CN112776183B

CN112776183B - Intelligent mine stone cutter

Info

Publication number: CN112776183B
Application number: CN202011628625.4A
Authority: CN
Inventors: 林智敏; 洪培英; 丁革新; 华新陆; 黄嘉鸿; 林榕栋
Original assignee: Quanzhou Haiende Electromechanical Technology Development Co ltd
Current assignee: Quanzhou Haiende Electromechanical Technology Development Co ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2022-08-09
Anticipated expiration: 2040-12-30
Also published as: CN112776183A

Abstract

The invention discloses an intelligent mine stone cutter, which comprises a stone cutter body, wherein the stone cutter body comprises a cutting tool and a tool driving device; the cutting depth of the cutting tool is greater than the radius of the cutting tool; the cutter driving device comprises a pair limiting mechanism and a cutter driving mechanism; the cutting tool comprises a cutting bearing disc and a plurality of cutting teeth connected with the cutting bearing disc; the plurality of cutting teeth are arranged around the outer circumferential surface of the cutting bearing disc at equal intervals; the cutter driving mechanism comprises a magnetic ring formed on the cutting bearing disc and a motor driving body for driving the magnetic ring to rotate; the magnetic ring is concentric with the cutting bearing disc; the limiting mechanism comprises a first arc-shaped limiting groove, a second arc-shaped limiting groove, a first limiting ball and a second limiting ball; the first arc-shaped limiting groove is concentric with the cutting bearing disc; the second arc-shaped limiting groove is concentric with the cutting bearing disc; the cutting depth is deeper than that of the existing stone cutting machine, and the driving is more stable.

Description

Intelligent mine stone cutter

Technical Field

The invention relates to the field of stone cutting machines, in particular to an intelligent mine stone cutting machine.

Background

The traditional mine stone cutting machine mainly comprises a cutting machine head, a saw blade, wheels, a guide rail, a frame type base and the like, wherein the cutting machine head is rotationally connected with the center of the saw blade, and the saw blade is driven to rotate by a motor so as to realize cutting; traditional stonecutter all is that this kind of mode drives the saw bit and rotates the cutting, and this kind of drive mode leads to the depth that the saw bit can cut to the biggest can only approximately equal to the radius of saw bit, and unable cutting is darker, meets relatively large-scale stone material and can only cut apart the stone material through changing the saw bit of bigger radius or through many times crosscuts and rip cutting, very inconvenient.

In view of the above, the applicant has made an intensive study on the above-mentioned defects in the prior art, and has made this invention.

Disclosure of Invention

The invention mainly aims to provide an intelligent mine stone cutter, which is deeper than the conventional stone cutter in cutting depth and more stable in driving.

In order to achieve the above purpose, the solution of the invention is:

an intelligent mine stone cutter comprises a stone cutter body, wherein the stone cutter body comprises a cutting tool and a tool driving device for driving the cutting tool to rotate; the cutting depth of the cutting tool is greater than the radius of the cutting tool; the cutter driving device comprises a limiting mechanism for limiting the cutting cutter and a cutter driving mechanism for driving the cutting cutter; the cutting tool comprises a cutting bearing disc and a plurality of cutting teeth connected with the cutting bearing disc; the cutting teeth are arranged around the outer circumferential surface of the cutting bearing disc at equal intervals; the cutter driving mechanism comprises a magnetic ring formed on the cutting bearing disc and a motor driving body for driving the magnetic ring to rotate; the magnetic ring is concentric with the cutting bearing disc; the limiting mechanism comprises an annular first arc-shaped limiting groove formed in one side surface of the cutting bearing disc, an annular second arc-shaped limiting groove formed in the other side surface of the cutting bearing disc, a first limiting ball clamped into the first arc-shaped limiting groove, and a second limiting ball clamped into the second arc-shaped limiting groove; the first arc-shaped limiting groove is concentric with the cutting bearing disc; the second arc-shaped limiting groove is concentric with the cutting bearing disc.

