CN116901232B - High-precision ceramic forming body cutting device - Google Patents

Abstract

The invention discloses a high-precision ceramic forming body cutting device, which relates to the field of ceramic production equipment and comprises a conveyor for conveying ceramic forming bodies, wherein a slot is formed in the bottom end inside the conveyor, accurate positioning assemblies are fixedly arranged on the front side and the rear side of the top of the conveyor and used for accurately positioning and cutting the ceramic forming bodies to be cut off, the phenomenon of cutting error is avoided, and a cutting assembly is arranged on the top of the conveyor and used for cutting the ceramic forming bodies at different positions. The positioning block is pushed to horizontally move along the scale rod, the pointer is driven to precisely indicate the cutting-off position of the ceramic forming body, meanwhile, the motor drives the U-shaped frame to horizontally move along the threaded connecting rod, the linear motor drives the pointer to drive the cutting-off blade to cut off the ceramic forming body, and therefore the ceramic forming body is accurately positioned, the cutting-off effect and quality are improved conveniently, and the phenomenon of cutting-off errors is avoided.

Description

High-precision ceramic forming body cutting device

Technical Field

The invention relates to the technical field of ceramic production equipment, in particular to a high-precision ceramic forming body cutting device.

Background

The ceramic forming is to obtain a ceramic blank with uniform inside and high density, which is an important ring in the ceramic preparation process, and the forming technology determines the uniformity of the blank and the capability of preparing parts with complex shapes to a great extent, directly influences the reliability of materials and the cost of final ceramic parts so as to adapt to market demands, and the ceramic blank obtained after the ceramic forming is finished needs to be cut off.

For example, chinese patent publication No. CN106426575B discloses a cutting device for ceramic molded articles and a method for manufacturing laminated ceramic electronic components using the cutting device, which comprises: the cutting device comprises a cutter for cutting a ceramic molded body on a platform, a moving unit for relatively moving the platform and the ceramic molded body, a cutter driving part and an angle control part for controlling the entering angle of the cutter to the ceramic molded body, wherein the entering angle of the cutter to the ceramic molded body is controlled so as to repeatedly cut from one end part to the other end part of the ceramic molded body.

However, in practical use, the device cannot accurately position the position of the ceramic molded body to be cut when the ceramic molded body is cut, so that cutting errors of the ceramic molded body are easily caused in the cutting process, and the quality of cutting the ceramic molded body is greatly reduced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the high-precision ceramic forming body cutting device which can realize accurate positioning of the ceramic forming body, is convenient for improving the cutting effect and quality of the ceramic forming body, avoids the occurrence of the phenomenon of cutting error and can effectively solve the problems in the background art.

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

a high-precision ceramic molded body cutting device comprises a conveyor for conveying ceramic molded bodies, wherein a slot is formed in the bottom end of the interior of the conveyor;

accurate positioning components are fixedly arranged on the front side and the rear side of the top of the conveyor;

the top of the conveyor is provided with a cutting assembly;

the accurate positioning assembly comprises a positioning frame, the positioning frame is fixed to be located on the conveyer, the fixed scale pole that is equipped with between the inside both ends of positioning frame, processing has the scale mark on the scale pole, it is equipped with two locating pieces to slide on the scale pole, and two locating pieces are all fixed mutually with the positioning frame inner wall, two one side that the scale mark was kept away from to the locating piece is all fixed to be equipped with U type frame, two between the inside top of U type frame and the inside bottom, two one side that the locating piece was kept away from to U type frame all is equipped with and is used for carrying out accurate positioning and carrying out the fixed pointer of centre gripping to ceramic forming body, two all slide on the slide bar is equipped with the slider, two all through the bolt lock between slider and the two slide bar is kept away from one side that the U type was put up and is all fixed to be equipped with the telescopic link, and two pointers are fixed respectively to locate two telescopic link and keep away from the one end of slider.

Preferably, the cutting assembly comprises two adjusting frames, the two adjusting frames are respectively and fixedly arranged at the tops of the two positioning frames, one of the adjusting frames is connected with a threaded connecting rod through a bearing between the two ends of the inner portion of the adjusting frame, and the other adjusting frame is fixedly connected with a limiting rod between the two ends of the inner portion of the adjusting frame.

