CN112209606A - Be used for automatic side cut equipment of micrite panel - Google Patents

Abstract

The invention relates to the technical field of microcrystalline plate processing, in particular to automatic trimming equipment for microcrystalline plates, which comprises a feeding support, a cutting table, a feeding driving mechanism, a material moving mechanism and a trimming mechanism, wherein the feeding support and the cutting table are arranged in parallel, a rectangular feeding basket is arranged on the feeding support, the feeding driving mechanism is arranged on the feeding support, a material moving port is arranged at the lower end of the rectangular feeding basket close to the cutting table and used for conveying microcrystalline plates in the rectangular feeding basket to the cutting table, the material moving mechanism at least comprises two material moving assemblies, the two material moving assemblies are arranged on the cutting table in parallel at intervals, the trimming mechanism comprises a material cutting assembly and at least two material guide assemblies, the material cutting assembly is positioned between the two material moving assemblies, the two material guide assemblies are arranged at two sides of the material cutting assembly, the equipment can automatically feed materials and has high trimming efficiency, the micro-crystal plate is not damaged due to small vibration, and is smooth and regular after the outside is cut off, so that the production efficiency and the precision are improved.

Description

Be used for automatic side cut equipment of micrite panel

Technical Field

The invention relates to the technical field of microcrystalline plate processing, in particular to automatic trimming equipment for microcrystalline plates.

Background

The microcrystal plate is a mixture of microcrystal and glass prepared from proper glass particles through sintering and crystallization. The material is hard, compact and uniform in texture, free of pollution in the production process and radioactive pollution of the product, and is a novel environment-friendly green material; the microcrystalline plate looks very different from the common glass, has the characteristics of both glass and ceramic, and has better appearance texture than the ceramic. The microcrystalline glass has higher brightness than ceramic and higher toughness than glass. The natural stones such as marble, granite and the like have rough surfaces and are easy to store dirt and dirt, and the microcrystalline glass has no problem. The main component of marble is calcium carbonate, which is easy to react with water and carbon dioxide in the air when it is used to make buildings, which is the cause of long-term discoloration of marble buildings, and the microcrystalline glass hardly reacts with air, so that it can be used for a long time. Compared with natural stone, the microcrystalline glass decorative board also has the advantages of uniform strength, simple process, lower cost and the like; in the micrite panel course of working, need cut edge to micrite panel according to actual conditions, the structural style that current micrite panel bead cutter often adopted is: the outer edge of the microcrystal plate is integrally cut by using a cutter, huge friction force is generated during cutting, the microcrystal plate is easy to jump, and although a clamp exists, all parts are inclined due to uneven vibration inevitably, so that the edge cutting is adversely affected, the outer edge is not flat, sawteeth are sometimes formed on the edge of the microcrystal plate, and the integral breaking of the microcrystal plate is worse; in addition, a large amount of microcrystalline board residues are generated in the trimming process, and if the microcrystalline board residues are not timely treated, the environment can be polluted, and related peripheral devices can be damaged; the existing microcrystal plate edge cutting machine is not beneficial to rapid mass production due to the fact that the outer edge of a microcrystal plate is integrally cut, the operation speed is low, and therefore an automatic edge cutting device for the microcrystal plate is provided so as to solve the problems.

Disclosure of Invention

For solving above-mentioned technical problem, provide an automatic side cut equipment for micrite panel, this equipment can carry out the material loading automatically to cut edge efficiently, vibrations can not cause the damage to micrite panel for a short time, and the outside excision back is smooth neat, improves production efficiency and precision.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

the utility model provides an automatic side cut equipment for micrite panel, including the material loading support, the cutting bed, feed actuating mechanism, move material mechanism and side cut mechanism, material loading support and the parallel distribution setting of cutting bed, be provided with rectangle feeding basket on the material loading support, feed actuating mechanism sets up on the material loading support, the lower extreme that rectangle feeding basket is close to the cutting bed is equipped with moves the material mouth, a micrite board for carrying in the rectangle feeding basket removes to the cutting bed on, it moves the material mechanism at least including two and moves the material subassembly, two are moved the material subassembly and parallel and the interval sets up on the cutting bed to move the material subassembly, side cut mechanism includes blank subassembly and two at least guide subassemblies, the blank subassembly is located two and moves between the material subassembly, two guide subassemblies set up the both sides at the blank subassembly, every moves the material subassembly and the parallel distribution setting of length direction along the cutting bed of material subassembly and every guide subassembly.

