CN108716399B - Saw belt, belt arm and sawing machine - Google Patents

Abstract

The invention relates to a saw belt, which comprises a rope body and a plurality of first knots penetrating through the rope body, wherein diamonds are inlaid on the first knots, the first knots are injected into the belt body through an elastomer, and the first knots extend out of the elastomer and form a first saw section. Compared with the traditional chain with the hard alloy cutter blocks, the saw belt has the advantages that the first caking is connected into the belt body in a pouring mode, the structure is simple and convenient, the disassembly and the maintenance are convenient, and meanwhile, the operation is stable. The device is used for the belt arm and the sawing machine, and can bring the advantages of convenience in maintenance, stability and high efficiency in operation.

Description

Saw belt, belt arm and sawing machine

Technical Field

The invention relates to a saw belt, a belt arm and a sawing machine.

Background

At present, most of the mining of marble mines at home and abroad adopts a chain arm saw to work together with a diamond wire saw. Because the chain arm saw during operation mainly utilizes the carbide sword piece of dress on the chain arm to press on the stone material, then moves carbide sword piece slowly, scrapes the function in order to realize cutting to the stone material, easily has following defect:

1. the chain arm saw adopts the hard alloy cutter block to press the stone for scraping to realize sawing, and the power mechanism can be realized only by adopting a large and medium speed reducer with high transmission ratio and more transmission stages, so that the power structure is complex and is particularly heavy; meanwhile, due to the adoption of a sawing mode of pressing the stone for scraping, equipment vibration is easy to occur, so that the cutting efficiency is low, and resources are wasted.

2. When the chain arm saw cuts, the chain provided with the hard alloy cutter block has the characteristics of low linear speed, large torque and the like, and the chain provided with the hard alloy cutter block is made of special steel materials in order to ensure enough strength. In this case, the structure of the whole chain is relatively complex and costly, and is particularly cumbersome to use. Particularly, the chain is quite inconvenient to replace and maintain, and the requirement on the specialization degree of workers is high.

3. When the chain arm saw cuts, the chain made of special steel slides slowly between the two guide plates of the chain, so that lubrication between the chain and the chain guide plates is particularly important; the accuracy of the arrangement of the lubrication points, the timeliness of lubrication, the size of the lubrication amount and the like must be considered, so that a lubrication system with higher control precision is required. Thus, the consumption of lubricating grease is relatively large during sawing, and the sawing cost is obviously increased.

4. When sawing with a chain arm saw, when sawing one mining face, if one mining face is to be sawn on the other side of the equipment, the equipment needs to be hoisted again, a guide rail is paved, an adjusting device is arranged, and the like, so that the equipment is quite inconvenient.

5. Because the chain arm of the chain arm saw does not have a left-right fine adjustment function, after the equipment is placed, the left-right direction of the chain arm saw is required to be finely adjusted, the whole equipment is required to be hoisted again, and then the guide rail is moved to be adjusted; the operation is very inconvenient and time is wasted.

6. The swing arm mechanism of the chain arm saw needs to adopt a special worm gear reduction box, and the structure is complex and heavy. In particular maintenance and repair, requires a skilled technician to perform.

In view of this, the present inventors have conducted intensive studies on the above problems, and have made the present invention.

Disclosure of Invention

The invention aims to provide a saw belt which is stable in sawing, high in sawing efficiency and convenient to maintain.

Another object of the invention is to provide a belt arm that is stable in operation, convenient in maintenance, and low in cost.

Another object of the invention is to provide a sawing machine that is easy to maintain and efficient to operate.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the saw belt comprises a rope body and a plurality of first blocks penetrating through the rope body, wherein diamonds are inlaid on the first blocks, the first blocks are injected into the belt body through an elastic body, and the first blocks extend out of the elastic body and form a first saw section.

In a preferred embodiment of the present invention, the longitudinal section of the belt body is rectangular.

As a preferable mode of the present invention, the rope body is a steel wire rope, and the elastic body is rubber.

In a preferred mode of the present invention, the belt body is annular, the belt body has a driving surface sleeved on the driving wheel and a grinding surface opposite to the driving surface, the first nub protrudes from the grinding surface and forms the first saw cut surface, the first saw cut surface is arranged in parallel with the grinding surface, and the first saw cut surface extends from one end to the other end in the width direction of the belt body.