Preferably, threaded connection has the threaded connection piece on the threaded connection pole, sliding connection has the stopper on the gag lever post, threaded connection piece and stopper top are all fixed and are equipped with the fixed block, two fixed the same U type connecting rod that is equipped with between the fixed block top, the threaded connection pole of being convenient for rotates and drives threaded connection piece, fixed block and U type connecting rod along threaded connection pole horizontal migration.

Preferably, the spout has been seted up to the inside bottom of U type connecting rod, the inside fixed linear motor that is equipped with of spout, the fixed electric putter that is equipped with in linear motor bottom, the fixed cutting blade that is used for cutting off ceramic molded body that is equipped with of electric putter piston rod is convenient for linear motor drive electric putter along spout horizontal migration to realize that electric putter drives cutting blade and cuts off ceramic molded body.

Preferably, the conveyer one side is fixed and is equipped with the backup pad, the backup pad top is fixed and is equipped with the motor, motor output shaft runs through the regulation frame of rear side and with adjust through bearing connection between frame one end, motor output shaft and threaded connection pole one end fixed connection, the motor drive threaded connection pole of being convenient for rotates.

Preferably, the conveyer is kept away from the fixed U type guide frame that is equipped with in one side of motor, the inside fixed swash plate that is equipped with of U type guide frame, and one side that the U type guide frame was kept away from to the swash plate extends to the conveyer inside, is convenient for carry out the delivery to the ceramic forming body after cutting the completion, transparent observation window has been inlayed to the conveyer front side, is convenient for observe the inside condition of conveyer, when unexpected, is convenient for in time close conveyer or motor.

Preferably, the support column is all fixed to conveyer bottom four corners, two of homonymy fixedly connected with stiffener between the support column, the fixed unloading frame that is used for discharging to cut off the waste material that is equipped with in conveyer bottom, unloading frame bottom is fixed to be equipped with logical frame, and the unloading frame communicates each other with logical frame inside, is convenient for discharge the waste material that produces when cutting off the ceramic molded body.

Compared with the prior art, the invention provides a high-precision ceramic molded body cutting device, which has the following beneficial effects:

the U-shaped frame is driven to horizontally move along the scale bars by sliding the two positioning blocks, then the two telescopic rods are slid to drive the two sliding blocks to vertically move along the two sliding rods respectively according to the length or the width of the ceramic forming body to be cut off, and the two positioning blocks are pushed to move to the two sides of the ceramic forming body randomly by observing the scale marks between the two scale bars inside any one positioning frame, namely the precise length or the width of the ceramic forming body to be cut off, so that the two pointers respectively indicate the positions of the ceramic forming body to be cut off, and the precise positioning of the ceramic forming body can be realized, thereby being convenient for improving the subsequent cutting-off effect and quality of the ceramic forming body.

The motor drives the threaded connecting rod to rotate so as to drive the threaded connecting block, the fixed block and the U-shaped connecting rod to horizontally move along the threaded connecting rod, and drives the limiting block to horizontally slide along the limiting rod in the other adjusting frame, so that the movement of the U-shaped connecting rod is limited, after the U-shaped connecting rod moves to the position of the ceramic forming body, the linear motor works so as to drive the electric push rod to horizontally move along the sliding chute, the cutting blade is driven to move to the position right above the ceramic forming body, and the electric push rod drives the cutting blade to move up and down and cut off the ceramic forming body, so that the ceramic forming bodies at different positions at the top of the conveyor are cut off, and the application range of the invention is enlarged.

Drawings

Fig. 1 is an overall construction diagram of the present invention.

Fig. 2 is an overall structural view of the present invention.

Fig. 3 is a cross-sectional view of the overall structure of the present invention.

Fig. 4 is a schematic view of a cutting assembly according to the present invention.

Fig. 5 is a schematic view of a cutting assembly according to the present invention.

FIG. 6 is a schematic diagram of the precise positioning assembly of the present invention.

Fig. 7 is a plan view of the precision positioning assembly of the present invention.

FIG. 8 is a schematic view of the overall structure of the present invention with the severing assembly and precision positioning assembly removed.

Fig. 9 is a schematic view of another state of the cutter body according to the present invention.