Preferably, the feeding driving mechanism further comprises a driving motor, a horizontal column, a first sliding sleeve, a vertical rod, a second sliding sleeve, a rotating rod, a third sliding sleeve and a buffer spring, the horizontal column is horizontally positioned below the rectangular feeding basket, two ends of the horizontal column are respectively connected with the inner wall of the feeding support through fixing blocks, the first sliding sleeve is slidably sleeved on the horizontal column, the vertical rod is vertically arranged at the bottom of the first sliding sleeve, the second sliding sleeve is slidably sleeved on the vertical rod, an extending column is arranged on the vertical surface of the second sliding sleeve, an L-shaped rotating plate is rotatably arranged on the extending column, the rotating rod is vertically positioned on one side of the L-shaped rotating plate, one end of the rotating rod is connected with the inner wall of the L-shaped rotating plate, the third sliding sleeve is slidably sleeved on the rotating rod, the driving motor is horizontally positioned on one side of the rotating rod, the output end of the driving motor is connected with the vertical surface of the third sliding sleeve, two ends of the buffer spring can be respectively abutted against the L-shaped rotating plate and the side wall of the third sliding sleeve.

Preferably, the top of second sliding sleeve is equipped with the extension riser, and the upper end of extending the riser is equipped with the support pillar that pushes away that can conflict the micrite panel in the rectangle feed basket, and the bottom of rectangle feed basket is equipped with the rectangle opening of dodging the support pillar and removing.

Preferably, one side that the material loading support is close to the cutting bed is equipped with the unloading slide, and the unloading slide is installed on the material loading support, and the unloading slide comprises upper end and lower extreme, and the upper end is the level setting, and the lower extreme is the slope setting, and the upper end sets up with the butt joint of the material mouth that moves of rectangle feeding basket.

Preferably, the blank subassembly includes first motor, first pivot, two cutting discs and two vertical boards, and two vertical boards set up the top both sides at the cutting bed along the width direction symmetry of cutting bed, and first pivot is the level and is located between two vertical boards, and the both ends of first pivot can the pivoted respectively insert the inner wall of locating every vertical board and outwards extend, and first motor is the level and is located one side of one of them vertical board, and the output of first motor is connected with the one end of first pivot, and two cutting discs are vertical and the symmetry sets up the both ends at first pivot, and first motor is connected with the top of cutting bed through first support.

Preferably, each guide assembly comprises a portal frame and a fixed guide wheel, the movable guide wheel and the movable vertical plate are vertically installed on the cutting table, the fixed guide wheel and the movable guide wheel are horizontal and are located on one side of the portal frame in an up-down corresponding mode, the movable vertical plate is located on one side of the movable guide wheel, sliding blocks extending towards the direction of the portal frame are arranged on two sides, close to the vertical face of the portal frame, of the movable vertical plate respectively, sliding chutes used for enabling each sliding block to slide are formed in the portal frame, the vertical face of the movable vertical plate is symmetrical and provided with first bearing seats at intervals, the movable guide wheel is located between the two first bearing seats, the movable guide wheel is connected with inner rings of the first bearing seats in a rotating mode through a first rotating rod, second bearing seats are arranged at two ends of the fixed guide wheel respectively, each second bearing seat is installed on the side wall of the portal frame.

Preferably, each material guiding assembly further comprises a second motor, a second rotating shaft, an upper plate, a lower plate and an extending transverse plate, the upper plate and the lower plate are respectively arranged at the upper end and the lower end of one side of the portal frame, the second rotating shaft is vertically positioned between the upper plate and the lower plate, two ends of the second rotating shaft are respectively rotatably inserted into the inner walls of the upper plate and the lower plate and extend outwards, the second motor is vertically arranged on the upper plate, the output end of the second motor is in transmission connection with the top end of the second rotating shaft, one end of the first rotating rod, which is close to the second rotating shaft, extends towards one side of the second rotating shaft, the extending end of the first rotating rod is provided with a vertically arranged first bevel gear, a vertical surface, which is close to the first bevel gear, of the moving vertical plate is provided with an extending transverse plate extending towards the direction of the second rotating shaft, one end of the extending transverse plate is provided with a circular through hole avoiding the second rotating shaft, a bearing sleeve, the sheathed tube bottom extends down, sheathed tube bottom is equipped with the second conical tooth that is the level and sets up, be equipped with on the second conical tooth and dodge the rotatory perforation of second pivot, second conical tooth and the meshing of first conical tooth set up, the both sides of second pivot are equipped with respectively to touch the strip, sheathed tube inner circle is equipped with the conflict groove that supplies every conflict strip to contradict, the one end that the second bull stick is close to the second pivot extends towards the direction of second bull stick, the extension end of second bull stick is equipped with the third conical tooth, be equipped with the fourth conical tooth with third conical tooth meshing in the second pivot.

Preferably, every the guide subassembly still all includes screw rod, handle, lock nut and elevator, and the elevator is installed in the upper end perpendicular of removing the riser, and the screw rod is vertical and can the pivoted insert establish with the top of elevator, and the upper end center department of portal frame is equipped with the screw that supplies the screw thread to walk, and the screw is passed upwards to the upper end of screw rod and extends, and lock nut sets up in the upper end of screw rod, and the handle setting is extended at the top of screw rod.

Preferably, each guide subassembly still all includes bearing guide wheel, bears the guide wheel and is the level and lie in one side of fixed guide wheel, and the both ends that bear the guide wheel can be rotated respectively insert locate the inboard of portal frame.

