod is matched with an avoidance square opening formed in the supporting frame; one end of the trigger plate is arranged on the upper side of the driving rod in a hinged mode, a plate spring is arranged between one end of the trigger plate and the driving rod, and the knocking plate is arranged on the lower side of the trigger plate; the plate spring provides downward pressure for the knocking plate; the transmission mechanism is arranged on the driving rod, and a return spring is arranged between the transmission mechanism and the driving rod; on one hand, the reset spring plays a reset role on the adjusting slide block, and on the other hand, the reset spring applies a certain cutting force to the cutting blade in the process of cutting the ceramic tile; when the adjusting slide block slides towards the side far away from the supporting frame, the return spring is compressed, the return spring provides resistance for the movement of the adjusting slide block, and the movement of the adjusting slide block is provided by the swinging force of the cutting blade swinging towards the side far away from the adjusting slide block under the reaction force of the ceramic tile; the resistance of the return spring to the adjusting slider is transferred to the cutting force of the cutting blade to the ceramic tile; the cutting blade is mounted on the underside of the drive mechanism.

The transmission mechanism comprises a trigger shell, an adjusting slide block, a first swing rod, a second swing rod, a third swing rod, a fourth swing rod, a mounting slide block, a fifth swing rod, a sixth swing rod and a seventh swing rod, wherein a trigger inclined plane is arranged on the upper side of one end of the adjusting slide block, and a through guide sliding groove is formed in the upper end of the adjusting slide block; the adjusting slide block is arranged on the driving rod through the sliding fit of the guide sliding groove and the driving rod, one end of the reset spring is fixedly arranged on the end face of the adjusting slide block, which is not provided with the trigger inclined plane, and the other end of the reset spring is fixedly arranged on the driving rod; the trigger inclined plane on the adjusting slide block is matched with the trigger plate; the front side surface, the rear side surface and the upper end surface of the adjusting slide block are respectively provided with a slide block, the two side surfaces and the upper end surface of the U-shaped groove on the trigger shell are respectively provided with a sliding groove, and the trigger shell is arranged on the adjusting slide block through the sliding fit of the three sliding grooves and the three slide blocks; the upper end surface of the trigger shell is matched with the trigger plate; the mounting sliding block is U-shaped, two guide blocks are symmetrically mounted in a U-shaped groove of the mounting sliding block, and the mounting sliding block is mounted on the driving rod through the sliding fit of the two guide blocks and two sliding grooves formed in the driving rod; one end of the fixed rotating shaft is fixedly arranged on the side surface of the driving rod, one end of the first swing rod is arranged at one end of the fixed rotating shaft in a hinged mode, and one end of the second swing rod is arranged at the other end of the fixed rotating shaft in a hinged mode; one end of the supporting rotating shaft is fixedly arranged on the side surface of the mounting sliding block, the third oscillating bar is arranged at one end of the supporting rotating shaft in a hinged mode, and one end of the third oscillating bar is connected with the other end of the first oscillating bar in a rotating fit manner; the fourth oscillating bar is installed at the other end of the supporting rotating shaft in a hinged mode, and one end of the fourth oscillating bar is connected with the other end of the second oscillating bar in a rotating fit mode; one end of the driving rotating shaft is fixedly arranged on the side surface of the adjusting slide block, the sixth oscillating bar is arranged at one end of the driving rotating shaft in a hinged mode, and one end of the sixth oscillating bar is connected with the other end of the third oscillating bar in a rotating fit manner; the fifth oscillating bar is installed at the other end of the driving rotating shaft in a hinged mode, and one end of the fifth oscillating bar is connected with the other end of the fourth oscillating bar in a rotating fit mode; the upper end of the seventh swing rod is fixedly arranged on the fifth swing rod, the lower end of the seventh swing rod is provided with a cutter shaft, and the cutting blade is arranged on the cutter shaft.

When the cutting blade is positioned at one side close to the supporting frame, one end of the adjusting slide block, which is provided with a trigger inclined plane, is positioned in the trigger shell; when the cutting blade is positioned at one side close to the support frame, namely the driving rod is not driven to press downwards, the sliding block arranged on the adjusting sliding block is contacted with the tail end of the sliding groove formed in the trigger shell, and when the adjusting sliding block is just reset, the sliding block arranged on the adjusting sliding block is not contacted with the front end of the sliding groove formed in the trigger shell.