In the figure: the automatic cutting device comprises a conveyor 1, a precise positioning assembly 2, a cutting assembly 3, a 4U-shaped material guiding frame, a 5 inclined plate, a 6 blanking frame, a 7-pass frame, an 8-transparent observation window, a 9-support column, a 10-reinforcement rod, an 11-grooving, a 12-motor, a 13-support plate, a 14-slide groove, a 21-positioning frame, a 22-scale rod, a 23-positioning block, a 24U-shaped frame, a 25-slide rod, a 26-slide block, a 27-telescopic rod, a 28 pointer, a 31-adjustment frame, a 32-thread connecting rod, a 33-limit rod, a 34-thread connecting block, a 35-limit block, a 36-fixing block, a 37U-shaped connecting rod, a 38-electric push rod, a 39-cutting blade and a 310-linear motor.

Detailed Description

In order to make the technical scheme of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-9, the invention provides a high-precision ceramic forming body cutting device, which comprises a conveyor 1 for conveying ceramic forming bodies, wherein a slot 11 is formed in the bottom end inside the conveyor 1, support columns 9 are fixedly arranged at four corners of the bottom of the conveyor 1, a reinforcing rod 10 is fixedly connected between the two support columns 9 on the same side, a blanking frame 6 for discharging cut-off waste is fixedly arranged at the bottom of the conveyor 1, a through frame 7 is fixedly arranged at the bottom of the blanking frame 6, and the blanking frame 6 and the inside of the through frame 7 are mutually communicated, so that waste generated during cutting of the ceramic forming bodies is conveniently discharged.

The utility model discloses a ceramic molding machine, including conveyer 1, motor 12, conveyer 1 front side is inlayed and is had transparent observation window 8, is convenient for observe the inside condition of conveyer 1, when unexpected, is convenient for in time close conveyer 1 or motor 12.

As shown in fig. 1-3, fig. 6 and fig. 7, the two sides around the top of the conveyor 1 are both fixedly provided with an accurate positioning component 2 for accurately positioning and cutting off a ceramic molded body to be cut off, so as to avoid the occurrence of cutting-off errors, the accurate positioning component 2 comprises a positioning frame 21, the positioning frame 21 is fixedly arranged on the conveyor 1, a scale bar 22 is fixedly arranged between the two ends inside the positioning frame 21, scale marks are machined on the scale bar 22, two positioning blocks 23 are slidably arranged on the scale bar 22, the two positioning blocks 23 are mutually clung to the inner wall of the positioning frame 21, and a U-shaped frame 24 is fixedly arranged on one side, far away from the scale marks, of the two positioning blocks 23.

Two slide bars 25 are fixedly arranged between the top end and the bottom end inside the U-shaped frame 24, two pointers 28 used for accurately positioning the ceramic molded body and clamping and fixing the ceramic molded body are arranged on one side, away from the positioning block 23, of the U-shaped frame 24, two slide blocks 26 are slidably arranged on the slide bars 25, two slide blocks 26 and the two slide bars 25 are locked through bolts, two telescopic rods 27 are fixedly arranged on one side, away from the U-shaped frame 24, of the slide bars 25, two pointers 28 are fixedly arranged on one ends, away from the slide blocks 26, of the two telescopic rods 27 respectively, so that the ceramic molded body to be cut off is accurately cut off conveniently, and the cutting quality of the ceramic molded body is improved.

Through setting up accurate positioning assembly 2, when needing to cut off the ceramic molded body, place the ceramic molded body at conveyer 1 top, then according to the position that the ceramic molded body carried, slide two locating pieces 23 and drive U type frame 24 along the length or the width that need cut off of scale pole 22, then according to the ceramic molded body, adjust the length of two relative telescopic links 27 wherein, then slide these two telescopic links 27 and drive two sliders 26 and reciprocate along two slide bars 25 respectively, through observing the scale mark between two scale poles 22 in arbitrary one locating frame 21, the accurate length or the width that need cut off, promote two locating pieces 23 at random and remove ceramic molded body both sides, finally make two pointers 28 indicate the position that need cut off on the ceramic molded body respectively, can realize having accurate location to the ceramic molded body, be convenient for improve the effect and the quality of follow-up cutting off to it, when need not carrying out accurate positioning to cut off to the ceramic molded body simultaneously, the length of adjusting telescopic link 27 can realize carrying out the centre gripping between two telescopic links 27 and fix the ceramic molded body.

