CN109927181A - A kind of double-side saw cuts brick cutting machine - Google Patents

Abstract

The invention discloses a kind of double-side saws to cut brick cutting machine, including rack, upcut portion part, belt and incision component, upcut portion part, belt are mounted on the rack, the top of belt is arranged in upcut portion part, incision component is mounted on the rack and is located at the lower section of belt, and incision component includes the mounting plate that rack two sides are arranged in, the lower beam being arranged between mounting plate, the lower saw cutting device being arranged on lower beam；Lower to be slidably connected between saw cutting device and lower beam, lower cutting apparatus connects horizontal drive component, and cutting apparatus moves horizontally on lower beam under horizontal drive Component driver；Lower beam connection lifting driving assembly, lifting driving assembly driving lower beam on mounting plate relative to moving up and down.The present invention using up and down to cutting by the way of, in addition to other than plate upper surface cuts out a shallow grooves, the lower surface of plate also cuts out a groove and lower notches are in same upright position, the easy chipping in lower surface or broken situation when for solving plate slitting.

Description

A kind of double-side saw cuts brick cutting machine

Technical field

The present invention relates to board production equipment fields, and in particular to a kind of double-side saw cuts brick cutting machine.

Background technique

With the diversification of market people's demand, so that the plates such as ceramic material, glass material, marble material are being processed In the process, need to produce the plate of different size to meet the needs of market.Thus need to cut plate, cutting-up with And slitting, strip or other shapes of different size etc. are cut into, and the cutting and cutting-up during this are drawn on machine in saw It completes.It is usually first to saw out a shallow grooves in the upper surface of plate that saw, which draws machine, and recycling draws knife and draws one on this groove Scratch is finally again broken plate with banding machine disconnected.Such cutting process is for direct sawed-off plate, in certain journey The service life of sawing tool is improved on degree.However such cutting mode but haves the defects that certain, such as: plate cutting is complete Easily there is sheet material base chipping, collapses bottom during breaking disconnected in Cheng Hou, i.e. bottom break is but irregular not below groove Fracture or broken etc., so as to cause the decline of yield rate during sheet fabrication or the raising of breakage rate.It is certain for having For the plate of thickness, by the way of direct sawed-off plate, the abrasion of saw blade will become larger, and replacement number will be more frequent, simultaneously Also the cost of very high plate production.

Summary of the invention

In order to solve the above-mentioned technical problem, the object of the present invention is to provide a kind of double-side saws to cut brick cutting machine, by sawing Upcut portion part and incision component is arranged in brick cutting machine, makes sawing brick cutting machine carry out cutting-up to plate during using up and down to cutting Mode, in addition to other than plate upper surface cuts out a shallow grooves, the lower surface of plate also cuts out a groove and lower notches In same upright position, the easy chipping in lower surface or broken situation when for solving plate slitting.

For achieving the above object, the technical solution adopted by the present invention is as follows:

A kind of double-side saw cuts brick cutting machine, including rack, upcut portion part, belt, and the upcut portion part, belt are mounted on described In rack, the top of the belt is arranged in the upcut portion part, further includes incision component, and the incision component is mounted on described In rack and be located at the belt lower section, the incision component include the mounting plate that the rack two sides are set, setting exist Lower beam between the mounting plate, the lower saw cutting device being arranged on the lower beam；The lower saw cutting device and it is described under It is slidably connected between crossbeam, the lower cutting apparatus connects horizontal drive component, the dress of incision described in the horizontal drive Component driver It sets and is moved horizontally on the lower beam；The lower beam, which connects, goes up and down driving assembly, described in the lifting driving assembly driving Lower beam on the mounting plate relative to moving up and down, and plate is on the belt along rack inlet to rack inlet port Direction transport, and to preceding transporting after the cutting-up of the upcut portion part and incision component, upcut portion part and incision component are same When to plate carry out cutting-up.

