CN111331714B

CN111331714B - High-strength structure ceramic engraving machining device with double-support positioning mechanism

Info

Publication number: CN111331714B
Application number: CN202010149878.7A
Authority: CN
Inventors: 宋夏国
Original assignee: Jiaxing Deji Machinery Design Co ltd
Current assignee: Jiaxing Deji Machinery Design Co.,Ltd.
Priority date: 2020-03-06
Filing date: 2020-03-06
Publication date: 2021-08-24
Anticipated expiration: 2040-03-06
Also published as: CN111331714A

Abstract

The invention discloses a processing device for engraving high-strength structural ceramics, which is provided with a double-support positioning mechanism, relates to the technical field of manual ceramic processing appliances, and solves the problem that most of the conventional devices cannot intensively contain crushed slag generated by engraving, so that the crushed slag falls in a scattered manner, and the ground is polluted and is inconvenient to clean. Processing device for ceramic engraving of high strength structure who is equipped with two support positioning mechanism, including the base, connect slag pan and circular sliding seat, department's vertical welding has a main tributary dagger in the middle of the top of base, and the cover is smooth to be provided with a circular sliding seat on the first half section of this main tributary dagger, and from top to bottom arranges in proper order on the second half section of main tributary dagger and changes to insert and install runner, worm and runner, and wherein the runner is towards the left side and directly wears to adorn on the main tributary dagger, and worm and runner are located the right side of main tributary dagger. The two inserting frames can be used for inserting and fixing the left half-cutting box and the right half-cutting box on the circular sliding seat and enabling the two half-cutting boxes to be in butt joint and positioned to form a complete slag receiving disc.

Description

High-strength structure ceramic engraving machining device with double-support positioning mechanism

Technical Field

The invention relates to the technical field of manual ceramic processing devices, in particular to a processing device for engraving high-strength structural ceramics, which is provided with a double-support positioning mechanism.

Background

The carving is an indispensable process in the ceramic processing process, the ceramic carving process is that various patterns with different depths and different areas are carved on the surface of a dried or semi-dried ceramic blank by a bamboo or iron tool, and the main purpose of carving is to carve different designs and colors by a carving knife so as to increase the shadow effect of the outer wall of the ceramic and further to show the stereoscopic impression of the carving patterns. All ceramic surfaces on the market are basically carved, and the existing carving process is basically processed manually by an experienced carver.

The pottery turntable is a common tool in pottery making, a pottery making method of clay strip molding slow wheel shaping appears in the middle period of the neolithic age, and a fast wheel forming method appears in the middle and later periods. So said at the earliest use carousel can trace back to in culture of Wen mouth and culture period of big xi, about 5000 years from now, the pottery preparation was more convenient when the appearance of instrument, and the pottery of preparation is exquisite more quick.

For example, patent No. cn201920227537.x discloses a turntable device with high stability for ceramic processing, the structure of which includes a turntable, a circular plate, a fixed table, an electric motor, a sealing ring, a connecting rod, a connecting device and an anti-slip device, the turntable device with high stability for ceramic processing of the present invention comprises a connecting device at the top end of a rotary plate, a circular plate is moved downwards into a placing groove to squeeze a fixed ball, so that the fixed ball is moved leftwards, when the fixed ball and the fixed groove are at the same level, the fixed ball is moved rightwards by the elastic force of a second spring to be fixed in the fixed groove, so that the circular plate is fixed, the problem that the working circular plate can not be quickly fixed on the turntable is solved, the anti-slip device is arranged on the outer end face of the circular plate, the circular plate is lifted by a bump and an anti-slip pattern, through antiseized bump, prevent that the plectane from bonding on the carousel of taking water, solved and leaded to gliding problem easily when having water on the hand when getting the pottery article.

The most current processingequipment can not implement to concentrate to connect greatly to the disintegrating slag that the sculpture produced, causes the disintegrating slag to fall scattered the ground clearance of making dirty inconvenient, and easily gathers up too much disintegrating slag on the ceramic support carousel, and this can cause to shelter from the influence sculpture to the bottom section of ceramic, and ceramic highly can not be suitable for in addition to go up and down or the operation of going up and down relies on both hands to accomplish mostly, occupies both hands, difficultly, has indirectly reduced workman work efficiency's problem.

