CN201136215Y - Cutting apparatus for ceramic sheets - Google Patents

Abstract

The utility model discloses a ceramic-thin-plate cutting device, and comprises a stander, wherein, the stander is provided with a width adjuster; a beam device is arranged on the width adjuster; the beam device is provided with a main transmission device and a beam-pressing device; both sides of the beam device that is arranged below the beam-pressing device are provided with a group of cutting devices. Each group of the cutting device consists of an upper cutting device and a lower cutting device, which are respectively arranged above and below a green-brick conveying surface. By adopting the structure, the ceramic-thin-plate cutting device can rapidly remove the surrounding surplus volume of the large ceramic-thin-plate green brick, and can obtain regulated cutting surfaces for the following edge grinding and reverse-angle processing, so as to obtain the green brick with the surrounding sizes conforming to the requirements, thereby greatly improving the production efficiency of the ceramic thin plate and reducing the production cost of the ceramic thin plate.

Description

A kind of ceramic thin plate cutting equipment

Technical field

The utility model relates to the Ceramic Tiles cutting equipment, is specifically related to a kind of ceramic thin plate cutting equipment.

Background technology

In the conventional ceramic adobe is produced, adopt edging-chamfer machining technology that the periphery of adobe is carried out grinding usually, so that adobe meets the requirements of dimensions.As shown in Figure 1, the existing periphery that is used for the conventional ceramic adobe carries out accurately machined edging chamfering equipment and has following structure: frame 1, play the support fixation complete machine; Width adjusting device 11 is installed on the frame 1; Beam device 12 is installed on the Width adjusting device 11, can be with the Width adjusting device left and right adjusting; Positioner 13, pressure boom device 14, edging device 15, facing attachment 16 and main drive 17 are installed on the beam device 12 left and right adjusting with the adjusting of beam device 12.Its course of work is: adobe 2 is carried by the synchronous band on the main drive 17, and adobe 2 is located by centering by positioner 13 time; Enter again and press boom device 14 to carry out grinding, make this group opposite side neat and consistent of adobe, meet the requirements of size by the surplus of 15 pairs of one groups of edging device opposite side; End face by 16 pairs of these group opposite side of facing attachment carries out chamfer machining at last.Main drive 17 mainly plays the upper and lower synchronous band of drive adobe is played the conveying effect.

The peripheral surplus that the obvious characteristics of above-mentioned edging chamfering equipment is adobe is removed by the edging device grinding, because stock removal of single edging device limited (substantially in 1mm), so the edging head quantity of edging device must dispose in response to the size of green brick edge surplus.

Yet the adobe of large size ceramic thin plate is after compacting is burnt till, and can there be the not neat phenomenons of the utmost point such as crude limit, waisting, unfilled corner in the periphery of its moulding adobe, and is bigger in the peripheral surplus of carrying out peripheral finishing man-hour requirement removal.When peripheral fine finishining is carried out in adobe to the large size ceramic thin plate as if the existing edging chamfering equipment of employing, then must dispose a large amount of edging devices and finish.Thus, can increase the control difficulty of processing technology undoubtedly, and the length that also causes whole process equipment that increases of edging device configuration quantity prolongs, and can cause the production efficiency height or not and production cost of large size ceramic thin plate to look forward to.

Summary of the invention

The purpose of this utility model is at the deficiencies in the prior art part, and the cutting equipment of the most of peripheral surplus of a kind of suitable removal large size ceramic thin plate adobe is provided.

For achieving the above object, the utility model adopts following technical scheme:

A kind of ceramic thin plate cutting equipment comprises frame, and frame is provided with Width adjusting device, and Width adjusting device is provided with beam device, and beam device is provided with main drive and presses boom device; The beam device both sides of described pressure boom device below are respectively arranged with one group of cutter sweep.

Further, above-mentioned every group of cutter sweep is made up of last cutter sweep and following cutter sweep, is arranged in the above and below of adobe conveyor surface.The face preparation of last cutter sweep and following cutter sweep all should be perpendicular to adobe.Horizontal range between the face preparation of last cutter sweep and following cutter sweep is advisable to be not more than a cutting width, and the face preparation of preferably going up cutter sweep and following cutter sweep at grade.