As a further improvement of the technology, one end of the driving rod, which is far away from the supporting frame, is provided with a handle; one end of the reset spring is arranged on the end surface of the handle on the driving rod.

As a further improvement of the technology, two rubber bases are symmetrically arranged on the upper end surface of the base; a supporting steel bar which plays a supporting role for a cutting line of the ceramic tile when the ceramic tile is knocked is arranged in a gap between the two rubber bases, and the highest point of the supporting steel bar is flush with the upper end surfaces of the two rubber bases; when the ceramic tile is knocked, the knocked end of the ceramic tile can press the rubber base downwards, so that the rubber base at the end is lower than the highest point of the supporting steel bar, and the ceramic tile is separated under stress; the rubber base is used for protecting the ceramic tile.

As the further improvement of this technique, a rubber pad is installed to the downside of above-mentioned striking board, and the effect of rubber pad plays the guard action to the ceramic tile when striking the board and pressing to the ceramic tile.

As the further improvement of this technique, install the fixed plate on the up end that above-mentioned actuating lever is close to support frame one end, install the articulated shaft on the side of trigger plate one end, the articulated shaft is passed through to the one end that the articulated shaft was installed to the trigger plate and the articulated shaft is installed on the fixed plate.

As a further improvement of the present technology, both ends of the above-described cutting blade are fixed by tightening bolts.

As a further improvement of the technology, the lower end of the supporting frame is symmetrically provided with two fixed supporting plates, the supporting frame is fixedly arranged on the upper side of one end of the base through the two fixed supporting plates, and the fixed supporting plates are connected with the base through bolts and nuts.

As a further improvement of the present technology, the return spring is a compression spring.

As a further improvement of the technology, the fixed support plate and the base are connected in a welding mode.

As a further improvement of the technology, one end of the driving rod is arranged on a hinged rod arranged on the support frame through a bearing.

Compared with the traditional cutting machine technology, the beneficial effects of the design of the invention are as follows:

1. in the cutting process of the traditional cutting machine, firstly, the cutting knife needs to be pulled to slide on a specified cutting line on a ceramic tile once, and then, two sides of the cutting line are manually pressed downwards to separate the ceramic tile from two ends of the cutting line; the cutting machine designed by the invention only needs to press the driving rod downwards in the using process, so that the driving rod drives the cutting blade to swing downwards, the cutting blade is driven to swing reversely by the ceramic tile, the cutting blade swings to trigger the adjusting slide block for installing the cutting blade to slide on the driving rod, the adjusting slide block slides to drive the cutting blade to slide relative to the ceramic tile, the ceramic tile is cut, after the cutting is finished, the triggering plate installed on the driving rod can be triggered to downwards knock the ceramic tile, the ceramic tile is separated from two ends of the cutting line, and the ceramic tile is cut off.

2. According to the cutting machine, the compression amount of the return spring is increased continuously while the driving rod swings downwards, and the pressure of the return spring is increased continuously; and along with the actuating lever downstream swing, the angle between actuating lever and the seventh pendulum rod also constantly increases, and the arm of force that cutting blade received reset spring's pressure constantly reduces, and reset spring receives reset spring's pressure's arm of force when pressure increases promptly and is reducing, and both combine, and the cutting force that reset spring applied to cutting blade can keep basic steady state, and this cutting machine is better relatively to the cutting stability of ceramic tile promptly.

3. According to the cutting machine, the cutting force of the cutting blade on the ceramic tile in the cutting machine can be adjusted by adjusting the elastic strength of the return spring, namely, the cutting machine can adapt to different types of ceramic tiles by replacing the return springs with different strengths.

4. According to the cutting machine, the first swing rod, the second swing rod, the third swing rod, the fourth swing rod, the fifth swing rod and the sixth swing rod form two groups of prismatic structures, the adjusting slide block is driven to move by the first swing rod, the second swing rod, the third swing rod, the fourth swing rod, the fifth swing rod and the sixth swing rod when the seventh swing rod swings, the moving distance of the adjusting slide block is increased, and the cutting length of the cutting machine to ceramic tiles is increased.

