CN108275873B

CN108275873B - Adjustable circular glass cutting device

Info

Publication number: CN108275873B
Application number: CN201810091656.7A
Authority: CN
Inventors: 章雪霞
Original assignee: Individual
Current assignee: Taizhou Qianshun Technology Co ltd
Priority date: 2018-01-30
Filing date: 2018-01-30
Publication date: 2020-06-26
Anticipated expiration: 2038-01-30
Also published as: CN108275873A

Abstract

The invention relates to the field of glass cutting, in particular to an adjustable circular glass cutting device which comprises a base, a longitudinal adjusting movement device, a transverse adjusting movement device, a glass cutter structure and two fixed inserting plates, wherein the longitudinal adjusting movement device is fixedly connected to the base and is meshed with the transverse adjusting movement device through a gear; the invention has the advantages that the diameter of the cut round glass can be adjusted according to the actual requirement, the adjustment can be carried out in the working process, the operation is simple and rapid, the automation can be realized, and the cutting device can be used for cutting on a production line.

Description

Adjustable circular glass cutting device

Technical Field

The invention relates to the field of glass cutting, in particular to an adjustable circular glass cutting device.

Background

A circular glass cutting apparatus is an apparatus for cutting a glass sheet into a prescribed circular shape. Patent number CN201510508866.8 discloses a circular glass-cutting device of radius adjustable, its characterized in that: the cutting device comprises a bottom plate (1), wherein a supporting rod (6) protruding horizontally is arranged on the side wall of a second sliding block (5), a rotating rod (7) is vertically arranged on the lower surface of the supporting rod (6), a rotating sleeve (8) is sleeved outside the rotating rod (7), a fixing rod (9) protruding horizontally is arranged on the side wall of the rotating sleeve (8), a plurality of vertical through holes (11) used for penetrating through a cutting knife (10) are uniformly distributed on the fixing rod (9), and fixing devices (12) are arranged on the fixing rod (9) and at positions corresponding to the vertical through holes (11); the horizontal distance between the rotating rod (7) and the second sliding block (5) is greater than the length of the fixed rod (9). The radius-adjustable circular glass cutting device provided by the invention has the advantages of strong universality, adjustable cutting radius and obvious beneficial effect. However, this device cannot be automated and cannot perform batch cutting.

Disclosure of Invention

The invention aims to provide an adjustable circular glass cutting device which has the advantages that the diameter of the circular glass can be adjusted according to the actual requirements, the circular glass can be adjusted in the working process, the operation is simple and rapid, the automation can be realized, and the device can be used for cutting on a production line.

The purpose of the invention is realized by the following technical scheme:

the invention aims to provide an adjustable circular glass cutting device which comprises a base, a longitudinal adjusting and moving device, a transverse adjusting and moving device, a glass cutter structure and two fixed inserting plates, wherein the longitudinal adjusting and moving device is fixedly connected to the base, the longitudinal adjusting and moving device is meshed with the transverse adjusting and moving device through a gear, the transverse adjusting and moving device is fixedly connected to the left end of the base, the longitudinal adjusting and moving device is fixedly connected to the front end of the glass cutter structure, the transverse adjusting and moving device is fixedly connected to the left end of the glass cutter structure, the two fixed inserting plates are respectively inserted into the front end and the left end of the base, and the fixed inserting plates are respectively meshed with the longitudinal adjusting and moving device and the transverse adjusting and moving device.

As a further optimization of the invention, the base comprises a vertical plate, a horizontal plate, a vertical plate transverse sliding groove, a horizontal plate transverse sliding groove, a main shaft through hole, a driven shaft through hole, a vertical adjusting shaft hole, a transverse adjusting hole, a vertical inserting plate inserting groove and a transverse inserting plate inserting groove, wherein the horizontal plate is fixedly connected to the left end of the vertical plate, the main shaft through hole, the driven shaft through hole and the vertical adjusting shaft hole are all arranged on the vertical plate, the vertical inserting plate inserting groove is arranged at the front end of the vertical plate, the horizontal plate transverse sliding groove and the transverse adjusting hole are all arranged on the horizontal plate, and the transverse inserting plate inserting groove. .

