CN219095543U - Ceramic tile processing equipment - Google Patents

Abstract

The utility model relates to the technical field of floor tile processing, in particular to ceramic tile processing equipment; including workstation, support frame and descending device, descending device includes the balladeur train, the slide, descending motor, descending guide rail, descending lead screw, the cutting machine, transverse component and locating component, during the ceramic tile processing, locating component carries out fixed positioning, transverse component realizes the horizontal reciprocating motion of cutting machine, simultaneously, can drive descending motor, it is rotatory to drive descending lead screw to can drive slide vertical movement, carry out the position control, and then realize the vertical removal of cutting machine, carry out the position control, and then realize when carrying out ceramic tile cutting processing, can carry out the vertical position control of cutting machine, be convenient for carry out cutting processing to the ceramic tile of different thickness, more facilitate the use.

Description

Ceramic tile processing equipment

Technical Field

The utility model relates to the technical field of floor tile processing, in particular to ceramic tile processing equipment.

Background

Ceramic tile is fired with clay and is processed, is the building material that uses commonly used, and ceramic tile need cut processing according to the service condition in the course of working, and current cutting device has fixed effect relatively poor when cutting, makes the ceramic tile take place the skew problem when cutting easily to will seriously reduce cutting quality.

The prior art CN217494783U discloses ceramic tile processing cutting equipment, the problem that the fixed effect is relatively poor when cutting, offset easily occurs, and cutting quality is influenced is solved in current ceramic tile cutting device, the ceramic tile processing cutting equipment comprises a cutting table, the cutting table lower extreme is connected with the mount pad, mount pad internal connection has fixed subassembly, the cutting table upper end is connected with the support frame, the inside roof sliding connection of support frame has the cutting machine, the utility model, biax motor drives the pivot rotation, the pivot drives the capstan winch rotation, the capstan winch rotation pulling cable, simultaneously under the cooperation of rotor wheel, make the cable drive extension board move downwards, the extension board drives the fixed cover and moves downwards, make fixed cover lower extreme and material upper end one side contact, then under the fixed action of fixed cover, make the material centre gripping fixed, thereby make the material more stable in the cutting process, avoid the material to take place the offset when cutting to influence cutting quality, promote cutting quality.

However, when the cutting machine is used, the cutting machine can only move horizontally, but cannot adjust the vertical position, so that the cutting machine is not beneficial to cutting ceramic bricks with different thicknesses, and is inconvenient to use.

Disclosure of Invention

The utility model aims to provide ceramic tile processing equipment, which can adjust the vertical position of a cutting machine when cutting ceramic tiles, is convenient for cutting ceramic tiles with different thicknesses and is more convenient to use.

In order to achieve the above purpose, the utility model provides ceramic tile processing equipment, which comprises a workbench and a support frame, wherein the support frame is fixedly connected with the workbench and is positioned at one side of the workbench, and the ceramic tile processing equipment further comprises a descending device;

the descending device comprises a sliding frame, a sliding seat, a descending motor, a descending guide rail, a descending screw rod, a cutting machine, a transverse component and a positioning component, wherein the sliding frame is located on one side of the supporting frame, the sliding seat is located on one side of the sliding frame, the descending motor is fixedly connected with the sliding frame and located on the sliding frame, the descending guide rail is fixedly connected with the sliding frame and located on the sliding frame, the descending screw rod is rotationally connected with the sliding frame, the descending screw rod is detachably connected with the sliding frame and fixedly connected with an output shaft of the descending motor and located on one side of the sliding frame, the cutting machine is fixedly connected with the sliding frame and located on the sliding frame, the transverse component is arranged on one side of the sliding frame, and the positioning component is arranged on one side of the workbench.

The transverse assembly comprises a transverse guide rail and a power component, wherein the transverse guide rail is fixedly connected with the support frame, fixedly connected with the carriage and positioned on the support frame; the power member is provided on one side of the carriage.

The power component comprises a transverse motor and a transverse screw rod, and the transverse motor is fixedly connected with the support frame and is positioned at one side of the support frame; the transverse screw rod is rotationally connected with the supporting frame, is detachably connected with the carriage, is fixedly connected with an output shaft of the transverse motor, and is positioned on one side of the transverse motor, which is close to the carriage.

