CN211164688U - Slabstone cutting machine - Google Patents

Abstract

The utility model relates to a slabstone cutting machine, which comprises a left side plate, a right side plate and a base, wherein the base is positioned between the left side plate and the right side plate, the base is provided with a bottom plate, the top of the left side plate and the top of the right side plate are respectively fixed with a left box body and a right box body, a cross beam is arranged between the left box body and the right box body, a square frame body is arranged on the cross beam in a sliding way, and a cutting assembly for cutting slabstone is arranged on the; the crossbeam bottom is fixed with the slider, and slider and left box body sliding fit are equipped with the first drive assembly who is used for ordering about its length direction along waiting to cut slabstone on the crossbeam and remove. The utility model discloses in, after the slabstone that is close to cutting assembly one side is finished by the cutting, the staff only need order about the crossbeam through first drive assembly and remove along the length direction who treats the cutting slabstone, cutting assembly on the crossbeam and the slabstone treat that the cutting position corresponds can, at this in-process, the staff need not manual propulsion and treats the cutting slabstone, be favorable to the staff to cutting the slabstone of keeping away from cutting assembly one side.

Description

Slabstone cutting machine

Technical Field

The utility model belongs to the technical field of the cutting device technique and specifically relates to a slabstone cutting machine is related to.

Background

Tiles and slabs are generally used in the modern architectural decoration industry, and in the use project, workers usually need to cut tiles or slabs to meet the use requirements of different occasions. Therefore, the slabstone cutting machine takes place.

The utility model discloses a chinese utility model patent that bulletin number is CN204322318U discloses a multi-functional ceramic tile, slabstone cutting machine, it includes the bottom plate, the slip optical axis guide rail, the slip module, the angle mill, a left side, right side fixed stay curb plate and left and right corner curb plate, both sides at the bottom plate are provided with a left side, right side fixed stay curb plate, be connected through left corner curb plate between left side fixed stay curb plate and the bottom plate, be connected through right corner curb plate between right side fixed stay curb plate and the bottom plate, on a left side, be fixed with the slip optical axis guide rail between the right side fixed stay curb plate, the slip optical axis guide rail cooperatees with the slip module, the handle of slip module. The utility model discloses an at chamfer or cutting process, the angle mill moves along sliding optical axis guide rail all the time, has improved work efficiency.

However, in the technical scheme, the angle grinder for cutting the stone slab cannot freely move along the length direction of the stone slab to be cut, when the stone slab is cut, a worker is required to manually advance the stone slab to be cut to one side of the angle grinder, otherwise, the stone slab far away from one side of the angle grinder cannot be cut.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a slabstone cutting machine, the cutting assembly who is used for cutting the slabstone among this slabstone cutting machine can freely remove along the length direction who treats the cutting slabstone in cutting process, and when cutting slabstone, the staff need not manual propulsion and treats the cutting slabstone to this is convenient for the staff to cut the slabstone of keeping away from cutting assembly one side.

The above technical purpose of the present invention can be achieved by the following technical solutions: a stone slab cutting machine comprises a left side plate, a right side plate and a base, wherein the base is positioned between the left side plate and the right side plate, a bottom plate for placing a stone slab to be cut is installed on the base, a left box body and a right box body are respectively fixed to the top of the left side plate and the top of the right side plate, a cross beam is installed on the left box body and the right box body together, a square frame body in sliding connection with the cross beam is sleeved on the cross beam, and a cutting assembly for cutting the stone slab to be cut on the bottom plate is installed on the square frame body; the utility model discloses a slabstone cutting machine, including crossbeam, left side board, slider, left box body, crossbeam, first drive assembly who is used for ordering about the crossbeam along the length direction free movement of waiting to cut slabstone is installed jointly on the crossbeam is close to the bottom surface of left side board one end and is fixed with the slider, slider and left box body sliding fit, install jointly on the crossbeam is close to the one end of right side board and the right box body and.

