CN220614523U - Stone linear cutting machine is played to literary composition - Google Patents

Abstract

The utility model relates to a text and game stone wire cutting machine which comprises a workbench, a control device, a stone rotary fixing device and a cutting wire driving device, wherein the cutting wire driving device comprises a driving rack arranged on the workbench through a guide rail, a driving motor and a wire cylinder are arranged on the driving rack, the output end of the driving motor is in transmission connection with the wire cylinder through a synchronous belt, meanwhile, the output end of the driving motor is also in transmission connection with a transmission screw rod arranged on the workbench through a reduction gear assembly, and a cutting wire arranged on the wire cylinder forms a cutting section at the position of the stone rotary fixing device after direction adjustment through a plurality of transmission wheels. The driving motor drives the wire cylinder and cuts the wire cutting wire, and simultaneously, the driving rack and the wire cylinder synchronously reciprocate left and right, and the driving motor realizes linkage of the driving rack and the wire cylinder, so that the manufacturing cost of the equipment is reduced, and the device is more practical.

Description

Stone linear cutting machine is played to literary composition

Technical Field

The utility model belongs to the field of wire cutting equipment, and particularly relates to a wire cutting machine for stone materials for cultural and play.

Background

In the jade processing industry, it is often necessary to perform small-sized cutting on jade, however, a jade cutting machine is required, many jade cutting machines are also appeared in the market, for example, patent No. 2017212470613, patent name is a patent of an inside and outside bidirectional wire cutting mechanism, in this patent, the bobbin rotation driving of the automatic winding and unwinding mechanism and the moving driving along the bobbin axial direction are processed in a manner of being controlled respectively, a dual motor mode is required to be used for control, and therefore, the manufacturing cost of the inside and outside bidirectional wire cutting mechanism also correspondingly increases, and meanwhile, the device is suitable for processing large-sized jade materials, and therefore, the practicality is not good for small workshops for small-sized material processing.

Disclosure of Invention

In order to solve the technical problems in the prior art, the utility model provides a line cutting machine for a stone for cultural and play.

The utility model provides a stone wire cutting machine is played to literary composition for solving above-mentioned technical problem, including workstation, controlling means, stone rotation fixing device and cutting silk thread drive arrangement, cutting silk thread drive arrangement includes the drive frame that sets up on the workstation through the guide rail, be provided with driving motor and silk section of thick bamboo in the drive frame, the driving motor output passes through the hold-in range and is connected with silk section of thick bamboo transmission, and the driving motor output still passes through the transmission lead screw transmission that reduction gear assembly set up on with the workstation simultaneously and is connected, the cutting silk thread that sets up on the silk section of thick bamboo forms the cutting section in stone rotation fixing device position after carrying out the direction adjustment through a plurality of drive wheels.

Further, a first reversing sensor and a second reversing sensor are arranged on the driving rack, a first sensing position and a second sensing position which correspond to the first reversing sensor and the second reversing sensor respectively are arranged on the workbench, and the second reversing sensor is arranged on the driving rack in an adjustable mode through an adjusting rod.

Furthermore, a tensioning wheel is further arranged on the path of the cutting silk thread, which is subjected to direction adjustment through the plurality of driving wheels.

Furthermore, one end of the transmission screw rod is clamped on the workbench through a clamping groove, and the other end of the transmission screw rod is in a floating state and is in transmission connection with a bearing seat of a final gear of a reduction gear assembly arranged on the driving rack.

Further, a plurality of strong magnetic blocks are arranged on the wire cylinder, and the strong magnetic blocks absorb cutting wires to be orderly arranged when the wire cylinder rotates.

Further, the driving rack is slidably arranged on the guide rail through a first plastic sliding block, and a plurality of dust containing grooves are formed in the first plastic sliding block.