As a further optimization of the invention, the longitudinal adjusting movement device comprises a motor, a main belt pulley, a rotating rod, a rotating cylinder, a swinging rod, a vertical sliding block, a hinge block, a rectangular through groove, a fixed block, a driven belt pulley, a driven shaft, a main bevel gear, an adjusting rack, an adjusting gear, an adjusting shaft, a driven gear, a hand gear, a gear rotating shaft and a twisting shaft, wherein the motor is fixedly connected to a vertical plate, the main belt pulley is fixedly connected to a transmission shaft of the motor, the transmission shaft of the motor is rotatably connected in a through hole of the main shaft, the rotating rod is fixedly connected to the transmission shaft of the motor, the swinging rod is provided with a long sliding groove, the rotating cylinder is slidably connected to the long sliding groove of the swinging rod, the vertical sliding block is provided with two vertical sliding blocks, the two vertical sliding blocks are slidably connected to the horizontal sliding groove of the, the lower extreme fixed connection regulation rack of articulated piece, the rectangle leads to the groove setting on the fixed block, fixed block fixed connection is on the riser, regulation rack sliding connection is in the groove is led to the rectangle, regulation rack meshes with adjusting gear mutually, adjusting gear fixed connection is on the regulating spindle, the regulating spindle rotates to be connected in rectangle leads to groove and fixed block, driven gear fixed connection is on the regulating spindle, driven gear meshes with hand gear mutually, hand gear fixed connection is in the gear shaft, the gear shaft rotates to be connected on the riser, twist a fixed connection in the gear shaft, the main belt pulley passes through the belt and connects from the belt pulley, from the one end of belt pulley fixed connection at the driven shaft, main bevel gear fixed connection is in the one end of driven shaft, the driven shaft rotates to be.

As a further optimization of the invention, the transverse adjusting motion device comprises a driven bevel gear, a driven rotating shaft, a transverse adjusting rotating rod, a transverse adjusting rotating cylinder, a transverse adjusting swinging rod, a transverse adjusting sliding block, a transverse adjusting hinging block, a transverse adjusting rectangular through groove, a transverse adjusting fixing block, a transverse adjusting rack, a transverse adjusting gear, a transverse adjusting shaft, a transverse adjusting driven gear, a transverse adjusting hand gear, a transverse adjusting twisting shaft and a transverse adjusting gear rotating shaft, wherein the driven bevel gear is meshed with the main bevel gear, the driven bevel gear is fixedly connected to the driven rotating shaft, the driven rotating shaft is rotatably connected to a transverse plate, the transverse adjusting rotating rod is fixedly connected to the driven rotating shaft, the transverse adjusting rotating cylinder is fixedly connected to the transverse adjusting rotating rod, the transverse adjusting swinging rod is provided with a sliding groove I, the transverse adjusting rotating cylinder is slidably connected to the sliding groove I of the transverse adjusting swinging rod, the transverse adjusting sliding blocks are provided with two transverse adjusting sliding blocks which are slidably connected to the transverse sliding groove of, the horizontal adjustment swing rod is connected between the two horizontal adjustment sliding blocks in a sliding mode, the upper end of the horizontal adjustment swing rod is hinged with the horizontal adjustment hinging block, the horizontal adjustment rectangular through groove is formed in the horizontal adjustment fixing block, the horizontal adjustment fixing block is fixedly connected to the horizontal plate, the upper end of the horizontal adjustment hinging block is fixedly connected with the horizontal adjustment rack, the horizontal adjustment rack is connected in the horizontal adjustment rectangular through groove in a sliding mode, the horizontal adjustment rack is meshed with the horizontal adjustment gear, the horizontal adjustment gear is fixedly connected to the horizontal adjustment adjusting shaft, the horizontal adjustment adjusting shaft is rotatably connected to the horizontal adjustment rectangular through groove and the horizontal adjustment fixing block, the horizontal adjustment adjusting shaft is rotatably connected into the horizontal adjustment hole, the horizontal adjustment driven gear is fixedly connected to the horizontal adjustment adjusting shaft, the horizontal adjustment driven gear is meshed with the horizontal adjustment hand gear, the horizontal adjustment twisting shaft is fixedly connected to the horizontal adjustment hand gear, the horizontal adjustment hand gear is fixedly connected to the horizontal adjustment gear rotating shaft, and the horizontal adjustment gear rotating.

As a further optimization of the glass cutter structure, the glass cutter structure comprises a vertical sliding plate, a vertical adjusting block, a vertical adjusting groove, a transverse sliding plate, a transverse adjusting block, a transverse adjusting groove, a glass cutter, an upper sliding block and a lower sliding block, wherein the front end of the vertical sliding plate is fixedly connected with the two vertical sliding blocks, the vertical adjusting block is fixedly connected to the vertical sliding plate, the vertical adjusting groove is arranged on the vertical adjusting block, a vertical slide way is arranged in the vertical adjusting groove, the left end of the transverse sliding plate is fixedly connected with the two transverse adjusting sliding blocks, the transverse adjusting block is fixedly connected to the transverse sliding plate, the transverse adjusting groove is arranged on the transverse adjusting block, a transverse slide way is arranged in the transverse adjusting groove, the upper sliding block and the lower sliding block are fixedly connected to the glass cutter, and the upper sliding block and the lower sliding block are.

As a further optimization of the invention, the number of the fixed plugboards is two, the fixed plugboards comprise tooth-shaped plugboards and hand-pulling rings, the hand-pulling rings are fixedly connected to the tooth-shaped plugboards, the two fixed plugboards are respectively in clearance fit with the vertical plugboard slots and the horizontal plugboard slots, and the driven gear, the hand-operated gear, the horizontal adjustment driven gear and the horizontal adjustment hand-operated gear can be meshed with the tooth-shaped plugboards.