By adopting the technical scheme, when the stone slab is cut, a worker only needs to push the square frame body along the cross beam and then cut the stone slab through the cutting assembly; after the slabstone that is close to cutting assembly one side is accomplished by the cutting, the staff only need can order about the crossbeam through first drive assembly along the length direction free movement who treats the cutting slabstone, until cutting assembly on the crossbeam and slabstone treat that the cutting position corresponds, close first drive assembly can, at this in-process, the staff need not manual propulsion and treats the cutting slabstone to this is convenient for the staff to the slabstone of keeping away from cutting assembly one side cuts.

The utility model discloses further set up to: the first driving assembly comprises a shell fixed at one end of the beam close to the right side plate, a first motor fixed on the side wall of the shell, a first driving wheel fixed at the end part of an output shaft of the first motor, a first rotating rod installed in the shell and connected with the inner side walls of the two sides of the first rotating rod in a rotating mode, a first driven wheel sleeved on the first rotating rod and fixed with the first rotating rod, a first closed transmission belt used for connecting the first driven wheel and the first driving wheel, a first gear sleeved on the first rotating rod and fixed with the first rotating rod, and a first rack fixed in the right box body and meshed with the first gear.

Through adopting above-mentioned technical scheme, when using first drive assembly to order about the crossbeam along the length direction free movement who waits to cut slabstone, the staff only needs to open first motor, first motor drive after the work rotates rather than the fixed first action wheel of output shaft, under the transmission of first closed drive belt, first follow driving wheel rotates along with first action wheel is synchronous, and simultaneously, first follow driving wheel drives rather than fixed first rotation pole and takes place to rotate, first rotation pole then drives rather than fixed first gear and takes place to rotate, and first rack is fixed in the right box body, with this make first gear roll along the length direction of first rack, thereby make casing and crossbeam all follow the length direction free movement who waits to cut slabstone.

The utility model discloses further set up to: the cutting assembly is including being fixed in the sleeve on the square frame lateral wall, install in the sleeve and rather than the complex bracing piece that slides, be fixed in the upper plate body of upper end of the support bar, be fixed in the second motor on the upper plate body, be fixed in the second action wheel of the output shaft tip of second motor, be fixed in the lower plate body of bracing piece lower extreme, be fixed in the protection casing on the lateral wall of lower plate body, be fixed in the fixed plate on the lower plate body bottom surface, run through the second dwang that sets up on the fixed plate and rotate the connection with the protection casing, be fixed in second dwang one end and be located the cutting blade of protection casing, be fixed in the second of the second dwang other end from the driving.

Through adopting above-mentioned technical scheme, when using cutting assembly to cut the slabstone, the staff only need open the second motor, second motor drive after the work rotates rather than the fixed second action wheel of output shaft, under the effect of the closed drive belt of second, the second is followed the synchronous rotation of second action wheel, the second action wheel then drives rather than fixed second dwang and rotates, the second dwang drives rather than fixed cutting blade and rotates to this cuts the slabstone.

The utility model discloses further set up to: and a baffle plate for blocking waste residues generated in the cutting process of the stone plate is fixed at the bottom of the protective cover.

Through adopting above-mentioned technical scheme, through setting up the baffle in the protection casing bottom to this waste residue to slabstone cutting in-process production has played good effect of blockking, has avoided pounding staff's the condition emergence because of the waste residue splashes.

The utility model discloses further set up to: and a water spray pipe communicated with an external water source is fixed on the side wall of the protective cover.

By adopting the technical scheme, in the cutting process, a worker can spray water to the cutting blade through the water spray pipe to reduce the temperature of the cutting blade in the cutting process, so that the service life of the cutting blade is prolonged; in addition, the dust content generated in the stone plate cutting process is reduced by spraying water to the cutting blade.

The utility model discloses further set up to: and an air cylinder is fixed on the side wall of the square frame body, and the upper end of a piston rod of the air cylinder is fixed with the bottom surface of the upper plate body.

By adopting the technical scheme, when the stone plate is cut, a worker only needs to control the upper plate body to ascend or descend through the air cylinder, so that the worker can conveniently adjust the height of the cutting blade, and the stone plate is favorably cut; after the slabstone cutting finishes, staff's accessible cylinder control cutting blade's height to make cutting blade keep away from the slabstone, be favorable to the staff to cut other positions of slabstone.