Further, the cutting carrier plate has a first side surface, a second side surface, an outer peripheral surface and an inner peripheral surface; the first side surface forms a first circular groove, and the second side surface forms a second circular groove; the magnetic rings comprise a first magnetic ring positioned in the first circular groove and a second magnetic ring positioned in the second circular groove; the thickness of the first magnetic ring is smaller than or equal to that of the first circular groove, and the thickness of the second magnetic ring is smaller than or equal to that of the second circular groove.

Further, the motor driving body comprises a first linear motor, a first motor bearing body for bearing the first linear motor, a second linear motor and a second motor bearing body for bearing the second linear motor; the first linear motor is positioned below the first magnetic ring; the second linear motor is located below the second magnetic ring.

Furthermore, one surface of the first linear motor facing the first magnetic ring is an arc surface, and one surface of the second linear motor facing the first magnetic ring is an arc surface.

Furthermore, the included angle formed between the two ends of the arc surface on the first linear motor and the second linear motor and the circle center is 15-30 degrees.

Further, the first arc-shaped limiting groove comprises a plurality of first sliding grooves; the distances from the first sliding grooves to the circle center of the cutting bearing disc are gradually decreased; the distance between the adjacent first sliding grooves is larger than the groove width of the first sliding grooves; the first limiting ball comprises a plurality of first sliding balls corresponding to the first sliding grooves;

the second arc-shaped limiting groove comprises a plurality of second sliding grooves; the distances from the second sliding grooves to the circle center of the cutting bearing disc are gradually decreased; the distance between the adjacent second sliding grooves is larger than the groove width of the second sliding grooves; the second limiting ball comprises a plurality of second sliding balls corresponding to the second sliding grooves.

Furthermore, the limiting mechanism further comprises a first bearing seat for bearing the first limiting ball and a second bearing seat for bearing the second limiting ball.

Furthermore, the number of the first sliding balls in each first sliding groove is at least two; the number of the second sliding balls in each second sliding groove is at least two.

Furthermore, the first sliding balls in the first sliding grooves are annularly distributed on the first bearing seat at intervals; and second sliding balls in the second sliding grooves are distributed on the second bearing seat at intervals in a ring shape.

Furthermore, the limiting device also comprises a first fixed seat for accommodating the first bearing seat, a second fixed seat for accommodating the second bearing seat, a first ejection mechanism for ejecting the first bearing seat and a second ejection mechanism for ejecting the second bearing seat; the first fixing seat is provided with a first accommodating groove, the second fixing seat is provided with a second accommodating groove, and the opening of the first accommodating groove and the opening of the second accommodating groove are arranged oppositely.

Further, the first ejection mechanism is a first ejection cylinder, and the second ejection mechanism is a second ejection cylinder.

Further, the stone cutter body also comprises a cutter mounting seat for bearing the cutter driving device.

Further, the first motor bearing body is connected below the first bearing seat, and the second motor bearing body is connected below the second bearing seat; the stone cutting machine body further comprises a dustproof mechanism.

Furthermore, two side surfaces of the first motor bearing body are respectively flush with the side surface of the first bearing seat, and two side surfaces of the second motor bearing body are respectively flush with the side surface of the second bearing seat; the dustproof mechanism comprises a first partition plate, a second partition plate, a third partition plate, a fourth partition plate, a fifth partition plate and a sixth partition plate;

the first partition plate is connected to the side surfaces of the first motor bearing body and the first bearing seat, and the second partition plate is connected to the other side surface of the second motor bearing body and the second bearing seat; the third partition plate is connected with the lower surface of the first partition plate, and the third partition plate is connected with the lower surface of the second partition plate; the fourth partition plate is connected to the side surfaces of the second motor bearing body and the second bearing seat, and the fifth partition plate is connected to the other side surface of the second motor bearing body and the second bearing seat; the sixth partition plate is connected with the lower surface of the fourth partition plate, and the sixth partition plate is connected with the lower surface of the fifth partition plate;

the first partition plate is provided with a first scraper extending into the first sliding groove, and the second partition plate is provided with a second scraper extending into the first sliding groove; and a third scraper extending into the second sliding groove is formed on the fourth partition plate, and a fourth scraper extending into the second sliding groove is formed on the fifth partition plate.