Compared with the prior art, the technical scheme provided by the invention has the beneficial effects that the diameter of the cut round glass can be adjusted according to the practical requirement, the adjustment can be carried out in the working process, the operation is simple and rapid, the automation can be realized, and the cutting device can be used for cutting on a production line.

Drawings

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a third schematic view of the overall structure of the present invention;

FIG. 4 is a first schematic structural diagram of a base according to the present invention;

FIG. 5 is a second schematic structural view of the base of the present invention;

FIG. 6 is a schematic view of the longitudinal adjustment exercise device of the present invention;

FIG. 7 is a second schematic structural view of the longitudinal adjustment exercise device of the present invention;

FIG. 8 is a schematic view of the first embodiment of the lateral adjustment exercise device of the present invention;

FIG. 9 is a second schematic structural view of the lateral adjustment exercise device of the present invention;

FIG. 10 is a schematic structural view of the glass cutter structure of the present invention;

fig. 11 is a schematic structural view of the fixed board 5 of the present invention.

In the figure: a base 1; a vertical plate 1-1; a transverse plate 1-2; a vertical plate horizontal sliding groove 1-3; transverse plate transverse chutes 1-4; a main shaft through hole 1-5; shaft through holes 1-6; 1-7 of a vertical adjusting shaft hole; 1-8 transverse adjusting holes; vertical plug board slots 1-9; 1-10 of a horizontal flashboard slot; a longitudinal adjustment movement device 2; a motor 2-1; a primary pulley 2-2; rotating the rod 2-3; rotating the cylinder 2-4; 2-5 of a swing rod; 2-6 of vertical sliding blocks; hinge blocks 2-7; 2-8 rectangular through grooves; 2-9 parts of a fixed block; 2-10 of the secondary pulley; driven shafts 2-11; 2-12 parts of a main bevel gear; adjusting the racks 2-13; adjusting gears 2-14; 2-15 parts of an adjusting shaft; driven gears 2-16; 2-17 parts of a hand gear; 2-18 of gear rotating shaft; screwing the shaft 2-19; a lateral adjustment movement device 3; a driven bevel gear 3-1; a driven rotating shaft 3-2; transversely adjusting a rotating rod 3-3; transversely adjusting the rotating cylinder 3-4; transversely adjusting the swing rod 3-5; 3-6 of a horizontal adjusting sliding block; horizontal adjusting hinged blocks 3-7; transversely adjusting rectangular through grooves 3-8; 3-9 parts of transverse adjusting fixed blocks; 3-10 parts of a horizontal adjusting rack; 3-11 parts of a horizontal adjusting gear; 3-12 of a horizontal adjusting shaft; transversely adjusting the driven gear 3-13; transversely adjusting the hand-operated gear 3-14; transversely adjusting the twisting shaft by 3-15; transversely adjusting a gear rotating shaft by 3-16; a glass cutter structure 4; a vertical sliding plate 4-1; 4-2 of a vertical adjusting block; 4-3 of a vertical adjusting groove; 4-4 of a transverse sliding plate; 4-5 of a transverse adjusting block; 4-6 of a transverse adjusting groove; 4-7 parts of a glass cutter; 4-8 parts of an upper sliding block; 4-9 parts of a lower sliding block; a fixed inserting plate 5; 5-1 of a tooth-shaped inserting plate; 5-2 of a hand ring.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in fig. 1 to 11, an adjustable circular glass cutting device comprises a base 1, a longitudinal adjusting movement device 2, a transverse adjusting movement device 3, a glass cutter structure 4 and two fixed insertion plates 5, wherein the longitudinal adjusting movement device 2 is fixedly connected to the base 1, the longitudinal adjusting movement device 2 is engaged with the transverse adjusting movement device 3 through a gear, the transverse adjusting movement device 3 is fixedly connected to the left end of the base 1, the front end of the glass cutter structure 4 is fixedly connected with the longitudinal adjusting movement device 2, the left end of the glass cutter structure 4 is fixedly connected with the transverse adjusting movement device 3, the two fixed insertion plates 5 are arranged, the two fixed insertion plates 5 are respectively inserted into the front end and the left end of the base 1, and the fixed insertion plates 5 are respectively engaged with the longitudinal adjusting movement device 2 and the transverse adjusting movement device 3. The glass cutter structure 4 can simultaneously swing transversely and longitudinally through the longitudinal adjusting movement device 2 and the transverse adjusting movement device 3, and further the glass cutter structure 4 can do curvilinear circular motion on the glass 6 to be cut, because the structures and specifications of connecting rods, gears, belt pulleys and racks of the longitudinal adjusting movement device 2 and the transverse adjusting movement device 3 are selected to be the same, the transmission ratio and the output swing amplitude and frequency are also the same, the adjusting amounts of the longitudinal adjusting movement device 2 and the transverse adjusting movement device 3 are consistent, the cut circle is more standard, the fixing inserting plate 5 is a device for fixing and protecting the longitudinal adjusting movement device 2 and the transverse adjusting movement device 3, the base 1 is fixed on the glass plate fixing and conveying device 7, and the automatic batch production of round glass can be realized.