The utility model discloses further set up to: the protective housing that is used for protecting the closed drive belt of second is fixed with jointly on last plate body and the lower plate body, second action wheel, second are followed driving wheel and second and are all located the protective housing from driving wheel and second closed drive belt.

Through adopting above-mentioned technical scheme, the protective housing has played good guard action to second action wheel, second from driving wheel and the closed drive belt of second to this has avoided exposing in the air and accelerating three's ageing speed because of second action wheel, second from driving wheel and the closed drive belt of second, thereby makes three's life can prolong.

The utility model discloses further set up to: the upper surface of the bottom plate is rough.

Through adopting above-mentioned technical scheme, the bottom plate upper surface is coarse to this makes the coefficient of friction increase of bottom plate upper surface, thereby makes the bottom plate and the frictional force increase between the slabstone of waiting to cut, is favorable to the slabstone to remain stable in the cutting process, is difficult for taking place the offset.

To sum up, the utility model discloses a beneficial technological effect does:

when the stone slab is cut, workers only need to push the square frame body along the cross beam and then cut the stone slab through the cutting assembly; after the stone slab close to one side of the cutting assembly is cut, a worker can drive the beam to freely move along the length direction of the stone slab to be cut only through the first driving assembly until the cutting assembly on the beam corresponds to the part of the stone slab to be cut, and the first driving assembly is closed;

when the first driving assembly is used for driving the cross beam to freely move along the length direction of the stone slab to be cut, a worker only needs to turn on the first motor, the first motor drives the first driving wheel fixed with the output shaft of the first motor to rotate after working, the first driven wheel synchronously rotates along with the first driving wheel under the transmission action of the first closed transmission belt, meanwhile, the first driven wheel drives the first rotating rod fixed with the first driven wheel to rotate, the first rotating rod drives the first gear fixed with the first rotating rod to rotate, and the first rack is fixed in the right box body, so that the first gear rolls along the length direction of the first rack, and the shell and the cross beam both freely move along the length direction of the stone slab to be cut;

when the stone plate is cut, a worker only needs to control the upper plate body to ascend or descend through the air cylinder, so that the height of the cutting blade can be conveniently adjusted by the worker, and the stone plate is favorably cut; after the slabstone cutting finishes, staff's accessible cylinder control cutting blade's height to make cutting blade keep away from the slabstone, be favorable to the staff to cut other positions of slabstone.

Drawings

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

FIG. 2 is a schematic view of the first driving assembly of the present invention;

FIG. 3 is an enlarged partial schematic view of portion A of FIG. 1;

fig. 4 is a schematic structural diagram for highlighting the second driving assembly of the present invention.

Reference numerals: 1. a left side plate; 11. a left box body; 2. a right side plate; 21. a right box body; 3. a base; 31. a base plate; 311. a strip-shaped groove; 4. a cross beam; 41. a guide block; 42. a square frame body; 421. a chute; 43. a slider; 5. a first drive assembly; 51. a housing; 52. a first motor; 53. a first drive wheel; 54. a first rotating lever; 55. a first driven wheel; 56. a first endless drive belt; 57. a first gear; 58. a first rack; 6. a cutting assembly; 61. a sleeve; 611. a support bar; 612. a cylindrical through hole; 62. an upper plate body; 621. a second motor; 622. a protective shell; 63. a second drive wheel; 64. a lower plate body; 65. a protective cover; 651. a baffle plate; 66. a fixing plate; 67. a second rotating lever; 671. a cutting blade; 68. a second driven wheel; 69. a second endless drive belt; 7. a cylinder; 8. a water spray pipe; 9. a second drive assembly; 91. a third motor; 92. a first bevel gear; 93. a third rotating rod; 94. a second bevel gear; 95. a second gear; 96. a second rack.