Preferably, the material moving mechanism comprises a third motor, a horizontal rod, two third bearing seats, two side plates and a plurality of guide rollers, the two side plates are symmetrically arranged at two sides of the top of the cutting table, the guide rollers are distributed between the upper ends of the two side plates at equal intervals along the length direction of the side plates, two ends of each guide roller respectively extend outwards through two faces of each side plate which can be rotatably inserted and arranged through a third rotating rod, the horizontal rod is horizontally arranged at one side of the upper end of one side plate, the third bearing seats are symmetrically arranged at two ends of the horizontal rod, the third bearing seats are respectively arranged on one side plate, two ends of the horizontal rod respectively extend outwards and can be rotatably inserted and arranged in an inner ring of each third bearing seat, the third motor is arranged at one side of one third bearing seat, the third motor is connected with the top of the cutting table through a second support, and the output end of the third motor is connected with one end of the horizontal rod, the horizontal rod is provided with fifth bevel gears which are in one-to-one correspondence with the third rotating rods, and each third rotating shaft is provided with sixth bevel gears.

Compared with the prior art, the invention has the beneficial effects that:

a device for automatically trimming microcrystalline sheets is characterized in that during operation, a first motor is started, the first motor drives a third sliding sleeve to slide along a rotating rod, the rotating rod drives a second sliding sleeve to move up and down along a vertical rod through an L-shaped rotating plate, the vertical rod drives the first sliding sleeve to horizontally reciprocate back and forth along a horizontal column, the microcrystalline sheets in a rectangular feeding basket are abutted by a pushing column on the second sliding sleeve and are moved out through a material moving port, the microcrystalline sheets moved out through the material moving port on the rectangular feeding basket are input to a discharging slideway, the microcrystalline sheets are moved to a cutting table through the lower end of the discharging slideway, the microcrystalline sheets input to the cutting table are moved to a guide roller, the third motor is started, the horizontal rod is driven to rotate by the third motor, all fifth conical teeth are driven to rotate by the horizontal rod, each sixth conical tooth is driven to rotate by all fifth conical teeth, each guide roller is driven to rotate by each sixth conical tooth, the microcrystalline board is driven to move through each guide roller, the distance between the movable guide roller and the fixed guide roller can be adjusted in advance according to microcrystalline boards with different thicknesses, the handle is manually rotated, the screw rod is driven to rotate through the handle, the screw rod drives the lifting block and the movable vertical plate to move up and down until the movable guide roller on the movable vertical plate is moved to a required position and is stopped, the movable guide roller is locked through the locking nut, after the microcrystalline board moves into a gap between the movable guide roller and the fixed guide roller, the second motor is started, the second rotating shaft is driven to rotate through the second motor, the second rotating shaft respectively abuts against each abutting groove on the sleeve through each abutting strip to enable the sleeve and the second conical tooth to rotate simultaneously, the first conical tooth is driven to rotate through the second conical tooth, the movable guide roller is driven to rotate through the second conical tooth, and the fourth conical tooth is driven to rotate through the fourth conical tooth, it is rotatory to drive fixed guide pulley through the third awl tooth, push away micrite panel to the blank subassembly through removing guide pulley and fixed guide pulley and cut, can bear the micrite panel that carries to the blank subassembly and carry out the cutting through bearing the guide pulley and carry, it is rotatory to drive first pivot through first motor, it is rotatory to drive every cutting disc through first pivot, cut edge the both sides of micrite panel simultaneously through every cutting disc, this equipment can carry out the material loading automatically, and cut edge efficiently, vibrations can not cause the damage to micrite panel for a short time, the outside is smooth neat after excision, and the production efficiency and the precision are improved.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a side view of the present invention;

FIG. 4 is a partial perspective view of the first feed drive mechanism of the present invention;

FIG. 5 is a schematic partial perspective view of a second feeding driving mechanism according to the present invention;

FIG. 6 is a first partial perspective view of the trimming mechanism of the present invention;

FIG. 7 is a schematic view of a second partial perspective view of the trimming mechanism of the present invention;

fig. 8 is an enlarged view of the invention at a in fig. 7.

Description of the drawings:

