CN216711923U - Glass sheet multi-disc cutting off machine that can adjust thickness - Google Patents

Abstract

The utility model discloses a glass sheet multi-sheet cutting machine tool capable of adjusting thickness, belonging to the technical field of glass sheet cutting, and comprising a power shaft and a cutting control base, wherein one end of the power shaft is locked on the output end of a driving motor, the other end of the power shaft is separately sleeved with a blade movable stop block, and the outer end of the blade movable stop block is installed and locked on a machine tool through an ejector pin clamp. Thereby more precisely controlling the thickness of the cut glass sheet.

Description

Glass sheet multi-disc cutting off machine that can adjust thickness

Technical Field

The utility model relates to the technical field of glass sheet cutting, in particular to a glass sheet multi-sheet cutting machine tool capable of adjusting thickness.

Background

In the field of processing of glass sheets at present, because glass materials are brittle, high in hardness, poor in ductility and easy to damage in the processing process, glass blocks or glass bar materials are generally used for cutting by using a cutting machine in the processing of the glass sheets at present, the cutting machine at present can only cut one glass sheet at a time, the cutting machine at present needs to accurately measure once every time, then the cutting machine is stopped, the glass sheet is taken out to measure the cutting amount, the positioning and cutting are carried out again after the precision is checked, errors are easy to generate in the operation, if one glass sheet is cut, the cutting machine is continuously cut, the situation that the abrasion error of the cutting surface is generated in the cutting process and is unknown cannot be avoided, the cutting step is inevitable, and if the reserved amount is insufficient, unqualified glass sheets are easy to cut, and a glass bar needs to be fixed at present, a cutting device capable of cutting the glass rod into a plurality of glass sheets by one-time cutting;

at present, some cutting devices can be used for cutting materials by installing a plurality of blades, however, the distance between the blades on the device is adjusted by fifteen parts, and even if the distance is adjusted, the size and the precision of the adjustment cannot be guaranteed, and the cutting device can be used for cutting glass under the condition of keeping the precision; the raw materials of the glass sheet are generally glass bar stocks, the length of the glass bar stocks is different, the glass sheet bar stocks are cut off to be suitable for the size of a cutting device, or the length of the bar stocks needs to be preset when the bar stocks are produced, but the length of the bar stocks is determined by larger glass blocks, so that the raw materials are limited greatly, the number of blades on the cutting machine can be conveniently increased and reduced without the cutting machine, the length of the glass sheet bar stocks is suitable for, the number of the blades cannot be increased or reduced randomly by the cutting machine, stable support is not provided for the glass bar stocks during cutting, the glass bar stocks are prevented from being broken, a glass bar stock capable of being stably supported is needed, and the glass bar stocks are sequentially fixedly measured and adjusted, and the cutting device capable of cutting a plurality of glass sheets at the same time with higher precision.

Based on the above, the utility model designs a glass sheet multi-sheet cutting machine tool capable of adjusting the thickness, so as to solve the problems.

Disclosure of Invention

The utility model aims to provide a glass sheet multi-blade cutting machine tool capable of adjusting the thickness, which can accurately adjust the cutting amount, simultaneously cut a glass bar by a plurality of blades, cut the glass bar into a plurality of glass sheets at one time, has higher cutting precision, can adjust the distance between the blades, is convenient to adjust the cutting thickness, and can increase and decrease the number of the blades along with the length of the glass bar.

The utility model is realized by the following steps: a glass sheet multi-sheet cutting machine tool capable of adjusting thickness comprises a power shaft and a cutting control base, wherein one end of the power shaft is locked at the output end of a driving motor, a blade movable stop block is sleeved at the other end of the power shaft in a separable mode, the outer end of the blade movable stop block is installed and locked on the machine tool through an ejector pin clamp, a plurality of cutting thickness adjusting blocks and blades are installed on the power shaft in a separable mode and are arranged alternately, the cutting control base is horizontally fixed on a working platform of the machine tool, an electromagnet supporting seat is installed on the cutting control base in a manner of horizontally sliding in the direction vertical to the power shaft, a plurality of cutting position isolating blocks and glass rod supporting blocks are installed above the electromagnet supporting seat in a separable mode, and the cutting position isolating blocks and the glass rod supporting blocks are installed alternately, the glass rod supporting block is characterized in that a glass rod supporting groove with an opening in the upper part is formed in the top of the glass rod supporting block, the glass rods are horizontally erected in the glass rod supporting grooves of the glass rod supporting blocks, the bottom of each glass rod supporting groove is higher than the lowest end of each blade, and the height of each cutting position isolating block is lower than the lowest end of each blade.