Detailed Description

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

As shown in fig. 1 and fig. 2, a slabstone cutting machine disclosed by the present invention comprises a left side plate 1, a right side plate 2 and a base 3. The left side plate 1 is a rectangular plate structure, and the bottom surface of the left side plate is fixed with the ground. The right side plate 2 is a rectangular plate structure, the bottom surface of the right side plate is fixed with the ground, and the right side plate 2 and the left side plate 1 are arranged in parallel. The base 3 is rectangular, the bottom of the base is fixed on the ground, the bottom of the base is arranged between the left side plate 1 and the right side plate 2, and the base 3 is provided with a bottom plate 31. Bottom plate 31 is rectangle platelike structure, and its bottom surface and the upper surface of base 3 are fixed for place and wait to cut slabstone, and bottom plate 31's upper surface is crude, thereby makes the coefficient of friction increase of bottom plate 31 upper surface, thereby makes the frictional force increase between bottom plate 31 and the slabstone, is favorable to making slabstone to keep the stability in cutting process. The bottom plate 31 is provided with a strip-shaped groove 311, the cross section of the strip-shaped groove 311 is rectangular, and the strip-shaped grooves 311 are arranged in a plurality of parallel to each other, so that the workers can cut different parts of the same stone slab conveniently.

As shown in fig. 1, a left box 11 is fixed on the upper surface of the left side plate 1, the left box 11 is rectangular, and the left box 11 is hollow and has an open top. The upper surface of the right side plate 2 is fixed with a right box body 21, the right box body 21 is cuboid, and the inside of the right box body 21 is hollow and is provided with an opening at the top. The left box body 11 and the right box body 21 are jointly provided with a cross beam 4, the cross beam 4 is of a cuboid structure, and the bottom surface of the cross beam 4 is flush with the upper surface of the left box body 11 and the upper end surface of the right box body 21.

As shown in fig. 3, the cross beam 4 is provided with a guide block 41 and a square frame 42, the cross section of the guide block 41 is rectangular, the longitudinal direction of the guide block 41 is parallel to the longitudinal direction of the cross beam 4, and the guide block 41 is fixed to the side wall of the cross beam 4. The cross section of the square frame 42 is square ring shape, which is sleeved on the beam 4, and the inner side walls of the two sides of the square frame 42 are both provided with sliding grooves 421. The cross section of the sliding groove 421 is rectangular, the extending direction of the sliding groove 421 is the same as the length direction of the guide block 41, and the sliding groove 421 is in sliding fit with the guide block 41, so that the square frame 42 can make reciprocating linear motion along the cross beam 4.

As shown in fig. 1, the cross beam 4 is further provided with a slider 43 and a first driving assembly 5, the slider 43 is of a rectangular block structure, the upper surface of the slider 43 is fixed to the bottom surface of the cross beam 4, and the side walls on the two sides of the slider 43 are respectively attached to the inner side wall of the left box body 11, so that the slider 43 is in sliding fit with the left box body 11. As shown in fig. 2, the first driving assembly 5 includes a housing 51, a first motor 52, a first driving pulley 53, a first rotating lever 54, a first driven pulley 55, a first closing transmission belt 56, a first gear 57, and a first rack 58. The housing 51 has a rectangular parallelepiped shape, and the housing 51 is hollow, and is fixed to a side wall of the end of the cross member 4 away from the slider 43. The first motor 52 is fixed to a side wall of the housing 51 with its axial direction parallel to the longitudinal direction of the cross member 4. The axis of the first driving wheel 53 coincides with the axis of the output shaft of the first motor 52, the first driving wheel 53 is sleeved on and fixed with the output shaft of the first motor 52, and the first driving wheel 53 is located in the housing 51. The axis of the first rotating rod 54 is parallel to the axis of the output shaft of the first motor 52, and the first rotating rod 54 is installed in the housing 51 and is rotatably connected with the inner side walls of the two sides of the housing 51. The axis of the first driven wheel 55 coincides with the axis of the first rotating rod 54, and the first driven wheel 55 is sleeved on and fixed to the first rotating rod 54. The first closed transmission belt 56 is made of a rubber material and is in a closed ring shape, the first closed transmission belt 56 respectively bypasses the first driving wheel 53 and the first driven wheel 55, and the inner surface of the first closed transmission belt 56 respectively abuts against the wheel surfaces of the first driving wheel 53 and the first driven wheel 55. The axis of the first gear 57 coincides with the axis of the first rotating rod 54, and is sleeved on and fixed to the first rotating rod 54. The length direction of the first rack 58 is the same as the length direction of the right box 21, and the first rack 58 is fixed inside the right box 21 and engaged with the first gear 57.

