CN117162288A

CN117162288A - Efficient numerical control profiling machine

Info

Publication number: CN117162288A
Application number: CN202311456478.0A
Authority: CN
Inventors: 马云华; 赵煜; 钱黎彪
Original assignee: Quanzhou Golden Diamond Machinery Co ltd
Current assignee: Quanzhou Golden Diamond Machinery Co ltd
Priority date: 2023-11-03
Filing date: 2023-11-03
Publication date: 2023-12-05
Anticipated expiration: 2043-11-03
Also published as: CN117162288B

Abstract

The invention relates to the field of profiling machines and discloses a high-efficiency numerical control profiling machine which comprises a processing end, wherein a first cutting part, a second cutting part, a closed plate group and a second fixed plate are arranged in the processing end, the first cutting part and the second cutting part are arranged in the processing end through the second fixed plate, the first cutting part and the second cutting part protrude out of the lower end horizontal plane of the processing end, and the first cutting part, the second cutting part and the inner side surface of the lower end of the processing end are filled through the closed plate group.

Description

Efficient numerical control profiling machine

Technical Field

The invention relates to the field of profiling machines, in particular to a high-efficiency numerical control profiling machine.

Background

The stone profiling machine is a fully automatic equipment integrating scanning and processing, can rapidly and accurately process required stone products according to the shape and the size of raw stone, is widely applied to the fields of building decoration, engraving, typesetting and the like, and has the technical characteristics of high precision, high efficiency, easiness in operation and the like. The high-precision scanner is adopted for scanning and automatic processing, so that high-precision processing can be realized, and processing quality is ensured. Meanwhile, the stone profiling machine adopts a mechanical processing mode, and profiling processing is controlled by a computer numerical control system, so that stone products meeting requirements can be produced efficiently, and in addition, the stone profiling machine has wide application scenes. Besides being used for manufacturing various building decoration stone products, such as carved patterns, columns, wall surfaces and the like, the stone products can be subjected to three-dimensional carving, so that the carving efficiency and the carving precision are improved. Meanwhile, the stone veneer can imitate characters and patterns to manufacture the stone veneer meeting the requirements;

in order to reduce the waste of main materials in stone cutting, a profiling machine in the prior art generally adopts a thinner cutting blade to cut the stone through longitudinal movement, and the blade is transversely moved to thin the stone, although the surface of the stone can be thinned truly through the working procedure, the blade is too thin, the damage of the cutting blade caused by the chipping of the thicker or harder stone is easy to occur in the process of cutting the blade in the transverse movement process, so that the stone can only be slowly moved back and forth on the surface of the stone when being thinned, and the efficiency is low, so that the time is wasted excessively; there is a need for an efficient form-fitting machine that avoids blade tipping damage.

Disclosure of Invention

The invention provides a high-efficiency numerical control profiling machine which overcomes the defects described in the background art.

The technical scheme adopted for solving the technical problems is as follows:

the high-efficiency numerical control profiling machine comprises a processing end, wherein a first cutting part, a second cutting part, a closed plate group and a second fixed plate are arranged in the processing end, the first cutting part and the second cutting part are all installed in the processing end through the second fixed plate, the first cutting part and the second cutting part protrude out of the lower end horizontal plane of the processing end, and the first cutting part, the second cutting part and the inner side surface of the lower end of the processing end are filled through the closed plate group;

the first cutting part is arranged outside the second cutting part and comprises first cutting wheels, first driving motors, first driving air cylinders, limiting rod bodies and fixed sleeves, wherein the first cutting wheels are symmetrically arranged, each first cutting wheel is driven to rotate through one first driving motor, the limiting rod bodies are fixed on the side faces of the two first driving motors, the fixed sleeves are sleeved outside the two limiting rod bodies, the two first driving motors are driven to lift through one first driving air cylinder respectively, and the two first driving air cylinders are arranged in the processing end through second fixing plates;

the second cutting part comprises second cutting wheels, connecting rods and second driving cylinders, the second cutting wheels are symmetrically arranged, each second cutting wheel is driven to rotate through a driving mechanism, the two second cutting wheels are connected through the connecting rods, and an output shaft of each second driving cylinder is connected with the middle of each connecting rod.