Further, the stone cutter body also comprises a moving driving mechanism connected with the cutter mounting seat.

After the structure is adopted, the intelligent mine stone cutter provided by the invention has the following beneficial effects:

1. a solid cutting bearing disc is arranged, and then the cutting bearing disc is in sliding connection with a first limiting groove through a first limiting ball and a second limiting ball in a limiting mechanism; the stone cutter driving mechanism is driven by connecting the circle center of the cutting bearing disc; the driving body and the limiting mechanism are located at the upper end of the cutting bearing disc, so that the depth of the cutting bearing disc cutting into the stone can be larger than the radius of the cutting bearing disc, and thicker stones can be cut.

2. The first bearing seat is ejected out through the first ejection oil cylinder, the second bearing seat is ejected out through the second ejection oil cylinder, each limiting ball tightly clamps the cutting bearing disc, the cutting process is more stable, the first ejection oil cylinder and the second ejection oil cylinder are arranged to enable the first bearing seat and the second bearing seat to be relatively close to and far away from each other, and the cutting bearing disc is more convenient to replace.

Drawings

Fig. 1 is a schematic perspective view of an intelligent mine stone cutter according to the present invention.

Fig. 2 is a schematic perspective view of the cutting tool of the present invention.

Fig. 3 is a schematic perspective view of the cutter driving device according to the present invention.

Fig. 4 is a schematic perspective view of the dust-proof mechanism of the present invention.

Fig. 5 is a schematic perspective view of the limiting mechanism of the present invention.

Fig. 6 is a schematic perspective view of a motor driver according to the present invention.

In the figure: a cutting tool 1; cutting the bearing disc 11; the cutting teeth 12; a tool driving device 2; a limiting mechanism 21; the first sliding groove 211; first sliding ball 212; a second sliding groove 213; a second sliding ball 214; a first carrier 215; a second carrier seat 216; a first ejection cylinder 217; a second ejection cylinder 218; a first fixed seat 219; a second fixing base 2110; a cutter drive mechanism 22; a magnetic ring 221; a motor drive body 222; a first linear motor 2221; a second linear motor 2222; a first motor carrier 2223; a second motor carrier 2224; a tool mounting base 3; a dust prevention mechanism 4; a first partition plate 41; a first squeegee 411; a second partition plate 42; a second squeegee 421; a third partition plate 43; a fourth partition 44; a third squeegee 441; a fifth partition plate 45; a fourth squeegee 451; a sixth partition plate 46; the drive mechanism 5 is moved.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

As shown in fig. 1 to 6, the intelligent mine stone cutter according to the present invention comprises a stone cutter body, wherein the stone cutter body comprises a cutting tool 1 and a tool driving device 2 for driving the cutting tool 1 to rotate; the cutting depth of the cutting tool 1 is larger than the radius of the cutting tool 1; the cutter driving device 2 comprises a limiting mechanism 21 for limiting the cutting cutter 1 and a cutter driving mechanism 22 for driving the cutting cutter 1; the cutting tool 1 comprises a cutting bearing disc 11 and a plurality of cutting teeth 12 connected with the cutting bearing disc 11; a plurality of cutting teeth 12 are arranged around the outer circumferential surface of the cutting bearing disc 11 at equal intervals; the cutter driving mechanism 22 includes a magnetic ring 221 formed on the cutting carrier tray 11, and a motor driving body 222 for driving the magnetic ring 221 to rotate; the magnetic ring 221 is concentric with the cutting bearing disc 11; the limiting mechanism 21 comprises an annular first arc-shaped limiting groove formed in the side surface of the cutting bearing disc 11, an annular second arc-shaped limiting groove formed in the other side surface of the cutting bearing disc 11, a first limiting ball clamped into the first arc-shaped limiting groove, and a second limiting ball clamped into the second arc-shaped limiting groove; the first arc-shaped limiting groove is concentric with the cutting bearing disc 11; the second arc-shaped limiting groove is concentric with the cutting bearing disc 11; arranging a solid cutting bearing disc 11, then enabling a first limiting ball in a limiting mechanism 21 to be in sliding connection with a first limiting groove, enabling a second limiting ball to be in sliding connection with a second limiting groove, limiting the cutting bearing disc 11 in the horizontal direction and the vertical direction, and driving a magnetic ring 221 to rotate through a motor driving body 222 so as to drive the cutting bearing disc 11 to rotate; so that the stone cutter driving mechanism 22 of the present invention is not driven by connecting the circle center of the cutting bearing disc 11; drive body and stop gear 21 are located cutting and bear dish 11 upper end for cutting and bear the degree of depth that dish 11 cut into the stone and can be greater than the radius that cutting bore dish 11, can cut thicker stone.