As shown in fig. 1 and 3, the cutting assembly 6 is mounted on the square frame 42, and the cutting assembly 6 includes a sleeve 61, a support rod 611, an upper plate 62, a second motor 621, a second driving wheel 63, a lower plate 64, a protective cover 65, a fixing plate 66, a second rotating rod 67, a cutting blade 671, a second driven wheel 68, and a second closing transmission belt 69. The sleeve 61 is in a rectangular parallelepiped shape, and is fixed on a side wall of the square frame 42 away from the beam 4, a cylindrical through hole 612 penetrates through the sleeve 61, the cross section of the cylindrical through hole 612 is circular, and the axis of the cylindrical through hole 612 is vertical. The support rod 611 is a round rod-shaped structure, the axis of the support rod 611 coincides with the axis of the cylindrical through hole 612, and the support rod 611 is installed in the cylindrical through hole 612 and is in sliding fit with the cylindrical through hole 612. The upper plate 62 is a rectangular plate-shaped structure, which is horizontally disposed, and the bottom surface of the upper plate 62 is fixed to the upper end of the support bar 611. The second motor 621 is fixed on the upper surface of the upper plate 62, and the axial direction of the output shaft of the second motor 621 is parallel to the length direction of the base plate 31. The axis of the second driving wheel 63 coincides with the axis of the output shaft of the second motor 621, and the second driving wheel 63 is sleeved on and fixed with the output shaft of the second motor 621. The lower plate 64 has a rectangular plate-like structure, and is horizontally disposed, and the upper surface of the lower plate 64 is fixed to the lower end of the support bar 611. The protective cover 65 is fixed on the side wall of the lower plate body 64 far away from the second driving wheel 63, and the bottom of the protective cover 65 is open. The fixing plate 66 is a rectangular plate-shaped structure, and is vertically disposed, and an upper surface of the fixing plate 66 is fixed to a bottom surface of the lower plate 64. The second rotating rod 67 is a round rod-shaped structure, the axial direction of the second rotating rod 67 is parallel to the axial direction of the second driving wheel 63, and the second rotating rod 67 sequentially penetrates through the side walls of the fixing plate 66 and the protective cover 65 and is rotatably connected with the fixing plate and the protective cover. The cutting blade 671 is circular, the axis of the cutting blade 671 coincides with the axis of the second rotating rod 67, the cutting blade 671 is sleeved on the second rotating rod 67 and fixed with the second rotating rod 67, the cutting blade 671 is located in the protective cover 65, and the bottom of the cutting blade 671 extends out of the opening in the bottom of the protective cover 65. The axis of the second driven wheel 68 coincides with the axis of the second rotating rod 67, the second driven wheel 68 is sleeved on the second rotating rod 67 and fixed with the second rotating rod 67, and the second driven wheel 68 and the second driving wheel 63 are located on the same side of the beam 4. The second closed transmission belt 69 is made of a rubber material and is in a closed ring shape, the second closed transmission belt 69 respectively bypasses the second driving wheel 63 and the second driven wheel 68, and the inner surface of the closed transmission belt is respectively abutted against the wheel surfaces of the second driving wheel 63 and the second driven wheel 68.