Above-mentioned cutter sweep down is positioned at the anterior position of cutter sweep.

Cutter sweep is made up of a cutting mechanism under above-mentioned every group, and cutter sweep is made up of two cutting mechanisms on described every group.

Above-mentioned cutter sweep is rotary cutter sweep.

Positioner also is set on the above-mentioned beam device.

Above-mentioned frame is provided with the intermediate supports device.

The utility model can be removed the peripheral surplus of most of large size ceramic thin plate adobe fast by adopting said structure, and obtains regular peripheral cut surface for follow-up edging, chamfer machining processing, thereby obtains the satisfactory adobe of peripheral size.The utility model has improved the production efficiency of ceramic thin plate greatly and has reduced the production cost of ceramic thin plate.

Description of drawings

Fig. 1 is the structural representation of existing edging chamfering equipment;

Fig. 2 is a side-looking structural representation of the present utility model;

Fig. 3 is the plan structure schematic diagram of Fig. 2;

Fig. 4 is the work schematic diagram of cutter sweep down described in the utility model;

Fig. 5 is a work schematic diagram of going up cutter sweep described in the utility model;

Fig. 6 is the fundamental diagram of the cutting mode that gets on, get off described in the utility model;

Fig. 7 is the side-looking structure for amplifying schematic diagram of Fig. 6;

Fig. 8 is the utility model is implemented cutting to adobe a fundamental diagram;

Fig. 9 is that the cutter sweep of going up described in the utility model is formed the fundamental diagram that row cuts.

Among the figure:

The 1-frame; The 11-Width adjusting device; The 12-beam device; The 13-positioner; 14-presses boom device; The 15-edging device; The 16-facing attachment; The 17-main drive; The 2-adobe; Cutter sweep under the 31-; Cutting head under the 311-; The up-down adjustment screw arbor assembly of cutting head under the 312-; The front and back adjusting screw(rod) assembly of cutting head under the 313-; The last cutter sweep of 32-; The last cutting head of 321-; The up-down adjustment screw arbor assembly of the last cutting head of 322-; The front and back adjusting screw(rod) assembly of the last cutting head of 323-; 4-intermediate supports device; The S-face preparation.

Now in conjunction with the accompanying drawings and embodiments the utility model is described in further detail:

The specific embodiment

As shown in Figures 2 and 3, cutting equipment described in the utility model has the frame 1 of support fixation complete machine effect together; Width adjusting device 11 is installed on the frame 1; Beam device 12 is installed on the Width adjusting device 11, and beam device 12 is with Width adjusting device 11 left and right adjusting, so that complete machine is fit to the processing dimension of adobe; Main drive 17 is installed on the beam device 12, and by the brick-entering direction of adobe 2 mounting and positioning device 13 successively, press boom device 14, cutter sweep 31 and last cutter sweep 32 down, and equal left and right adjusting with the adjusting of beam device 12.In the present embodiment, following cutter sweep 31 and last cutter sweep 32 are arranged in the above and below of adobe conveyor surface; Following trimming device 31 has two, has four and go up trimming device 32, is one group with two to arrange respectively; Following cutter sweep 31 is positioned at the anterior position of cutter sweep 32; Following cutter sweep 31 and last cutter sweep 32 are rotary cutter sweep; The face preparation S of following cutter sweep 31 and last cutter sweep 32 is on same plane (as shown in Figure 7).Frame 1 is provided with intermediate supports device 4, and this intermediate supports device 4 is in order to the supplemental support adobe, prevents the adobe phenomenon that occurs bending and deformation in course of conveying.

As shown in Figure 4, down cutter sweep 31 is mainly by cutting head 311 down, the up-down adjustment screw arbor assembly 312 of cutting head and the front and back adjusting screw(rod) assembly 313 of following cutting head are formed down for each, and following cutting head 311 is by about up-down adjustment screw arbor assembly 312 and 313 realizations of front and back adjusting screw(rod) assembly and the feeding of fore-and-aft direction.