The positioning assembly comprises a supporting bar, a hydraulic cylinder and a clamping plate, wherein the supporting bar is fixedly connected with the workbench and is positioned on the workbench; the hydraulic cylinder is fixedly connected with the workbench and is positioned at one side of the workbench; the clamping plate is connected with the output end of the hydraulic cylinder and is positioned on one side of the hydraulic cylinder, which is close to the supporting bar.

The positioning assembly further comprises a mounting plate and a blowing cylinder, wherein the mounting plate is fixedly connected with the workbench and is positioned on one side, close to the supporting bar, of the workbench; the blowing cylinder is fixedly connected with the mounting plate and is positioned on one side of the mounting plate, which is close to the supporting bar.

According to the ceramic tile processing equipment, the supporting frame is arranged on the workbench, the sliding frame is arranged on one side of the supporting frame, the sliding seat is arranged on one side of the sliding frame, the cutting machine is arranged on the sliding seat, the descending motor is arranged on the top of the sliding frame, the descending screw rod is arranged on the sliding frame and fixedly connected with the output shaft of the descending motor, the descending guide rail is arranged on the sliding frame and is provided with the linear sliding block, the linear sliding block is connected with the sliding seat, the transverse component is arranged on one side of the sliding frame and drives the sliding frame to move horizontally, so that the sliding seat is driven to move horizontally, the cutting machine is driven to move horizontally, the positioning component is arranged on one side of the workbench and is used for positioning a workpiece, the positioning component is used for fixing and positioning the ceramic tile, the transverse component is used for realizing horizontal reciprocating movement of the cutting machine, and simultaneously driving the descending motor to rotate, so that the sliding seat is driven to move vertically, the position adjustment is realized, and the position adjustment is realized when the ceramic tile cutting processing is performed, the vertical position adjustment of the cutting machine is realized, and the ceramic tile with different thicknesses is convenient to perform the cutting processing.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic view showing the overall structure of a ceramic tile processing device according to a first embodiment of the present utility model.

Fig. 2 is a schematic structural view of a slider according to a first embodiment of the present utility model.

Fig. 3 is a schematic view showing the overall structure of a ceramic tile processing device according to a second embodiment of the present utility model.

In the figure: 101-workbench, 102-support frame, 103-carriage, 104-slide, 105-descending motor, 106-descending guide rail, 107-descending screw rod, 108-cutter, 109-transverse guide rail, 110-transverse motor, 111-transverse screw rod, 112-support bar, 113-hydraulic cylinder, 114-clamping plate, 201-mounting plate and 202-blowing cylinder.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

Embodiment one:

as shown in fig. 1 and 2, wherein fig. 1 is a schematic view of the overall structure of a ceramic tile processing device, and fig. 2 is a schematic view of the structure of a slide, the present utility model provides a ceramic tile processing device: including workstation 101, support frame 102 and descending device, descending device includes balladeur train 103, slide 104, descending motor 105, descending guide rail 106, descending lead screw 107, cutting machine 108, transverse assembly and locating component, the transverse assembly includes transverse guide rail 109 and power component, the power component includes transverse motor 110 and transverse lead screw 111, the locating component includes support bar 112, pneumatic cylinder 113 and splint 114. Through the aforesaid scheme can be when carrying out ceramic tile cutting processing, can carry out the vertical position adjustment of cutting machine 108, be convenient for carry out cutting processing to the ceramic tile of different thickness, more facilitate the use, it can be understood that, the aforesaid scheme can be right the vertical position adjustment of cutting machine 108, be convenient for carry out cutting processing to the ceramic tile of different thickness, more facilitate the use.

In this embodiment, the support 102 is fixedly connected to the table 101 and located on one side of the table 101, and the support 102 is mounted on the table 101 by bolts.