Preferably, the lower saw cutting device includes the lower electricity of lower saw blade, lower sawing motor and the fixed lower sawing motor Machine mounting plate, the lower saw blade connect the lower sawing motor, pass through cross between the lower motor mounting plate and the lower beam Boom device or sliding block railroad connect, lower saw blade rotation described in the lower sawing motor driven, and the lower saw blade setting Direction is vertical with the belt, and consistent with the belt-conveying direction.

It is furthermore preferred that the sliding block railroad includes the protruding rail being arranged on the lower beam, is arranged in the lower electricity Groove is arranged on the side wall of the protruding rail in translator slider on machine mounting plate, is provided with and bends inwards in the translator slider Protrusion, the protrusion are slided with groove cooperation, and the protruding rail and translator slider cooperatively form sliding block railroad.

It is furthermore preferred that beam device includes the crossbeam being arranged on the lower beam, is arranged in the lower motor mounting plate On sliding block, the sliding block and the crossbeam be assembled to form beam device, and lower motor mounting plate is by sliding block on the crossbeam Sliding.

Preferably, the horizontal drive component includes lead screw and rotation drive device, and the lower motor mounting plate passes through silk Thick stick nut is mounted on the lead screw, and one end of the lead screw connects rotating driver.

It is furthermore preferred that the lead screw is ball-screw, the feed screw nut is fixedly connected with the motor mounting plate, described Feed screw nut is mounted on the screw rod, and one end of the lead screw connects the rotating driver, and the rotation drive device is Manual shaking wheel.

Preferably, the lifting driving assembly includes drive rod, rotating driver and the peace that the rack two sides are arranged in Worm reduction gear in loading board, one of them described worm reduction gear connect rotation drive device, two worm reduction gears Between connected by the drive rod.

Preferably, the worm reduction gear includes worm gear, lead screw, worm screw and feed screw nut, one end connection of the worm screw Rotation drive device, the worm screw and the worm gear are installed, and the lead screw is mounted on the worm gear, the feed screw nut Inner ring be mounted on the worm screw, the outer ring of the feed screw nut is fixedly connected with the lower beam.The rotation driving dress It sets and drives worm screw rotation, rotate worm gear using the transmission of worm and gear, the lead screw and the worm gear are assembled together realization The synchronous rotation of worm gear and lead screw, the feed screw nut have inner trapezoidal thread and lead screw to cooperate, when lead screw rotates, make feed screw nut Axial elevating movement is done along lead screw, while lower beam is moved up and down with feed screw nut.

Preferably, the worm reduction gear include the worm driver gear speed reducer that is arranged on the mounting plate of the rack side and Driven worm reduction gear on the mounting plate of the rack other side, the worm driver gear speed reducer connection rotation driving dress are set It sets, is connected between the worm driver gear speed reducer and driven worm reduction gear by the drive rod, on two worm reduction gears Worm screw connect respectively with the both ends of the drive rod by shaft coupling, it is described to realize that power is transferred to by worm driver gear speed reducer Driven worm reduction gear.

Preferably, it is connected between the both ends of the lower beam and the mounting plate by sliding block railroad, the lead screw The outer ring of nut is fixedly connected with the bottom of the lower beam.The bottom setting mounting hole of the lower beam is for installing lead screw spiral shell Mother, the worm gear and worm screw are mounted in lifting pedestal, and the feed screw nut drives the lower saw cutting device on the lower beam to do Elevating movement.

Preferably, the both ends of the lower beam extend to form connecting plate, the company along the direction vertical with the lower beam It is connected between fishplate bar and the mounting plate by sliding block railroad.

Preferably, the upcut portion part is mounted on the side of upper beam, the both ends of the upper beam along belt transport direction Be separately fixed at the two sides of the rack, the upper beam be placed in the top of the belt and with the lower beam is parallel to each other sets Set, the upcut portion part includes the upper motor mounting plate of upper saw blade, upper sawing motor and the fixed upper sawing motor, it is described on Saw blade connects the upper sawing motor, upper saw blade rotation described in the upper sawing motor driven, the direction of the upper saw blade setting It is vertical with the belt and consistent with the belt-conveying direction, pass through between the upper motor mounting plate and the upper beam Beam device or the connection of sliding block railroad.