The second embodiment is as follows:

as shown in FIGS. 1 to 11, the first embodiment is further explained in the present embodiment, the base 1 includes a vertical plate 1-1, a horizontal plate 1-2, a vertical plate horizontal chute 1-3, a horizontal plate horizontal chute 1-4, a main shaft through hole 1-5, a driven shaft through hole 1-6, a vertical adjusting shaft hole 1-7, a horizontal adjusting hole 1-8, a vertical inserting plate slot 1-9 and a horizontal inserting plate slot 1-10, the horizontal plate 1-2 is fixedly connected to the left end of the vertical plate 1-1, the main shaft through hole 1-5, the driven shaft through hole 1-6 and the vertical adjusting shaft hole 1-7 are all disposed on the vertical plate 1-1, the vertical inserting plate slot 1-9 is disposed at the front end of the vertical plate 1-1, the horizontal plate horizontal chute 1-4 and the horizontal adjusting hole 1-8 are all disposed on the horizontal plate 1-2, the transverse inserting plate slot 1-10 is arranged at the left end of the transverse plate 1-2.

The third concrete implementation mode:

as shown in fig. 1 to 11, the second embodiment is further described in the present embodiment, the longitudinal adjustment movement device 2 includes a motor 2-1, a main belt pulley 2-2, a rotation rod 2-3, a rotation cylinder 2-4, a swing rod 2-5, a vertical sliding block 2-6, a hinge block 2-7, a rectangular through groove 2-8, a fixed block 2-9, a secondary belt pulley 2-10, a driven shaft 2-11, a main bevel gear 2-12, an adjustment rack 2-13, an adjustment gear 2-14, an adjustment shaft 2-15, a driven gear 2-16, a hand gear 2-17, a gear rotation shaft 2-18 and a screw shaft 2-19, the motor 2-1 is fixedly connected to a vertical plate 1-1, the main belt pulley 2-2 is fixedly connected to a transmission shaft of the motor 2-1, a transmission shaft of a motor 2-1 is rotatably connected in a main shaft through hole 1-5, a rotating rod 2-3 is fixedly connected on the transmission shaft of the motor 2-1, a long sliding groove is arranged on a swinging rod 2-5, a rotating cylinder 2-4 is slidably connected in the long sliding groove of the swinging rod 2-5, two vertical sliding blocks 2-6 are arranged, two vertical sliding blocks 2-6 are both slidably connected in a vertical plate transverse sliding groove 1-3, the swinging rod 2-5 is slidably connected between the two vertical sliding blocks 2-6, the lower end of the swinging rod 2-5 is hinged with a hinge block 2-7, the lower end of the hinge block 2-7 is fixedly connected with an adjusting rack 2-13, a rectangular through groove 2-8 is arranged on a fixed block 2-9, and the fixed block 2-9 is fixedly connected on a vertical plate 1, an adjusting rack 2-13 is connected in a rectangular through groove 2-8 in a sliding manner, an adjusting rack 2-13 is meshed with an adjusting gear 2-14, the adjusting gear 2-14 is fixedly connected on an adjusting shaft 2-15, the adjusting shaft 2-15 is connected in the rectangular through groove 2-8 and a fixed block 2-9 in a rotating manner, a driven gear 2-16 is fixedly connected on the adjusting shaft 2-15, a driven gear 2-16 is meshed with a hand gear 2-17, the hand gear 2-17 is fixedly connected on a gear rotating shaft 2-18, the gear rotating shaft 2-18 is connected on a vertical plate 1-1 in a rotating manner, a screwing shaft 2-19 is fixedly connected on the gear rotating shaft 2-18, a main belt pulley 2-2 is connected with a secondary belt pulley 2-10 through a belt, and the secondary belt pulley 2-10 is fixedly connected at one end of a driven, the main bevel gear 2-12 is fixedly connected with one end of the driven shaft 2-11, and the driven shaft 2-11 is rotatably connected in the driven shaft through hole 1-6. The rotary connection is realized by connecting the shaft in the bearing through the shaft, rotating the bearing in a bearing hole through the bearing and realizing axial fixation through a retainer ring for the hole.