Furthermore, the cutting thickness adjusting block is provided with a plurality of spare parts with different thicknesses and the same thickness, two sides of the cutting thickness adjusting block are mirror surfaces, the outer wall of each cutting thickness adjusting block, which is not in contact with the blade, is provided with a cutting amount mark, the thickness data of the cutting thickness adjusting block where the cutting amount mark is engraved are marked on each cutting amount mark, an adjusting block mounting hole is formed in each cutting thickness adjusting block, and the cutting thickness adjusting blocks are sleeved on the power shaft through the adjusting block mounting holes.

The blade fixing block is fixed on the left side of the power shaft, the blade fixing block and the leftmost blade abut against each other, the movable blade block is a cylindrical structure with a left side provided with a shaft installation hole and a right side closed, and the depth of the shaft installation hole is larger than the length from the rightmost blade to the right end of the power shaft.

Furthermore, a blade mounting hole is formed in the circle center of the blade, the diameter of the blade fixing stop block is larger than the aperture of the blade mounting hole, and the adjusting block mounting hole, the shaft mounting hole and the blade mounting hole are in transition fit with the power shaft.

Furthermore, a cutting control sliding groove perpendicular to the power shaft is horizontally arranged on the cutting control base, a far-end anti-falling stop block is fixed on the rear side of the cutting control base, and a near-end stop block is installed on the front side in the cutting control sliding groove through a bolt.

Further, the electro-magnet supporting seat is the electro-magnet, the bottom of electro-magnet supporting seat has set up the cutting control slider, the cutting control slider is slided and is established in the cutting control spout, electro-magnet supporting seat top has set up the mounting groove that is on a parallel with the power shaft, the fixed limiting plate of glass stick has been fixed to the left end of mounting groove, the magnetic force of the right side ability separation of mounting groove has adsorbed glass stick adjustment limiting plate, glass stick fixed limiting plate and glass stick adjustment limiting plate centre gripping respectively at the both ends of horizontally glass stick.

Further, cutting position spacing block and glass stick supporting block all pass through magnetic force and adsorb at cutting control spout top, glass stick supporting block has the same spare part with the thickness difference of a plurality of thickness, glass stick supporting groove and glass stick are clearance fit, the thickness of cutting position spacing block is greater than the thickness of blade, glass stick supporting block and cutting position spacing block do not all contact with the blade.

The utility model has the beneficial effects that: the utility model positions the blade by the very accurate horizontal positioning fixture on the lathe, thus ensuring the cutting precision of the blade, ensuring the coaxiality of the fixture on the lathe to be very accurate, further ensuring the installation shaft of the blade to rotate very stably, ensuring the position of the cutting blade to be fixed without generating errors due to displacement because the blade only rotates axially and does not displace any more, accurately adjusting the distance between the adjacent blades by the cutting thickness adjusting blocks with different thicknesses, thus more accurately controlling the thickness of the cut glass sheet, and increasing and decreasing the number of the blades on the power shaft according to the requirements by the installation mode of the blade to control the cutting number of the glass sheet produced by one-time cutting of one glass rod, then providing stable support for the glass rod during cutting by the electromagnet supporting seat, and ensuring the glass rod not to be easy to break and break in the cutting process, whether the cutting blade is contacted with the glass rod or not is controlled by sliding the electromagnet supporting seat on the cutting control base, the cutting speed and the cutting amount are controlled, the operation is more convenient, the cutting blade can be adjusted according to the material and the length of the glass rod and the thickness to be cut, and whether the cutting blade is used for cutting the glass rod or not can be controlled by only pushing and pulling the electromagnet supporting seat in the cutting process, the effect of cutting or stopping at any time can be achieved, the operation is more flexible, the efficiency of the existing cutting machine for accurately cutting the glass sheet is not high enough, the precision of the high-efficiency cutting machine cannot be achieved, the device is used for sequentially cutting a plurality of glass sheets, the cutting efficiency of the glass sheets is considered, the cutting amount is accurately controlled, only one glass rod is installed and measured, errors are generated when the glass rod is assembled and disassembled every time, the device reduces the inevitable installation and measurement times, and therefore the times of errors generated during the installation are reduced, the processing precision is improved.