As shown in fig. 3, a cylinder 7 is fixed on the side wall of the square frame 42, a piston rod of the cylinder 7 extends and retracts in the vertical direction, and the upper end of the piston rod of the cylinder 7 is fixed to the bottom surface of the upper plate 62, so that the worker can adjust the height of the cutting assembly 6 (see fig. 1) by controlling the cylinder 7. Referring to fig. 2, when the slate on the bottom plate 31 needs to be cut, the worker only needs to turn on the first motor 52, the first motor 52 drives the first driving wheel 53 fixed to the output shaft of the first motor to rotate, under the driving action of the first closed driving belt 56, the first driven wheel 55 is rotated, meanwhile, the first driven wheel 55 drives the first rotation rod 54 fixed thereto to rotate synchronously, the first rotation rod 54 drives the first gear 57 fixed thereto to rotate, the first rack 58 is fixed in the right box 21 and engaged with the first gear 57, so that the first gear 57 can drive the housing 51 and the beam 4 to move freely along the length direction of the right box 21 (in the process, the slider 43 at the bottom of the beam 4 moves freely along the left box 11), and the first motor 52 is turned off until the cutting blade 671 corresponds to the portion of the slate to be cut. When cutting blade 671 corresponds with the position of waiting to cut of slabstone, the staff only need open second motor 621, second motor 621 work back is electronic to rotate rather than the fixed second action wheel 63 of output shaft, under the belt drive effect of second closed drive belt 69 for second from driving wheel 68 takes place to rotate, and second from driving wheel 68 drives and rotates rather than fixed second dwang 67 synchronous, and simultaneously, second dwang 67 drives rather than fixed cutting blade 671 and takes place to rotate. Subsequently, the worker only needs to adjust the cylinder 7, so that the piston rod of the cylinder 7 is shortened, and thus the piston rod of the cylinder 7 drives the upper plate body 62 to move downwards, in the process, the upper plate body 62 pushes the lower plate body 64 to move downwards through the supporting rod 611, and when the cutting blade 671 is close to the top of the portion to be cut of the slate, the rotating cutting blade 671 can cut the slate (the worker can manually push the square frame body 42 in the cutting process, so that the cutting blade 671 moves along the extending direction of the strip-shaped groove 311 to complete cutting of the slate). After the cutting of slabstone that is close to cutting assembly 6 initial position finishes, when needing to cut the slabstone of keeping away from cutting assembly 6 initial position, the staff only needs the piston rod extension of adjustment cylinder 7, make the piston rod of cylinder 7 promote plate body 62 upward movement, under the effect of bracing piece 611, with this make plate body 64 down and with the cutting blade 671 upward movement on the plate body 64 down, keep away from the slabstone until cutting blade 671, at this moment, the staff only need open first motor 52 once more, can move crossbeam 4 and cutting assembly 6 to the position that the slabstone was waited to cut, adopt same principle afterwards to cut the slabstone.

As shown in fig. 3, the upper plate 62 and the lower plate 64 are jointly provided with a protective shell 622, a side wall of one side of the protective shell 622 is open, a side wall of the open side of the protective shell 622, a side wall of the upper plate 62 away from the cutting blade 671, and a side wall of the lower plate 64 away from the cutting blade 671 are fixed, and the second driving wheel 63, the second driven wheel 68, and the second closing transmission belt 69 are all located in the protective shell 622, so that the second driving wheel 63, the second driven wheel 68, and the second closing transmission belt 69 are well protected.

As shown in fig. 1, the protective cover 65 is provided with a baffle 651 and a spray pipe 8, the baffle 651 is a rectangular plate-shaped structure, and the upper end of the baffle 651 is fixed with the bottom of the protective cover 65, so that the situation that workers are hit due to splashing of waste residues generated in the cutting process of the stone plate is avoided. The spray pipe 8 is fixed on the protection casing 65, and its end of intaking leads to pipe and external water source intercommunication, and the play water end of spray pipe 8 is located the position that is close to cutting blade 671 to this the staff is carrying out the in-process that cuts cutting blade 671 to slabstone and is cooling down, has avoided producing the damage of higher temperature and cutting blade 671 with higher speed because of cutting blade 671 in cutting process, and, in time spray water at slabstone cutting process, be favorable to reducing the production of dust.