Wherein the carriage 103 is located at one side of the supporting frame 102, the sliding seat 104 is located at one side of the carriage 103, the descending motor 105 is fixedly connected with the carriage 103 and located on the carriage 103, the descending guide rail 106 is fixedly connected with the carriage 103 and fixedly connected with the sliding seat 104 and located on the carriage 103, the descending screw rod 107 is rotatably connected with the carriage 103, the descending screw rod 107 is detachably connected with the sliding seat 104 and fixedly connected with an output shaft of the descending motor 105 and located at one side of the descending motor 105 close to the sliding seat 104, the cutter 108 is fixedly connected with the sliding seat 104 and located on the sliding seat 104, the transverse component is arranged at one side of the carriage 103, the positioning component is arranged at one side of the workbench 101, the cross section of the sliding seat 104 is L-shaped, the cutting machine 108 is arranged on the sliding seat 104 through bolts, a plurality of descending guide rails 106 are linear guide rails and are provided with linear sliding blocks, the linear sliding blocks are connected with the sliding seat 104 through bolts, the plurality of descending guide rails 106 are symmetrically arranged on the sliding seat 103 through bolts, the descending motor 105 is a servo motor with an encoder and a band-type brake mechanism and is arranged on the top of the sliding seat 103 through bolts, the shaft ends of the two sides of the descending screw rod 107 are arranged on the sliding seat 103 through rotating bearings, meanwhile, the shaft ends close to the descending motor 105 are connected with the output shaft of the descending motor 105 through a rigid coupler, the matched nuts of the descending screw rod 107 are arranged in through holes protruding on the back of the sliding seat 104 through detachable bolts, the transverse component is arranged on one side of the sliding seat 103 and is used for driving the sliding seat 103 to horizontally move, the positioning component is arranged on one side of the workbench 101 and is used for positioning the ceramic tile.

Secondly, the transverse guide 109 is fixedly connected with the support frame 102, fixedly connected with the carriage 103 and located on the support frame 102, the power component is arranged on one side of the carriage 103, a plurality of transverse guide 109 are linear guide and are provided with linear sliding blocks, the linear sliding blocks are connected with the carriage 103 through bolts, and the power component is arranged on one side of the carriage 103 and is used for driving the carriage 103 to move.

Then, the transverse motor 110 is fixedly connected with the support frame 102 and is located at one side of the support frame 102, the transverse screw rod 111 is rotationally connected with the support frame 102, the transverse screw rod 111 is detachably connected with the carriage 103 and is fixedly connected with an output shaft of the transverse motor 110 and is located at one side of the transverse motor 110, which is close to the carriage 103, the transverse motor 110 is a servo motor with an encoder and a band-type brake mechanism and is mounted on the support frame 102 through bolts, mounting shaft ends at two sides of the transverse screw rod 111 are mounted on the support frame 102 through rotating bearings, meanwhile, the shaft ends close to the transverse motor 110 are connected with an output shaft of the transverse motor 110 through a rigid coupler, and a matched nut of the transverse screw rod 111 is mounted in a through hole in a protrusion at the bottom of the carriage 103 through a detachable bolt.

Finally, the supporting bars 112 are fixedly connected with the workbench 101 and are positioned on the workbench 101, the hydraulic cylinders 113 are fixedly connected with the workbench 101 and are positioned on one side of the workbench 101, the clamping plates 114 are connected with the output ends of the hydraulic cylinders 113 and are positioned on one side, close to the supporting bars 112, of the hydraulic cylinders 113, the supporting bars 112 are mounted on the workbench 101 through bolts, a certain height is reserved after ceramic tiles are placed, cutting is facilitated, the hydraulic cylinders 113 are mounted on the bottom of the workbench 101 through bolts, through holes are formed in the workbench 101, piston rods of the hydraulic cylinders 113 are convenient to pass through, the clamping plates 114 are rectangular plates, and the clamping plates are symmetrically mounted on the output ends of the hydraulic cylinders 113 through bolts.

When the ceramic tile cutting machine is used for cutting ceramic tiles, the vertical machining position of the cutting machine 108 is adjusted, ceramic tiles are firstly placed on a plurality of supporting bars 112, then, a plurality of hydraulic cylinders 113 are controlled to act to drive a plurality of clamping plates 114 to abut against the ceramic tiles, so that the ceramic tile clamps are fixedly clamped, then, a transverse motor 110 can be controlled to act to drive a transverse screw rod 111 to rotate, so that a sliding frame 103 is driven to horizontally move, a sliding seat 104 is driven to horizontally move, so that the cutting machine 108 is driven to horizontally move to cut, meanwhile, a descending motor 105 can be controlled to act to drive a descending screw rod 107 to rotate, so that the sliding seat 104 is driven to descend, the working height of the cutting machine 108 is adjusted, the cutting depth of the cutting machine 108 is controlled conveniently, and the vertical position of the cutting machine 108 can be adjusted when the ceramic tile cutting machine is used for cutting ceramic tiles with different thicknesses, and the ceramic tile cutting machine is convenient to use.

