CN214644619U - Automatic multi-disc tile cutting device - Google Patents

Abstract

The utility model relates to a field of tile preparation especially relates to an automatic multi-disc tile cutting device, it includes the frame, detection mechanism and multitile cutting mechanism, it is connected with a plurality of transfer rollers that are parallel to each other to rotate in the frame, be connected with the power supply on the transfer roller, multitile cutting mechanism sets up in the frame, detection mechanism is fixed to be set up in the frame and to be close to the transfer roller and convey terminally, detection mechanism is connected with the multitile cutting mechanism electricity and is used for driving multitile cutting mechanism, detection mechanism still is connected with the power supply electricity and is used for controlling the transfer roller. This application is through detection mechanism and many tiles cutting mechanism's setting, makes the tile conveyed through detection mechanism and is detected after the assigned position, then detection mechanism control power supply makes the transfer roller stop rotating, and detection mechanism driving motor rotates, and the motor drives first actuating lever and the motion of second actuating lever, makes the sliding block slide and promotes the tile and cuts, cuts into the multi-disc with the tile, has made things convenient for the cutting that carries out the multi-disc tile simultaneously, has improved cutting efficiency.

Description

Automatic multi-disc tile cutting device

Technical Field

The application relates to the field of tile preparation, especially relates to an automatic multi-disc tile cutting device.

Background

In the preparation process of the antique tile, the materials are fully stirred and then are extruded and molded, the extruded and molded antique tile has certain hardness, the antique tile needs to be cut according to the specified size, and generally, a worker cuts the antique tile one by using a cutting rope bow.

With respect to the related art described above, the inventors consider that manual cutting of tiles is troublesome and inefficient.

SUMMERY OF THE UTILITY MODEL

In order to improve the efficiency of cutting the tile, this application provides an automatic multi-disc tile cutting device.

The application provides an automatic multi-disc tile cutting device adopts following technical scheme:

the utility model provides an automatic multi-disc tile cutting device, includes frame, detection mechanism and multitile cutting mechanism, it is connected with a plurality of transfer rollers that are parallel to each other to rotate in the frame, be connected with the power supply on the transfer roller, multitile cutting mechanism sets up in the frame, detection mechanism is fixed to be set up in the frame and to be close to the transfer roller conveying end, and detection mechanism is connected with the multitile cutting mechanism electricity and is used for driving multitile cutting mechanism and cuts multi-disc tile simultaneously, and detection mechanism still is connected with the power supply electricity and is used for controlling the transfer roller.

Through adopting above-mentioned technical scheme, power supply drive transfer roller rotates, and the transfer roller drives the tile motion, is conveyed when being close to the terminal position of transfer roller when the tile, detects the tile through detection mechanism, and detection mechanism control power supply makes the transfer roller stall, and detection mechanism simultaneous control multitile cutting mechanism cuts the tile into the multi-disc simultaneously, has improved the cutting efficiency of tile.

Optionally, the multi-tile cutting mechanism comprises a cutting assembly and a driving assembly, the multi-tile cutting mechanism is arranged on one side of the rack parallel to the conveying direction of the conveying roller, the driving assembly is arranged on the other side of the rack, the driving assembly and the multi-tile cutting mechanism can be contacted, and the detection mechanism is electrically connected with the driving assembly and used for controlling the driving assembly.

By adopting the technical scheme, after the tile is detected by the detection mechanism, the driving assembly is controlled to drive the cutting assembly, so that the cutting assembly starts to cut the tile, and the tile is simultaneously cut into a plurality of tiles.

Optionally, the cutting assembly comprises a support frame and a cutting rope, the support frame is fixedly arranged above one side, parallel to the conveying direction of the conveying rollers, of the frame, the cutting rope is provided with a plurality of pieces which are parallel to each other, the cutting rope can be detachably connected between the frame and the support frame, the cutting rope is perpendicular to the conveying direction of the conveying rollers, and the cutting rope can contact with the driving assembly.

By adopting the technical scheme, the cutting rope is fixed to the rack and the support frame bracket according to the specification of the tiles prepared as required, when the detection mechanism detects the tiles, the driving and driving mechanism pushes the tiles to one end, provided with the cutting rope, of the rack, and the longer tiles are cut into a plurality of tiles through the cutting rope.