Drawings

Fig. 1 is an external view of an entire part.

Fig. 2 is a schematic view of the overall component distribution.

Fig. 3 is a schematic plan view of the overall component distribution.

Fig. 4 is a schematic view of the base structure.

FIG. 5 is a schematic view of the trigger plate and gear arrangement.

Fig. 6 is a schematic diagram of the matching of the trigger plate, the trigger shell and the adjusting slider.

Fig. 7 is a schematic view of the trigger plate and the adjustment slider engaged.

Fig. 8 is a schematic view of the supporting frame structure.

Fig. 9 is a schematic view of a cutting blade distribution.

Fig. 10 is a schematic view of a drive rod configuration.

Fig. 11 is a schematic view of the transmission mechanism.

Fig. 12 is a schematic view of a mounting block structure.

Fig. 13 is a schematic view of the trigger housing and adjustment slider mating.

Fig. 14 is a schematic view of the trigger case structure.

Fig. 15 is a schematic view of an adjustment block structure.

Number designation in the figures: 1. a drive rod; 2. a handle; 3. a return spring; 4. a trigger plate; 5. a transmission mechanism; 6. a cutting blade; 7. a base; 8. a rubber base; 9. supporting the steel bars; 10. a support frame; 11. a trigger housing; 12. adjusting the sliding block; 14. knocking the plate; 15. a plate spring; 16. hinging a shaft; 17. a rubber pad; 18. a fixing plate; 19. a sliding groove; 20. a guide block; 21. avoiding a square opening; 22. a hinged lever; 23. a seventh swing link; 25. a cutter shaft; 26. a slider; 27. a guide sliding groove; 30. a first swing link; 31. a second swing link; 32. a third swing link; 33. a fourth swing link; 34. installing a sliding block; 35. a fifth swing link; 36. a sixth swing link; 39. a chute; 40. triggering the inclined plane; 41. fixing a support plate; 42. fixing the rotating shaft; 43. a support shaft; 44. a driving rotating shaft 45 and a chamfer inclined surface.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples or figures are illustrative of the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1, 2 and 3, the cutting device comprises a driving rod 1, a return spring 3, a trigger plate 4, a transmission mechanism 5, a cutting blade 6, a base 7, a support frame 10 and a plate spring 15, wherein as shown in fig. 8, the support frame 10 is U-shaped, an avoiding square opening 21 is formed at the upper end of the support frame 10, and a hinge rod 22 is fixedly installed in a U-shaped groove at the upper end of the support frame 10; as shown in fig. 4, the lower end of the supporting frame 10 is fixedly mounted on the upper end face of one end of the base 7; as shown in fig. 10, two sliding grooves 19 are symmetrically formed on the upper and lower side surfaces of the driving rod 1, as shown in fig. 2 and 3, one end of the driving rod 1 is mounted on a hinge rod 22 mounted on the support frame 10 through a rotating fit, and the driving rod 1 is matched with an avoiding square opening 21 formed on the support frame 10; as shown in fig. 5, one end of the trigger plate 4 is mounted on the upper side of the driving rod 1 in a hinged manner, a plate spring 15 is mounted between one end of the trigger plate 4 and the driving rod 1, and as shown in fig. 6 and 7, a striking plate 14 is mounted on the lower side of the trigger plate 4; the plate spring 15 provides downward pressure to the striking plate 14; as shown in fig. 9, the transmission mechanism 5 is mounted on the driving rod 1, and the return spring 3 is mounted between the transmission mechanism 5 and the driving rod 1; on one hand, the reset spring 3 plays a reset role on the adjusting slide block 12, and on the other hand, the reset spring 3 applies a certain cutting force to the cutting blade 6 in the process of cutting the ceramic tile; when the adjusting slider 12 slides towards the side far away from the support frame 10, the return spring 3 is compressed, the return spring 3 provides a resistance force for the movement of the adjusting slider 12, and the movement of the adjusting slider 12 is provided by the swinging force of the cutting blade 6 which is subjected to the reaction force of the tile and swings towards the side far away from the adjusting slider 12; the resistance of the return spring 3 to the adjustment slider 12 is transmitted to the cutting force of the cutting blade 6 on the tile; the cutting blade 6 is mounted on the underside of the transmission 5.