As shown in Figure 5, cutter sweep 32 mainly is made up of last cutting head 321, the up-down adjustment screw arbor assembly 322 of going up cutting head and the front and back adjusting screw(rod) assembly 323 of last cutting head on each, and last cutting head 321 is realized up and down and the feeding of fore-and-aft direction by up-down adjustment screw arbor assembly 322 and front and back adjusting screw(rod) assembly 323.

The course of work of the present utility model is as follows:

The adobe 2 of ceramic thin plate is carried by the following synchronous band of main drive 17, and adobe 2 is located by centering during through positioner 13; By the medium position of intermediate supports device 4 support adobes, enter and press boom device 14 back adobes 2 to be compressed conveying by upper and lower synchronous band; Enter (as shown in Figure 8) behind the cutting zone, adobe 2 elder generation's processes cutter sweep 31 are down carried out the precut of two opposite side surpluses, by last cutter sweep 32 adobe two opposite side surpluses are cut off again, surplus major part on adobe this moment two opposite side is cut, and two opposite side of adobe 2 become regular cutting edge by the irregularity limit.

The cutting mode that gets on, get off of the present utility model below is described in further detail again, extremely shown in Figure 7 as Fig. 4.Adobe 2 feedings, the lower surface of following cutting head 311 rotation cutting adobe side surpluses also cuts out the cutting seam, determines the depth of cut of cutting head down by regulating up-down adjustment screw arbor assembly 312; The width of adjusting screw(rod) assembly 313 definite adobe side surpluses that should cut away before and after regulating.Adobe 2 continues feeding, last cutting head 321 beginnings are cut adobe 2 at the upper surface of adobe side surplus over against the position rotation of this cutting seam, the width of determining the cutting adobe by adjusting screw(rod) assembly before and after regulating 323 overlaps with the position with the cutting seam, by regulating the depth of cut that up-down adjustment screw arbor assembly 322 is regulated cutting head 321.

For thickness thicker ceramic thin plate adobe relatively, if one of use is gone up cutter sweep and is implemented cutting action, then the cutting pressure that bears of adobe can be bigger, should the row's of employing cutting method go up cutting action (as shown in Figure 9) this moment, promptly as described in the present embodiment a side of adobe arrange plural on cutter sweep, adopt method that the cutting seam successively deepens until adobe side surplus is cut off fully.The benefit of row's cutting method is further to reduce cutting pressure that adobe bears and still can guarantees the thorough execution of cutting action when cutter sweep when wearing and tearing appears in the work certain hour.

It should be noted that at last, above embodiment is only unrestricted in order to the explanation the technical solution of the utility model, although the utility model is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can make amendment or be equal to replacement the technical solution of the utility model, and can not break away from the spirit and scope of technical solutions of the utility model.

Claims (10)

1, a kind of ceramic thin plate cutting equipment, comprise frame, frame is provided with Width adjusting device, Width adjusting device is provided with beam device, beam device is provided with main drive and presses boom device, it is characterized in that the beam device both sides of described pressure boom device below are respectively arranged with one group of cutter sweep.

2, cutting equipment according to claim 1 is characterized in that, described every group of cutter sweep is made up of last cutter sweep and following cutter sweep, is arranged in the above and below of adobe conveyor surface.

3, cutting equipment according to claim 2 is characterized in that, described cutter sweep down is positioned at the anterior position of cutter sweep.

4, cutting equipment according to claim 2 is characterized in that, the horizontal range between the face preparation of described upward cutter sweep and following cutter sweep is not more than a cutting width.

5, cutting equipment according to claim 4 is characterized in that, the face preparation of described upward cutter sweep and following cutter sweep at grade.

According to the arbitrary described cutting equipment of claim 2 to 5, it is characterized in that 6, cutter sweep is made up of a cutting mechanism under described every group, cutter sweep is made up of two cutting mechanisms on described every group.

According to the arbitrary described cutting equipment of claim 1 to 5, it is characterized in that 7, described cutter sweep is rotary cutter sweep.

8, cutting equipment according to claim 6 is characterized in that, described cutter sweep is rotary cutter sweep.

9, cutting equipment according to claim 1 is characterized in that, positioner also is set on the described beam device.

10, cutting equipment according to claim 1 is characterized in that, described frame is provided with the intermediate supports device.

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