Optionally, the driving assembly comprises a motor, a driving frame and a sliding block, the driving frame is connected with a driving shaft of the motor and the sliding block, the driving frame is fixedly connected with the driving shaft of the motor, the driving frame is rotatably connected with the sliding block, the detection mechanism is electrically connected with the motor and used for controlling starting and stopping of the motor, the sliding block and the conveying roller can slide along the direction vertical to the conveying direction of the conveying roller, and the sliding block can be in contact with the cutting rope.

Through adopting above-mentioned technical scheme, behind the detection mechanism detected the tile, driving motor rotated, made the motor drive the action of drive frame motion, made the action of drive frame promote the sliding block, the sliding block promotes the tile and removes the piece towards cutting rope direction, makes the tile cut into the multi-disc by cutting rope, when the sliding block contacted with cutting rope, accomplished the cutting of a tile.

Optionally, the driving frame includes first actuating lever and second actuating lever, the one end of first actuating lever and the driving shaft fixed connection of motor, the other end with the one end of second actuating lever is rotated and is connected, and the other end and the sliding block of second actuating lever are rotated and are connected.

Through adopting above-mentioned technical scheme, when detection mechanism detected the tile and driving motor rotated, the driving shaft of motor drove the junction of first actuating lever and second actuating lever and rotates to the sliding block direction, make the second actuating lever promote the sliding block and drive the slip of tile cutting rope direction, when first actuating lever and second actuating lever on same straight line and when not overlapping each other, the sliding block contacted with the cutting rope, then the junction of first actuating lever and second actuating lever rotates to keeping away from the sliding block direction, when first actuating lever and second actuating lever on same straight line and overlap each other, the original position was got back to the sliding block, motor stall.

Optionally, be provided with the slip subassembly on the sliding block, the slip subassembly includes first slide bar, second slide bar and connecting rod, first slide bar and second slide bar all with frame sliding connection, the first slide bar of both ends difference fixed connection and the second slide bar of cutting rope one side are kept away from to the sliding block, the connecting rod is parallel with the sliding block and the first slide bar of both ends difference fixed connection and the second slide bar of connecting rod.

Through adopting above-mentioned technical scheme, first slide bar and second slide bar are mainly the both ends that are used for balancing the sliding block, and the connecting rod is used for balancing first slide bar and second slide bar, makes the sliding block be difficult for taking place the motion of other directions when being driven by the second actuating lever, makes the cutting effect of tile good.

Optionally, the support frame is provided with an adjusting mechanism, and the cutting rope is detachably connected with the adjusting mechanism for adjusting the position of the cutting rope.

Through adopting above-mentioned technical scheme, carry out the regulation of cutting rope position through adjustment mechanism, make the tile of multiple specification can be prepared to whole device.

Optionally, adjustment mechanism includes threaded rod, nut and setting element, the strip hole has been seted up along cutting rope setting direction on the support frame, and threaded rod one end is passed the strip hole and is dismantled with cutting rope and be connected, and the other end of threaded rod passes setting element and nut threaded connection.

Through adopting above-mentioned technical scheme, find the suitable position of cutting rope, then pass the bar hole with the threaded rod and cut rope fixed connection, the other end of cutting rope is connected to in the frame, then passes threaded rod and support frame contact with the setting element, then through nut and threaded rod threaded connection, makes the cutting rope tighten, and the setting element is fixed to the support frame simultaneously, has made things convenient for the tightening, the dismantlement and the position control of cutting rope.

Optionally, the distance between the transfer rollers slidably connected to the sliding block is smaller than the distance between the transfer rollers not in contact with the sliding block.

Through adopting above-mentioned technical scheme, the sliding block is not conveyed on the transfer roller with the sliding block contact, and the transfer roller with the sliding block contact can make transfer speed faster because comparatively intensive, conveys the tile to the assigned position fast, pulls open the distance with latter tile, does not influence during the messenger's cutting behind the tile and continuously carries.