In order to improve the efficiency of the cutting process and reduce the working intensity of the worker, as shown in fig. 4, the worker may mount the second driving assembly 9 on the cross beam 4, and the second driving assembly 9 includes a third motor 91, a first bevel gear 92, a third rotating rod 93, a second bevel gear 94, a second gear 95 and a second rack 96. The third motor 91 is fixed to the upper surface of the square frame 42, and the axis of the output shaft of the third motor 91 is vertical. The axis of the first bevel gear 92 coincides with the axis of the output shaft of the third motor 91, and the first bevel gear 92 is sleeved on and fixed with the output shaft of the third motor 91. The third rotating lever 93 is a circular rod, and as shown in fig. 3, an axial direction of the third rotating lever 93 is parallel to a longitudinal direction of the bottom plate 31, and both ends of the third rotating lever 93 are rotatably connected to the side walls on both sides of the square frame 42. The axis of the second bevel gear 94 coincides with the axis of the third rotating rod 93, the second bevel gear 94 is sleeved on the third rotating rod 93 and fixed with the third rotating rod 93, and the second bevel gear 94 is meshed with the first bevel gear 92. The axis of the second gear 95 coincides with the axis of the third rotating rod 93, and the second gear 95 is sleeved on the third rotating rod 93 and fixed with the third rotating rod 93. The length direction of the second rack 96 is parallel to the length direction of the cross beam 4, the bottom surface of the second rack 96 is fixed to the upper surface of the cross beam 4, and the second rack 96 is engaged with the second gear 95. In the process of cutting the slate, a worker only needs to start the third motor 91, the third motor 91 is driven to rotate with the first bevel gear 92 fixed to the output shaft of the third motor after working, the first bevel gear 92 drives the second bevel gear 94 meshed with the first bevel gear to rotate, the second bevel gear 94 drives the third rotating rod 93 fixed to the third bevel gear 93 to rotate, the second gear 95 fixed to the third rotating rod 93 is driven to rotate by the second bevel gear 92, the second rack 96 meshed with the second gear 95 is fixed to the cross beam 4, the second gear 95 rolls along the second rack 96, at the moment, the square frame 42 for fixing the third motor 91 can do reciprocating linear motion along the cross beam 4, the automatic cutting of the slate by the cutting blade 671 (see fig. 1) is facilitated, and the workload of the worker is reduced.

The implementation principle of the embodiment is as follows: when the stone slab is cut, a worker only needs to push the square frame 42 along the cross beam 4 and then cut the stone slab through the cutting assembly 6; after the slabstone that is close to cutting assembly 6 one side is cut and finishes, the staff only need can order about crossbeam 4 through first drive assembly 5 and freely remove along the length direction who treats the cutting slabstone, and when cutting assembly 6 on the crossbeam 4 and the position of treating the cutting of slabstone correspond, close first drive assembly 5 can, at this in-process, the staff need not manual propulsion and treats the cutting slabstone to this is convenient for the staff to cut the slabstone of keeping away from cutting assembly 6 one side.