A preferred technical scheme is as follows: each driving mechanism comprises a meshing fluted disc and a second driving motor, the meshing fluted disc is arranged on an output shaft of the second driving motor, the two second driving motors are fixed through a first fixing plate, the first fixing plate is positioned above the connecting rod, a second driving cylinder penetrates through the first fixing plate from top to bottom, and the second driving cylinder is arranged in the processing end through the second fixing plate;

and a plurality of meshing teeth are annularly arranged on one side of each second cutting wheel, which is close to the adjacent meshing tooth disc, and the meshing tooth disc is meshed with the meshing teeth.

A preferred technical scheme is as follows: two sides of the second driving cylinder are respectively provided with a chute, and the first fixing plate is provided with a corresponding embedded block which is arranged in the chute in a sliding way.

A preferred technical scheme is as follows: the limiting rod body comprises a U-shaped piece and a connecting rod, one end of the U-shaped piece is connected with the first driving motor, the other end of the U-shaped piece is connected with the middle part of the surface of the first cutting wheel through a rotating shaft, a space exists between the U-shaped piece and the first cutting wheel, the connecting rod is arranged on one side, close to the fixed sleeve, of the U-shaped piece, and the fixed sleeve is sleeved outside the two connecting rods.

A preferred technical scheme is as follows: the closed plate group comprises a first baffle plate and a second baffle plate, the first baffle plate is arranged between the two second cutting wheels, and the second baffle plate is respectively arranged between the second cutting wheels and the first cutting wheels and between the first cutting wheels and the inner side surfaces of the processing ends;

the upper surface of the first baffle gradually bulges from two sides to the middle part.

A preferred technical scheme is as follows: the peripheral surface of the second cutting part is provided with a plurality of cutting knives in an array, the directions of all the cutting knives are consistent, and the widths of the left side and the right side of the cutting knives are equal to the widths between the left side edge of the second cutting wheel and the right side edge of the meshing latch;

the middle part of the surface of the second cutting wheel is connected with the connecting rod through a connecting shaft, an annular groove is further formed in the position, close to the connecting shaft, of the surface of the second cutting wheel, and the annular groove extends to the peripheral surface of the second cutting wheel through a plurality of through holes;

the through holes are staggered with the cutting knife.

A preferred technical scheme is as follows: the through hole extends to the peripheral surface of the second cutting wheel in an inclined mode, and the annular groove and the connecting shaft are in the same circle center.

Compared with the background technology, the technical proposal has the following advantages:

the profiling machine of the invention is used for cutting and thinning stone materials only by a single relatively thin cutting blade as in the prior art, and adopts two sets of equipment of a first cutting part and a second cutting part to machine the stone materials, wherein the two sets of equipment of the first cutting part and the second cutting part are not used for providing the selection of cutting tools for the profiling machine, and more are used for providing various machining procedures for the profiling machine of the invention.

The profiling machine cuts and thins the stone through the first cutting wheel or the second cutting wheel, the thickness of the second cutting wheel is thicker than that of the first cutting wheel, so that the second cutting wheel has better compression resistance and stability than those of the first cutting wheel, and the first cutting wheel or the second cutting wheel moves transversely opposite to the direction of longitudinally cutting the stone when the surface of the stone is thinned, so that the situation that the cutting edge is broken when the cutting edge of the stone is too deep or the stone is impacted when the stone is cut and thinned is avoided, the second cutting wheel can be driven to rotate through the driving mechanism when the two sides and the surface of the stone are thinned and cut, the second cutting wheel can process the stone, and the first cutting wheel can be driven to cut the stone through the first driving motor when the length, the equidistant cutting and the like of the stone are required, but the thinning and the processing of the surface of the stone are required to be performed through the second cutting wheel, so that the rapid processing of the stone can be accelerated through the second cutting wheel without the need of the second cutting wheel, and the rapid processing of the broken edge is not required.