Optionally, detection mechanism includes infrared sensor, infrared sensor fixed connection just is located the transfer roller top in the frame, and infrared sensor is located the one end that the tile conveyed out at the transfer roller at the sliding block, and infrared sensor is connected with the equal electricity of power supply and motor.

Through adopting above-mentioned technical scheme, carry out the detection of tile through infrared sensor, when detecting the tile, infrared sensor control power supply stop drive makes the transfer roller stall, and the control motor begins the drive and makes the tile cut.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the detection mechanism and the multi-tile cutting mechanism, the tiles are detected through the detection mechanism after being conveyed to the designated position, then the detection mechanism controls the power source to stop rotating the conveying roller, the detection mechanism drives the motor to rotate, the motor drives the first driving rod and the second driving rod to move, the sliding block slides to push the tiles to cut, the tiles are cut into multiple pieces, and then the sliding block slides back to the initial position, so that the cutting of the multiple tiles is facilitated, and the cutting efficiency is improved;

2. through the setting of adjustment mechanism, make the cutting rope can be very convenient dismantle and adjust, make cutting device can be applicable to the tile of preparation different specifications.

Drawings

FIG. 1 is a front view of an automatic multi-slice tile cutting apparatus in an embodiment of the present application.

Fig. 2 is a partial structural view of the drive assembly in motion in an embodiment of the present application.

Description of reference numerals: 100. a frame; 110. a conveying roller; 120. a fixed block; 200. a detection mechanism; 300. a multi-tile cutting mechanism; 310. a cutting assembly; 311. cutting the rope; 312. a support frame; 320. a drive assembly; 321. a motor; 322. a slider; 323. a first drive lever; 324. a second drive lever; 400. an adjustment mechanism; 410. a nut; 420. a threaded rod; 430. a positioning member; 440. a strip-shaped hole; 500. a sliding assembly; 510. a first slide bar; 520. a second slide bar; 530. a connecting rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses an automatic multi-disc tile cutting device. Referring to fig. 1, automatic multi-disc tile cutting device includes frame 100, detection mechanism 200 and multi-tile cutting mechanism 300, rotates on the frame 100 and is connected with a plurality of transfer rollers 110 that are parallel to each other, is connected with the power supply on the transfer roller 110 and is used for driving all transfer rollers 110 and rotate in step, and the power supply includes driving motor, and driving motor is fixed to be set up on frame 100 and is connected with transfer roller 110.

The multi-tile cutting mechanism 300 comprises a cutting assembly 310 and a driving assembly 320, wherein the cutting assembly 310 comprises a supporting frame 312 and a cutting rope 311, the supporting frame 312 is arranged on one side of the machine frame 100 parallel to the conveying direction of the conveying roller 110, the driving assembly 320 is arranged on the other side of the machine frame 100, the cutting rope 311 is provided with a plurality of cutting ropes and is parallel to each other, all the cutting ropes 311 can be detachably connected to the supporting frame 312, and the cutting ropes adopt steel wires in the embodiment of the application.

Be provided with adjustment mechanism 400 on support frame 312, adjustment mechanism 400 includes threaded rod 420, nut 410 and setting element 430, nut 410 includes the butterfly nut, bar hole 440 has been seted up on support frame 312, threaded rod 420 passes bar hole 440 and can dismantle with the steel wire and be connected, the threaded rod can slide on support frame 312 through bar hole 440, steel wire one end and setting element 430 can be dismantled and be connected are kept away from to threaded rod 420, the through-hole has been seted up on setting element 430, threaded rod 420 passes through-hole and butterfly nut threaded connection, the connection can be dismantled on frame 100 to the other end of steel wire, the steel wire is provided with many and is parallel to each other, distance between all steel wires is the same and all sets up perpendicularly with the direction of transfer roller 110.

Detection mechanism 200 includes infrared sensor, and infrared sensor sets up the one end top that the tile conveyed out at transfer roller 110, and infrared sensor is connected with driving motor and actuating mechanism equal electricity and is used for controlling driving motor and actuating mechanism.