Disclosure of Invention

The invention aims to provide a processing device for engraving high-strength structural ceramics, which is provided with a double-support positioning mechanism, and aims to solve the problems that most of the processing devices provided in the background art can not carry out centralized containing on crushed slag generated by engraving, so that the crushed slag is scattered and falls off to pollute the ground, the ground is inconvenient to clean, excessive crushed slag is easy to accumulate on a ceramic support turntable, the bottom section of a ceramic product is shielded to influence engraving, the height of the ceramic is not suitable for lifting or the lifting operation is mostly finished by two hands, the two hands are occupied, labor is wasted, and the operation efficiency of workers is indirectly reduced.

In order to achieve the purpose, the invention provides the following technical scheme: the processing device for engraving the high-strength structural ceramics with the double-support positioning mechanism comprises a base, a slag receiving disc and a circular sliding seat, wherein the base comprises a main support column, a main support column is vertically welded in the middle of the top end of the base, the circular sliding seat is sleeved and arranged on the upper half section of the main support column in a sliding manner, and a rotating wheel, a worm and a rotating wheel are sequentially arranged, inserted and installed on the lower half section of the main support column from top to bottom, wherein the rotating wheel faces to the left side and is directly arranged on the main support column in a penetrating manner, and the worm and the rotating wheel are positioned on the right side of the main support column; a rotating shaft is welded downwards at the bottom of the rotary table and is inserted and installed in a central shaft hole of the bearing block; the slag receiving disc is formed by butting a left half-cut box and a right half-cut box, and a semicircular notch is formed in the middle of each of the left half-cut box and the right half-cut box in a penetrating manner; the circular sliding seat comprises a positioning ring plate, and two positioning ring plates are welded on the top end part of the circular sliding seat in a sleeved mode at intervals; the bearing block comprises an inserting frame, cylindrical supporting rods and a brush frame, the bearing block is integrally arranged in a circular shape, the bottom of the bearing block is in an annular array, and is welded with four cylindrical supporting rods, and the bottoms of the four cylindrical supporting rods are welded and fixed to the top end of the circular sliding seat; two insertion frames are arranged on the front and the rear groups of cylindrical supporting rods in a sliding manner through the spring pushing sleeve; the middle position of the rear side of the bearing seat is supported and welded with an L-shaped support rod, and the brush frame is installed on the vertical support rod section of the L-shaped support rod in a penetrating and sliding mode.

Preferably, the slag receiving disc comprises positioning sleeves, the two positioning sleeves are welded on the surface of the outer eave position of the middle semicircular notch of the slag receiving disc at intervals, and the left half-cutting box and the right half-cutting box of the slag receiving disc are clamped between the two positioning ring plates through the middle semicircular notches in a butt joint mode.

Preferably, the inserting frame is formed by welding a top end cross brace sliding plate and two inserting rods which are convex in front and symmetrically supported downwards together, and the four inserting rods of the two inserting frames can be correspondingly inserted into the four positioning sleeves in a top inserting mode.

Preferably, the whole brush frame is of a U-shaped structure, the horizontal support rod at the top end of the brush frame is closely propped above the turntable, and nylon bristles are fixed at the bottom of the horizontal support rod at the top end of the brush frame through a magic tape; and the lower horizontal stay bar of the brush frame is inserted and installed on the L-shaped stay bar at the back of the bearing seat, and the top end of the L-shaped stay bar penetrates through and is screwed with the plum bolt for jacking and positioning.

Preferably, the rotating wheel comprises a connecting rod and a worm wheel, the outer edge ring of the rotating wheel is rotatably connected with a connecting rod, and the head end of the connecting rod is rotatably connected with the circular sliding seat; the right end of the rotating wheel rotating shaft is sleeved with a worm wheel which can be correspondingly contacted and meshed with the worm.

Preferably, the driving gear comprises a swing rod, a pull rod and a pedal, the rear end of the driving gear rotating shaft is welded with a horizontal swing rod, and the tail end of the pull rod is rotatably provided with a rectangular pedal.

Preferably, two front support rods are symmetrically welded at the left end and the right end of the swing rod, and the head ends of the two front support rods are respectively connected with a pull rod in a hanging manner.

Preferably, the rear end of the worm rotating shaft is sleeved with a driven gear, and the driving gear can be in contact meshing with the driven gear correspondingly.