According to the invention, one end of the U-shaped piece is connected with the first driving motor, the other end of the U-shaped piece is connected with the middle part of the surface of the first cutting wheel through the rotating shaft, a space exists between the U-shaped piece and the first cutting wheel, the connecting rod is arranged on one side of the U-shaped piece, which is close to the fixed sleeve, the fixed sleeve is sleeved outside the two connecting rods, the outer diameter of the second cutting wheel is identical to that of the first cutting wheel, and the connecting rods in the limiting rod body cannot be impacted when the second cutting wheel is lifted, so that the fixing effect of the limiting rod body on the first cutting wheels on two sides is ensured, and the two first driving cylinders can achieve a synchronous effect when the first driving motor is lifted.

In order to ensure that the second cutting wheel does not deviate or the lifting stability is improved when the output shaft of the second driving cylinder lifts the connecting rod and the second cutting wheels at two sides, two sides of the second driving cylinder are respectively provided with a chute, the first fixing plate is provided with a corresponding embedded block, the embedded block is arranged in the chute in a sliding way, and after the embedded block is arranged in the chute, the first fixing plate can be prevented from deviating through the limiting relation between the embedded block and the chute when the output shaft of the second driving cylinder stretches and contracts.

In the invention, in order to throw out the cooling liquid, water, dust and the like outwards by the centrifugal force when the second cutting wheel rotates and throw out the cooling liquid, the water, the dust and the like when the second cutting wheel cuts the stone or thins the stone surface, the through holes and the connecting shaft are arranged, so that the substances are not only guided, but also the substances are blocked, and the probability of adhering to the surface or the periphery of the connecting shaft is reduced.

Drawings

The invention is further described below with reference to the drawings and examples.

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is an exploded view of the processing end.

Fig. 3 is a schematic view of the first cutting portion, the closing plate set, and the second fixing plate.

Fig. 4 is a schematic front view of fig. 3.

Fig. 5 is an exploded view of fig. 3.

Fig. 6 is a schematic perspective view of a second cutting wheel.

In the figure: the machining end 1, the first cutting part 11, the first cutting wheel 111, the first driving motor 112, the first driving cylinder 113, the limiting rod body 114, the fixed sleeve 115, the second cutting part 12, the second cutting wheel 121, the meshing teeth 211, the cutting knife 212, the annular groove 213, the through hole 214, the connecting shaft 215, the meshing fluted disc 122, the second driving motor 123, the connecting rod 124, the supporting rotating rod 241, the second driving cylinder 125, the sliding groove 251, the first fixed plate 126, the insert 261, the closing plate group 13, the first baffle 131, the second baffle 132 and the second fixed plate 14.

Detailed Description

As shown in fig. 1-6, a high-efficiency numerically controlled profiling machine includes a machining end 1, where a first cutting part 11, a second cutting part 12, a closed board set 13 and a second fixed board 14 are disposed in the machining end 1, where the first cutting part 11 and the second cutting part 12 are installed in the machining end 1 through the second fixed board 14, and the first cutting part 11 and the second cutting part 12 protrude from the lower end horizontal plane of the machining end 1, and the space between the first cutting part 11, the second cutting part 12 and the inner side surface of the lower end of the machining end 1 is filled with the closed board set 13, which can be understood that the profiling machine in the present invention is not only to cut and thin stone by only a single thin cutting blade in the prior art, but to use two sets of equipment of the first cutting part 11 and the second cutting part 12 to machine stone, where the two sets of equipment of the first cutting part 11 and the second cutting part 12 are not merely providing choices for cutting tools in the present invention, but more providing a more detailed profiling process for the profiling machine in the present invention:

the first cutting part 11 is arranged outside the second cutting part 12, the first cutting part 11 comprises first cutting wheels 111, first driving motors 112, first driving air cylinders 113, limiting rod bodies 114 and fixed sleeves 115, the first cutting wheels 111 are symmetrically arranged, each first cutting wheel 111 is driven to rotate by one first driving motor 112, the limiting rod bodies 114 are fixed on the side faces of the two first driving motors 112, the fixed sleeves 115 are sleeved outside the two limiting rod bodies 114, the two first driving motors 112 are driven to lift by one first driving air cylinder 113, and the two first driving air cylinders 113 are arranged in the processing end 1 by the second fixing plates 14;

the second cutting part 12 includes second cutting wheels 121, a connecting rod 124, and a second driving cylinder 125, where the second cutting wheels 121 are symmetrically arranged, each second cutting wheel 121 is driven to rotate by a driving mechanism, the two second cutting wheels 121 are connected by the connecting rod 124, and an output shaft of the second driving cylinder 125 is connected with the middle part of the connecting rod 124;

as can be seen from the figure, the profiling machine in the invention cuts and thins the stone through the first cutting wheel 111 or the second cutting wheel 121, the thickness of the second cutting wheel 121 is thicker than that of the first cutting wheel 111, so that the second cutting wheel 121 has better compression resistance and stability than those of the first cutting wheel 111, when the stone surface is thinned, the moving direction of the first cutting wheel 111 or the second cutting wheel 121 is opposite to that of the stone in the longitudinal direction, so that the first cutting wheel 111 or the second cutting wheel 121 can be driven to transversely move, in order to avoid the situation that the stone surface is damaged due to the fact that the cutting amount of the stone is too deep or the stone is impacted to the hard stone during cutting and thinning, the second cutting wheel 121 can be driven to rotate through the driving mechanism when the two sides and the surface of the stone are thinned, the second cutting wheel 121 can be processed, and when the stone is cut off and equidistant, the stone is required to be cut off, the first cutting wheel 111 can be driven to cut off the stone through the first driving motor 112, and the stone surface can be cut off the stone through the second cutting wheel 121, and the second cutting wheel 121 can be processed in a quick manner, and the broken stone surface is not damaged due to the fact that the second cutting wheel 121 is required to the second cutting wheel is required to be thinned, and the first cutting wheel and the second cutting wheel 121 to be processed;

meanwhile, it should be explained that when stone is cut by the first cutting wheel 111, the second cutting wheel 121 needs to be lifted by the lifting second driving cylinder 125, so that the second cutting wheel 121 is placed in the processing end 1, whereas when the second cutting wheel 121 is used for cutting stone, the first cutting wheel 111 is lifted by the first driving cylinder 113, and as shown in the figure, the limiting rod 114 comprises a U-shaped piece and a connecting rod, one end of the U-shaped piece is connected with the first driving motor 112, the other end is connected with the middle part of the surface of the first cutting wheel 111 by a rotating shaft, a space exists between the U-shaped piece and the first cutting wheel 111, the connecting rod is arranged on one side of the U-shaped piece close to the fixed sleeve 115, the fixed sleeve 115 is sleeved outside the two connecting rods, and the outer diameter of the second cutting wheel 121 is the same as that of the first cutting wheel 111, and the connecting rod body 114 is not impacted by the connecting rod body 114 when the second cutting wheel 121 is lifted, so that the fixing effect of the limiting rod body 114 on the first cutting wheel 111 on two sides is ensured, and the two first driving cylinders 113 can achieve synchronous lifting effect when the first driving cylinder 112.

Further, each driving mechanism comprises a meshing fluted disc 122 and a second driving motor 123, wherein the meshing fluted disc 122 is installed on an output shaft of the second driving motor 123, the connecting rod 124 is respectively connected with the two meshing fluted discs 122 in a rotating way through two supporting rotating rods 241, the two second driving motors 123 are fixed through a first fixing plate 126, the first fixing plate 126 is positioned above the connecting rod 124, the second driving air cylinder 125 penetrates through the first fixing plate 126 from top to bottom, and the second driving air cylinder 125 is installed in the processing end 1 through the second fixing plate 14;

the second cutting wheels 121 are provided with a plurality of engaging teeth 211 near one side of the adjacent engaging tooth disc 122 in an annular array, the engaging tooth disc 122 is engaged with the engaging teeth 211, and when in use, the engaging tooth disc 122 is driven to rotate by the output shaft of the second driving motor 123, so that the engaging tooth disc 122 is engaged with the engaging teeth 211 to drive the second cutting wheels 121 to rotate, and then the stone is processed by the second cutting wheels 121.