Preferably, the cutting carrier disc 11 has a first side, a second side, an outer circumferential surface and an inner circumferential surface; the first side surface forms a first circular groove, and the second side surface forms a second circular groove; the magnetic ring 221 comprises a first magnetic ring 221 positioned in the first circular groove and a second magnetic ring 221 positioned at the second circular groove; the magnetic strip can be replaced more easily when damaged; the thickness of the first magnetic ring 221 is smaller than or equal to that of the first circular groove, and the thickness of the second magnetic ring 221 is smaller than or equal to that of the second circular groove, so that collision is prevented during cutting.

Preferably, the motor driving body 222 includes a first linear motor 2221, a first motor carrier 2223 carrying the first linear motor 2221, a second linear motor 2222, and a second motor carrier 2224 carrying the second linear motor 2222; the first linear motor 2221 is located below the first magnetic ring 221; the second linear motor 2222 is positioned below the second magnetic ring 221; so that the driving is more stable and reliable.

Preferably, one surface of the first linear motor 2221 facing the first magnetic ring 221 is an arc surface, and one surface of the second linear motor 2222 facing the first magnetic ring 221 is an arc surface. The corresponding areas of the first linear motor 2221 and the first magnetic ring 221 are increased, and the corresponding areas of the second linear motor 2222 and the second magnetic ring 221 are increased, so that the driving force is more stable, and the rotation of the cutting carrier tray 11 is more stable.

Preferably, the included angle formed between the circle center and each of the two ends of the arc surface of the first linear motor 2221 and the second linear motor 2222 is 15 ° to 30 °. And the manufacturing cost is saved under the condition of keeping the cutting stable.

Preferably, the first arc-shaped restriction groove includes a plurality of first sliding grooves 211; the distances from the first sliding grooves 211 to the circle center of the cutting bearing disc 11 are gradually decreased; the distance between the adjacent first sliding grooves 211 is greater than the groove width of the first sliding grooves 211; the first limit ball includes a plurality of first sliding balls 212 corresponding to the respective first sliding grooves 211; the plurality of first sliding grooves 211 and the plurality of first sliding balls 212 are arranged to be matched, so that clamping is more compact and stable;

the second arc-shaped limiting groove comprises a plurality of second sliding grooves 213; the distances from the second sliding grooves 213 to the circle center of the cutting carrier tray 11 decrease gradually; the distance between the adjacent second sliding grooves 213 is greater than the groove width of the second sliding grooves 213; the second limiting ball comprises a plurality of second sliding balls 214 corresponding to the second sliding grooves 213; the provision of the plurality of second sliding grooves 213 in cooperation with the plurality of second sliding balls 214 allows for a more compact and stable grip.

Preferably, the limiting mechanism 21 further comprises a first bearing seat 215 bearing a first limiting ball, and a second bearing seat 216 bearing a second limiting ball; and is more reasonable.

Preferably, the number of the first sliding balls 212 in each first sliding groove 211 is at least two; the number of the second sliding balls 214 in each second sliding groove 213 is at least two; so that the limiting is more stable.

Preferably, the first sliding balls 212 in each first sliding groove 211 are annularly spaced on the first bearing seat 215; the second sliding balls 214 in the second sliding grooves 213 are annularly distributed on the second bearing seat 216 at intervals; make 11 single faces of cutting bearing plate atress more even, under the condition of guaranteeing spacing firm, promote the cutting smoothness.