As shown in fig. 11, the transmission mechanism 5 includes a trigger shell 11, an adjusting slider 12, a first swing link 30, a second swing link 31, a third swing link 32, a fourth swing link 33, an installation slider 34, a fifth swing link 35, a sixth swing link 36, and a seventh swing link 23, wherein as shown in fig. 15, the upper side of one end of the adjusting slider 12 is provided with a trigger inclined plane 40, and the upper end of the adjusting slider 12 is provided with a through guide sliding groove 27; as shown in fig. 9, the adjusting slider 12 is mounted on the driving rod 1 through the sliding fit of the guiding sliding groove 27 and the driving rod 1, and one end of the return spring 3 is fixedly mounted on the end surface of the adjusting slider 12 not provided with the triggering inclined surface 40, and the other end of the return spring 3 is fixedly mounted on the driving rod 1; as shown in fig. 6 and 7, the trigger inclined surface 40 on the adjusting slider 12 is matched with the trigger plate 4; the front side surface, the rear side surface and the upper end surface of the adjusting slide block 12 are respectively provided with a slide block 26, as shown in fig. 14, the two side surfaces and the upper end surface of the U-shaped groove on the trigger shell 11 are respectively provided with a slide groove 39, as shown in fig. 13, the trigger shell 11 is arranged on the adjusting slide block 12 through the sliding fit of the three slide grooves 39 and the three slide blocks 26; as shown in fig. 6 and 7, the upper end surface of the trigger shell 11 is engaged with the trigger plate 4; as shown in fig. 12, the mounting slider 34 is U-shaped, and two guide blocks 20 are symmetrically mounted in the U-shaped groove of the mounting slider 34, as shown in fig. 9, the mounting slider 34 is mounted on the driving rod 1 by the sliding fit of the two guide blocks 20 and the two sliding grooves 19 formed on the driving rod 1; as shown in fig. 11, one end of the fixed rotating shaft 42 is fixedly installed on the side surface of the driving rod 1, one end of the first swing link 30 is installed at one end of the fixed rotating shaft 42 in a hinged manner, and one end of the second swing link 31 is installed at the other end of the fixed rotating shaft 42 in a hinged manner; one end of the supporting rotating shaft 43 is fixedly arranged on the side surface of the mounting slide block 34, the third swing rod 32 is arranged at one end of the supporting rotating shaft 43 in a hinged mode, and one end of the third swing rod 32 is connected with the other end of the first swing rod 30 in a rotating fit manner; the fourth swing link 33 is mounted at the other end of the supporting rotating shaft 43 in a hinged manner, and one end of the fourth swing link 33 is connected with the other end of the second swing link 31 in a rotating fit manner; one end of the driving rotating shaft 44 is fixedly installed on the side surface of the adjusting slider 12, the sixth oscillating bar 36 is installed at one end of the driving rotating shaft 44 in a hinged manner, and one end of the sixth oscillating bar 36 is connected with the other end of the third oscillating bar 32 in a rotating fit manner; the fifth swing link 35 is installed at the other end of the driving rotating shaft 44 in a hinged manner, and one end of the fifth swing link 35 is connected with the other end of the fourth swing link 33 in a rotating fit manner; the upper end of the seventh swing link 23 is fixedly arranged on the fifth swing link 35, the lower end of the seventh swing link 23 is provided with a cutter shaft 25, and the cutting blade 6 is arranged on the cutter shaft 25.

When the cutting blade 6 is positioned at one side close to the support frame 10, one end of the adjusting slide block 12 with the triggering inclined plane 40 is positioned in the triggering shell 11; in the invention, when the cutting blade 6 is positioned at one side close to the support frame 10, namely the driving rod 1 is not driven to press downwards, the slide block 26 arranged on the adjusting slide block 12 is contacted with the tail end of the sliding groove 39 formed on the trigger shell 11, and when the adjusting slide block 12 is just reset, the slide block 26 arranged on the adjusting slide block 12 is not contacted with the front end of the sliding groove 39 formed on the trigger shell 11.