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

1. the slag receiving disc can receive soil embryo crushed slag generated by carving, so that the problem that the ground is polluted due to the fact that the crushed slag falls in a scattered manner to cause cleaning trouble is avoided;

2. the nylon bristles at the bottoms of the horizontal support rods at the top ends of the brush frames can be matched with the rotary disc to rotate for use, crushed slag accumulated on the rotary disc is swept and blocked in the slag receiving disc to be collected, the influence of excessive crushed soil embryos accumulated on the rotary disc on carving of the bottom position of the ceramic is avoided, and the brush frames can slide back and forth to enable the horizontal support rods at the top ends of the brush frames to be adjusted in a telescopic mode at the top ends of the rotary disc, so that ceramic products with different diameters can be used flexibly and widely;

3. the rotating wheel, the connecting rod and the circular sliding seat jointly form a rotating wheel driving crank-connecting rod mechanism, the mechanism can push the circular sliding seat to slide up and down along the main supporting column, the heights of the rotary table and the ceramic product are changed, the ceramic product engraving machine is suitable for meeting the engraving requirements of different heights, the operator is prevented from getting up or bending down to implement engraving on different height positions of the ceramic product, and the working fatigue of the operator can be reduced.

4. The driving gear rotates forwards and backwards only by treading the pedals at two positions respectively by the left foot and the right foot, so that the height adjustment of the turntable is completed quickly, labor is saved and conveniently, the height adjustment of the turntable is driven by the feet, the hands of workers are liberated, the use is flexible and convenient, and the engraving efficiency of the workers is indirectly improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic three-dimensional structure of the present invention;

FIG. 3 is a schematic bottom three-dimensional structure of the present invention;

FIG. 4 is a schematic view of the installation position of the circular sliding seat of the present invention;

FIG. 5 is a schematic illustration of the transmission relationship of the present invention;

FIG. 6 is a three-dimensional schematic of the transmission relationship of the present invention;

FIG. 7 is a schematic three-dimensional structure of a bearing seat according to the present invention;

fig. 8 is a schematic structural view of the slag receiving pan of the invention.

In the figure: 1. a base; 101. a main support column; 2. a turntable; 3. a slag receiving disc; 301. a positioning sleeve; 4. a bearing seat; 401. inserting a frame; 402. a cylindrical strut; 403. brushing the frame; 5. a rotating wheel; 501. a connecting rod; 502. a worm gear; 6. a worm; 7. a driving gear; 701. a swing rod; 702. a pull rod; 703. a pedal; 8. a circular sliding seat; 801. and a positioning ring plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 8, an embodiment of the present invention includes: the processing device for engraving the high-strength structural ceramics with the double-support positioning mechanism comprises a base 1, a slag receiving disc 3 and a circular sliding seat 8, wherein the base 1 comprises a main supporting column 101, the middle of the top end of the base 1 is vertically welded with the main supporting column 101, the circular sliding seat 8 is sleeved and arranged on the upper half section of the main supporting column 101 in a sliding manner, a rotating wheel 5, a worm 6 and a rotating wheel 5 are sequentially arranged, rotated and inserted from top to bottom on the lower half section of the main supporting column 101, the rotating wheel 5 faces to the left and is directly arranged on the main supporting column 101 in a penetrating manner, and the worm 6 and the rotating wheel 5 are positioned on the right side of the main supporting column 101; a rotating shaft is welded downwards at the bottom of the turntable 2 and is inserted and installed in a central shaft hole of the bearing block 4; the slag receiving disc 3 is formed by butting a left half-cut box and a right half-cut box, and a semicircular notch is formed in the middle of each of the left half-cut box and the right half-cut box in a penetrating manner; the circular sliding seat 8 comprises a positioning ring plate 801, and two positioning ring plates 801 are welded on the top end part of the circular sliding seat 8 at intervals in a sleeved mode; the bearing seat 4 comprises an inserting frame 401, cylindrical supporting rods 402 and a brush frame 403, the bearing seat 4 is integrally arranged in a circular shape, the bottom of the bearing seat 4 is supported and welded with four cylindrical supporting rods 402 in an annular array mode, and the bottoms of the four cylindrical supporting rods 402 are welded and fixed to the top end of the circular sliding seat 8; two inserting frames 401 are arranged on the front and the rear groups of cylindrical supporting rods 402 in a sliding way through the sleeve by spring pushing; an L-shaped support rod is supported and welded at the middle position of the rear side of the bearing seat 4, and the brush frame 403 is installed on the vertical support rod section of the L-shaped support rod in a penetrating and sliding manner; two front support rods are symmetrically welded at the left end and the right end of the swing rod 701, and the head ends of the two front support rods are respectively connected with a pull rod 702 in a hanging manner.