1-feeding support; 2-a cutting table; 3-a rectangular feed basket; 4-moving a material port; 5-driving a motor; 6-horizontal column; 7-a first sliding sleeve; 8-vertical rod; 9-a second sliding sleeve; 10-rotating rod; 11-a third sliding sleeve; 12-a buffer spring; 13-extending the column; 14-L-shaped rotating plates; 15-an extension riser; 16-a push column; 17-rectangular through openings; 18-a blanking chute; 19-a first electric machine; 20-a first rotating shaft; 21-a cutting disc; 22-vertical plate; 23-a portal frame; 24-fixing the guide wheel; 25-moving the guide wheel; 26-moving the vertical plate; 27-a chute; 28-a first bearing seat; 29-a first rotating bar; 30-a second bearing block; 31-a second rotating rod; 32-a second motor; 33-a second shaft; 34-an upper plate; 35-a lower plate; 36-a slide block; 37-a first bevel gear; 38-extending the transverse plate; 39-a sleeve; 40-second cone teeth; 41-a touch bar; 42-third bevel gear; 43-fourth bevel gear; 44-screw rod; 45-a handle; 46-a lock nut; 47-lifting block; 48-a load-bearing guide wheel; 49-a third motor; 50-horizontal bar; 51-a third bearing housing; 52-side plate; 53-guide rollers; 54-fifth bevel gear; 55-sixth bevel gear.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 8, an automatic trimming device for microcrystalline plates comprises a feeding support 1, a cutting table 2, a feeding driving mechanism, a material moving mechanism and a trimming mechanism, wherein the feeding support 1 and the cutting table 2 are arranged in parallel, a rectangular feeding basket 3 is arranged on the feeding support 1, the feeding driving mechanism is arranged on the feeding support 1, a material moving port 4 is arranged at the lower end of the rectangular feeding basket 3 close to the cutting table 2, the microcrystalline plate cutting mechanism is used for conveying microcrystalline plates in the rectangular material supply basket 3 to move to the cutting table 2, the material moving mechanism at least comprises two material moving assemblies, the two material moving assemblies are parallel and are arranged on the cutting table 2 at intervals, the trimming mechanism comprises a material cutting assembly and at least two material guide assemblies, the material cutting assembly is located between the two material moving assemblies, the two material guide assemblies are arranged on two sides of the material cutting assembly, and the material cutting assembly, each material moving assembly and each material guide assembly are distributed in parallel along the length direction of the cutting table 2.

The feeding driving mechanism further comprises a driving motor 5, a horizontal column 6, a first sliding sleeve 7, a vertical rod 8, a second sliding sleeve 9, a rotary rod 10, a third sliding sleeve 11 and a buffer spring 12, wherein the horizontal column 6 is horizontally positioned below the rectangular feeding basket 3, two ends of the horizontal column 6 are respectively connected with the inner wall of the feeding support 1 through fixing blocks, the first sliding sleeve 7 is sleeved on the horizontal column 6 in a sliding manner, the vertical rod 8 is vertically arranged at the bottom of the first sliding sleeve 7, the second sliding sleeve 9 is sleeved on the vertical rod 8 in a sliding manner, an extending column 13 is arranged on the vertical surface of the second sliding sleeve 9, an L-shaped rotating plate 14 is rotatably arranged on the extending column 13, the rotary rod 10 is vertically positioned on one side of the L-shaped rotating plate 14, one end of the rotary rod 10 is connected with the inner wall of the L-shaped rotating plate 14, the third sliding sleeve 11 is sleeved on the rotary rod 10 in a sliding manner, the driving motor 5 is horizontally positioned on one side of the rotary rod 10, the, the buffer spring 12 is sleeved on the rotating rod 10, and two ends of the buffer spring 12 can be respectively abutted against the side walls of the L-shaped rotating plate 14 and the third sliding sleeve 11.

The top of second sliding sleeve 9 is equipped with extends riser 15, the upper end that extends riser 15 is equipped with the post 16 that pushes away that can conflict the micrite panel in the rectangle feed basket 3, the bottom of rectangle feed basket 3 is equipped with the rectangle opening 17 of dodging the post 16 removal of pushing away, during the operation, start driving motor 5, driving motor 5 drives third sliding sleeve 11 and slides along rotary rod 10, rotary rod 10 passes through L type commentaries on classics board 14 and drives second sliding sleeve 9 and reciprocate along vertical pole 8, vertical pole 8 drives first sliding sleeve 7 and follows 6 levels of horizontal pole back to back reciprocating motion in opposite directions, the micrite panel in the rectangle feed basket 3 of conflicting through the post 16 on the second sliding sleeve 9 shifts out through shifting mouth 4.

One side that material loading support 1 is close to cutting bed 2 is equipped with unloading slide 18, and unloading slide 18 is installed on material loading support 1, and unloading slide 18 comprises upper end and lower extreme, and the upper end is the level setting, and the lower extreme is the slope setting, and the upper end and the 4 butt joints of moving of rectangle feed basket 3 material mouthful set up, and the micrite panel that moves out through the material mouth 4 that moves on the rectangle feed basket 3 is imported to unloading slide 18 on, moves to cutting bed 2 through the lower extreme of unloading slide 18 on.

The cutting assembly comprises a first motor 19, a first rotating shaft 20, two cutting discs 21 and two vertical plates 22, wherein the two vertical plates 22 are symmetrically arranged on two sides of the top of the cutting table 2 along the width direction of the cutting table 2, the first rotating shaft 20 is horizontally arranged between the two vertical plates 22, two ends of the first rotating shaft 20 are respectively inserted into the inner wall of each vertical plate 22 in a rotatable manner and extend outwards, the first motor 19 is horizontally arranged on one side of one vertical plate 22, the output end of the first motor 19 is connected with one end of the first rotating shaft 20, the two cutting discs 21 are vertically and symmetrically arranged on two ends of the first rotating shaft 20, the first motor 19 is connected with the top of the cutting table 2 through a first support, the first motor 19 drives the first rotating shaft 20 to rotate, the first rotating shaft 20 drives each cutting disc 21 to rotate, and the two sides of the microcrystal plate are trimmed simultaneously through each cutting disc 21.