Drawings

The utility model will be further described with reference to the following examples with reference to the accompanying drawings.

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

FIG. 2 is a top view of the electromagnet support and cutting control base of the present invention;

FIG. 3 is a schematic view of the power shaft structure of the present invention;

FIG. 4 is a schematic view of a glass rod support block according to the present invention;

FIG. 5 is a side view of a blade of the present invention;

FIG. 6 is a schematic view of a cutting site spacer block according to the present invention;

FIG. 7 is a schematic view of a cutting thickness adjusting block according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-blade, 11-blade mounting hole, 2-power shaft, 21-blade fixed stop, 22-transmission tenon, 23-blade movable stop, 231-shaft mounting hole, 3-cutting thickness adjusting block, 31-cutting amount mark, 32-adjusting block mounting hole, 4-cutting control base, 41-cutting control chute, 42-distal end anti-falling stop, 43-proximal end stop, 5-electromagnet support base, 51-glass rod fixed limit plate, 52-glass rod adjusting limit plate, 53-mounting groove, 54-cutting control slide block, 6-cutting position spacer block, 7-glass rod support block, 71-glass rod support groove, 8-thimble clamp, 9-glass rod.

Detailed Description

Referring to fig. 1 to 7, the present invention provides a technical solution: a glass sheet multi-sheet cutting machine tool capable of adjusting thickness comprises a power shaft 2 and a cutting control base 4, wherein one end of the power shaft 2 is locked at the output end of a driving motor, a blade movable stop 23 is sleeved at the other end of the power shaft 2 in a separable mode, the outer end of the blade movable stop 23 is installed and locked on the machine tool through an ejector pin clamp 8, a plurality of cutting thickness adjusting blocks 3 and blades 1 are further installed on the power shaft 2 in a separable mode, the plurality of cutting thickness adjusting blocks 3 and the blades 1 are alternately arranged, the cutting control base 4 is horizontally fixed on a working platform of the machine tool, an electromagnet supporting seat 5 is installed on the cutting control base 4 in a manner of horizontally sliding in a direction vertical to the power shaft 2, and a plurality of cutting position isolating blocks 6 and glass rod supporting blocks 7 are installed above the electromagnet supporting seat 5 in a separable mode, the cutting position isolation blocks 6 and the glass rod supporting blocks 7 are alternately arranged, the top of each glass rod supporting block 7 is provided with a glass rod supporting groove 71 with an opening at the upper part, the glass rods 9 are horizontally erected in the glass rod supporting grooves 71 of the plurality of glass rod supporting blocks 7, the bottom of each glass rod supporting groove 71 is higher than the lowest end of the corresponding blade 1, the height of each cutting position isolation block 6 is lower than that of the corresponding blade 1, the blades 1 are positioned through a very accurate horizontal positioning fixture on a lathe, so that the cutting precision of the blades 1 is ensured, the coaxiality of the fixture on the lathe is very accurate, the power shaft 2 arranged on the blades 1 is further enabled to rotate very stably, the blades 1 only rotate axially and do not displace, the position fixation of the cutting blades 1 is ensured, errors caused by displacement are avoided, and the distance between the adjacent blades 1 is accurately adjusted through the cutting thickness adjusting blocks 3 with different thicknesses, therefore, the thickness of the cut glass sheet can be controlled more accurately, and by the installation mode of the blade 1, the number of the blades 1 can be increased or decreased on the power shaft 2 according to the requirements, so as to control the cutting number of the glass sheet produced by one-time cutting of one glass rod 9, then the electromagnet support seat 5 is used for providing stable support for the glass rod 9 during cutting, so that the glass rod 9 is not easy to break and break in the cutting process, whether the cut blade 1 is contacted with the glass rod 9 or not is controlled by the sliding of the electromagnet support seat 5 on the cutting control base 4, the cutting speed and the cutting amount are controlled, the operation is more convenient, the adjustment can be carried out according to the material and the length of the glass rod and the thickness to be cut, and the blade 1 can be controlled whether to cut the glass rod 9 or not only by pushing or pulling the electromagnet support seat 5 in the cutting process, so as to achieve the effect of cutting or stopping at any time, the operation is more nimble, present accurate cutting glass piece's cutting machine efficiency just is not high enough, efficient cutting machine precision can not reach again, this device cuts multi-disc glass piece in proper order, has both taken into account the cutting efficiency of glass piece, the accurate control cutting volume again, and only install and measure glass stick 9 once, dismouting glass stick 9 at every turn all must produce the error, this device has reduced installation and measurement number of times to reduce the number of times of taking place the error when installing, improved the machining precision.