Preferably, the limiting device further comprises a first fixing seat 219 for accommodating the first bearing seat 215, a second fixing seat 2110 for accommodating the second bearing seat 216, a first ejecting mechanism for ejecting the first bearing seat 215, and a second ejecting mechanism for ejecting the second bearing seat 216; the first fixing seat 219 is formed with a first receiving groove, the second fixing seat 2110 is formed with a second receiving groove, and the first receiving groove opening and the second receiving groove opening are oppositely arranged. The first bearing seat 215 is placed in the first containing groove, the first bearing seat 215 is ejected and contracted through the first ejecting mechanism, and the second bearing seat 216 is ejected and contracted through the second ejecting mechanism by placing the second bearing seat 216 in the second containing groove; the blade replacement is more convenient and the clamping of the cutting bearing disc 11 is more stable.

Preferably, the first ejection mechanism is a first ejection cylinder 217 and the second ejection mechanism is a second ejection cylinder 218. The ejection and the contraction are more stable through the oil cylinder.

Preferably, the stone cutter body further comprises a cutter mounting seat 3 for bearing the cutter driving device 2, and the stone cutter is convenient to mount.

Preferably, the first motor carrier 2223 is connected below the first carrying seat 215, and the second motor carrier 2224 is connected below the second carrying seat 216; the stone cutting machine body also comprises a dustproof mechanism 4. The dust-proof mechanism 4 is arranged to prevent dust from entering the limiting mechanism 21 and the cutter driving mechanism 22 during stone cutting, so that the cutting bearing disc 11 cannot normally rotate.

Preferably, two side surfaces of the first motor carrier 2223 are respectively flush with the side surfaces of the first carrying seat 215, and two side surfaces of the second motor carrier 2224 are respectively flush with the side surfaces of the second carrying seat 216; the dustproof mechanism 4 comprises a pair of first partition plates 41, a second partition plate 42, a third partition plate 43, a fourth partition plate 44, a fifth partition plate 45 and a sixth partition plate 46;

the first partition plate 41 is connected to the side surfaces of the first motor carrier 2223 and the first carrying seat 215, and the second partition plate 42 is connected to the other side surfaces of the second motor carrier 2224 and the second carrying seat 216; the third partition plate 43 is connected with the lower surface of the first partition plate 41, and the third partition plate 43 is connected with the lower surface of the second partition plate 42; the fourth partition 44 is connected to the side surfaces of the second motor carrier 2224 and the second carrying seat 216, and the fifth partition 45 is connected to the other side surfaces of the second motor carrier 2224 and the second carrying seat 216; the sixth partition plate is connected with the lower surface of the fourth partition plate 44, and the sixth partition plate 46 is connected with the lower surface of the fifth partition plate 45;

the first clapboard 41 is provided with a first scraper 411 extending into the first sliding groove, and the second clapboard 42 is provided with a second scraper 421 extending into the first sliding groove; the fourth partition 44 is formed with a third scraper 441 extending into the second sliding groove, and the fifth partition 45 is formed with a fourth scraper 451 extending into the second sliding groove. The first bearing seat 215 and the first motor carrier 2223 are separated from the outside by the first partition plate 41, the second partition plate 42 and the third partition plate 43, and the second bearing seat 216 and the second motor carrier 2224 are separated from the outside by the fourth partition plate 44, the fifth partition plate 45 and the sixth partition plate 46; dust is prevented from entering the limiting mechanism 21 and the cutter driving mechanism 22 from the side; the first scraping plate 411 and the third scraping plate 441 formed by the first partition plate 41 can scrape off foreign matters stuck in the first sliding groove and the second sliding groove when the saw blade rotates forwards, and the second scraping plate 421 formed by the second partition plate 42 and the fourth scraping plate 451 formed by the fifth partition plate 45 can scrape off foreign matters stuck in the first sliding groove and the second sliding groove when the saw blade rotates backwards.