Each guide assembly comprises a portal frame 23, a fixed guide wheel 24, a movable guide wheel 25 and a movable vertical plate 26, the portal frame 23 is vertically installed on the cutting table 2, the fixed guide wheel 24 and the movable guide wheel 25 are horizontal and are correspondingly positioned on one side of the portal frame 23 from top to bottom, the movable vertical plate 26 is positioned on one side of the movable guide wheel 25, two sides of the movable vertical plate 26 close to the vertical surface of the portal frame 23 are respectively provided with a sliding block 36 extending towards the direction of the portal frame 23, the portal frame 23 is provided with a sliding chute 27 for each sliding block 36 to slide, the vertical surfaces of the movable vertical plates 26 are symmetrically provided with first bearing seats 28 at intervals, the movable guide wheel 25 is positioned between the two first bearing seats 28, the movable guide wheel 25 is rotatably connected with the inner ring of each first bearing seat 28 through a first rotating rod 29, two ends of the fixed guide wheel 24 are respectively provided with a second bearing, the fixed guide wheel 24 is rotatably connected with the inner race of each second bearing housing 30 by a second rotating rod 31.

Each material guiding assembly further comprises a second motor 32, a second rotating shaft 33, an upper plate 34, a lower plate 35 and an extending transverse plate 38, the upper plate 34 and the lower plate 35 are respectively arranged at the upper end and the lower end of one side of the portal frame 23, the second rotating shaft 33 is vertically arranged between the upper plate 34 and the lower plate 35, two ends of the second rotating shaft 33 can be respectively rotatably inserted into the inner walls of the upper plate 34 and the lower plate 35 and extend outwards, the second motor 32 is vertically arranged on the upper plate 34, the output end of the second motor 32 is in transmission connection with the top end of the second rotating shaft 33, one end of the first rotating rod 29 close to the second rotating shaft 33 extends towards one side of the second rotating shaft 33, the extending end of the first rotating rod 29 is provided with a vertically arranged first conical tooth 37, the vertical surface of the moving vertical plate 26 close to the first conical tooth 37 is provided with an extending transverse plate 38 extending towards the direction of the second rotating shaft 33, one end of the extending transverse plate 38 is provided with a circular through hole, a bearing sleeve is arranged in the circular through hole, a sleeve 39 is arranged on an inner ring of the bearing sleeve, the bottom of the sleeve 39 extends downwards, second conical teeth 40 which are horizontally arranged are arranged at the bottom of the sleeve 39, through holes which are rotated to avoid the second rotating shaft 33 are arranged on the second conical teeth 40, the second conical teeth 40 are meshed with the first conical teeth 37, contact strips 41 are respectively arranged on two sides of the second rotating shaft 33, contact grooves which are contacted with the contact strips 41 are formed in the inner ring of the sleeve 39, one end, close to the second rotating shaft 33, of the second rotating rod 31 extends towards the direction of the second rotating rod 31, third conical teeth 42 are arranged at the extending end of the second rotating rod 31, fourth conical teeth 43 which are meshed with the third conical teeth 42 are arranged on the second rotating shaft 33, after the microcrystal plate is moved into a gap between the movable guide wheel 25 and the fixed guide wheel 24, the second motor 32 is started, the second rotating shaft 33 is driven to rotate by the second motor 32, the second rotating shaft 33 is respectively contacted with the contact strips 41, so that the second conical grooves on the sleeve 39 and the second bevel gear 40 drives the first bevel gear 37 to rotate, the first bevel gear 37 drives the movable guide wheel 25 to rotate, the second bevel gear 43 is driven to rotate, the fourth bevel gear 43 drives the third bevel gear 42 to rotate, the third bevel gear 42 drives the fixed guide wheel 24 to rotate, and the microcrystal plates are pushed into the blanking assembly to be cut through the movable guide wheel 25 and the fixed guide wheel 24.

Each material guiding component also comprises a screw 44, a handle 45, a locking nut 46 and a lifting block 47, the lifting block 47 is installed on the upper vertical surface of the movable vertical plate 26, the screw 44 is vertically and rotatably inserted on the top of the lifting block 47, a screw hole for the screw thread of the screw 44 to pass through is arranged at the center of the upper end of the portal frame 23, the upper end of the screw 44 passes through the screw hole and extends upwards, the locking nut 46 is arranged at the upper end of the screw 44, the handle 45 is arranged at the top extending end of the screw 44, the distance between the movable guide roller 53 and the fixed guide roller 53 can be adjusted in advance according to the microcrystal plates with different thicknesses, the handle 45 is manually rotated, the handle 45 drives the screw rod 44 to rotate, and the screw rod 44 drives the lifting block 47 and the movable vertical plate 26 to move up and down until the movable guide roller 53 on the movable vertical plate 26 is moved to a required position to stop, and then the movable vertical plate is locked through the locking nut 46.

