CN210678892U - Sponge multilayer cutting device - Google Patents

Abstract

The utility model relates to a sponge multilayer cutting device, which comprises a conveying unit, wherein the conveying unit comprises a conveying bracket and a conveying belt; the cutting unit comprises a plurality of cutting portal frames, the portal frames are provided with two annular transverse cutter belts, and each annular transverse cutter belt is driven by an independent lifting adjusting mechanism to reciprocate up and down; the gantry is further provided with a positioning datum which comprises a datum block, the gantry is provided with a vertically arranged groove for embedding and installing the datum block and performing micro motion, and after the datum block is embedded into the groove, two sides of the datum block are tightly fixed on the gantry through bolts. The utility model has the advantages that: through add the location benchmark on the portal frame for the horizontal sword area of ring on the portal frame is all adjusting according to the position of benchmark piece when the regulation of position about carrying out, thereby ensures the accuracy of the horizontal sword area height adjustment of ring, and the corresponding accuracy of the bed thickness of the sponge of cutting out has also been ensured.

Description

Sponge multilayer cutting device

Technical Field

The invention relates to the field of sponge cutting, in particular to a sponge multilayer cutting device.

Background

Sponge cutters are currently divided into manual sponge cutters and numerical control sponge cutters. The manual sponge cutting machine is low in price, but the utilization rate of the sponge is low, and the operation is complex. The numerical control sponge cutting machine is moderate in price, simple and convenient to operate, capable of being controlled by people who generally use computers, high in product precision, capable of effectively improving the sponge utilization rate, and free of dust when being cut.

In the actual production at present, generally select the disc machine to cut equidistant sponge piece, the disc machine is though can once cut a plurality of bubble cotton, but needs every bubble cotton material loading unloading, and this process waste time is more, perhaps adopts the cutting of a plain cutter bubble cotton, and efficiency is also not high.

Therefore, in view of the above phenomenon, in CN206264005U, a high-precision vibrating knife sponge sheet fast cutting device is proposed, which comprises a conveying unit including a conveying support, a conveying belt mounted on the conveying support, and a driving motor for driving the conveying belt to work; the cutting unit comprises a plurality of cutting portal frames which are sequentially distributed at equal intervals along the conveying direction of the conveying belt, the portal frames stretch across two ends of the conveying belt in the width direction, a circular transverse cutter belt is mounted on each portal frame, two ends of the circular transverse cutter belt are mounted on each portal frame through a transverse cutter mounting seat, and the circular transverse cutter belt can be driven by a lifting adjusting mechanism mounted on each portal frame to reciprocate up and down to adjust the distance between the circular transverse cutter belt and the conveying belt. Through setting up a plurality of cutting portal frames that distribute in proper order along conveyer belt direction of delivery, the ring of utilizing the installation of cutting portal frame is horizontal sword area can once only be cut into required thickness with the sponge, unusual convenience.

The above cutting devices still have certain drawbacks during use: because the portal frames are more in number, the up-down distance of the annular transverse cutter belt is adjusted in a relatively troublesome manner and needs to be adjusted according to the position of the annular transverse cutter belt on the previous portal frame, so that once the height of a certain annular transverse cutter belt is inaccurate, the heights of all subsequent annular transverse cutter belts are deviated, and the cutting precision of the number of layers of the sponge is influenced.

Disclosure of Invention

The invention aims to provide a sponge multilayer cutting device with accurate cutting.

In order to solve the technical problems, the technical scheme of the invention is as follows: the utility model provides a sponge multilayer cutting device which innovation point lies in: comprises that

The conveying unit comprises a conveying support, a conveying belt arranged on the conveying support and a driving motor for driving the conveying belt to work;

the cutting unit comprises a plurality of cutting portal frames which are sequentially distributed at equal intervals along the conveying direction of the conveying belt, the portal frames stretch across two ends of the conveying belt in the width direction, annular cross cutter belts are arranged on the portal frames, two ends of each annular cross cutter belt are arranged on the portal frames through a cross cutter mounting seat, two annular cross cutter belts are arranged on each portal frame and distributed at two ends of the portal frames along the conveying direction of the conveying belt, and each annular cross cutter belt is driven by an independent lifting adjusting mechanism arranged on the portal frame to reciprocate up and down to adjust the distance between each annular cross cutter belt and the conveying belt;

the gantry is further provided with a positioning datum which comprises a datum block, the gantry is provided with a vertically arranged groove for embedding and installing the datum block and performing micro motion, and after the datum block is embedded into the groove, two sides of the datum block are tightly fixed on the gantry through bolts.

Further, the lifting adjusting mechanism is: the two ends of the portal frame are provided with a pair of vertically arranged lifting guide rails, the lifting guide rails are provided with lifting slide blocks matched with the lifting guide rails, and the transverse cutter mounting seat is mounted on the lifting slide blocks and driven by a lifting motor mounted on the portal frame and a lifting toothed belt to reciprocate up and down along the extension direction of the lifting guide rails.

Furthermore, a pair of vertically arranged positioning plates are further arranged on the two sides of the reference block on the portal frame, and meanwhile, positioning probes matched with the positioning plates are further arranged on the two sides of the reference block.

The invention has the advantages that: in the invention, the positioning reference is additionally arranged on the portal frame, so that the annular transverse cutter belt on the portal frame is adjusted according to the position of the reference block when the upper and lower positions of the annular transverse cutter belt are adjusted, the height adjustment accuracy of the annular transverse cutter belt is ensured, and the layer thickness accuracy of the cut sponge is correspondingly ensured.

The positioning plates and the positioning probes on the two sides of the reference block are matched, so that the position of the reference block is ensured, and the inaccuracy of height adjustment of the annular transverse cutter belt caused by the position deviation of the reference block is avoided.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of a sponge multi-layer cutting apparatus of the present invention.