Referring to fig. 1 and 2, the driving assembly 320 includes a motor 321, a driving frame and a sliding block 322, the driving frame includes a first driving rod 323 and a second driving rod 324, the infrared sensor is electrically connected to the motor 321 for controlling the motor 321, the motor 321 is fixedly disposed at an end of the frame 100 far away from the supporting frame 312, and a driving shaft direction of the motor 321 is parallel to a conveying direction of the conveying roller 110. One end of the first driving lever 323 is fixedly connected with a driving shaft of the motor 321, the first driving lever 323 is rotatably connected with the second driving lever 324, the other end of the second driving lever 324 is rotatably connected with the sliding block 322, the sliding block 322 is slidably connected with the conveying roller 110, and the sliding block 322 can be contacted with the steel wire. The sliding block 322 is located at an end of the frame 100 away from the steel wire in the static state, and the first driving rod 323 and the second driving rod 324 are located on the same line and overlap each other. When the slide block 322 contacts with the wire, the first driving lever 323 and the second driving lever 324 are located on the same line and do not overlap each other.

The distance between the conveying rollers 110 connected with the sliding block 322 in a sliding mode is smaller than the conveying rollers 110 not in contact with the sliding block 322, the fixed blocks 120 are arranged at the positions where the rack 100 and the conveying rollers 110 arranged closely enter and exit in a conveying mode, through holes are formed in the fixed blocks 120, the sliding block 322 is provided with the sliding assembly 500, the sliding assembly 500 comprises a first sliding rod 510, a second sliding rod 520 and a connecting rod 530, the first sliding rod 510 and the second sliding rod 520 penetrate through the through holes to be fixedly connected with the sliding block 322, and the first sliding rod 510 and the second sliding rod 520 can slide in the fixed blocks 120. The two ends of the connecting rod 530 are respectively connected to the ends of the first sliding rod 510 and the second sliding rod 520 away from the sliding block 322, and the connecting rod 530 is parallel to the sliding block 322.

The implementation principle of the automatic multi-piece tile cutting device in the embodiment of the application is as follows: conveying long-strip-shaped tile blanks through the conveying roller 110, controlling the driving motor to stop rotating the conveying roller 110 when the infrared sensor detects the tile blanks, then driving the motor 321, enabling a driving shaft of the motor 321 to drive the first driving rod 323 to rotate, enabling the joint of the first driving rod 323 and the second driving rod 324 to rotate towards one end close to a steel wire, enabling the second driving rod 324 to push the sliding block 322 to slide towards the direction close to the steel wire at the moment, enabling the sliding block 322 to drive the first sliding rod 510 and the second sliding rod 520 to slide on the fixing block 120, and enabling the sliding direction of the sliding block 322 to be fixed.

When the first driving lever 323 and the second driving lever 324 are positioned on the same line and do not overlap with each other, the sliding block 322 contacts the steel wire, and the tile blank is cut into a plurality of tiles by the steel wire. Then, the motor 321 continues to rotate, and at this time, the joint of the first driving rod 323 and the second driving rod 324 moves in a direction away from the wire, the second driving rod 324 drives the sliding block 322 to return to the original position, and the first sliding rod 510 and the second sliding rod 520 also slide back to the original position.

When the multi-tile preparation of different specifications is required, the butterfly nut is unscrewed, the threaded rod 420 moves downwards, the steel wire becomes loose, the positioning piece 430 is driven to slide on the support frame 312, the threaded rod 420 slides in the strip-shaped hole 440, a proper position is found, the steel wire is found at the proper position on the rack 100, the butterfly nut is reversely screwed, the butterfly nut is in close contact with the positioning piece 430, the positioning piece 430 is fixed on the support frame 312, the steel wire returns to a tight state, and the multi-tile preparation is carried out again.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. An automatic multi-disc tile cutting device which characterized in that: including frame (100), detection mechanism (200) and multitile cutting mechanism (300), it is connected with a plurality of transfer roller (110) that are parallel to each other to rotate on frame (100), be connected with the power supply on transfer roller (110), multitile cutting mechanism (300) set up on frame (100), detection mechanism (200) are fixed to be set up in frame (100) and are close to transfer roller (110) and convey terminal, and detection mechanism (200) are connected with multitile cutting mechanism (300) electricity and are used for driving multitile cutting mechanism (300) and cut the multi-disc tile simultaneously, and detection mechanism (200) still are connected with the power supply electricity and are used for controlling transfer roller (110).