Wherein, the cutting thickness adjusting block 3 has a plurality of spare parts with different thickness and the same thickness, two sides of the cutting thickness adjusting block 3 are mirror surfaces, the outer wall of each cutting thickness adjusting block 3, which is not contacted with the blade 1, is provided with a cutting amount mark 31, the thickness data of the cutting thickness adjusting block 3 on which the cutting amount mark 31 is engraved is provided, each cutting thickness adjusting block 3 is provided with an adjusting block mounting hole 32, the cutting thickness adjusting block 3 is sleeved on the power shaft 2 through the adjusting block mounting hole 32, the cutting amount is accurately set, the blade 1 and the cutting thickness adjusting block 3 are stably arranged on the power shaft 2, the power shaft 2 is also provided with a blade fixing stop block 21 and a plurality of transmission convex tenons 22, the axis of the blade fixing stop block 21 and the axis parallel to the power shaft 2 are the same straight line, and each transmission convex tenon 22 is protruded on the surface of the power shaft 2, each transmission tenon 22 extends from the right side of the blade fixed stop 21 to the right end of the power shaft 2, each transmission tenon 22 is parallel to the axis of the power shaft 2, the blade fixed stop 21 is fixed at the left side of the power shaft 2, the blade fixed stop 21 is abutted against the blade 1 at the leftmost side, the blade movable stop 23 is a cylindrical structure with a shaft installation hole 231 formed at the left side and the right side closed, the depth of the shaft installation hole 231 is greater than the length from the blade 1 at the rightmost side to the right end of the power shaft 2, so that the blade 1 and the cutting thickness adjusting block 3 can be conveniently and stably assembled and disassembled on the power shaft 2, the transmission tenon 22 provides power for the blade 1, the conventional mode is also adopted, the transmission is stable, the sliding failure cannot occur, the blade movable stop 23 is movable, so that blades 1 with different numbers can be installed on the power shaft 2 as long as the blade movable stop 23 and the blade fixed stop 21 are mutually pressed, the center of a circle of the blade 1 is provided with a blade mounting hole 11, the diameter of the blade fixing stop 21 is larger than the aperture of the blade mounting hole 11, the adjusting block mounting hole 32, the shaft mounting hole 231 and the blade mounting hole 11 are in transition fit with the power shaft 2, stable installation is ensured, and disassembly and assembly are convenient, the cutting control base 4 is horizontally provided with a cutting control chute 41 vertical to the power shaft 2, the rear side of the cutting control base 4 is fixed with a far-end anti-falling stop 42, the front side in the cutting control chute 41 is provided with a near-end stop 43 through a bolt, the cutting control chute 41 is horizontally provided with more convenient and stable cutting, the design of the mode can realize convenient disassembly and stable sliding of the electromagnet supporting seat 5 on the cutting control base 4, the electromagnet supporting seat 5 is an electromagnet, the bottom of the electromagnet supporting seat 5 is provided with a cutting control slide block 54, the cutting control slide block 54 is slidably arranged in the cutting control slide groove 41, the top of the electromagnet support seat 5 is provided with a mounting groove 53 parallel to the power shaft 2, the left end of the mounting groove 53 is fixed with a glass rod fixing limiting plate 51, the right side of the mounting groove 53 can be separated from the magnetic force to adsorb a glass rod adjusting limiting plate 52, the glass rod fixing limiting plate 51 and the glass rod adjusting limiting plate 52 are respectively clamped at the two ends of the horizontal glass rod 9, for installing and supporting the device of the glass rod 9, iron objects on the electromagnet support seat 5 can be conveniently and accurately positioned when the electromagnet is started, the glass rod 9 can be conveniently disassembled and replaced when the electromagnet is closed, the cutting position isolation block 6 and the glass rod support block 7 are both adsorbed at the top of the cutting control slide groove 41 through the magnetic force, the glass rod support block 7 has a plurality of spare parts with the same thickness and different thicknesses, the glass rod support groove 71 is in clearance fit with the glass rod 9, the thickness of cutting position spacing block 6 is greater than the thickness of blade 1, glass stick supporting block 7 and cutting position spacing block 6 do not all contact with blade 1, and the glass stick supporting block 7 that supports glass stick 9 like this has all been separated by cutting position spacing block 6, forms the recess through blade 1, and blade 1 can be convenient cutting glass stick 9 can not cut other accessory again, safety and stability.