As shown in fig. 1, a handle 2 is mounted at one end of the driving rod 1 far away from the support frame 10; one end of the return spring 3 is mounted on the end surface of the handle 2.

As shown in fig. 4, two rubber bases 8 are symmetrically mounted on the upper end surface of the base 7; a supporting steel bar 9 which plays a supporting role in supporting the cutting line of the ceramic tile when the ceramic tile is knocked is arranged in the gap between the two rubber bases 8, and the highest point of the supporting steel bar 9 is flush with the upper end faces of the two rubber bases 8; when the ceramic tile is knocked, the knocked end of the ceramic tile presses the rubber base 8 downwards, so that the rubber base 8 at the end is lower than the highest point of the supporting steel bar 9, and the ceramic tile is separated under stress; the rubber base 8 is used for protecting the ceramic tiles.

As shown in fig. 6 and 7, a rubber pad 17 is mounted on the lower side of the striking plate 14, and the rubber pad 17 is used for protecting the tile when the striking plate 14 is pressed against the tile.

As shown in fig. 6, a fixed plate is mounted on the upper end surface of the driving rod 1 near one end of the supporting frame 10, a hinge shaft 16 is mounted on the side surface of one end of the trigger plate 4, and the end of the trigger plate 4, at which the hinge shaft 16 is mounted, is mounted on the fixed plate through the hinge shaft 16.

Both ends of the cutting blade 6 are fixed by tightening bolts.

As shown in fig. 8, two fixing brackets 41 are symmetrically installed at the lower end of the supporting frame 10, the supporting frame is fixedly installed at the upper side of one end of the base 7 through the two fixing brackets 41, and the fixing brackets 41 and the base 7 are connected through bolts and nuts.

The return spring 3 is a compression spring.

The fixed support plate 41 is connected with the base 7 by welding.

One end of the driving rod 1 is mounted on a hinge rod 22 mounted on the support frame 10 through a bearing.