Further, in order to ensure that the second cutting wheel 121 does not deviate or raise the stability of lifting when the output shaft of the second driving cylinder 125 lifts the connecting rod 124 and the second cutting wheels 121 on both sides, the two sides of the second driving cylinder 125 in the present invention are respectively provided with a sliding slot 251, and the first fixing plate 126 is provided with a corresponding insert 261, the insert 261 is slidably disposed in the sliding slot 251, and after the arrangement, the deviation of the first fixing plate 126 can be avoided by the limit relationship between the insert 261 and the sliding slot 251 when the output shaft of the second driving cylinder 125 stretches and contracts.

Still further, the closing plate set 13 includes a first baffle 131 and a second baffle 132, where the first baffle 131 is disposed between the two second cutting wheels 121, and the second baffle 132 is disposed between the second cutting wheels 121 and the first cutting wheels 111 and between the first cutting wheels 111 and the inner side of the processing end 1, and the upper surface of the first baffle 131 gradually bulges from two sides to the middle, and the first baffle 131 and the second baffle 132 mainly act to mask splashes generated when cutting stone, and the existing profiling machine sprays cooling liquid and water to prevent dust from diffusing when cutting and thinning, and when the liquid splashes into the processing end 1, the water flow and dust discharge can be guided through the bulges on the surface of the first baffle 131.

Further, the peripheral surface of the second cutting portion 12 is provided with a plurality of cutting knives 212, all the cutting knives 212 are oriented uniformly, and the width of the left and right sides of the cutting knives 212 is equal to the width between the left side edge of the second cutting wheel 121 and the right side edge of the engagement latch 211; the middle part of the surface of the second cutting wheel 121 is connected with the connecting rod 124 through a connecting shaft 215, and an annular groove 213 is further arranged on the surface of the second cutting wheel 121 near the connecting shaft 215, and the annular groove 213 extends to the peripheral surface of the second cutting wheel 121 through a plurality of through holes 214; the through holes 214 are staggered with the cutting knife 212, so that when the second cutting wheel 121 cuts stone or thins the stone surface, the cooling liquid, water, dust and the like can be thrown outwards by the centrifugal force generated when the second cutting wheel 121 rotates and can also be thrown outwards by the through holes 214, and the through holes 214 and the connecting shaft 215 are arranged not only to guide the substances, but also to form interception, so that the probability that the substances adhere to the surface or the periphery of the connecting shaft 215 is reduced.

The through hole 214 extends obliquely to the peripheral surface of the second cutter wheel 121, and the annular groove 213 is concentric with the connecting shaft 215.

The foregoing description is only illustrative of the preferred embodiments of the present invention, and therefore should not be taken as limiting the scope of the invention, for all changes and modifications that come within the meaning and range of equivalency of the claims and specification are therefore intended to be embraced therein.

Claims

1. The high-efficiency numerical control profiling machine is characterized by comprising a machining end (1), wherein a first cutting part (11), a second cutting part (12), a closed plate group (13) and a second fixing plate (14) are arranged in the machining end (1), the first cutting part (11) and the second cutting part (12) are all arranged in the machining end (1) through the second fixing plate (14), the first cutting part (11) and the second cutting part (12) are all protruded out of the horizontal plane of the lower end of the machining end (1), and the space between the first cutting part (11), the second cutting part (12) and the inner side surface of the lower end of the machining end (1) is filled through the closed plate group (13);