When the slate is cut, a worker firstly needs to start the first motor 52, the first motor 52 drives the first driving wheel 53 fixed with the output shaft of the first motor to rotate after working, the first driven wheel 55 rotates under the transmission action of the first closed transmission belt 56, the first driven wheel 55 drives the first rotating rod 54 fixed with the first driven wheel 55 to rotate, meanwhile, the first rotating rod 54 drives the first gear 57 fixed with the first rotating rod 54 to rotate, the first rack 58 meshed with the first gear 57 is fixed in the right box body 21, so that the first gear 57 rolls along the length direction of the first rack 58, the shell 51 and the cross beam 4 both move along the length direction of the bottom plate 31, and when the cutting blade 671 of the cutting assembly 6 corresponds to the to-be-cut part of the slate, the first motor 52 is turned off. When cutting blade 671 corresponds with the position of waiting to cut of slabstone, the staff need open second motor 621, second motor 621 work back drive rather than the fixed second action wheel 63 of output shaft take place to rotate, under the transmission action of second closed drive belt 69 for the second takes place to rotate from driving wheel 68, thereby makes and takes place to rotate from the fixed second dwang 67 of driving wheel 68 with the second, and simultaneously, second dwang 67 drives and takes place to rotate rather than fixed cutting blade 671. Subsequently, the worker only needs to adjust the cylinder 7, so that the piston rod of the cylinder 7 is shortened, and the piston rod of the cylinder 7 drives the upper plate body 62 to move downwards, and under the action of the support rod 611, the lower plate body 64 drives the cutting blade 671 to move towards the slate, so as to cut the slate.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a slabstone cutting machine, includes left side board (1), right side board (2) and base (3), base (3) are located between left side board (1) and right side board (2), install on base (3) and be used for placing bottom plate (31) of waiting to cut slabstone, its characterized in that: a left box body (11) and a right box body (21) are respectively fixed at the top of the left side plate (1) and the top of the right side plate (2), a cross beam (4) is jointly installed on the left box body (11) and the right box body (21), a square frame body (42) in sliding connection with the cross beam is sleeved on the cross beam (4), and a cutting assembly (6) for cutting a stone plate to be cut on the bottom plate (31) is installed on the square frame body (42); crossbeam (4) are fixed with slider (43) on being close to the bottom surface of left side board (1) one end, slider (43) and left box body (11) cooperation of sliding, install jointly on crossbeam (4) are close to the one end of right side board (2) and right box body (21) and be used for driving about crossbeam (4) along the length direction free movement's of waiting to cut slabstone first drive assembly (5).

2. A slabstone cutting machine according to claim 1, wherein: the first driving assembly (5) comprises a shell (51) fixed at one end, close to the right side plate (2), of the cross beam (4), a first motor (52) fixed on the side wall of the shell (51), a first driving wheel (53) fixed at the end part of an output shaft of the first motor (52), a first rotating rod (54) installed in the shell (51) and rotatably connected with the inner side walls of two sides of the shell, a first driven wheel (55) sleeved on the first rotating rod (54) and fixed with the first rotating rod, a first closed transmission belt (56) used for connecting the first driven wheel (55) and the first driving wheel (53), a first gear (57) sleeved on the first rotating rod (54) and fixed with the first rotating rod, and a first rack (58) fixed in the right box body (21) and meshed with the first gear (57).

3. A slabstone cutting machine according to claim 1, wherein: the cutting assembly (6) comprises a sleeve (61) fixed on the side wall of the square frame body (42), a support rod (611) which is arranged in the sleeve (61) and is in sliding fit with the sleeve (61), an upper plate body (62) fixed at the upper end of the support rod (611), a second motor (621) fixed on the upper plate body (62), a second driving wheel (63) fixed at the end part of an output shaft of the second motor (621), a lower plate body (64) fixed at the lower end of the support rod (611), a protective cover (65) fixed on the side wall of the lower plate body (64), a fixed plate (66) fixed on the bottom surface of the lower plate body (64), a second rotating rod (67) which is arranged on the fixed plate (66) in a penetrating manner and is rotatably connected with the protective cover (65), a cutting blade (671) fixed at one end of the second rotating rod (67) and positioned in the protective cover (65), a second driven wheel (68) fixed at the other ) And a second endless belt (69).

4. A slabstone cutting machine according to claim 3, wherein: and a baffle plate (651) used for blocking waste residues generated in the cutting process of the stone plate is fixed at the bottom of the protective cover (65).

5. A slabstone cutting machine according to claim 3, wherein: and a water spraying pipe (8) communicated with an external water source is fixed on the side wall of the protective cover (65).

6. A slabstone cutting machine according to claim 3, wherein: an air cylinder (7) is fixed on the side wall of the square frame body (42), and the upper end of a piston rod of the air cylinder (7) is fixed with the bottom surface of the upper plate body (62).

7. A slabstone cutting machine according to claim 3, wherein: the upper plate body (62) and the lower plate body (64) are jointly fixed with a protective shell (622) used for protecting a second closed transmission belt (69), and the second driving wheel (63), the second driven wheel (68) and the second closed transmission belt (69) are all located in the protective shell (622).

8. A slabstone cutting machine according to claim 1, wherein: the upper surface of the bottom plate (31) is rough.

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