2. An automatic multi-sheet tile cutting apparatus according to claim 1, wherein: the multi-tile cutting mechanism (300) comprises a cutting assembly (310) and a driving assembly (320), the multi-tile cutting mechanism (300) is arranged on one side, parallel to the conveying direction of the conveying roller (110), of the rack (100), the driving assembly (320) is arranged on the other side of the rack (100), the driving assembly (320) and the multi-tile cutting mechanism (300) can be in contact, and the detection mechanism (200) is electrically connected with the driving assembly (320) and used for controlling the driving assembly (320).

3. An automatic multi-sheet tile cutting apparatus according to claim 2, wherein: cutting subassembly (310) includes support frame (312) and cutting rope (311), support frame (312) are fixed to be set up in the top of frame (100) and the parallel one side of transfer roller (110) direction of transfer, cutting rope (311) are provided with many and all are parallel to each other, and connection can be dismantled between frame (100) and support frame (312) in cutting rope (311), and cutting rope (311) set up with the direction of transfer roller (110) is perpendicular, and cutting rope (311) can contact with drive assembly (320).

4. An automatic multi-sheet tile cutting apparatus according to claim 3 wherein: drive assembly (320) are including motor (321), carriage and sliding block (322), the carriage is all connected with driving shaft and sliding block (322) of motor (321), the carriage is with the driving shaft fixed connection of motor (321), the carriage rotates with sliding block (322) to be connected, detection mechanism (200) are connected with motor (321) electricity and are used for opening of control motor (321) and stop, sliding block (322) and transfer roller (110) can be followed and slide with transfer roller (110) direction of transfer vertically, sliding block (322) with cutting rope (311) all contactable.

5. An automatic multi-sheet tile cutting apparatus according to claim 4 wherein: the driving frame comprises a first driving rod (323) and a second driving rod (324), one end of the first driving rod (323) is fixedly connected with an output shaft of the motor (321), the other end of the first driving rod is rotatably connected with one end of the second driving rod (324), and the other end of the second driving rod (324) is rotatably connected with the sliding block (322).

6. An automatic multi-sheet tile cutting apparatus according to claim 5, wherein: be provided with sliding assembly (500) on sliding block (322), sliding assembly (500) include first slide bar (510), second slide bar (520) and connecting rod (530), first slide bar (510) and second slide bar (520) all with frame (100) sliding connection, first slide bar (510) of fixed connection and second slide bar (520) are respectively kept away from the both ends of cutting rope (311) one side in sliding block (322), connecting rod (530) are parallel with sliding block (322) and the both ends of connecting rod (530) are first slide bar (510) of fixed connection and second slide bar (520) respectively.

7. An automatic multi-sheet tile cutting apparatus according to claim 3 wherein: the cutting device is characterized in that an adjusting mechanism (400) is arranged on the supporting frame (312), and the cutting rope (311) is detachably connected with the adjusting mechanism (400) used for adjusting the position of the cutting rope (311).

8. An automatic multi-sheet tile cutting apparatus according to claim 7 wherein: adjustment mechanism (400) include threaded rod (420), nut (410) and setting element (430), support frame (312) are gone up and are set up the direction along cutting rope (311) and seted up bar hole (440), and bar hole (440) and cutting rope (311) can be dismantled and be connected to threaded rod (420) one end is passed, and the other end of threaded rod (420) passes setting element (430) and nut (410) threaded connection.

9. An automatic multi-sheet tile cutting apparatus according to claim 4 wherein: the distance between the conveying rollers (110) which are connected with the sliding block (322) in a sliding way is smaller than the distance between the conveying rollers (110) which are not contacted with the sliding block (322).

10. An automatic multi-sheet tile cutting apparatus according to any one of claims 1-9, wherein: detection mechanism (200) include infrared sensor, infrared sensor fixed connection just is located transfer roller (110) top in frame (100), and infrared sensor is located the one end that transfer roller (110) conveyed the tile out at sliding block (322), and infrared sensor is connected with the equal electricity of power supply and motor (321).

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