As a preferable mode of the invention, the belt body further comprises a second block injected and bonded in the belt body, diamond is inlaid on the second block, the second block extends out of the grinding surface and forms a second sawing surface and a third sawing surface, the second sawing surface is arranged at one end of the belt body in the width direction, the third sawing surface is arranged at the other end of the belt body in the width direction, and a gap is formed between the second sawing surface and the third sawing surface.

The belt arm comprises an arm body, a driving wheel rotatably arranged on the arm body, a driven wheel rotatably arranged on the arm body, and a saw belt sleeved on the driving wheel and the driven wheel, wherein the saw belt is the saw belt.

As a preferable mode of the invention, the circumference of the arm body is provided with a strip-shaped groove along the trend of the saw belt, the saw belt further comprises a wear-resistant guide strip arranged on the opening of the strip-shaped groove, a water storage chamber is enclosed between the strip-shaped groove and the wear-resistant guide strip, the saw belt is sleeved on the wear-resistant guide strip, the wear-resistant guide strip is provided with a plurality of spray holes communicated with the water storage chamber, the spray holes are distributed along the length direction of the wear-resistant guide strip, and the water storage chamber is connected to a water source.

The sawing machine comprises a walking guide rail, a host machine movably arranged on the walking guide rail, a sawing mechanism arranged on the host machine and a first driving mechanism for driving the host machine to walk on the walking guide rail, wherein the sawing mechanism comprises a belt arm, the belt arm comprises an arm body, a driving wheel rotatably arranged on the arm body, a driven wheel rotatably arranged on the arm body and a saw belt sleeved on the driving wheel and the driven wheel, the sawing machine further comprises a second driving mechanism for driving the driving wheel to rotate and a third driving mechanism for driving the belt arm to swing, and the saw belt adopts the saw belt.

As a preferred embodiment of the present invention, the saw arm is disposed along a longitudinal direction of the travel rail.

As a preferable mode of the invention, the second driving mechanism comprises a second rotating shaft and a second motor for driving the second rotating shaft to rotate, the driving wheel is arranged on the second rotating shaft, the third driving mechanism comprises a third rotating shaft and a third motor for driving the third rotating shaft to rotate, the belt arm is arranged on the third rotating shaft, the second rotating shaft and the third rotating shaft are coaxially arranged, the third rotating shaft is sleeved outside the second rotating shaft or the third rotating shaft is inserted in the second rotating shaft, and the saw arm is vertically arranged with the second rotating shaft.

Compared with the traditional chain with the hard alloy cutter blocks, the saw belt has the advantages that the first caking is connected into the belt body in a pouring mode, the structure is simple and convenient, the disassembly and the maintenance are convenient, and meanwhile, the operation is stable. The device is used for the belt arm and the sawing machine, and can bring the advantages of convenience in maintenance, stability and high efficiency in operation.

Drawings

FIG. 1 is a schematic view of the structure of the present invention (wherein the saw band is not shown);

FIG. 2 is a schematic view of another angle of the present invention (with saw bands not shown);

FIG. 3 is a schematic view of the structure of the belt arm of the present invention (wherein the saw belt is not shown);

FIG. 4 is a schematic view of a part of the structure of the belt arm of the present invention;

FIG. 5 is a schematic view of the saw belt of FIG. 4 in the B direction;

FIG. 6 is a cross-sectional view taken along line A-A of FIG. 4;

FIG. 7 is an enlarged view at C in FIG. 6;

FIG. 8 is a schematic view of a traversing mechanism according to the present invention;

FIG. 9 is a schematic diagram of a third driving mechanism according to the present invention;

FIG. 10 is a schematic view of the structure in the direction D in FIG. 1;

in the figure:

10-running guide 11-tooth row

20-mainframe 21-frame

22-drive box 221-support plate for drive box

23-guide wheel 30-first motor

31-mount 32-guide beam

33-guide 34-cylinder or cylinder

35-drive gear 40-second motor

41-second spindle 50-arm

51-drive wheel 52-driven wheel

53-upper inlet 54-lower inlet

60-third motor 61-speed reducer

62-pivoting support 63-third spindle

70 saw band 71 rubber

72-wire rope 73-first agglomerate

74-Diamond 741-first saw face

742-second saw cut 743-third saw cut

75-wear-resistant guide strip 76-water storage chamber

77-spray hole 81-guide beam

82-screw 83-screw nut

84-handle 90-mounting plate

Detailed Description

For further explanation of the technical scheme of the present invention, the following is described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 10, an arm-type sawing machine for mines comprises a traveling guide rail 10, a main machine 20 movably arranged on the traveling guide rail 10, a sawing mechanism arranged on the main machine 20, and a first driving mechanism for driving the main machine 20 to travel on the traveling guide rail 10, wherein the main machine 20 is driven to move on the traveling guide rail 10 by the first driving mechanism, so that the pushing of the sawing mechanism is realized.

In the invention, the sawing mechanism comprises a belt arm 50, wherein the belt arm 50 comprises an arm body, a driving wheel 51 rotatably arranged on the arm body, a driven wheel 52 rotatably arranged on the arm body and a saw belt 70 sleeved on the driving wheel 51 and the driven wheel 52, and the saw belt 70 is driven to do circular motion by the rotation of the driving wheel 51 so as to realize the cutting of stone.

In the invention, the sawing machine further comprises a second driving mechanism for driving the driving wheel 51 to rotate and a third driving mechanism for driving the belt arm 50 to swing, wherein the second driving mechanism comprises a second rotating shaft 41 and a second motor 40 for driving the second rotating shaft 41 to rotate, the driving wheel 51 is arranged on the second rotating shaft 41, in order to enable the driving wheel 51 and the driven wheel 52 to be positioned on the same plane, stable transmission of the saw belt 70 is realized, the mounting plate 90 on the arm body is arranged in a staggered manner with the arm body, the mounting plate 90 and the arm body are positioned on different planes, the driving wheel 51 is arranged on the mounting plate 90, and the driven wheel 52 is arranged on the arm body.

In the present invention, the third driving mechanism includes a third rotating shaft 63 and a third motor 60 for driving the third rotating shaft 63 to rotate, the belt arm 50 is mounted on the third rotating shaft 63, specifically, the mounting plate 90 is disposed on the third rotating shaft 63, the second rotating shaft 41 is disposed coaxially with the third rotating shaft 63, the third rotating shaft 63 is sleeved outside the second rotating shaft 41 or the third rotating shaft 63 is inserted into the second rotating shaft 41, and the saw arm 50 is disposed perpendicular to the second rotating shaft 41. In the embodiment, the third rotating shaft 63 is a hollow shaft, and is coaxially sleeved outside the second rotating shaft 41, the third rotating shaft 63 and the second rotating shaft 41 rotate independently and are not interfered with each other, so that the second rotating shaft rotates smoothly, and a bearing assembly is arranged between the third rotating shaft 63 and the second rotating shaft 41.

As a preferred mode of the present invention, the second rotating shaft 41 is rotatably mounted on the driving box 22 through a bearing, the second motor 40 is in transmission connection with the second rotating shaft 41 through a transmission belt, and the second rotating shaft 41 is disposed in a transverse direction. As a preferred mode of the present invention, the third rotating shaft 63 is a hollow shaft, the third rotating shaft 63 is rotatably sleeved on the second rotating shaft 41 through the slewing bearing 61, the outer ring of the slewing bearing 61 is in transmission connection with the third motor 60 through the speed reducer 61, specifically, the outer ring of the slewing bearing 61 and the third rotating shaft 63 can be fixed together, the inner ring of the slewing bearing 61 is sleeved on the second rotating shaft 63 and fixedly connected with the frame 10, the speed reducer is in a turbine worm structure, and the slewing bearing structure is adopted, so that the present invention has the advantages of light weight, simple structure and convenient maintenance.

As a preferred embodiment of the present invention, the first driving mechanism includes a first motor 30 and a driving gear 35 provided on an output shaft of the first motor 30, the traveling rail 10 is provided with a row of teeth 11 engaged with the driving gear 35, and the row of teeth 11 is provided along a longitudinal direction of the traveling rail 10. As a preferable mode of the present invention, a guide wheel 23 for traveling on the traveling rail 10 is provided at the lower end of the main body 20, and a support rail is provided on the traveling rail 10 corresponding to the guide wheel 23.