The fourth concrete implementation mode:

as shown in fig. 1 to 11, in this embodiment, the third embodiment is further described, the lateral adjustment movement device 3 includes a driven bevel gear 3-1, a driven rotating shaft 3-2, a lateral adjustment rotating rod 3-3, a lateral adjustment rotating cylinder 3-4, a lateral adjustment swinging rod 3-5, a lateral adjustment sliding block 3-6, a lateral adjustment hinge block 3-7, a lateral adjustment rectangular through groove 3-8, a lateral adjustment fixing block 3-9, a lateral adjustment rack 3-10, a lateral adjustment gear 3-11, a lateral adjustment shaft 3-12, a lateral adjustment driven gear 3-13, a lateral adjustment hand gear 3-14, a lateral adjustment screw shaft 3-15 and a lateral adjustment gear rotating shaft 3-16, the driven bevel gear 3-1 is engaged with the main bevel gear 2-12, the driven bevel gear 3-1 is fixedly connected to the driven rotating shaft 3-2, the driven rotating shaft 3-2 is rotatably connected to the transverse plate 1-2, the transverse adjusting rotating rod 3-3 is fixedly connected to the driven rotating shaft 3-2, the transverse adjusting rotating cylinder 3-4 is fixedly connected to the transverse adjusting rotating rod 3-3, the transverse adjusting swinging rod 3-5 is provided with a sliding chute I, the transverse adjusting rotating cylinder 3-4 is slidably connected in the sliding chute I of the transverse adjusting swinging rod 3-5, the transverse adjusting sliding blocks 3-6 are provided with two, the two transverse adjusting sliding blocks 3-6 are slidably connected in the transverse plate transverse sliding chutes 1-4, the transverse adjusting swinging rod 3-5 is slidably connected between the two transverse adjusting sliding blocks 3-6, the upper end of the transverse adjusting swinging rod 3-5 is hinged with a transverse adjusting hinging block 3-7, the transverse adjusting rectangular through groove 3-8 is arranged on the transverse adjusting fixing block 3-9, and the transverse adjusting fixing block 3-9 is fixedly connected to the transverse plate 1-2, the upper end of a transverse adjusting hinging block 3-7 is fixedly connected with a transverse adjusting rack 3-10, the transverse adjusting rack 3-10 is connected in a transverse adjusting rectangular through groove 3-8 in a sliding manner, the transverse adjusting rack 3-10 is meshed with a transverse adjusting gear 3-11, the transverse adjusting gear 3-11 is fixedly connected on a transverse adjusting shaft 3-12, the transverse adjusting shaft 3-12 is rotatably connected on the transverse adjusting rectangular through groove 3-8 and a transverse adjusting fixed block 3-9, the transverse adjusting shaft 3-12 is rotatably connected in a transverse adjusting hole 1-8, a transverse adjusting driven gear 3-13 is fixedly connected on a transverse adjusting shaft 3-12, a transverse adjusting driven gear 3-13 is meshed with a transverse adjusting hand gear 3-14, a transverse adjusting screwing shaft 3-15 is fixedly connected on a transverse adjusting hand gear 3-14, the transverse adjusting hand gear 3-14 is fixedly connected on a transverse adjusting gear rotating shaft 3-16, the horizontal adjusting gear rotating shaft 3-16 is rotatably connected to the transverse plate 1-2. The rotary connection is realized by connecting the shaft in the bearing through the shaft, rotating the bearing in a bearing hole through the bearing and realizing axial fixation through a retainer ring for the hole.

The fifth concrete implementation mode:

as shown in fig. 1 to 11, the fourth embodiment is further illustrated in the present embodiment, the glass cutter structure 4 includes a vertical sliding plate 4-1, a vertical adjusting block 4-2, a vertical adjusting groove 4-3, a horizontal sliding plate 4-4, a horizontal adjusting block 4-5, a horizontal adjusting groove 4-6, a glass cutter 4-7, an upper sliding block 4-8 and a lower sliding block 4-9, the front end of the vertical sliding plate 4-1 is fixedly connected with two vertical sliding blocks 2-6, the vertical adjusting block 4-2 is fixedly connected to the vertical sliding plate 4-1, the vertical adjusting groove 4-3 is arranged on the vertical adjusting block 4-2, a vertical slideway is arranged in the vertical adjusting groove 4-3, the left end of the horizontal sliding plate 4-4 is fixedly connected with two horizontal adjusting sliding blocks 3-6, the horizontal adjusting block 4-5 is fixedly connected to the horizontal sliding plate 4-4, the transverse adjusting grooves 4-6 are arranged on the transverse adjusting blocks 4-5, transverse slideways are arranged in the transverse adjusting grooves 4-6, the upper sliding blocks 4-8 and the lower sliding blocks 4-9 are fixedly connected to the glass cutters 4-7, and the upper sliding blocks 4-8 and the lower sliding blocks 4-9 are respectively connected in the vertical adjusting grooves 4-3 and the transverse adjusting grooves 4-6 in a sliding mode. The vertical adjusting block 4-2 and the horizontal adjusting block 4-5 are respectively provided with a communicating round hole for mounting and dismounting the upper sliding block 4-8 and the lower sliding block 4-9, and the two communicating round holes are respectively positioned at the extreme positions of the vertical adjusting block 4-2 and the horizontal adjusting block 4-5 to avoid sliding out in movement.