As shown in fig. 1-5, the top of the conveyor 1 is provided with a cutting assembly 3 for cutting ceramic forming bodies at different positions, so as to enlarge the application range, the cutting assembly 3 comprises two adjusting frames 31, two adjusting frames 31 are respectively and fixedly arranged at the tops of two positioning frames 21, one of the two ends of the adjusting frames 31 is connected with a threaded connecting rod 32 through a bearing, the other end of the adjusting frame 31 is fixedly connected with a limiting rod 33 between the two ends of the adjusting frame 31, the threaded connecting rod 32 is in threaded connection with a threaded connecting block 34, the limiting rod 33 is in sliding connection with a limiting block 35, the tops of the threaded connecting block 34 and the limiting block 35 are respectively and fixedly provided with a fixed block 36, and the same U-shaped connecting rod 37 is fixedly arranged between the tops of the fixed blocks 36, so that the threaded connecting rod 32 rotates to drive the threaded connecting block 34, the fixed block 36 and the U-shaped connecting rod 37 to horizontally move along the threaded connecting rod 32.

As shown in fig. 4, the chute 14 is provided at the bottom end inside the U-shaped connecting rod 37, the linear motor 310 is fixedly provided in the chute 14, the electric push rod 38 is fixedly provided at the bottom of the linear motor 310, the piston rod of the electric push rod 38 is fixedly provided with the cutting blade 39 for cutting off the ceramic molded body, the electric push rod 38 is conveniently driven by the linear motor 310 to move horizontally along the chute 14, the cutting blade 39 is driven by the electric push rod 38 to cut off the ceramic molded body, the supporting plate 13 is fixedly provided at one side of the conveyor 1, the motor 12 is fixedly provided at the top of the supporting plate 13, the output shaft of the motor 12 penetrates through the adjusting frame 31 at the rear side and is connected with one end of the adjusting frame 31 through a bearing, and the output shaft of the motor 12 is fixedly connected with one end of the threaded connecting rod 32, so that the motor 12 drives the threaded connecting rod 32 to rotate.

Through setting up cutting off assembly 3, after carrying out the accurate positioning to the ceramic molded body and ending, make motor 12 at backup pad 13 top begin to work, motor 12 drives the inside screw thread connecting rod 32 screw thread rotation of one of them regulation frame 31, screw thread connecting rod 32 rotation drives the screw thread connecting block 34 on it simultaneously along screw thread connecting rod 32 horizontal migration, screw thread connecting block 34 removes and drives fixed block 36 and U type connecting rod 37 and all along screw thread connecting rod 32 horizontal migration, and drive stopper 35 in the inside along gag lever post 33 horizontal slip of another regulation frame 31, the motion to U type connecting rod 37 is spacing, after moving to the position of ceramic molded body, linear motor 310 work drive electric putter 38 along spout 14 horizontal migration, drive cutting off blade 39 and remove to the ceramic molded body directly over, electric putter 38 drive cutting off blade 39 reciprocates and cuts off the ceramic molded body, thereby realize cutting off the ceramic molded body of conveyer 1 top different positions.

Referring to fig. 9 again, the cutting blade 39 may further include a connecting rod body 391 connected with the electric putter, a balancing stand 392 disposed in the middle of the connecting rod body 391, and a cutter body 393 hinged to the lower end of the connecting rod body 391, where the lower end of the cutter body 393 is in an inclined state, and the inclination angle is less than 5 degrees, and in this embodiment, is set to 2 degrees. A tensioning spring 394 is connected between the balance stand 392 and two sides of the cutter body 393, and the tensioning spring 394 is in a compressed state and is used for providing tension. A tensioning spring 395 is connected and arranged on the outer side of the tensioning spring between the balance stand 392 and the cutter body 393, and the tensioning spring 395 is in a stretching state and is used for providing pulling force. The tension force of the tension spring 395 is smaller than the tension force of the tension spring 394, the tension spring 394 is in a vertical state, the tension spring 395 is in an inclined state, and the tension spring 395 is inclined from top to bottom and from the middle to the outside. The lower end of the cutter body 393 is in a straight state through the cooperation of the tensioning force of the tensioning spring 394 and the tensioning force of the tensioning spring 395 under the tensioning force of the tensioning spring 394 and the tensioning force of the tensioning spring 395. Since the free state of the cutter body 393 is a tilted state, the tension of each tension spring 394 is not the same and the tension force of the tension spring 395 is also not the same in order to achieve a straight state of the lower end of the cutter body 393. When the cutter body 393 is cut, the straight state of the cutter body is broken due to the unbalanced pressure, so that the cutter body is inclined, the cutter body is easy to cut due to the inclination, and in the cutting process, the lower end of the cutter body is in the straight state due to the fact that the pressure tends to be balanced, and the cutter body is protected. And after cutting off, the lower end of the cutter body can recover to be straight after the cutter body rises.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims (5)