the first cutting part (11) is arranged outside the second cutting part (12), the first cutting part (11) comprises first cutting wheels (111), first driving motors (112), first driving air cylinders (113), limiting rod bodies (114) and fixed sleeves (115), the first cutting wheels (111) are symmetrically arranged, each first cutting wheel (111) is driven to rotate through one first driving motor (112), the limiting rod bodies (114) are fixed on the side faces of the two first driving motors (112), the fixed sleeves (115) are sleeved outside the two limiting rod bodies (114), the two first driving motors (112) are driven to ascend and descend through one first driving air cylinder (113), and the two first driving air cylinders (113) are arranged in the processing end (1) through the second fixed plates (14);

the second cutting part (12) comprises second cutting wheels (121), connecting rods (124) and second driving air cylinders (125), the second cutting wheels (121) are symmetrically arranged, each second cutting wheel (121) is driven to rotate through a driving mechanism, the two second cutting wheels (121) are connected through the connecting rods (124), and an output shaft of each second driving air cylinder (125) is connected with the middle of each connecting rod (124).

2. The efficient numerical control profiling machine according to claim 1, wherein each driving mechanism comprises a meshing fluted disc (122) and a second driving motor (123), the meshing fluted disc (122) is installed on an output shaft of the second driving motor (123), the two second driving motors (123) are fixed through a first fixing plate (126), the first fixing plate (126) is located above the connecting rod (124), the second driving air cylinder (125) penetrates through the first fixing plate (126) from top to bottom, and the second driving air cylinder (125) is installed in the processing end (1) through the second fixing plate (14);

each second cutting wheel (121) is provided with a plurality of meshing teeth (211) in an annular array near one side of the meshing tooth disc (122) adjacent to the second cutting wheel, and the meshing tooth disc (122) is meshed with the meshing teeth (211).

3. The efficient numerically controlled profiling machine according to claim 2, wherein two sides of the second driving cylinder (125) are respectively provided with a chute (251), and the first fixing plate (126) is provided with a corresponding insert (261), and the insert (261) is slidably arranged in the chute (251).

4. The efficient numerical control profiling machine according to claim 1, wherein the limiting rod body (114) comprises a U-shaped piece and a connecting rod, one end of the U-shaped piece is connected with the first driving motor (112), the other end of the U-shaped piece is connected with the middle of the surface of the first cutting wheel (111) through a rotating shaft, a space exists between the U-shaped piece and the first cutting wheel (111), the connecting rod is arranged on one side, close to the fixed sleeve (115), of the U-shaped piece, and the fixed sleeve (115) is sleeved outside the two connecting rods.

5. The efficient numerical control profiling machine according to claim 4, wherein the closing plate set (13) comprises a first baffle (131) and a second baffle (132), the first baffle (131) is arranged between two second cutting wheels (121), and the second baffle (132) is respectively arranged between the second cutting wheels (121) and the first cutting wheels (111) and between the first cutting wheels (111) and the inner side surface of the machining end (1);

the upper surface of the first baffle plate (131) gradually bulges from two sides to the middle part.

6. The efficient numerical control copying machine according to any one of claims 1 to 5, wherein a plurality of cutting knives (212) are arranged on the peripheral surface of the second cutting part (12), the directions of all the cutting knives (212) are consistent, and the widths of the left side and the right side of the cutting knives (212) are equal to the width between the left side edge of the second cutting wheel (121) and the right side edge of the meshing latch (211);

the middle part of the surface of the second cutting wheel (121) is connected with the connecting rod (124) through a connecting shaft (215), an annular groove (213) is further formed in the position, close to the connecting shaft (215), of the surface of the second cutting wheel (121), and the annular groove (213) extends to the peripheral surface of the second cutting wheel (121) through a plurality of through holes (214);

the through holes (214) are arranged with the cutting knife (212) staggered.

7. The efficient numerical control profiling machine according to claim 6, wherein the through hole (214) extends obliquely to the peripheral surface of the second cutting wheel (121), and the annular groove (213) and the connecting shaft (215) are concentric.