The sixth specific implementation mode:

as shown in fig. 1 to 11, in this embodiment, a fifth embodiment is further described, where two fixed insertion plates 5 are provided, each fixed insertion plate 5 includes a tooth-shaped insertion plate 5-1 and a hand-pulling ring 5-2, the hand-pulling ring 5-2 is fixedly connected to the tooth-shaped insertion plate 5-1, the two fixed insertion plates 5 are respectively in clearance fit with the vertical insertion plate slots 1-9 and the horizontal insertion plate slots 1-10, and the driven gears 2-16, the hand-operated gears 2-17, the horizontal driven gears 3-13, and the horizontal hand-operated gears 3-14 can be engaged with the tooth-shaped insertion plate 5-1. If rotation is required to be prevented, the two fixed inserting plates 5 are respectively inserted into the vertical inserting plate slots 1-9 and the transverse inserting plate slots 1-10, meanwhile, the fixed inserting plates 5 on the vertical plates 1-1 are meshed with the driven gears 2-16 and the hand-operated gears 2-17, the fixed inserting plates 5 on the transverse plates 1-2 are meshed with the transverse adjusting driven gears 3-13 and the transverse adjusting hand-operated gears 3-14, and are pulled out to achieve rotation prevention, and if the rotating fluted discs 2-11 are required to rotate, the two fixed inserting plates 5 are separated from the vertical inserting plate slots 1-9 and the transverse inserting plate slots 1-10.

The working principle of the invention is as follows: the motor 2-1 is connected with electricity to drive the main belt pulley 2-2, the rotating rod 2-3 and the rotating cylinder 2-4 to rotate, the rotating cylinder 2-4 drives the oscillating rod 2-5 to do reciprocating linear motion, the oscillating rod 2-5 drives the two vertical sliding blocks 2-6 to do reciprocating linear motion on the vertical plate transverse sliding groove 1-3, and the two vertical sliding blocks 2-6 drive the vertical sliding plate 4-1 and the vertical adjusting block 4-2 to do reciprocating linear motion; the main belt pulley 2-2 drives the driven belt pulley 2-10, the driven shaft 2-11 and the main bevel gear 2-12 to rotate, the main bevel gear 2-12 drives the driven bevel gear 3-1 to rotate, further drives the driven rotating shaft 3-2, the transverse adjusting rotating rod 3-3 and the transverse adjusting rotating cylinder 3-4 to rotate, the transverse adjusting rotating cylinder 3-4 drives the transverse adjusting rotating rod 3-5 to transversely reciprocate, further drives the transverse adjusting sliding block 3-6 to transversely reciprocate in the transverse sliding groove 1-4, and enables the transverse sliding plate 4-4 and the transverse adjusting block 4-5 to transversely reciprocate linearly; 4-7 parts of a glass cutter; the vertical adjusting block 4-2 drives the upper sliding block 4-8 to do longitudinal reciprocating linear motion in the vertical adjusting groove 4-3, and the horizontal adjusting block 4-5 drives the lower sliding block 4-9 to do horizontal reciprocating linear motion in the horizontal adjusting groove 4-6, so that the glass cutter 4-7 does circular motion; manually rotating the screwing shafts 2-19 to drive the hand gears 2-17, the driven gears 2-16, the adjusting shafts 2-15 and the adjusting gears 2-14 to rotate, so that the adjusting racks 2-13, the hinging blocks 2-7 and the swinging rods 2-5 are vertically displaced, further the swinging angles of the swinging rods 2-5 are adjusted, further the vertical reciprocating displacement of the vertical adjusting blocks 4-2 is adjusted, and the transverse reciprocating displacement of the transverse adjusting blocks 4-5 is adjusted in the same way; because the structures and specifications of the connecting rods, the gears, the belt pulleys and the racks of the longitudinal adjusting movement device 2 and the transverse adjusting movement device 3 are the same, the transmission ratio and the output swing amplitude and frequency are also the same, the adjusting amounts of the longitudinal adjusting movement device 2 and the transverse adjusting movement device 3 are consistent, and the cut round glass is more standard; if rotation is required to be prevented, the two fixed inserting plates 5 are respectively inserted into the vertical inserting plate slots 1-9 and the transverse inserting plate slots 1-10, meanwhile, the fixed inserting plates 5 on the vertical plates 1-1 are meshed with the driven gears 2-16 and the hand-operated gears 2-17, the fixed inserting plates 5 on the transverse plates 1-2 are meshed with the transverse adjusting driven gears 3-13 and the transverse adjusting hand-operated gears 3-14, and are pulled out to achieve rotation prevention, and if the rotating fluted discs 2-11 are required to rotate, the two fixed inserting plates 5 are separated from the vertical inserting plate slots 1-9 and the transverse inserting plate slots 1-10.

The above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions and substitutions which may be made by those skilled in the art within the spirit of the present invention are within the scope of the present invention.