As a preferred mode of the present invention, the first motor 30 is fixed on a mounting seat 31, the mounting seat 31 is slidably disposed on the host 20 up and down, a guide beam 32 is disposed on the host 20, the guide beam 32 is disposed along a vertical direction, a guide block 33 matched with the guide beam 32 is disposed on the mounting seat 31, the first motor further comprises a cylinder or an oil cylinder 34 for driving the mounting seat 31 to move up and down, the cylinder or the oil cylinder 34 is disposed along a vertical direction, a cylinder body of the cylinder or the oil cylinder 34 is fixed on the frame 21, and a piston rod of the cylinder or the oil cylinder 34 is connected to the mounting seat 31. By adopting the structure, when the stone sawing machine is assembled, the whole driving gear 35 is driven to move up and down through the air cylinder or the oil cylinder 34, so that the driving gear 35 is close to the tooth row 11, the tooth row 11 and the driving gear 35 are aligned through adjusting the position of the main machine 20, and then, the driving gear 35 is downwards adjusted through the air cylinder or the oil cylinder 34, so that the driving gear 35 is meshed with the tooth row 11.

As a preferable mode of the present invention, the length direction of the running rail 10 is taken as a longitudinal direction, the width direction of the running rail 10 is taken as a transverse direction, the host 20 comprises a frame 21 and a driving box 22 arranged on the frame 21, the second driving mechanism and the third driving mechanism are both arranged on the driving box 22, the driving box 22 is arranged on the frame 21 in a manner capable of moving along the transverse direction, and the present invention further comprises a transverse moving mechanism for driving the driving box 22 to move along the transverse direction.

As a preferred mode of the present invention, the frame 21 is provided with two guide beams 81, in an embodiment, two guide beams 81 are transversely arranged, the driving box 22 is slidably arranged on the guide beams 81, the traversing mechanism comprises a screw rod 82 and a screw rod nut 83 matched on the screw rod 82, the screw rod 82 is transversely arranged, a driving source for driving the screw rod 82 to rotate is connected on the screw rod 82 through a coupling, the screw rod nut 83 is fixedly connected with the driving box 22, and in particular, the screw rod nut 83 is mounted on a supporting plate 221 of the driving box. As a preferred form of the invention, the drive source is a motor or a rotating handle 84. By adopting the structure, the handle 84 is rotated to drive the screw nut 83 and the driving box 22 to carry out transverse displacement, when the host 20 is lifted and positioned and needs fine adjustment, the function can be directly utilized to realize without adjusting the walking guide rail 10, thereby greatly reducing the labor intensity and saving the operation time.

The invention also provides a saw band 70, which comprises a rope body and a plurality of first knots 73 penetrating through the rope body, wherein the first knots 73 are arranged at equal intervals, diamonds 74 are inlaid on the first knots 73, the first knots 73 are injected and bonded into the band body through an elastomer, and the first knots 73 extend out of the elastomer and form a first saw cut surface 741. In a preferred embodiment of the present invention, the rope body is a steel wire rope 72, the elastic body is a rubber 71, the first blocks 73 are mounted on the steel wire rope 72, and then the steel wire rope is placed in an injection mold, and the plurality of first blocks 73 and the rubber 71 are injected and bonded together to form a flat belt body structure, and the longitudinal section (section along the vertical direction) of the belt body is rectangular.

In a preferred embodiment of the present invention, the belt body has a driving surface sleeved on the driving wheel and a grinding surface opposite to the driving surface, the first nub 73 protrudes from the grinding surface and forms the first saw cut surface 741, the first saw cut surface 741 is embedded with diamond, the first saw cut surface 741 is parallel to the grinding surface, and the first saw cut surface 741 extends from one end to the other end in the width direction of the belt body.

As a preferable mode of the present invention, the belt further comprises a second block injected into the belt body, diamond is inlaid on the second block, the second block extends out from the grinding surface and forms a second saw section 742 and a third saw section 743, the second saw section 742 is arranged at one end of the belt body in the width direction, the third saw section 743 is arranged at the other end of the belt body in the width direction, and a gap is formed between the second saw section 742 and the third saw section 743. With this structure, the disadvantage of relatively rapid abrasion at the two ends of the first saw cut surface 741 is overcome by the second saw cut surface 742 and the third saw cut surface 743, so that the sawing gap of the stone is more uniform, and smooth pushing of the saw belt 70 is ensured.