The specific working process is as follows: when the cutting machine designed by the invention is used, firstly, the cutting line of the cut ceramic tile is determined through the scale measurement and sizing, then the ceramic tile is placed on the base 7, the cutting line of the ceramic tile is just positioned at the lower side of the cutting blade 6, then, one hand presses the side of the ceramic tile which is not cut, then, the other hand presses the driving rod 1 downwards manually through the handle 2, so that the driving rod 1 swings downwards around the axis of the hinged rod 22, the driving rod 1 swings downwards to drive the trigger plate 4 and the adjusting slide block 12 which are installed on the driving rod to swing downwards, the adjusting slide block 12 swings downwards to drive the seventh swing rod 23 which is installed on the driving rod to swing downwards, the seventh swing rod 23 swings downwards to drive the cutting blade 6 which is installed at the lower side of the seventh swing rod 23 to swing downwards, when the cutting blade 6 swings to be contacted with the upper end surface of the ceramic tile, the cutting blade 6 drives the seventh oscillating bar 23 to swing upwards relative to the ceramic tile, the seventh oscillating bar 23 swings relative to the adjusting slider 12 to drive the fifth oscillating bar to swing, the fifth oscillating bar 35 swings to drive the fourth oscillating bar 33 to swing, the fourth oscillating bar 33 swings to drive the second oscillating bar 31 to swing, the fourth oscillating bar 33 and the second oscillating bar 31 swing to drive the installation slider 34 to move on the driving rod 1, and the installation slider 34 moves to drive the first oscillating bar 30 and the third oscillating bar 32 to swing; the third oscillating bar 32 oscillates to drive the sixth oscillating bar 36 to oscillate, and the sixth oscillating bar 36 and the fifth oscillating bar 35 oscillate simultaneously to drive the adjusting slide block 12 to move relative to the driving rod 1; the adjusting slide block 12 moves to drive the cutting blade 6 arranged on the lower side of the adjusting slide block to move, so that the ceramic tile is cut in the moving process, and meanwhile, the return spring 3 is compressed; on the other hand, when the cutting blade 6 is positioned at one side close to the support frame 10, one end of the adjusting slider 12, which is provided with the trigger inclined plane 40, is positioned in the trigger shell 11, and the slider 26 mounted on the adjusting slider 12 is in contact with the end of the sliding slot 39 formed in the trigger shell 11, so that the adjusting slider 12 drives the trigger shell 11 mounted thereon to move while moving relative to the driving rod 1, and in the moving process of the trigger shell 11, when one end of the trigger shell 11, which is close to the support frame 10, is separated from the trigger plate 4, the trigger shell 11 loses the support limit on the trigger plate 4, and at this time, the trigger plate 4 swings downwards under the action of the plate spring 15, and the trigger plate 4 swings downwards to drive the strike plate 14 to swing downwards; the knocking plate 14 presses the ceramic tile downwards after contacting the ceramic tile in the swinging process, and the ceramic tile is separated from two ends of the cutting line after the side, which is not pressed by hands, of the ceramic tile is knocked due to the fact that the side, which is not knocked by hands, of the ceramic tile is pressed by hands, namely the ceramic tile is cut; after the ceramic tile is cut, the driving rod 1 is lifted upwards, when the driving rod 1 is lifted upwards, the driving rod 1 can drive the trigger plate 4 and the adjusting slider 12 to swing upwards, the adjusting slider 12 swings upwards to drive the cutting blade 6 to swing upwards, when the cutting blade 6 swings upwards and loses resistance, the adjusting slider 12 slides towards one side close to the support frame 10 under the action of the reset spring 3, and the adjusting slider 12 slides to drive the fifth swing rod 35 and the sixth swing rod which are arranged on the adjusting slider to swing; the fifth swing link 35 and the sixth swing link 36 swing to drive the third swing link 32 and the fourth swing link 33 to swing; the third swing link 32 and the fourth swing link 33 swing to drive the first swing link 30 and the second swing link 31 to swing; the fifth swing link 35 swings to drive the seventh swing link 23 to swing, and the seventh swing link 23 swings to drive the cutting blade 6 to swing and reset; when the adjusting slider 12 moves in a resetting way, the adjusting slider can drive the trigger shell to reset together, but as the slider 26 mounted on the adjusting slider 12 is not contacted with the front end of the sliding slot 39 formed on the trigger shell 11 at the beginning, when the adjusting slider and the trigger shell move in a resetting way, after the upper end of the trigger shell is contacted with the trigger plate, the adjusting slider 12 can move relative to the trigger shell 11, when the adjusting slider 12 starts to move relative to the trigger shell 11, one end of the adjusting slider 12 with the trigger inclined plane 40 can firstly slide out of the trigger shell 11, then one end of the adjusting slider with the trigger inclined plane is contacted with the lower side surface of one end of the trigger plate 4 far away from the support frame 10, under the action of the trigger inclined plane 40, the adjusting slider 12 can press the trigger plate 4 to make the trigger plate 4 swing upwards, the adjusting slider 12 moves to the lower side of the trigger plate 4, and when the slider 26 mounted on the adjusting slider 12 is contacted with the front end of the sliding slot 39 formed on the trigger shell 11, the adjusting slider 12 will drive the trigger shell 11 to move, as shown in fig. 6, the same end of the trigger shell and the inclined plane of the adjusting slider is also provided with a transitional chamfer inclined plane 45, after the chamfer inclined plane on the trigger shell contacts with the knocking plate, the trigger shell 11 will also move to the lower side of the trigger plate 4 under the pulling of the adjusting slider and the matching of the inclined plane on the trigger shell; the leaf spring 15 is stressed for the next preparation during the swinging of the trigger plate 4, and finally the adjusting slide 12, the cutting blade 6, the mounting slide 34 and the trigger shell 11 are all reset to the initial state.