One specific application of the embodiment is as follows: the utility model determines the length of a glass rod 9 and the thickness of a glass sheet to be cut when in use, then selects a cutting thickness adjusting block 3 with proper thickness, can visually see the thickness of the corresponding cutting thickness adjusting block 3 by checking the data on a cutting quantity mark 31, and mutually and alternately installs the cutting thickness adjusting block 3 and a blade 1 on a power shaft 2, wherein a blade installation hole 11 and an adjusting block installation hole 32 are in transition fit with the power shaft 2, thus the installation is stable and the disassembly and assembly are convenient, after the cutting thickness adjusting block 3 is selected and installed with the blade, as shown in figure 1, a blade movable stop block 23 is covered on the rightmost end of the power shaft 2, the blade movable stop block 23 at the right end and a blade fixed stop block 21 at the left side of the power shaft 2 are mutually extruded, and the blade 1 and the cutting thickness adjusting block 3 between the blade movable stop block 23 and the blade fixed stop block 21 are completely pressed, ensuring the blade is vertical to the horizontal, this pressing is done by the ejector pin clamp 8 on the machine tool, the thimble clamp 8 is the existing clamp on the lathe, so that the blade 1 is installed, when the power shaft 2 rotates, the transmission tenon 22 rotates to drive the blade 1 on the power shaft 2 and the cutting thickness adjusting block 3 to rotate together, therefore, the blade 1 and the cutting thickness adjusting block 3 are relatively fixed, the cutting amount between the blades 1 is also determined, the thickness of the cutting thickness adjusting block 3 needs to be accurate to 0.1 mm, the cutting precision can be ensured, the two sides of the cutting thickness adjusting block 3 are mirror surfaces, and in order to ensure the cutting precision, the two sides of the blade 1 for cutting the optical glass are also very smooth, so that the cutting precision can be ensured, and the thickness of each blade 1 is also the same; next, the cutting position spacer 6 and the glass rod support blocks 7 are mounted on the mounting groove 53 of the electromagnet support base 5, the glass rod support grooves 71 of the glass rod support blocks 7 are used for placing the glass rods 9, the distance from the bottom of all the glass rod support grooves 71 to the bottom of the glass rod support blocks 7 is the same, the height of the bottom of the glass rod support grooves 71 is higher than the lowest circular arc of the blade 1, so that the glass rods 9 placed in the glass rod support grooves 71 can be safely cut off by the blade 1, as shown in fig. 1, the glass rods 9 are placed in the glass rod support grooves 71 of a plurality of glass rod support blocks 7, because the height from the glass rod support grooves 71 to the mounting groove 53 of the electromagnet support base is the same, the glass rods 9 are horizontal, the thickness of the cutting position spacer 6 is larger than that of the blade 1, the thickness difference is 3-5 mm, the height of the cutting position spacer 6 is lower than the lowest circular arc of the blade 1, thus, the cutting position isolation block 6 can not be cut when the blade 1 cuts the glass rod 9, a groove is formed between two adjacent glass rod support blocks 7 separated by the cutting position isolation block 6, the width of the groove is the thickness of the cutting position isolation block 6 and is just larger than the thickness of the blade 1, when the blade 1 is cut, the glass rod support blocks 7 on two sides separated by the cutting position isolation block 6 are not contacted with the blade 1, the thickness of the glass rod support blocks 7 has various sizes, and only the glass rod 9 is supported on two sides of the cutting position of the blade 1, so that the glass rod 9 is more stable when being cut, if a plurality of blades are used for cutting the glass rod 9 at the same time, only two ends of the glass rod 9 are supported, and the glass rod 9 is easy to break during the cutting process and needs to be supported on two sides of the cutting position of the blade 1, the glass rod 9 can be stably cut, the cutting position isolation block 6 and the glass rod supporting block 7 are made of materials which can be magnetically attracted, the glass rod 9 is arranged in a glass rod supporting groove 71 with an opening at the top of the glass rod supporting block 7, the glass rod supporting groove 71 is a U-shaped groove, the glass rod 9 is arranged in the glass rod supporting groove and cannot fall out, then two ends of the glass rod 9 are clamped between a fixed glass rod fixing limiting plate 51 and a glass rod adjusting limiting plate 52, the glass rod 9 is clamped, the glass rod adjusting limiting plate 52 can adjust the horizontal position, the glass rods 9 with different lengths can be locked, the electromagnet supporting seat 5 is pushed towards the direction of the blade 1 during cutting, the cutting control sliding block 54 is far away from or close to the direction of the blade 1 in the cutting control sliding groove 41 to achieve the purpose of cutting or not cutting, and handles can be added on two sides of the electromagnet supporting seat 5, the electromagnet supporting seat 5 is pushed and pulled in the horizontal direction to enable the electromagnet supporting seat 5 to be close to or far away from the blade 1, the purpose of cutting or stopping cutting is achieved, the control is flexible and convenient, under the action of a far-end anti-falling stop block 42 and a near-end stop block 43, a cutting control chute 41 is of a trapezoidal groove structure with a small top and a wide bottom, as shown in figure 1, the electromagnet supporting seat 5 is of a cutting control chute 41 which cannot be separated, the near-end stop block 43 is installed through bolts, the electromagnet supporting seat 5 can be conveniently replaced to meet different processing requirements, the cutting control base 4 is made of non-magnetic materials, non-magnetic stainless steel is suggested to be used, the device can detach the blade movable stop blocks 23 when needed, increase or reduce the number of the blades 1, correspondingly, a cutting thickness adjusting block 3 is required to be added for one blade 1 to control the cutting amount, then insert the power shaft 2 in the shaft-setting hole 231, make the blade movable stop 23 squeeze the blade 1 on the rightmost side, the device can be convenient for disassembling and assembling the same glass rod 9 of the blade 1 and can cut out glass sheets with different quantity and thickness according to length and requirement, convenient for adjustment and control, and reduce the times of installation and measurement cutting, reduce each step, will not produce corresponding error because of each step, make the device have higher processing precision, and cut out a plurality of glass sheets at the same time, the cutting efficiency is higher, if the device only installs a blade 1, namely cut out a glass sheet on the left side, the left glass rod 9 of the right side is cut out, cut a glass sheet at least once, the operation is very flexible, and the coaxiality of the lathe is very high, ensure the accuracy of rotation and cutting of the blade 1, the blade 1 can only axially rotate and cannot move in any direction, so that the stability and the accuracy of the blade 1 are ensured, and the device has higher processing precision;