Preferably, the stone cutter body further comprises a moving drive mechanism 5 connected with the tool mount 3. The moving driving mechanism 5 is a moving trolley, and a three-axis moving arm formed on the moving trolley is connected with the cutter mounting seat 3.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims

1. An intelligent mine stone cutter comprises a stone cutter body, wherein the stone cutter body comprises a cutting tool and a tool driving device for driving the cutting tool to rotate; wherein the cutting depth of the cutting tool is greater than the radius of the cutting tool; the cutter driving device comprises a limiting mechanism for limiting the cutting cutter and a cutter driving mechanism for driving the cutting cutter; the cutting tool comprises a cutting bearing disc and a plurality of cutting teeth connected with the cutting bearing disc; the cutting teeth are arranged around the outer circumferential surface of the cutting bearing disc at equal intervals; the cutter driving mechanism comprises a magnetic ring formed on the cutting bearing disc and a motor driving body for driving the magnetic ring to rotate; the magnetic ring is concentric with the cutting bearing disc; the limiting mechanism comprises an annular first arc-shaped limiting groove formed in one side surface of the cutting bearing disc, an annular second arc-shaped limiting groove formed in the other side surface of the cutting bearing disc, a first limiting ball clamped into the first arc-shaped limiting groove, and a second limiting ball clamped into the second arc-shaped limiting groove; the first arc-shaped limiting groove is concentric with the cutting bearing disc; the second arc-shaped limiting groove is concentric with the cutting bearing disc;

the cutting bearing disc is provided with a first side surface, a second side surface, an outer peripheral surface and an inner peripheral surface; the first side surface forms a first circular groove, and the second side surface forms a second circular groove; the magnetic rings comprise a first magnetic ring positioned in the first circular groove and a second magnetic ring positioned in the second circular groove; the thickness of the first magnetic ring is smaller than or equal to that of the first circular groove, and the thickness of the second magnetic ring is smaller than or equal to that of the second circular groove;

the motor driving body comprises a first linear motor, a first motor bearing body for bearing the first linear motor, a second linear motor and a second motor bearing body for bearing the second linear motor; the first linear motor is positioned below the first magnetic ring; the second linear motor is positioned below the second magnetic ring;

one surface of the first linear motor facing the first magnetic ring is an arc surface, and one surface of the second linear motor facing the first magnetic ring is an arc surface;

the included angle formed between the two ends of the arc surface on the first linear motor and the second linear motor and the circle center is 15-30 degrees;

the limiting mechanism also comprises a first fixed seat for accommodating the first bearing seat, a second fixed seat for accommodating the second bearing seat, a first ejection mechanism for ejecting the first bearing seat and a second ejection mechanism for ejecting the second bearing seat; the first fixing seat is provided with a first accommodating groove, the second fixing seat is provided with a second accommodating groove, and the opening of the first accommodating groove and the opening of the second accommodating groove are arranged oppositely;

the stone cutter body also comprises a cutter mounting seat for bearing the cutter driving device;

the stone cutting machine body further comprises a movement driving mechanism connected with the cutter mounting seat;

the first arc-shaped limiting groove comprises a plurality of first sliding grooves; the distances from the first sliding grooves to the circle center of the cutting bearing disc are gradually decreased; the distance between the adjacent first sliding grooves is larger than the groove width of the first sliding grooves; the first limiting ball comprises a plurality of first sliding balls corresponding to the first sliding grooves;

2. An intelligent mine stone cutter as recited in claim 1, wherein the spacing mechanism further comprises a first bearing seat that bears a first spacing ball, and a second bearing seat that bears a second spacing ball.

3. The intelligent mine stone cutter as recited in claim 2, wherein the number of the first sliding balls in each first sliding groove is at least two; the number of the second sliding balls in each second sliding groove is at least two.

4. An intelligent mine stone cutter as recited in claim 3, wherein the first sliding balls in each first sliding groove are annularly spaced on the first bearing seat; and second sliding balls in the second sliding grooves are distributed on the second bearing seat at intervals in a ring shape.

5. The intelligent mine stone cutter of claim 4, wherein the first ejection mechanism is a first ejection cylinder and the second ejection mechanism is a second ejection cylinder.