Further, connect slag pan 3 to include position sleeve 301, and equal interval welding has two position sleeve 301 on the face of the outer eaves position of semicircle notch in the middle of two places connect slag pan 3, and connect slag pan 3 about two half-cut boxes through its middle semicircle notch butt joint clamp between two position retaining ring boards 801, connect slag pan 3 can connect the soil embryo disintegrating slag that the sculpture preparation produced greatly, avoid the disintegrating slag to fall scattered the dirty ground of making and cause clean clearance trouble.

Further, the inserting frame 401 is formed by welding a top end cross brace sliding plate and two inserting rods which are convex in front and are symmetrically supported downwards, the four inserting rods of the two inserting frames 401 can be correspondingly inserted into the four positioning sleeves 301 in a top inserting mode, the two inserting frames 401 can be used for inserting and fixing the left half-cutting box and the right half-cutting box on the circular sliding seat 8, and the two half-cutting boxes are in butt joint positioning to form a complete slag receiving disc 3.

Further, the brush frame 403 is integrally in a U-shaped structure, a horizontal stay bar at the top end of the brush frame is arranged above the turntable 2 in a manner of being close to the top, and nylon bristles are fixed at the bottom of the horizontal stay bar at the top end through a magic tape; the downside horizontal stay bar of brush frame 403 alternates and installs on the L form vaulting pole at 4 backs of bearing frame to run through the tight location in plum blossom bolt top of revolving soon through L form vaulting pole top, the nylon brush hair of brush frame 403 top horizontal stay bar bottom can cooperate 2 rotatory uses of carousel, sweeps the disintegrating slag that falls of depositing on carousel 2 and scrapes and keep off and collect in receiving slag dish 3, avoids 2 long-pending too much embryo disintegrating slag influence of gathering of carousel to the sculpture of pottery bottom position.

Further, the rotating wheel 5 comprises a connecting rod 501 and a worm gear 502, the outer edge ring of the rotating wheel 5 is rotatably connected with the connecting rod 501, and the head end of the connecting rod 501 is rotatably connected with the circular sliding seat 8; the right-hand member cover of runner 5 pivot is equipped with a worm wheel 502, this worm wheel 502 can correspond and worm 6 contact meshing, runner 5, connecting rod 501 and circular sliding seat 8 have constituteed a runner drive crank link mechanism jointly, can push up circular sliding seat 8 through this mechanism and slide from top to bottom along main tributary strut 101, change the height of carousel 2 and ceramic, be suitable for and satisfy the sculpture needs of co-altitude, it raises or bends over to implement the sculpture to the co-altitude position of ceramic to remove the operation personnel from, can alleviate operation personnel's work fatigue.

Further, the driving gear 7 comprises a swing rod 701, a pull rod 702 and pedals 703, a horizontal swing rod 701 is welded at the rear end of a rotating shaft of the driving gear 7, a rectangular pedal 703 is installed at the tail end of the pull rod 702 in a rotating mode, the driving gear 7 can be meshed to drive a worm 6 to drive a worm wheel 502 and a rotating wheel 5 to rotate so as to adjust the height of the rotary table 2, the driving gear 7 rotates forwards and backwards only by treading the pedals 703 by left and right feet respectively, the height of the rotary table 2 can be adjusted quickly, labor is saved, and the height of the rotary table 2 is adjusted by foot driving operation.

Further, a driven gear is sleeved at the rear end of the rotating shaft of the worm 6, the driving gear 7 can be in contact meshing with the driven gear correspondingly, and the worm 6 and the worm wheel 502 have self-locking function and can avoid the driving gear 7 after rotation adjustment from loosening, reversing and reversing.

The working principle is as follows: when the ceramic earth blank engraving machine is used, a ceramic earth blank is firstly supported and placed at the top end of the rotary table 2, and the rotary table 2 can be rotated in the engraving process to complete the whole body engraving of the ceramic earth blank.