Embodiment two:

as shown in fig. 3, wherein fig. 3 is a schematic view of the overall structure of the ceramic tile processing device, the present utility model provides a ceramic tile processing device, on the basis of the first embodiment, the positioning assembly further comprises a mounting plate 201 and a blowing cylinder 202.

The mounting plate 201 is fixedly connected with the workbench 101 and is located on one side, close to the supporting bar 112, of the workbench 101, the blowing cylinder 202 is fixedly connected with the mounting plate 201 and is located on one side, close to the supporting bar 112, of the mounting plate 201, the mounting plate 201 is mounted on the workbench 101 through bolts and is close to a plurality of the supporting bars 112, through holes are formed in the mounting plate 201, the cross section of the blowing cylinder 202 is shaped like a Chinese character 'zhong', connecting discs of the blowing cylinder 202 are connected with the mounting plate 201 through bolts, and therefore fixed mounting is achieved, and one side of an inlet of the blowing cylinder 202 is connected with an external compressed air source.

After ceramic tile cutting processing is carried out on a plurality of support bars 112, impurities exist on the surface of the support bars, the placement and positioning of the next ceramic tile are affected, at this time, after the processed ceramic tile is taken down, the plurality of blowing cylinders 202 can blow the support bars 112, so that the impurities on the support bars 112 are blown away, and the next ceramic tile is placed and clamped and then cut.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (5)

1. The ceramic tile processing equipment comprises a workbench and a support frame, wherein the support frame is fixedly connected with the workbench and is positioned at one side of the workbench,

the device also comprises a downlink device;

the descending device comprises a sliding frame, a sliding seat, a descending motor, a descending guide rail, a descending screw rod, a cutting machine, a transverse component and a positioning component, wherein the sliding frame is located on one side of the supporting frame, the sliding seat is located on one side of the sliding frame, the descending motor is fixedly connected with the sliding frame and located on the sliding frame, the descending guide rail is fixedly connected with the sliding frame and located on the sliding frame, the descending screw rod is rotationally connected with the sliding frame, the descending screw rod is detachably connected with the sliding frame and fixedly connected with an output shaft of the descending motor and located on one side of the sliding frame, the cutting machine is fixedly connected with the sliding frame and located on the sliding frame, the transverse component is arranged on one side of the sliding frame, and the positioning component is arranged on one side of the workbench.

2. The ceramic tile processing device of claim 1, wherein,

the transverse assembly comprises a transverse guide rail and a power component, wherein the transverse guide rail is fixedly connected with the support frame, fixedly connected with the carriage and positioned on the support frame; the power member is provided on one side of the carriage.

3. The ceramic tile processing device of claim 2, wherein,

the power component comprises a transverse motor and a transverse screw rod, and the transverse motor is fixedly connected with the support frame and is positioned at one side of the support frame; the transverse screw rod is rotationally connected with the supporting frame, is detachably connected with the carriage, is fixedly connected with an output shaft of the transverse motor, and is positioned on one side of the transverse motor, which is close to the carriage.

4. The ceramic tile processing device of claim 1, wherein,

the positioning assembly comprises a supporting bar, a hydraulic cylinder and a clamping plate, wherein the supporting bar is fixedly connected with the workbench and is positioned on the workbench; the hydraulic cylinder is fixedly connected with the workbench and is positioned at one side of the workbench; the clamping plate is connected with the output end of the hydraulic cylinder and is positioned on one side of the hydraulic cylinder, which is close to the supporting bar.

5. The ceramic tile processing device of claim 4, wherein,

the positioning assembly further comprises a mounting plate and a blowing cylinder, wherein the mounting plate is fixedly connected with the workbench and is positioned on one side, close to the supporting bar, of the workbench; the blowing cylinder is fixedly connected with the mounting plate and is positioned on one side of the mounting plate, which is close to the supporting bar.

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