the machine tool body, the driving device, the rotating mode and the clamping device of the device are the same as those of a lathe, and only a turning tool of the lathe is not used.

Although specific embodiments of the utility model have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the utility model, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the utility model, which is to be limited only by the appended claims.

Claims (7)

1. The utility model provides a can adjust glass piece multi-disc cutting off machine of thickness which characterized in that: comprises a power shaft (2) and a cutting control base (4), wherein one end of the power shaft (2) is locked at the output end of a driving motor, a blade movable stop block (23) is arranged on a sleeve which can be separated at the other end of the power shaft (2), the outer end of the blade movable stop block (23) is installed and locked on a machine tool through a thimble clamp (8), a plurality of cutting thickness adjusting blocks (3) and blades (1) are also installed on the power shaft (2) in a separable manner, a plurality of cutting thickness adjusting blocks (3) and blades (1) are alternately arranged, the cutting control base (4) is horizontally fixed on a working platform of the machine tool, an electromagnet supporting seat (5) is installed on the cutting control base (4) in a manner of horizontally sliding vertical to the direction of the power shaft (2), a plurality of cutting position isolating blocks (6) and glass rod supporting blocks (7) are installed above the electromagnet supporting seat (5) in a separable manner, the cutting position isolation block (6) and the glass rod supporting block (7) are installed alternately, the top of the glass rod supporting block (7) is provided with a glass rod supporting groove (71) with an opening at the upper part, a glass rod (9) is horizontally erected in the glass rod supporting groove (71) of the plurality of glass rod supporting blocks (7), the bottom of the glass rod supporting groove (71) is higher than the lowest end of the blade (1), and the cutting position isolation block (6) is lower than the lowest end of the blade (1).