Furthermore, the stone rotary fixing device is provided with a thickness adjusting bracket, the thickness adjusting bracket is arranged on the workbench through a plurality of first sliding rails, the thickness adjusting bracket is provided with an adjusting wheel, and the adjusting wheel is in transmission connection with the thickness adjusting bracket through a screw rod; still be provided with the building stones fixed bolster through the second slide rail on the thickness adjustment support, be provided with the position adjustment motor on the building stones fixed bolster, the adjustment motor output is connected with the workstation transmission through the transmission lead screw, the building stones fixed bolster is provided with building stones rotary drive motor, building stones rotary drive motor output is provided with the building stones grip slipper.

Furthermore, a plurality of tension springs are further arranged between the thickness adjusting bracket and the workbench, and the tension springs are used for eliminating the fit clearance between the adjusting wheel and the thickness adjusting bracket through the screw rod.

Furthermore, the thickness adjusting bracket is slidably arranged on the first sliding rail through a second plastic sliding block, and a plurality of dust containing grooves are formed in the second plastic sliding block.

Further, the cutting section position is provided with a vibration sensor.

The utility model relates to a text and game stone wire cutting machine which comprises a workbench, a control device, a stone rotary fixing device and a cutting wire driving device, wherein the cutting wire driving device comprises a driving rack arranged on the workbench through a guide rail, a driving motor and a wire cylinder are arranged on the driving rack, the output end of the driving motor is in transmission connection with the wire cylinder through a synchronous belt, meanwhile, the output end of the driving motor is also in transmission connection with a transmission screw rod arranged on the workbench through a reduction gear assembly, and a cutting wire arranged on the wire cylinder forms a cutting section at the position of the stone rotary fixing device after direction adjustment through a plurality of transmission wheels. The driving motor drives the wire cylinder and cuts the wire cutting wire, and simultaneously, the driving rack and the wire cylinder synchronously reciprocate left and right, and the driving motor realizes linkage of the driving rack and the wire cylinder, so that the manufacturing cost of the equipment is reduced, and the device is more practical.

Drawings

Fig. 1 and 2 are schematic views of a three-dimensional structure of a line cutting machine for a text game stone;

fig. 3 and 4 are schematic structural views of a hidden part covering protector of a text stone wire cutting machine;

FIGS. 5 and 6 are schematic diagrams of the positional relationship of the first and second commutation sensors;

FIG. 7 is a schematic diagram of the mating structure of the drive screw and the reduction gear assembly;

FIG. 8 is a schematic view of a thickness adjustment bracket position;

fig. 9 is a schematic view of a plastic slider structure.

Detailed Description

Certain terms are used throughout the description and claims to refer to particular components. Those of skill in the art will appreciate that a hardware manufacturer may refer to the same component by different names. The description and claims do not take the form of an element differentiated by name, but rather by functionality. As used throughout the specification and claims, the word "comprise" is an open-ended term, and thus should be interpreted to mean "include, but not limited to. The description hereinafter sets forth a preferred embodiment for practicing the utility model, but is not intended to limit the scope of the utility model, as the description is given for the purpose of illustrating the general principles of the utility model. The scope of the utility model is defined by the appended claims.

The present utility model will be described in further detail below with reference to the drawings, but is not limited thereto.

Examples

As shown in fig. 1-4, the text stone wire cutting machine comprises a workbench 1, a control device 2, a stone rotary fixing device 3 and a cutting wire driving device 4, wherein the stone rotary fixing device 3 and the cutting wire driving device 4 are electrically connected with the control device 2, the control device 2 controls coordinated operation, the cutting wire driving device 4 comprises a driving rack 4a arranged on the workbench 1 through a guide rail 1a, a driving motor 4b and a wire cylinder 4c are arranged on the driving rack 4a, the output end of the driving motor 4b is in transmission connection with the wire cylinder 4c through a synchronous belt, meanwhile, the output end of the driving motor 4b is also in transmission connection with a transmission screw 4d arranged on the workbench 1 through a reduction gear component 4f, and a cutting wire 4e arranged on the wire cylinder 4c forms a cutting section 4e2 at the position of the stone rotary fixing device 3 after direction adjustment through a plurality of driving wheels 4e 1. One end of the cutting wire 4e is fixed at a first fixed point 4c1 on the wire barrel 4c, the other end of the cutting wire 4e is wound on the wire barrel 4c for a plurality of circles and then is subjected to direction adjustment through a plurality of driving wheels 4e1, a cutting section 4e2 is formed at the position of the stone rotary fixing device 3, the cutting wire 4e further returns to the wire barrel 4c, and a plurality of circles of second fixed points 4c2 which are fixed after being uniformly wound on the wire barrel 4c are further wound, so that a wire cutting part is formed.