1. A high-precision ceramic molded body cutting device, comprising a conveyor (1) for conveying ceramic molded bodies, characterized in that: a slot (11) is formed in the bottom end of the inner part of the conveyor (1);

the front side and the rear side of the top of the conveyor (1) are fixedly provided with accurate positioning assemblies (2);

a cutting assembly (3) is arranged at the top of the conveyor (1);

the precise positioning assembly (2) comprises a positioning frame (21), the positioning frame (21) is fixedly arranged on the conveyor (1), a scale bar (22) is fixedly arranged between two ends of the inside of the positioning frame (21), scale marks are machined on the scale bar (22), two positioning blocks (23) are slidably arranged on the scale bar (22), the two positioning blocks (23) are mutually clung to the inner wall of the positioning frame (21), one sides, far away from the scale marks, of the two positioning blocks (23) are fixedly provided with U-shaped frames (24), sliding bars (25) are fixedly arranged between the top end and the bottom end inside the U-shaped frames (24), one sides, far away from the positioning blocks (23), of the U-shaped frames (24) are respectively provided with a pointer (28) used for precisely positioning ceramic molded bodies and clamping and fixing the ceramic molded bodies, sliding blocks (26) are slidably arranged on the two sliding bars (25), one sides, far away from the U-shaped frames (24), of the two sliding bars (25) are fixedly provided with two pointers (27), and one ends, far away from the two telescopic pointers (27) are respectively fixed on the two sliding bars (27);

the cutting assembly (3) comprises two adjusting frames (31), the two adjusting frames (31) are respectively and fixedly arranged at the tops of the two positioning frames (21), a threaded connecting rod (32) is connected between two ends of the inside of one adjusting frame (31) through a bearing, and a limiting rod (33) is fixedly connected between two ends of the inside of the other adjusting frame (31);

threaded connection has threaded connection block (34) on threaded connection pole (32), sliding connection has stopper (35) on gag lever post (33), fixed block (36) are all fixed to threaded connection block (34) and stopper (35) top, two fixed be equipped with same U type connecting rod (37) between fixed block (36) top.

2. The high-precision ceramic molded body cutting device according to claim 1, wherein: the novel ceramic forming machine is characterized in that a sliding groove (14) is formed in the bottom end of the U-shaped connecting rod (37), a linear motor (310) is fixedly arranged in the sliding groove (14), an electric push rod (38) is fixedly arranged at the bottom of the linear motor (310), and a cutting blade (39) for cutting off the ceramic forming body is fixedly arranged on a piston rod of the electric push rod (38).

3. The high-precision ceramic molded body cutting device according to claim 1, wherein: the utility model discloses a conveyer, including conveyer (1), screw thread connecting rod (32), conveyer (1) one side is fixed to be equipped with backup pad (13), backup pad (13) top is fixed to be equipped with motor (12), motor (12) output shaft runs through adjusting frame (31) of rear side and is connected through the bearing between adjusting frame (31) one end, motor (12) output shaft and screw thread connecting rod (32) one end fixed connection.

4. A high-precision ceramic molded body cutting apparatus according to claim 3, wherein: one side that motor (12) was kept away from to conveyer (1) is fixed to be equipped with U type guide frame (4), the inside fixed swash plate (5) that are equipped with of U type guide frame (4), and one side that U type guide frame (4) was kept away from to swash plate (5) extends to inside conveyer (1), transparent observation window (8) are inlayed to conveyer (1) front side.

5. The high-precision ceramic molded body cutting device according to claim 1, wherein: the automatic cutting machine is characterized in that support columns (9) are fixedly arranged at four corners of the bottom of the conveyor (1), reinforcing rods (10) are fixedly connected between the support columns (9) on the same side, a blanking frame (6) for discharging cutting waste is fixedly arranged at the bottom of the conveyor (1), a through frame (7) is fixedly arranged at the bottom of the blanking frame (6), and the blanking frame (6) and the inside of the through frame (7) are mutually communicated.