Lifting principle of the turntable 2: the left foot and the right foot step on the two pedals 703 can make the driving gear 7 rotate positively and negatively, the positive and negative rotation of the driving gear 7 can be meshed to drive the worm 6 to rotate, the worm 6 can be meshed to drive the worm wheel 502 and the rotating wheel 5 to rotate positively and negatively, and the rotating wheel 5 can push the circular sliding seat 8 through the connecting rod 501 during the positive and negative rotation, so that the circular sliding seat 8 slides up and down along the main supporting column 101 to change the heights of the rotary disc 2 and the ceramic product.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. High strength structure processingequipment for ceramic carving who is equipped with double bracing positioning mechanism, its characterized in that: the slag receiving plate comprises a base (1), a slag receiving plate (3) and a circular sliding seat (8), wherein the base (1) comprises a main supporting column (101), the middle of the top end of the base (1) is vertically welded with the main supporting column (101), the circular sliding seat (8) is sleeved and arranged on the upper half section of the main supporting column (101) in a sliding manner, a rotating wheel (5), a worm (6) and a rotating wheel (5) are sequentially arranged, rotated and inserted from top to bottom on the lower half section of the main supporting column (101), the rotating wheel (5) faces to the left side and is directly arranged on the main supporting column (101), and the worm (6) and the rotating wheel (5) are positioned on the right side of the main supporting column (101); the bottom of the rotary table (2) is welded with a rotating shaft downwards, and the rotating shaft is inserted and installed in a central shaft hole of the bearing seat (4); the slag receiving disc (3) is formed by butting a left half-cut box and a right half-cut box, and a semicircular notch is formed in the middle of each of the left half-cut box and the right half-cut box in a penetrating manner; the circular sliding seat (8) comprises a positioning ring plate (801), and two positioning ring plates (801) are welded on the top end part of the circular sliding seat (8) in a sleeved mode at intervals; the bearing seat (4) comprises an inserting frame (401), cylindrical supporting rods (402) and a brush frame (403), the bearing seat (4) is integrally arranged in a circular shape, the bottoms of the bearing seats (4) are in annular array supporting welding with four cylindrical supporting rods (402), and the bottoms of the four cylindrical supporting rods (402) are welded and fixed on the top end of a circular sliding seat (8); two inserting frames (401) are arranged on the front and the rear groups of cylindrical supporting rods (402) in a sliding way through the sleeve by the pushing of a spring; an L-shaped support rod is welded at the middle position of the rear side of the bearing seat (4) in a supporting mode, and the brush frame (403) is installed on a vertical support rod section of the L-shaped support rod in a penetrating and sliding mode;

the rotating wheel (5) comprises a connecting rod (501) and a worm wheel (502), the outer edge ring of the rotating wheel (5) is rotatably connected with the connecting rod (501), and the head end of the connecting rod (501) is rotatably connected with the circular sliding seat (8); a worm wheel (502) is sleeved at the right end of the rotating shaft of the rotating wheel (5), and the worm wheel (502) can be correspondingly contacted and meshed with the worm (6);

the driving gear (7) comprises a swing rod (701), a pull rod (702) and a pedal (703), the rear end of a rotating shaft of the driving gear (7) is welded with a horizontal swing rod (701), and the tail end of the pull rod (702) is rotatably provided with a rectangular pedal (703);

two front stretching supporting rods are symmetrically welded at the left end and the right end of the swing rod (701), and the head ends of the two front stretching supporting rods are respectively connected with a pull rod (702) in a hanging manner;

the rear end of the rotating shaft of the worm (6) is sleeved with a driven gear, and the driving gear (7) can be in contact meshing with the driven gear correspondingly.

2. The processing device for engraving structural ceramics with high strength equipped with a double supporting and positioning mechanism according to claim 1, wherein: the slag receiving disc (3) comprises a positioning sleeve (301), the two positioning sleeves (301) are welded on the surface of the outer eave position of the middle semicircular notch of the slag receiving disc (3) at intervals, and the left half-cutting box and the right half-cutting box of the slag receiving disc (3) are clamped between two positioning ring plates (801) in a butt joint mode through the middle semicircular notch.

3. The processing device for engraving structural ceramics with high strength equipped with a double supporting and positioning mechanism according to claim 1, wherein: the inserting frame (401) is formed by welding a top end cross brace sliding plate and two inserting rods which are convex in front and symmetrically supported downwards together, and the four inserting rods of the two inserting frames (401) can be correspondingly inserted into the four positioning sleeves (301).

4. The processing device for engraving structural ceramics with high strength equipped with a double supporting and positioning mechanism according to claim 1, wherein: the whole brush frame (403) is of a U-shaped structure, a horizontal support rod at the top end of the brush frame is close to the top of the turntable (2), and nylon bristles are fixed at the bottom of the horizontal support rod at the top end through a magic tape; the lower horizontal support rod of the brush frame (403) is inserted and installed on the L-shaped support rod at the back of the bearing seat (4), and the top end of the L-shaped support rod penetrates through the screwed plum bolt to be tightly pressed and positioned.