When the cutting machine works, the driving motor 4b drives the wire cylinder 4c to rotate so as to drive the cutting wire 4e to act for cutting raw stone, meanwhile, the output end of the driving motor 4b drives the driving frame 4a to reciprocate left and right on the guide rail 1a of the workbench 1 through the transmission screw 4d after being decelerated through the reduction gear component 4f, so that the driving of the wire cylinder 4c is finished through the driving motor 4b, the cutting wire 4e is further subjected to cutting action, and meanwhile, the driving frame 4a and the wire cylinder 4c synchronously reciprocate left and right through the driving motor 4b, so that linkage of the two is realized.

Preferably, as shown in fig. 5 and 6, the driving frame 4a is provided with a first reversing sensor 4g and a second reversing sensor 4h, the workbench 1 is provided with a first sensing position 4g1 and a second sensing position 4h2 corresponding to the first reversing sensor 4g and the second reversing sensor 4h respectively, and the second reversing sensor 4h is adjustably arranged on the driving frame 4a through an adjusting rod 4h 1.

When the driving motor 4b drives the driving frame 4a and the wire barrel 4c to move leftwards so that the first reversing sensor 4g senses the first sensing position 4g1, the driving motor 4b starts to rotate reversely, the driving frame 4a and the wire barrel 4c are further driven to move rightwards, and when the second reversing sensor 4h senses the second sensing position 4h2, the driving motor 4b starts to rotate reversely again, and the circulation is completed, so that the driving cutting of the cutting wire 4e and the left-right reciprocating movement of the driving frame 4a and the wire barrel 4c are completed. Meanwhile, the second reversing sensor 4h is adjustably arranged on the driving rack 4a through the adjusting rod 4h1, so that the distance between the second reversing sensor 4h and the second sensing position 4h2 can be adjusted, the amplitude of left-right reciprocating motion of the driving rack 4a and the wire barrel 4c can be adjusted, and the driving device can be suitable for driving work of cutting wires 4e with any length.

More preferably, a tensioning wheel 4e3 is further arranged on the path of the cutting wire 4e which is subjected to direction adjustment by the plurality of driving wheels 4e 1. The tensioning degree of the cutting wire 4e can be adjusted through the tensioning wheel 4e3, and the cutting wire 4e is convenient to adjust.

More preferably, as shown in fig. 1 and 7, one end of the transmission screw 4d is clamped on the workbench 1 through a clamping groove 4d1, and the other end of the transmission screw 4d is in a floating state and is in transmission connection with a bearing seat of a final gear of a reduction gear assembly 4f arranged on the driving frame 4 a. One end of the transmission screw 4d is connected with the clamping device in a floating connection mode, and the other end of the transmission screw is connected with the reduction gear assembly 4f in a floating mode, so that the transmission efficiency of the transmission screw 4d and the reduction gear assembly 4f of the driving frame 4a can be improved due to the fact that the transmission screw 4d and the bearing seat of the final gear of the reduction gear assembly 4f are defined excessively, the clamping and blocking phenomena of the transmission screw and the reduction gear assembly 4f are avoided, and the reliability is improved.

More preferably, as shown in fig. 4, the wire cylinder 4c is provided with a plurality of strong magnetic blocks 4c3, and the strong magnetic blocks 4c3 absorb the cutting wires 4e to be orderly arranged when the wire cylinder 4c rotates, so as to prevent the additional cutting wires 4e from being scattered.