In the present embodiment, the belt arm 50 includes an arm body, a driving wheel 51 rotatably provided on the arm body, a driven wheel 52 rotatably provided on the arm body, and a saw belt 70 fitted over the driving wheel 51 and the driven wheel 52, the saw belt 70 being a non-chain belt.

As a preferred mode of the present invention, the circumference of the arm body is provided with a bar-shaped groove along the trend of the saw belt 70, in an embodiment, the upper part and the lower part of the arm body are provided with bar-shaped grooves, the arm body further comprises a wear-resistant guide bar 75 installed on the opening of the bar-shaped groove, the wear-resistant guide bar 75 is locked on the arm body through a screw, a water storage cavity 76 is enclosed between the bar-shaped groove and the wear-resistant guide bar 75, in an embodiment, the upper part and the lower part of the arm body respectively form a water storage cavity 76, and the two water storage cavities are respectively connected to a water source through an upper water inlet hole 53 and a lower water inlet hole 54. The saw belt 70 is sleeved on the wear-resistant guide strip 75, a plurality of spray holes 77 communicated with the water storage cavity 76 are formed in the wear-resistant guide strip 75, and the plurality of spray holes 77 are distributed along the length direction of the wear-resistant guide strip 75. By adopting the technical scheme of the invention, when the saw belt 70 works, cooling water is sprayed onto the saw belt 70 through the water storage cavity 76 and the spray holes 77, so that the effects of lubrication, cooling and chip removal are achieved. With this structure, the saw band 70 and the saw arm 50 are connected without lubrication by using lubricating grease, so that the structure is simpler, and the cutting cost can be effectively reduced.

The invention also provides a method for sawing the mine stone, which comprises the following steps:

A. paving a walking guide rail 10, and installing a host 20 on the walking guide rail 10; specifically, the driving gear 35 on the output shaft of the first motor 30 is meshed with the tooth row 11 of the walking guide rail 10;

B. the main machine 20 is driven to walk to the position where stone is to be sawed through the first driving mechanism, the belt arm 50 is driven to swing through the third driving mechanism, the belt arm 50 is enabled to be propped against the stone, the saw belt 70 is driven to rotate to saw the stone through the second driving mechanism, in the sawing process, the belt arm 50 is driven to feed forwards and downwards through the first driving mechanism and the third driving mechanism, after the belt arm 50 is fed to a preset depth, the main machine 20 is driven to retract through the first driving mechanism, in the retracting process of the main machine 20, the belt arm 50 simultaneously enables the stone to be sawed, the formed section is smooth, and the cutting marks of the cutting slits and the cuts at the bottommost part are approximately horizontal lines.

By adopting the technical scheme of the invention, the invention has the following advantages:

1. the arm-type sawing machine adopts a plurality of steel wire ropes to penetrate through the diamond-embedded blocks, and then rubber is injected between the diamond-embedded blocks to connect the diamond-embedded blocks, so that the diamond saw belt with the cutting function is formed. The diamond saw belt is utilized to replace a chain with a hard alloy cutter block. When the diamond saw belt is adopted for sawing, the diamond on the agglomeration cuts the stone at a very high linear speed; the sawing process is relatively stable, the sawing efficiency is high-!

2. The diamond saw belt is formed by stringing a plurality of steel wires and then casting, so that a special chain is not needed to drive, and the diamond saw belt has a simple structure and is very light; particularly, the advantages of the diamond saw band can be reflected during replacement and maintenance.

3. When the diamond saw belt runs and cuts on the belt arm of the sawing machine at high speed, water is needed to cool the diamond saw belt; therefore, a wear-resistant guide strip 75 is designed on the belt arm 50, and a water tank is formed after the wear-resistant guide strip 75 is matched with the saw belt 70, and the lubrication and cooling effects on the saw belt 70 can be realized by utilizing the water tank; the combination mode of the belt arm 50 and the saw belt 70 does not need to be lubricated by lubricating grease, so that the structure is simpler; in particular the cutting costs are significantly reduced.