In summary, the following steps:

in the cutting process of the traditional cutting machine, firstly, the cutting knife needs to be pulled to slide on a specified cutting line on a ceramic tile once, and then, two sides of the cutting line are manually pressed downwards to separate the ceramic tile from two ends of the cutting line; in the cutting machine designed by the invention, only the driving rod 1 needs to be pressed downwards in the use process, so that the driving rod 1 drives the cutting blade 6 to swing downwards, the cutting blade 6 is driven to swing reversely by the ceramic tile, the adjusting slide block for installing the cutting blade 6 is triggered to slide on the driving rod 1 by the swinging of the cutting blade 6, the adjusting slide block 12 slides to drive the cutting blade 6 to slide relative to the ceramic tile, the ceramic tile is cut, after the cutting is finished, the triggering plate 4 installed on the driving rod 1 can be triggered to downwards knock the ceramic tile, so that the ceramic tile is separated from two ends of the cutting line, and the ceramic tile is cut off, and the cutting machine is; according to the cutting machine, the compression amount of the return spring 3 is increased continuously while the driving rod 1 swings downwards, and the pressure of the return spring 3 is increased continuously; as the driving rod 1 swings downwards, the angle between the driving rod 1 and the seventh swing rod 23 is also continuously increased, the moment arm of the cutting blade 6 under the pressure of the return spring 3 is continuously reduced, namely the moment arm of the cutting blade 6 under the pressure of the return spring 3 is reduced while the pressure of the return spring 3 is increased, the moment arm and the moment arm are combined, the cutting force applied to the cutting blade 6 by the return spring 3 can keep a basically stable state, namely the cutting stability of the cutting machine on the ceramic tile is relatively good; according to the cutting machine, the cutting force of the cutting blade 6 in the cutting machine on the ceramic tile can be adjusted by adjusting the elastic strength of the return spring 3, namely, the cutting machine can adapt to different types of ceramic tiles by replacing the return springs 3 with different strengths; according to the cutting machine, two groups of prismatic structures are formed by the first oscillating bar, the second oscillating bar, the third oscillating bar, the fourth oscillating bar, the fifth oscillating bar and the sixth oscillating bar, when the seventh oscillating bar of the oscillating bars and the sixth oscillating bar oscillate, the adjusting slide block 12 is driven to move by the first oscillating bar, the second oscillating bar, the third oscillating bar, the fourth oscillating bar, the fifth oscillating bar and the sixth oscillating bar, so that the moving distance of the adjusting slide block 12 is increased, and the cutting length of a ceramic tile by the cutting machine is increased.

Claims

1. The utility model provides a manual ceramic tile cutting device that interior decoration used which characterized in that: the device comprises a driving rod, a reset spring, a trigger plate, a transmission mechanism, a cutting blade, a base, a support frame and a plate spring, wherein the support frame is U-shaped, the upper end of the support frame is provided with an avoiding square opening, and a hinge rod is fixedly arranged in a U-shaped groove in the upper end of the support frame; the lower end of the supporting frame is fixedly arranged on the upper end surface of one end of the base; two sliding grooves are symmetrically formed in the upper side surface and the lower side surface of the driving rod, one end of the driving rod is installed on a hinge rod installed on the supporting frame in a rotating fit mode, and the driving rod is matched with an avoidance square opening formed in the supporting frame; one end of the trigger plate is arranged on the upper side of the driving rod in a hinged mode, a plate spring is arranged between one end of the trigger plate and the driving rod, and the knocking plate is arranged on the lower side of the trigger plate; the transmission mechanism is arranged on the driving rod, and a return spring is arranged between the transmission mechanism and the driving rod; the cutting blade is arranged at the lower side of the transmission mechanism;

the transmission mechanism comprises a trigger shell, an adjusting slide block, a first swing rod, a second swing rod, a third swing rod, a fourth swing rod, a mounting slide block, a fifth swing rod, a sixth swing rod and a seventh swing rod, wherein a trigger inclined plane is arranged on the upper side of one end of the adjusting slide block, and a through guide sliding groove is formed in the upper end of the adjusting slide block; the adjusting slide block is arranged on the driving rod through the sliding fit of the guide sliding groove and the driving rod, one end of the reset spring is fixedly arranged on the end face of the adjusting slide block, which is not provided with the trigger inclined plane, and the other end of the reset spring is fixedly arranged on the driving rod; the trigger inclined plane on the adjusting slide block is matched with the trigger plate; the front side surface, the rear side surface and the upper end surface of the adjusting slide block are respectively provided with a slide block, the two side surfaces and the upper end surface of the U-shaped groove on the trigger shell are respectively provided with a sliding groove, and the trigger shell is arranged on the adjusting slide block through the sliding fit of the three sliding grooves and the three slide blocks; the upper end surface of the trigger shell is matched with the trigger plate; a first swing rod, a second swing rod, a third swing rod, a fourth swing rod, an installation sliding block, a fifth swing rod, a sixth swing rod and a seventh swing rod are arranged on the driving rod and the adjusting sliding block, a cutting blade is arranged on the seventh swing rod, and the cutting blade swings relative to the ceramic tile and controls the adjusting sliding block to slide on the driving rod through the first swing rod, the second swing rod, the third swing rod, the fourth swing rod, the installation sliding block, the fifth swing rod, the sixth swing rod and the seventh swing rod;