Each material guiding assembly further comprises a bearing guide wheel 48, the bearing guide wheel 48 is horizontally positioned on one side of the fixed guide wheel 24, two ends of the bearing guide wheel 48 can be respectively inserted into the inner side of the portal frame 23 in a rotating mode, and the microcrystalline plate conveyed to the material cutting assembly for cutting can be carried and conveyed through the bearing guide wheel 48.

The material moving mechanism comprises a third motor 49, a horizontal rod 50, two third bearing seats 51, two side plates 52 and a plurality of guide rollers 53, the two side plates 52 are symmetrically arranged at two sides of the top of the cutting table 2, the plurality of guide rollers 53 are distributed between the upper ends of the two side plates 52 at equal intervals along the length direction of the side plates 52, two ends of each guide roller 53 respectively extend outwards through two surfaces of each side plate 52 which can be rotatably inserted through the third rotating rod, the horizontal rod 50 is horizontally arranged at one side of the upper end of one of the side plates 52, the third bearing seats 51 are symmetrically arranged at two ends of the horizontal rod 50, the third bearing seats 51 are respectively arranged on one of the side plates 52, two ends of the horizontal rod 50 respectively extend outwards and can be rotatably inserted into the inner ring of each third bearing seat 51, the third motor 49 is arranged at one side of one of the third bearing seats 51, the third motor 49 is connected with the top of the cutting table 2 through a second bracket, the output end of the third motor 49 is connected with one end of the horizontal rod 50, the horizontal rod 50 is provided with fifth conical teeth 54 corresponding to each third rotating rod one by one, each third rotating shaft is provided with sixth conical teeth 55, the microcrystalline sheet material input to the cutting table 2 moves to the guide rollers 53, the third motor 49 is started, the horizontal rod 50 is driven to rotate through the third motor 49, all the fifth conical teeth 54 are driven to rotate through the horizontal rod 50, each sixth conical tooth 55 is driven to rotate through all the fifth conical teeth 54, each guide roller 53 is driven to rotate through each sixth conical tooth 55, and the microcrystalline sheet material is driven to move through each guide roller 53.

The working principle of the invention is as follows: during operation, the first motor 19 is started, the first motor 19 drives the third sliding sleeve 11 to slide along the rotating rod 10, the rotating rod 10 drives the second sliding sleeve 9 to move up and down along the vertical rod 8 through the L-shaped rotating plate 14, the vertical rod 8 drives the first sliding sleeve 7 to horizontally move back and forth along the horizontal column 6, the microcrystalline board in the rectangular feeding basket 3 is pushed through the pushing column 16 on the second sliding sleeve 9 and is moved out through the material moving port 4, the microcrystalline board moved out through the material moving port 4 on the rectangular feeding basket 3 is input to the blanking slideway 18, the microcrystalline board is moved to the cutting table 2 through the lower end of the blanking slideway 18, the microcrystalline board input to the cutting table 2 is moved to the guide roller 53, the third motor 49 is started, the horizontal rod 50 is driven to rotate through the third motor 49, all the fifth conical teeth 54 are driven to rotate through the horizontal rod 50, and each sixth conical tooth 55 is respectively driven to rotate through all the fifth conical teeth 54, each guide roller 53 is driven to rotate by each sixth bevel gear 55, the microcrystalline plate is driven to move by each guide roller 53, the distance between the movable guide roller 53 and the fixed guide roller 53 can be adjusted in advance according to the microcrystalline plate with different thicknesses, the handle 45 is manually rotated, the screw 44 is driven to rotate by the handle 45, the screw 44 drives the lifting block 47 and the movable vertical plate 26 to move up and down until the movable guide roller 53 on the movable vertical plate 26 is moved to a required position and stopped, the movable guide roller is locked by the locking nut 46, after the microcrystalline plate is moved to a gap between the movable guide wheel 25 and the fixed guide wheel 24, the second motor 32 is started, the second rotating shaft 33 is driven to rotate by the second motor 32, the second rotating shaft 33 respectively abuts against each abutting groove on the sleeve 39 through each abutting strip 41 to enable the sleeve 39 and the second bevel gear 40 to rotate simultaneously, and the first bevel gear 37 is driven to rotate through the second bevel gear 40, first awl tooth 37 drives and removes guide pulley 25 rotatoryly, it is rotatory to rotate to drive fourth awl tooth 43 simultaneously through the second, it is rotatory to drive third awl tooth 42 through fourth awl tooth 43, it is rotatory to drive fixed guide pulley 24 through third awl tooth 42, cut in pushing away microcrystalline sheet material to the blank subassembly through removing guide pulley 25 and fixed guide pulley 24, can bear the microcrystalline sheet material that carries to the blank subassembly and carry out the cutting through bearing guide pulley 48 and carry, it is rotatory to drive first pivot 20 through first motor 19, it is rotatory to drive every cutting disc 21 through first pivot 20, cut edge with microcrystalline sheet material's both sides simultaneously through every cutting disc 21.