More preferably, as shown in fig. 3 and 9, dust is generally generated when the jade is cut, so that the driving frame 4a is slidably disposed on the guide rail 1a through the first plastic sliding block 4a1, and a plurality of dust containing grooves are disposed on the first plastic sliding block 4a1, so that the driving frame 4a can be prevented from sliding on the guide rail 1a to generate jamming and the like.

More preferably, the stone rotary fixing device 3 is provided with a thickness adjusting bracket 3a, the thickness adjusting bracket 3a is arranged on the workbench 1 through a plurality of first sliding rails 1b, the thickness adjusting bracket 3a is provided with an adjusting wheel 3a1, and the adjusting wheel 3a1 is in transmission connection with the thickness adjusting bracket 3a through a screw rod; the thickness adjustment support 3a is further provided with a stone fixing support 3b through a second sliding rail 3b2, the stone fixing support 3b is provided with a position adjustment motor 3b1, the output end of the adjustment motor 3b1 is in transmission connection with the workbench 1 through a transmission screw rod, the stone fixing support 3b is provided with a stone rotation driving motor 3c1, and the output end of the stone rotation driving motor 3c1 is provided with a stone clamping seat 3c.

In use, as shown in fig. 3 and 4, the stone slicing thickness is adjusted by the adjusting wheel 3a1, the stone 5 slicing depth is adjusted in real time by the adjusting motor 3b1, and the stone 5 fixed on the stone holder 3c is driven to rotate by the stone rotation driving motor 3c1 and wire slicing is performed.

More preferably, as shown in fig. 8, a plurality of tension springs 3d are further arranged between the thickness adjusting bracket 3a and the workbench 1, the tension springs 3d are preferably arranged at two sides of the thickness adjusting bracket 3a to keep balance, and the tension springs 3d are used for eliminating the fit clearance between the adjusting wheel 3a1 and the thickness adjusting bracket 3a through a screw rod to keep the cutting stability of the stone 5.

More preferably, the thickness adjusting bracket 3a is slidably disposed on the first sliding rail 1b through a second plastic sliding block 1b1, a plurality of dust containing grooves are disposed on the second plastic sliding block 1b1, and the second plastic sliding block 1b1 of the thickness adjusting bracket 3a and the plastic sliding block 4a1 of the driving frame 4a may have the same structure.

More preferably, the position of the cutting section 4e2 is provided with a vibration sensor 4i, a signal of the vibration sensor 4i is transmitted to the control device 2, the distance between the vibration sensor 4i and the cutting wire 4e of the cutting section 4e2 is preferably about 0.5-1.5mm, when the adjusting motor 3b1 drives the stone 5 to cut near the cutting section 4e2, if overdrive occurs, the vibration sensor 4i is touched, and at the moment, the control device 2 controls the adjusting motor 3b1 to drive the stone 5 to retract by a proper distance, so that the phenomenon that the stone 5 forms excessive pressure abrasion or breakage occurs on the cutting wire 4e is prevented.

While the foregoing description illustrates and describes the preferred embodiments of the present utility model, it is to be understood that the utility model is not limited to the forms disclosed herein, but is not to be construed as limited to other embodiments, and is capable of use in various other combinations, modifications and environments and is capable of changes or modifications within the spirit of the utility model described herein, either as a result of the foregoing teachings or as a result of the knowledge or skill of the relevant art. And that modifications and variations which do not depart from the spirit and scope of the utility model are intended to be within the scope of the appended claims.

Claims (10)

1. The utility model provides a building stones linear cutting machine is played to literary composition, includes workstation (1), controlling means (2), building stones rotation fixing device (3) and cutting silk thread drive arrangement (4), its characterized in that: the cutting wire driving device (4) comprises a driving rack (4 a) arranged on the workbench (1) through a guide rail (1 a), a driving motor (4 b) and a wire barrel (4 c) are arranged on the driving rack (4 a), the output end of the driving motor (4 b) is in transmission connection with the wire barrel (4 c) through a synchronous belt, meanwhile, the output end of the driving motor (4 b) is also in transmission connection with a transmission screw (4 d) arranged on the workbench (1) through a reduction gear assembly (4 f), and a cutting wire (4 e) arranged on the wire barrel (4 c) forms a cutting section (4 e 2) at the position of the stone rotary fixing device (3) after direction adjustment is carried out through a plurality of transmission wheels (4 e 1).