Claims

1. The utility model provides an adjustable circular glass-cutting device, includes base (1), vertical regulation telecontrol equipment (2), horizontal regulation telecontrol equipment (3), glass sword structure (4) and fixed picture peg (5), its characterized in that: the glass cutter is characterized in that the longitudinal adjusting movement device (2) is fixedly connected to the base (1), the longitudinal adjusting movement device (2) is meshed with the transverse adjusting movement device (3) through a gear, the transverse adjusting movement device (3) is fixedly connected to the left end of the base (1), the front end of the glass cutter structure (4) is fixedly connected with the longitudinal adjusting movement device (2), the left end of the glass cutter structure (4) is fixedly connected with the transverse adjusting movement device (3), two fixing insertion plates (5) are arranged, the two fixing insertion plates (5) are respectively inserted into the front end and the left end of the base (1), and the fixing insertion plates (5) are respectively meshed with the longitudinal adjusting movement device (2) and the transverse adjusting movement device (3);

the base (1) comprises a vertical plate (1-1), a horizontal plate (1-2), a vertical plate horizontal chute (1-3), a horizontal plate horizontal chute (1-4), a main shaft through hole (1-5), a driven shaft through hole (1-6), a vertical adjusting shaft hole (1-7), a horizontal adjusting hole (1-8), a vertical inserting plate slot (1-9) and a horizontal inserting plate slot (1-10), wherein the horizontal plate (1-2) is fixedly connected to the left end of the vertical plate (1-1), the vertical plate horizontal chute (1-3), the main shaft through hole (1-5), the driven shaft through hole (1-6) and the vertical adjusting shaft hole (1-7) are all arranged on the vertical plate (1-1), the vertical inserting plate slot (1-9) is arranged at the front end of the vertical plate (1-1), and the horizontal plate chute (1-4) and the horizontal adjusting hole (1-8) are all arranged on the horizontal plate (1-2), the transverse inserting plate slot (1-10) is arranged at the left end of the transverse plate (1-2);

the longitudinal adjusting movement device (2) comprises a motor (2-1), a main belt pulley (2-2), a rotating rod (2-3), a rotating cylinder (2-4), a swinging rod (2-5), a vertical sliding block (2-6), a hinge block (2-7), a rectangular through groove (2-8), a fixed block (2-9), a secondary belt pulley (2-10), a driven shaft (2-11), a main bevel gear (2-12), an adjusting rack (2-13), an adjusting gear (2-14), an adjusting shaft (2-15), a driven gear (2-16), a hand gear (2-17), a gear rotating shaft (2-18) and a twisting shaft (2-19), wherein the motor (2-1) is fixedly connected to the vertical plate (1-1), the main belt pulley (2-2) is fixedly connected on a transmission shaft of the motor (2-1), the transmission shaft of the motor (2-1) is rotatably connected in a main shaft through hole (1-5), the rotating rod (2-3) is fixedly connected on the transmission shaft of the motor (2-1), the oscillating rod (2-5) is provided with a long chute, the rotating cylinder (2-4) is slidably connected in the long chute of the oscillating rod (2-5), the vertical sliding blocks (2-6) are provided with two, the two vertical sliding blocks (2-6) are both slidably connected in the vertical plate transverse chute (1-3), the oscillating rod (2-5) is slidably connected between the two vertical sliding blocks (2-6), the lower end of the oscillating rod (2-5) is hinged with the hinged block (2-7), the lower end of the hinged block (2-7) is fixedly connected with the adjusting rack (2-13), the rectangular through grooves (2-8) are arranged on the fixed blocks (2-9), the fixed blocks (2-9) are fixedly connected on the vertical plates (1-1), the adjusting racks (2-13) are slidably connected on the rectangular through grooves (2-8), the adjusting racks (2-13) are meshed with the adjusting gears (2-14), the adjusting gears (2-14) are fixedly connected on the adjusting shafts (2-15), the adjusting shafts (2-15) are rotatably connected in the rectangular through grooves (2-8) and the fixed blocks (2-9), the driven gears (2-16) are fixedly connected on the adjusting shafts (2-15), the driven gears (2-16) are meshed with the hand-operated gears (2-17), the hand-operated gears (2-17) are fixedly connected on the gear rotating shafts (2-18), the gear rotating shaft (2-18) is rotatably connected to the vertical plate (1-1), the twisting shaft (2-19) is fixedly connected to the gear rotating shaft (2-18), the main belt pulley (2-2) is connected with the auxiliary belt pulley (2-10) through a belt, the auxiliary belt pulley (2-10) is fixedly connected to one end of the driven shaft (2-11), the main bevel gear (2-12) is fixedly connected to the other end of the driven shaft (2-11), and the driven shaft (2-11) is rotatably connected in the driven shaft through hole (1-6);