The foregoing has described the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the 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 (10)

1. The utility model provides an automatic side cut equipment for micrite panel, characterized in that, including material loading support (1), cutting bed (2), feed actuating mechanism, move material mechanism and trimming mechanism, material loading support (1) and cutting bed (2) are distributed and set up in parallel, be provided with rectangle feed basket (3) on material loading support (1), feed actuating mechanism sets up on material loading support (1), rectangle feed basket (3) are close to the lower extreme of cutting bed (2) and are equipped with material shifting mouth (4), be used for carrying the micrite board in rectangle feed basket (3) to move to cutting bed (2), move material mechanism includes two material moving components at least, two material moving components are parallelly and the interval sets up on cutting bed (2), trimming mechanism includes blank subassembly and at least two material guiding components, the blank subassembly is located between two material moving components, two material guiding components set up the both sides of blank subassembly, the material cutting assembly, each material moving assembly and each material guiding assembly are arranged in parallel along the length direction of the cutting table (2).

2. The automatic trimming device for the microcrystal plates according to claim 1, wherein the feeding driving mechanism further comprises a driving motor (5), a horizontal column (6), a first sliding sleeve (7), a vertical rod (8), a second sliding sleeve (9), a rotary rod (10), a third sliding sleeve (11) and a buffer spring (12), the horizontal column (6) is horizontally arranged below the rectangular feeding basket (3), two ends of the horizontal column (6) are respectively connected with the inner wall of the feeding support (1) through fixing blocks, the first sliding sleeve (7) is slidably sleeved on the horizontal column (6), the vertical rod (8) is vertically arranged at the bottom of the first sliding sleeve (7), the second sliding sleeve (9) is slidably sleeved on the vertical rod (8), an extending column (13) is arranged on the vertical surface of the second sliding sleeve (9), and an L-shaped rotating plate (14) is rotatably arranged on the extending column (13), rotary rod (10) are the vertical one side that is located L type commentaries on classics board (14), the one end of rotary rod (10) and the inner wall connection of L type commentaries on classics board (14), third sliding sleeve (11) slip cover is established on rotary rod (10), driving motor (5) are one side that the level is located rotary rod (10), the output and the perpendicular face of third sliding sleeve (11) of driving motor (5) are connected, buffer spring (12) cover is established on rotary rod (10), the both ends of buffer spring (12) can be contradicted with the lateral wall of L type commentaries on classics board (14) and third sliding sleeve (11) respectively and set up.

3. The automatic trimming device for the microcrystal plates according to claim 2 is characterized in that an extension vertical plate (15) is arranged at the top of the second sliding sleeve (9), a push column (16) capable of abutting the microcrystal plates in the rectangular feeding basket (3) is arranged at the upper end of the extension vertical plate (15), and a rectangular through hole (17) which is moved to avoid the push column (16) is arranged at the bottom of the rectangular feeding basket (3).

4. The automatic trimming device for the microcrystal plates according to claim 3, characterized in that a blanking slide way (18) is arranged on one side of the feeding support (1) close to the cutting table (2), the blanking slide way (18) is mounted on the feeding support (1), the blanking slide way (18) is composed of an upper end and a lower end, the upper end is horizontally arranged, the lower end is obliquely arranged, and the upper end is in butt joint with the material moving port (4) of the rectangular material supply basket (3).

5. The automatic edge cutting device for the microcrystal plates is characterized in that, the blank subassembly includes first motor (19), first pivot (20), two cutting disc (21) and two vertical board (22), two vertical board (22) set up the top both sides in cutting bed (2) along the width direction symmetry of cutting bed (2), first pivot (20) are the level and are located between two vertical board (22), the both ends of first pivot (20) can be the pivoted respectively insert the inner wall of locating every vertical board (22) and outwards extend, first motor (19) are one side that the level is located one of them vertical board (22), the output of first motor (19) is connected with the one end of first pivot (20), two cutting disc (21) are vertical and the symmetry sets up the both ends in first pivot (20), first motor (19) are connected with the top of cutting bed (2) through first support.