2. A glass sheet multi-chip cutting machine capable of adjusting thickness according to claim 1, characterized in that: cutting thickness adjusting block (3) have the spare part of a plurality of different thickness and same thickness, the both sides of cutting thickness adjusting block (3) are the mirror surface, every cutting thickness adjusting block (3) have not set up cutting volume sign (31) on the outer wall that contacts with blade (1), every be carved with the thickness data of the cutting thickness adjusting block (3) at place on cutting volume sign (31), every adjusting block mounting hole (32) have all been seted up in cutting thickness adjusting block (3), cutting thickness adjusting block (3) are established on power shaft (2) through adjusting block mounting hole (32) cover.

3. A glass sheet multi-chip cutting machine capable of adjusting thickness according to claim 2, characterized in that: the power shaft (2) is also provided with a blade fixed stop block (21) and a plurality of transmission tenons (22), the axis of the blade fixed stop block (21) and the axis parallel to the power shaft (2) are the same straight line, each transmission tenon (22) protrudes out of the surface of the power shaft (2), each transmission tenon (22) extends from the right side of the blade fixed stop block (21) to the right end of the power shaft (2), each transmission tenon (22) is parallel to the axis of the power shaft (2), the blade fixed stop block (21) is fixed on the left side of the power shaft (2), the blade fixed stop block (21) is abutted against the blade (1) on the leftmost side, the blade movable stop block (23) is a cylindrical structure with a shaft mounting hole (231) arranged on the left side and a closed right side, the depth of the shaft installation hole (231) is larger than the length from the blade (1) at the rightmost side to the right end of the power shaft (2).

4. A glass sheet multi-chip cutting machine capable of adjusting thickness according to claim 3, characterized in that: the center of a circle of the blade (1) is provided with a blade mounting hole (11), the diameter of the blade fixing stop block (21) is larger than the aperture of the blade mounting hole (11), and the adjusting block mounting hole (32), the shaft mounting hole (231) and the blade mounting hole (11) are in transition fit with the power shaft (2).

5. A glass sheet multi-chip cutting machine capable of adjusting thickness according to claim 1, characterized in that: the cutting control base (4) is provided with a cutting control sliding groove (41) which is vertical to the power shaft (2) horizontally, a far-end anti-falling stop block (42) is fixed on the rear side of the cutting control base (4), and a near-end stop block (43) is installed on the front side in the cutting control sliding groove (41) through bolts.

6. A glass sheet multi-chip cutting machine capable of adjusting thickness according to claim 5, characterized in that: electromagnet supporting seat (5) is the electro-magnet, the bottom of electromagnet supporting seat (5) has set up cutting control slider (54), cutting control slider (54) are slided and are established in cutting control spout (41), electromagnet supporting seat (5) top has set up mounting groove (53) that are on a parallel with power shaft (2), glass stick fixed limiting plate (51) have been fixed to the left end of mounting groove (53), glass stick adjustment limiting plate (52) have been adsorbed to the magnetic force of the right side ability separation of mounting groove (53), glass stick fixed limiting plate (51) and glass stick adjustment limiting plate (52) centre gripping respectively at the both ends of horizontally glass stick (9).

7. A glass sheet multi-chip cutting machine capable of adjusting thickness according to claim 5, characterized in that: cutting position spacing block (6) and glass stick supporting block (7) all adsorb at cutting control spout (41) top through magnetic force, glass stick supporting block (7) have the same spare part of a plurality of thickness with the thickness difference, glass stick supporting groove (71) are clearance fit with glass stick (9), the thickness of cutting position spacing block (6) is greater than the thickness of blade (1), glass stick supporting block (7) and cutting position spacing block (6) do not contact with blade (1).

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