when the cutting blade is positioned at one side close to the supporting frame, one end of the adjusting slide block, which is provided with the triggering inclined plane, is positioned in the triggering shell.

2. A manual tile cutting device for interior decoration according to claim 1, wherein: a handle is arranged at one end of the driving rod, which is far away from the supporting frame; one end of the reset spring is arranged on the end surface of the handle of the driving rod.

3. A manual tile cutting device for interior decoration according to claim 1, wherein: two rubber bases are symmetrically arranged on the upper end surface of the base; a supporting steel bar is arranged in a gap between the two rubber bases, and the highest point of the supporting steel bar is flush with the upper end faces of the two rubber bases.

4. A manual tile cutting device for interior decoration according to claim 1, wherein: a rubber pad is arranged on the lower side of the knocking plate.

5. A manual tile cutting device for interior decoration according to claim 1, wherein: the fixed plate is installed on the up end that above-mentioned actuating lever is close to support frame one end, triggers and installs the articulated shaft on the side of board one end, triggers the board and installs the one end of articulated shaft and pass through the articulated shaft and install on the fixed plate.

6. A manual tile cutting device for interior decoration according to claim 1, wherein: both ends of the cutting blade are fixed by tightening bolts.

7. A manual tile cutting device for interior decoration according to claim 1, wherein: two fixed supporting plates are symmetrically installed at the lower end of the supporting frame, the supporting frame is fixedly installed on the upper side of one end of the base through the two fixed supporting plates, and the fixed supporting plates are connected with the base through bolts and nuts.

8. A manual tile cutting device for interior decoration according to claim 1, wherein: the return spring is a compression spring.

9. A manual tile cutting apparatus for interior decoration according to claim 7, wherein: the mounting slide block is U-shaped, two guide blocks are symmetrically mounted in a U-shaped groove of the mounting slide block, and the mounting slide block is mounted on the driving rod through the sliding fit of the two guide blocks and two sliding grooves formed in the driving rod; one end of the fixed rotating shaft is fixedly arranged on the side surface of the driving rod, one end of the first swing rod is arranged at one end of the fixed rotating shaft in a hinged mode, and one end of the second swing rod is arranged at the other end of the fixed rotating shaft in a hinged mode; one end of the supporting rotating shaft is fixedly arranged on the side surface of the mounting sliding block, the third oscillating bar is arranged at one end of the supporting rotating shaft in a hinged mode, and one end of the third oscillating bar is connected with the other end of the first oscillating bar in a rotating fit manner; the fourth oscillating bar is installed at the other end of the supporting rotating shaft in a hinged mode, and one end of the fourth oscillating bar is connected with the other end of the second oscillating bar in a rotating fit mode; one end of the driving rotating shaft is fixedly arranged on the side surface of the adjusting slide block, the sixth oscillating bar is arranged at one end of the driving rotating shaft in a hinged mode, and one end of the sixth oscillating bar is connected with the other end of the third oscillating bar in a rotating fit manner; the fifth oscillating bar is installed at the other end of the driving rotating shaft in a hinged mode, and one end of the fifth oscillating bar is connected with the other end of the fourth oscillating bar in a rotating fit mode; the upper end of the seventh swing rod is fixedly arranged on the fifth swing rod, the lower end of the seventh swing rod is provided with a cutter shaft, and the cutting blade is arranged on the cutter shaft.

10. A manual tile cutting device for interior decoration according to claim 1, wherein: one end of the driving rod is arranged on a hinged rod arranged on the support frame through a bearing.