6. The automatic trimming device for the microcrystal plates according to claim 5, wherein each guide assembly comprises a portal frame (23), a fixed guide wheel (24), a movable guide wheel (25) and a movable vertical plate (26), the portal frame (23) is vertically installed on the cutting table (2), the fixed guide wheel (24) and the movable guide wheel (25) are horizontal and are correspondingly located on one side of the portal frame (23) up and down, the movable vertical plate (26) is located on one side of the movable guide wheel (25), two sides of the movable vertical plate (26), which are close to a vertical surface of the portal frame (23), are respectively provided with a sliding block (36) extending towards the portal frame (23), a sliding groove (27) for each sliding block (36) is arranged on the portal frame (23), the vertical surfaces of the movable vertical plates (26) are symmetrically provided with first bearing seats (28) at intervals, the movable guide wheel (25) is located between the two first bearing seats (28), the movable guide wheel (25) is rotatably connected with the inner ring of each first bearing seat (28) through a first rotating rod (29), two ends of the fixed guide wheel (24) are respectively provided with a second bearing seat (30), each second bearing seat (30) is respectively installed on the side wall of the portal frame (23), and the fixed guide wheel (24) is rotatably connected with the inner ring of each second bearing seat (30) through a second rotating rod (31).

7. The automatic trimming device for the microcrystal plates according to claim 6, wherein each material guide assembly further comprises a second motor (32), a second rotating shaft (33), an upper plate (34), a lower plate (35) and an extending transverse plate (38), the upper plate (34) and the lower plate (35) are respectively arranged at the upper end and the lower end of one side of the portal frame (23), the second rotating shaft (33) is vertically positioned between the upper plate (34) and the lower plate (35), two ends of the second rotating shaft (33) are respectively rotatably inserted into the inner walls of the upper plate (34) and the lower plate (35) and extend outwards, the second motor (32) is vertically arranged on the upper plate (34), the output end of the second motor (32) is in transmission connection with the top end of the second rotating shaft (33), one end of the first rotating rod (29) close to the second rotating shaft (33) extends towards one side of the second rotating shaft (33), the extending end of the first rotating rod (29) is provided with a first bevel gear (37) which is vertically arranged, the vertical surface of the moving vertical plate (26) close to the first bevel gear (37) is provided with an extending transverse plate (38) which extends towards the direction of the second rotating shaft (33), one end of the extending transverse plate (38) is provided with a circular through hole which avoids the second rotating shaft (33), the inside of the circular through hole is provided with a bearing sleeve, the inner ring of the bearing sleeve is provided with a sleeve (39), the bottom of the sleeve (39) extends downwards, the bottom of the sleeve (39) is provided with a second bevel gear (40) which is horizontally arranged, the second bevel gear (40) is provided with a through hole which avoids the second rotating shaft (33) to rotate, the second bevel gear (40) is meshed with the first bevel gear (37), two sides of the second rotating shaft (33) are respectively provided with contact strips (41), the inner ring of the sleeve (39) is provided with a contact groove for each contact strip (41) to contact, one end of the second rotating rod (31) close to the second rotating shaft (33) extends, the extending end of the second rotating rod (31) is provided with a third bevel gear (42), and the second rotating shaft (33) is provided with a fourth bevel gear (43) meshed with the third bevel gear (42).

8. The automatic trimming device for the microcrystal plates according to claim 7, wherein each material guide assembly further comprises a screw (44), a handle (45), a locking nut (46) and a lifting block (47), the lifting block (47) is installed on the upper vertical surface of the movable vertical plate (26), the screw (44) is vertically and rotatably inserted into the top of the lifting block (47), a screw hole for the screw (44) to pass through is formed in the center of the upper end of the portal frame (23), the upper end of the screw (44) extends upwards through the screw hole, the locking nut (46) is arranged at the upper end of the screw (44), and the handle (45) is arranged at the top extending end of the screw (44).

9. The automatic trimming device for the microcrystal plates according to claim 8, wherein each material guide assembly further comprises a bearing guide wheel (48), the bearing guide wheel (48) is horizontally positioned on one side of the fixed guide wheel (24), and two ends of the bearing guide wheel (48) are respectively rotatably inserted on the inner side of the portal frame (23).

10. The automatic trimming device for the microcrystal plates according to claim 9, wherein the material moving mechanism comprises a third motor (49), a horizontal rod (50), two third bearing seats (51), two side plates (52) and a plurality of guide rollers (53), the two side plates (52) are symmetrically arranged at two sides of the top of the cutting table (2), the plurality of guide rollers (53) are distributed between the upper ends of the two side plates (52) at equal intervals along the length direction of the side plates (52), two ends of each guide roller (53) are respectively inserted into two sides of each side plate (52) and extend outwards through the third rotating rod, the horizontal rod (50) is horizontally arranged at one side of the upper end of one side plate (52), the third bearing seats (51) are symmetrically arranged at two ends of the horizontal rod (50), the third bearing seats (51) are respectively installed on one side plate (52), the both ends of horizon bar (50) can be rotated respectively insert the inner circle of locating every third bearing frame (51) and outwards extend, third motor (49) are located one side of one of them third bearing frame (51), third motor (49) are connected with the top of cutting bed (2) through the second support, the output of third motor (49) is connected with the one end of horizon bar (50), be equipped with on horizon bar (50) with the one-to-one fifth awl tooth (54) of every third bull stick, be equipped with respectively in every third pivot with every sixth awl tooth (55).

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