the transverse adjusting motion device (3) comprises a driven bevel gear (3-1), a driven rotating shaft (3-2), a transverse adjusting rotating rod (3-3), a transverse adjusting rotating cylinder (3-4), a transverse adjusting swinging rod (3-5), a transverse adjusting sliding block (3-6), a transverse adjusting hinging block (3-7), a transverse adjusting rectangular through groove (3-8), a transverse adjusting fixing block (3-9), a transverse adjusting rack (3-10), a transverse adjusting gear (3-11), a transverse adjusting shaft (3-12), a transverse adjusting driven gear (3-13), a transverse adjusting hand rocking gear (3-14), a transverse adjusting twisting shaft (3-15) and a transverse adjusting gear rotating shaft (3-16), wherein the driven bevel gear (3-1) is meshed with the main bevel gear (2-12), and the driven bevel gear (3-1) is fixedly connected to the driven rotating shaft (3-2), the driven rotating shaft (3-2) is rotatably connected to the transverse plate (1-2), the transverse adjusting rotating rod (3-3) is fixedly connected to the driven rotating shaft (3-2), the transverse adjusting rotating cylinder (3-4) is fixedly connected to the transverse adjusting rotating rod (3-3), the transverse adjusting oscillating rod (3-5) is provided with a chute I, the transverse adjusting rotating cylinder (3-4) is slidably connected into the chute I of the transverse adjusting oscillating rod (3-5), the transverse adjusting sliding blocks (3-6) are provided with two, the two transverse adjusting sliding blocks (3-6) are slidably connected into the transverse chute (1-4) of the transverse plate, the transverse adjusting oscillating rod (3-5) is slidably connected between the two transverse adjusting sliding blocks (3-6), the upper end of the transverse adjusting oscillating rod (3-5) is hinged with the transverse adjusting hinging block (3-7), the transverse adjusting rectangular through groove (3-8) is arranged on the transverse adjusting fixed block (3-9), the transverse adjusting fixed block (3-9) is fixedly connected on the transverse plate (1-2), the upper end of the transverse adjusting hinged block (3-7) is fixedly connected with a transverse adjusting rack (3-10), the transverse adjusting rack (3-10) is slidably connected in the transverse adjusting rectangular through groove (3-8), the transverse adjusting rack (3-10) is meshed with a transverse adjusting gear (3-11), the transverse adjusting gear (3-11) is fixedly connected on a transverse adjusting shaft (3-12), the transverse adjusting shaft (3-12) is rotatably connected on the transverse adjusting rectangular through groove (3-8) and the transverse adjusting fixed block (3-9), the transverse adjusting shaft (3-12) is rotatably connected in the transverse adjusting hole (1-8), the horizontal adjusting driven gears (3-13) are fixedly connected to the horizontal adjusting shafts (3-12), the horizontal adjusting driven gears (3-13) are meshed with the horizontal adjusting hand-rocking gears (3-14), the horizontal adjusting screwing shafts (3-15) are fixedly connected to the horizontal adjusting hand-rocking gears (3-14), the horizontal adjusting hand-rocking gears (3-14) are fixedly connected to the horizontal adjusting gear rotating shafts (3-16), and the horizontal adjusting gear rotating shafts (3-16) are rotatably connected to the horizontal plates (1-2);

the glass cutter structure (4) comprises a vertical sliding plate (4-1), a vertical adjusting block (4-2), a vertical adjusting groove (4-3), a transverse sliding plate (4-4), a transverse adjusting block (4-5), a transverse adjusting groove (4-6), a glass cutter (4-7), an upper sliding block (4-8) and a lower sliding block (4-9), wherein the front end of the vertical sliding plate (4-1) is fixedly connected with the two vertical sliding blocks (2-6), the vertical adjusting block (4-2) is fixedly connected on the vertical sliding plate (4-1), the vertical adjusting groove (4-3) is arranged on the vertical adjusting block (4-2), a vertical slide way is arranged in the vertical adjusting groove (4-3), and the left end of the transverse sliding plate (4-4) is fixedly connected with the two transverse adjusting sliding blocks (3-6), the transverse adjusting block (4-5) is fixedly connected to the transverse sliding plate (4-4), the transverse adjusting groove (4-6) is arranged on the transverse adjusting block (4-5), a transverse slide way is arranged in the transverse adjusting groove (4-6), the upper sliding block (4-8) and the lower sliding block (4-9) are fixedly connected to the glass cutter (4-7), and the upper sliding block (4-8) and the lower sliding block (4-9) are respectively connected in the transverse adjusting groove (4-6) and the vertical adjusting groove (4-3) in a sliding mode.

2. The tunable circular glass cutting apparatus according to claim 1, wherein: the two fixed inserting plates (5) are arranged, each fixed inserting plate (5) comprises a tooth-shaped inserting plate (5-1) and a hand-pulling ring (5-2), each hand-pulling ring (5-2) is fixedly connected to the tooth-shaped inserting plate (5-1), the two fixed inserting plates (5) are respectively in clearance fit with the vertical inserting plate slots (1-9) and the transverse inserting plate slots (1-10), and the driven gears (2-16), the hand-operated gears (2-17), the transverse driven gears (3-13) and the transverse hand-operated gears (3-14) can be meshed with the tooth-shaped inserting plates (5-1).