Preferably, fixed plate is set in the one side wall of the upper beam, and the dead plate upper end is fixedly mounted lifting and drives Dynamic device, the lifting drive are lifting decelerator, and the output end of the lifting decelerator connects one end of elevating screw, The other end of the elevating screw is connect by lifting nut with the upper end of the upper motor mounting plate, outside the lifting nut Circle is fixedly mounted on the upper end of the upper motor mounting plate.The lifting nut is feed screw nut, the inner ring of the feed screw nut It is mounted on the elevating screw.The lifting decelerator drives the elevating screw rotation, and the inner ring of the lifting nut has Inner trapezoidal thread and elevating screw cooperate, and when elevating screw rotates, lifting nut are made to do axial elevating movement along elevating screw, Motor mounting plate is gone up simultaneously as feed screw nut moves up and down.

Preferably, the brick cutting machine further includes drawing blade insert, and described stroke of blade insert is arranged in the rack, described stroke of knife The top of the belt is arranged in component, and described stroke of blade insert is separately mounted to the another of the upper beam along belt transport direction Side, plate successively transport forward by the upcut portion part and a stroke blade insert on the belt.

Preferably, described stroke of blade insert includes drawing knife support, telescopic device and drawing knife, and described stroke of knife support is mounted on described One end of the side of upper beam, the telescopic device is hinged on described stroke of knife support by pin shaft, on the telescopic device The end of piston rod is connect with pivoted arm, and the extreme ends connection of the pivoted arm is described to draw knife, the side wall lower half of described stroke of knife support Portion be arranged knife rest, the knife rest includes two side walls, and the pivoted arm is placed between the two side walls of the knife rest, the pivoted arm with The two side walls of the knife rest pass through pin shaft hinge mounted together.The fixed part of the telescopic device is mounted on described stroke of knife branch In the cylinder mounting base of seat vertical sidewall, the telescopic device is one of cylinder or hydraulic cylinder, the piston rod of telescopic device Pin shaft rotation of the pivoted arm between the knife rest side wall is pushed in telescopic process, while being located at drawing for pivoted arm extreme ends Knife rises or falls in pivoted arm rotation process.

Preferably, the brick cutting machine further includes centralising device, and the top of the belt and position is arranged in the centralising device In the inlet of rack, the centralising device carries out centering to the plate.

It is furthermore preferred that the centralising device includes centering transverse slat, support base, cylinder, centering sliding block, connecting shaft and gear, The both ends of the centering transverse slat are separately mounted to the both ends of the rack, and the support base is fixed on the centering transverse slat and is used for The gear is installed, the centering sliding block includes left centering sliding block and right centering sliding block, the connecting shaft include left connecting shaft and Right connecting shaft, one end of the left connecting shaft are connect with left centering sliding block, and one end of the right connecting shaft and right centering sliding block connect It connects, is provided in the left connecting shaft and right connecting shaft and passes through tooth with gear matching thread, the left connecting shaft and right connecting shaft Wheel links together, and gear is arranged between the left connecting shaft and right connecting shaft, guarantees the left centering sliding block in both ends and right centering The synchronous slide of sliding block, wherein connecting cylinder on right centering sliding block, the piston rod of cylinder is sliding by connector and the right centering Block connection, when cylinder drives right centering sliding block sliding, since right connecting shaft is engaged with gear, right connecting shaft is described in the driving Gear rotation, the left connecting shaft for being now placed in the gear other side are moved along the opposite direction moved with right connecting shaft, are realized left The synchronous relative motion of centering sliding block and right centering sliding block or separated in synchronization move.

It is furthermore preferred that the left centering sliding block and right centering sliding block are all connected with a cylinder, two cylinders keep synchronous and turn Dynamic, two cylinders are each provided with power to left centering sliding block and right centering sliding block respectively, solve plate it is wide when one cylinder The problem of can not can not pushing large scale adobe or plate.