4. After sawing one mining surface, the arm-type sawing machine can realize sawing work of the other mining surface without hoisting equipment again and paving a guide rail, is convenient to saw, greatly reduces the labor intensity of workers and saves the time for adjusting equipment.

5. The belt arm 50 has a left-right fine tuning function, so that the left-right fine tuning of the belt arm is not required to be performed through frequent hoisting equipment and moving a traveling guide rail during sawing; the trimming function of the strap arm 50 can be achieved by only slightly rotating the handle 84.

6. The front end of the belt arm 50 has a simple structure and light weight; therefore, the swing arm mechanism with the arm 50 does not need to adopt a special speed reducer box, the sawing machine with the arm can realize the required rotation function by adopting a relatively simple rotation mechanism, and meanwhile, the rotation mechanism is simplified, and the maintenance and the repair aspects are relatively simple.

The form of the present invention is not limited to the illustrations and examples, and any person who performs a similar idea of the present invention should be regarded as not departing from the scope of the patent of the invention.

Claims (6)

1. Saw band, its characterized in that: the elastic rope comprises a rope body and a plurality of first blocks penetrating through the rope body, wherein diamonds are inlaid on the first blocks, the first blocks are injected and bonded into a belt body through an elastic body, and the first blocks extend out of the elastic body and form a first saw section;

the longitudinal section of the belt body is rectangular;

the rope body is a steel wire rope, and the elastic body is rubber;

the belt body is annular, the belt body is provided with a driving surface sleeved on the driving wheel and a grinding surface opposite to the driving surface, the first caking extends out of the grinding surface and forms a first saw cut surface, the first saw cut surface is arranged in parallel with the grinding surface, and the first saw cut surface extends from one end to the other end of the belt body in the width direction;

the belt comprises a belt body, and is characterized by further comprising a second block which is injected into the belt body, wherein the second block is inlaid with diamond, the second block extends out of a grinding surface and forms a second saw cutting surface and a third saw cutting surface, the second saw cutting surface is arranged at one end of the width direction of the belt body, the third saw cutting surface is arranged at the other end of the width direction of the belt body, and a gap is formed between the second saw cutting surface and the third saw cutting surface.

2. The arm comprises an arm body, a driving wheel rotatably arranged on the arm body and a driven wheel rotatably arranged on the arm body, and is characterized in that: the saw belt is sleeved on the driving wheel and the driven wheel, and the saw belt is adopted in the saw belt in claim 1.

3. The belt arm of claim 2, wherein: the saw band is sleeved on the wear-resistant guide strip, a plurality of spray holes communicated with the water storage cavity are formed in the wear-resistant guide strip, the spray holes are distributed along the length direction of the wear-resistant guide strip, and the water storage cavity is connected to a water source.

4. Saw cutting machine, including walking guide rail, movably set up the host computer on the walking guide rail, set up saw cutting mechanism on the host computer and be used for driving the first actuating mechanism of host computer walking on the walking guide rail, its characterized in that: the sawing mechanism comprises a belt arm, the belt arm comprises an arm body, a driving wheel rotatably arranged on the arm body, a driven wheel rotatably arranged on the arm body, and a saw belt sleeved on the driving wheel and the driven wheel, the sawing machine further comprises a second driving mechanism for driving the driving wheel to rotate and a third driving mechanism for driving the belt arm to swing, and the saw belt adopts the saw belt of claim 1.

5. Sawing machine as claimed in claim 4, characterized in that: the saw arm is arranged along the length direction of the walking guide rail.

6. Sawing machine as claimed in claim 5, characterized in that: the second driving mechanism comprises a second rotating shaft and a second motor for driving the second rotating shaft to rotate, the driving wheel is arranged on the second rotating shaft, the third driving mechanism comprises a third rotating shaft and a third motor for driving the third rotating shaft to rotate, the belt arm is arranged on the third rotating shaft, the second rotating shaft and the third rotating shaft are coaxially arranged, the third rotating shaft is sleeved outside the second rotating shaft or the third rotating shaft is inserted in the second rotating shaft, and the saw arm is perpendicular to the second rotating shaft.