2. A text-to-play stone wire cutting machine as claimed in claim 1, characterized in that: the automatic reversing machine is characterized in that a first reversing sensor (4 g) and a second reversing sensor (4 h) are arranged on the driving rack (4 a), a first sensing position (4 g 1) and a second sensing position (4 h 2) which correspond to the first reversing sensor (4 g) and the second reversing sensor (4 h) respectively are arranged on the workbench (1), and the second reversing sensor (4 h) is arranged on the driving rack (4 a) in an adjustable mode through an adjusting rod (4 h 1).

3. A text-to-play stone wire cutting machine as claimed in claim 1, characterized in that: the cutting wire (4 e) is further provided with a tensioning wheel (4 e 3) on the path of the cutting wire (4 e) which is subjected to direction adjustment through a plurality of driving wheels (4 e 1).

4. A text-to-play stone wire cutting machine as claimed in claim 1, characterized in that: one end of the transmission screw rod (4 d) is clamped on the workbench (1) through a clamping groove (4 d 1), and the other end of the transmission screw rod (4 d) is in a floating state and is in transmission connection with a bearing seat of a final gear of a reduction gear assembly (4 f) arranged on the driving rack (4 a).

5. A text-to-play stone wire saw as claimed in any one of claims 1-3, wherein: the wire barrel (4 c) is provided with a plurality of strong magnetic blocks (4 c 3), and the strong magnetic blocks (4 c 3) absorb cutting wires (4 e) to be orderly arranged when the wire barrel (4 c) rotates.

6. A text-to-play stone wire cutting machine as claimed in claim 1, characterized in that: the driving rack (4 a) is slidably arranged on the guide rail (1 a) through a first plastic sliding block (4 a 1), and a plurality of dust containing grooves are formed in the first plastic sliding block (4 a 1).

7. A text-to-play stone wire cutting machine as set forth in claim 5, wherein: the stone rotary fixing device (3) is provided with a thickness adjusting bracket (3 a), the thickness adjusting bracket (3 a) is arranged on the workbench (1) through a plurality of first sliding rails (1 b), the thickness adjusting bracket (3 a) is provided with an adjusting wheel (3 a 1), and the adjusting wheel (3 a 1) is in transmission connection with the thickness adjusting bracket (3 a) through a screw rod; the thickness adjustment support (3 a) is further provided with a stone fixing support (3 b) through a second sliding rail (3 b 2), the stone fixing support (3 b) is provided with a position adjustment motor (3 b 1), the output end of the adjustment motor (3 b 1) is in transmission connection with the workbench (1) through a transmission screw rod, the stone fixing support (3 b) is provided with a stone rotary driving motor (3 c 1), and the output end of the stone rotary driving motor (3 c 1) is provided with a stone clamping seat (3 c).

8. A text-to-play stone wire cutting machine as claimed in claim 7, wherein: a plurality of tension springs (3 d) are further arranged between the thickness adjusting support (3 a) and the workbench (1), and the tension springs (3 d) are used for eliminating fit gaps between the adjusting wheels (3 a 1) and the thickness adjusting support (3 a) through screw rods.

9. A text-to-play stone wire cutting machine according to claim 7 or 8, characterized in that: the thickness adjusting support (3 a) is slidably arranged on the first sliding rail (1 b) through a second plastic sliding block (1 b 1), and a plurality of dust containing grooves are formed in the second plastic sliding block (1 b 1).

10. A text-to-play stone wire cutting machine according to claim 1, 2, 3, 6, 7 or 8, characterized in that: the cutting section (4 e 2) is provided with a vibration sensor (4 i) at the position.