Fig. 2 is a front view of the sponge multi-layer cutting device of the present invention.

Fig. 3 is a sectional view a-a of fig. 2.

Detailed Description

The following examples are presented to enable one of ordinary skill in the art to more fully understand the present invention and are not intended to limit the scope of the embodiments described herein.

A multi-layer sponge cutting device as shown in fig. 1-3 comprises

And the conveying unit comprises a conveying bracket, a conveying belt arranged on the conveying bracket and a driving motor for driving the conveying belt to work.

A cutting unit, the cutting unit includes a plurality of cutting portal frames 1 that distribute along conveyer belt direction of delivery equidistance in proper order, portal frame 1 spanes at the both ends of the width direction of conveyer belt, install the horizontal sword area of ring on portal frame 1, install on portal frame 1 through horizontal sword mount pad 2 at the both ends of the horizontal sword area of ring, still install four cutter pulleys 3 that the horizontal sword area of appearance ring that are the rectangle form and distribute and walk around simultaneously in the both sides of portal frame 1, thereby make the horizontal sword area of whole ring be the shape of the mouth, the horizontal sword area of ring of installation is total two on every portal frame 1, and distribute at the both ends of portal frame 1 along the direction of delivery of conveyer belt, and every horizontal sword area of ring comes the distance of the horizontal sword area of adjustable ring from the conveyer belt by installing up-and-down reciprocating motion of solitary lifting adjusting mechanism drive on portal frame 1.

The lifting adjusting mechanism is as follows: both ends at portal frame 1 all have the lift rail 4 of a pair of vertical setting, have complex lifting slide 5 with it on lift rail 4, horizontal sword mount pad 2 is installed on same fly leaf 6 with the break bar 3 that is close to, remaining break bar 3 is installed on independent fly leaf 6, lie in portal frame 1 and pass through shroud 8 in the outside of two fly leaves 6 of the same one side of upper and lower distribution of one side, two shroud 8 that lie in portal frame 1 and pass through connecting rod 9 and connect fixedly, fly leaf 6 is fixed mutually with lift slider 5 respectively, and carry out up-and-down motion along lift rail 4's extending direction by the cooperation drive of installing elevator motor 7 on portal frame 1 and lift cingulum, its drive fit specifically does: the two sides of the portal frame 1 are respectively provided with a vertically arranged lifting toothed belt, a pair of lifting gears matched with the lifting toothed belts are arranged on the upper side and the lower side of the portal frame 1, the lifting gears are fixedly connected with the movable plate 6, and any one lifting gear 6 is driven by the lifting motor 7 to rotate, so that the up-and-down lifting of the annular transverse cutter belt is realized.

A positioning reference is also arranged on the portal frame 1, the positioning reference comprises a reference block 10, a groove which is vertically arranged and is used for embedding and mounting the reference block 10 and performing micro motion is arranged on the portal frame 1, meanwhile, a bulge embedded into the groove is arranged on the reference block 10, the size of the bulge is smaller than that of the groove, so that the reference block 10 can be slightly adjusted to ensure the mounting accuracy of the reference block 10, after the bulge of the reference block 10 is embedded into the groove, two sides of the reference block 10 are tightly fixed on the portal frame 1 through bolts,

a pair of vertically arranged positioning plates 11 are further arranged on the two sides of the reference block 10 on the portal frame 1, and meanwhile, positioning probes matched with the positioning plates 11 are further arranged on the two sides of the reference block 10. The positioning plates 11 and the positioning probes on the two sides of the reference block 10 are matched, so that the position of the reference block 10 is ensured, the inaccuracy of height adjustment of the annular transverse cutter belt caused by the deviation of the position of the reference block 10 is avoided, the positioning plates 11 are arranged on the two sides of the reference block 10 and matched with the positioning probes, the positions of the two sides of the reference block 10 are all positioned, and the deviation of the reference block 10 per se is avoided, so that the positioning is not accurate.

It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (3)

1. A sponge multilayer cutting device which characterized in that: comprises that

The conveying unit comprises a conveying support, a conveying belt arranged on the conveying support and a driving motor for driving the conveying belt to work;

the cutting unit comprises a plurality of cutting portal frames which are sequentially distributed at equal intervals along the conveying direction of the conveying belt, the portal frames stretch across two ends of the conveying belt in the width direction, annular cross cutter belts are arranged on the portal frames, two ends of each annular cross cutter belt are arranged on the portal frames through a cross cutter mounting seat, two annular cross cutter belts are arranged on each portal frame and distributed at two ends of the portal frames along the conveying direction of the conveying belt, and each annular cross cutter belt is driven by an independent lifting adjusting mechanism arranged on the portal frame to reciprocate up and down to adjust the distance between each annular cross cutter belt and the conveying belt;

the gantry is further provided with a positioning datum which comprises a datum block, the gantry is provided with a vertically arranged groove for embedding and installing the datum block and performing micro motion, and after the datum block is embedded into the groove, two sides of the datum block are tightly fixed on the gantry through bolts.

2. The sponge multilayer cutting device of claim 1, wherein: the lifting adjusting mechanism is as follows: the two ends of the portal frame are provided with a pair of vertically arranged lifting guide rails, the lifting guide rails are provided with lifting slide blocks matched with the lifting guide rails, and the transverse cutter mounting seat is mounted on the lifting slide blocks and driven by a lifting motor mounted on the portal frame and a lifting toothed belt to reciprocate up and down along the extension direction of the lifting guide rails.

3. The sponge multilayer cutting device of claim 1, wherein: a pair of vertically arranged positioning plates are further arranged on the two sides of the reference block on the portal frame, and meanwhile, positioning probes matched with the positioning plates are further arranged on the two sides of the reference block.

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