Preferably, the air cylinder device is also connected with horizontal drive component, and the horizontal drive apparatus includes lead screw and rotation Driving device, the air cylinder device are mounted in cylinder fixed seat, and the cylinder fixed seat is mounted on described by feed screw nut On lead screw, one end of the lead screw connects rotating driver.The rotation drive device is manual shaking wheel, is turned by manual shaking wheel Dynamic lead screw, while feed screw nut and cylinder fixed seat move horizontally on the lead screw.It is adjusted by horizontal drive apparatus The air cylinder device and left centralising device are passing through left centering sliding block when carrying out centering to plate to the position on middle transverse slat Centering is carried out to plate with right centering sliding block, then air cylinder device stops working, and left centering sliding block and right centering sliding block are in quiet Only state, driving manual shaking wheel keep centralising device and plate mobile, plate are moved to Working position, make the processing line of plate with The upper saw blade and the projection for drawing knife are located along the same line, and then belt rotation makes plate successively transport supreme saw blade and draws knife Underface.The centralising device adjusts plate to suitable position, makes saw blade and draw knife face plate to divide brick line, on Saw blade carries out cutting in the upper surface of plate and forms upper groove, and the upper groove is a shallow grooves, and plate continuation is transported forward To drawing below knife, draws knife and upper saw blade is separately positioned on the upper beam two sides and opposite upper beam is symmetrical arranged, described stroke of knife It is located just at the top of the upper groove, draw knife makes to form scratch in upper groove to upper groove progress secondary cut processing；It is described In the upper saw blade course of work incision component by horizontal drive component by the position of lower saw blade adjust to the upper saw blade just under Side, while being promoted upper saw blade by going up and down driving assembly and following table face contact with the plate, after lower saw blade contacts plate It is cut, cuts out a lower groove in the lower surface of the plate, the lower groove is located at the underface of the upper groove, institute Stating lower groove is a shallow grooves.

Preferably, the brick cutting machine further includes brick pressing device, and the brick pressing device includes support frame, press beam and pinch roller, institute State the rack two sides that the top of the belt is arranged in support frame, the press beam setting support frame as described above and the belt it Between, the press beam is connect by connecting rod with support frame as described above, and the press beam is along the side of the centralising device to rack outlet To being extended, several pinch rollers are arranged in the lower section of the press beam, and the pinch roller is pressed on the upper surface of the plate.

It preferably, include at least two press beams disposed in parallel and at least two branch disposed in parallel in the brick pressing device Support, is arranged sliding slot, support frame as described above and the orthogonal setting of the press beam on support frame as described above, one end of the connecting rod with The press beam connection, the other end of the connecting rod pass through the sliding slot and are fixed on support frame as described above by nut.It is described Press beam is at least connect with two support frames as described above, and the press beam can be slided in the sliding slot by connecting rod to adjust press beam Position above the belt.

Compared with the existing technology, the present invention achieves beneficial technical effect:

A kind of double-side saw of the invention cuts brick cutting machine by the way that upcut portion part and incision component is arranged in sawing brick cutting machine, makes to saw Cut brick cutting machine to plate carry out cutting-up during using up and down to cutting by the way of, upper saw blade is cut in the upper surface of plate Upper groove is formed, the upper groove is a shallow grooves, and plate, which continues to be transported ahead to, to be drawn below knife, draws knife and carries out to upper groove Secondary cut processing makes to form scratch in upper groove, and incision component will by horizontal drive component in the upper saw blade course of work The position of lower saw blade is adjusted to the underface of the upper saw blade, at the same by lifting driving assembly by upper saw blade promoted and with it is described The following table face contact of plate, lower saw blade are cut after contacting plate, cut out a lower groove, plate in the lower surface of the plate Upper groove and lower groove on material are in same upright position, since there is also scratches in upper groove, in the slitting in later period Plate can be broken at scratch when brick cutting machine applies pressure to plate both ends in the process, while lower groove and fovea superior in fracture process Slot is broken simultaneously keeps end face more smooth, the easy chipping in lower surface or broken situation when for solving plate slitting, to drop Breakage rate when low product cutting；The present invention improves saw blade to a certain extent and draws the service life of knife；Up and down to cutting Mode can reduce the depth of cutting to a certain extent, thus lacked the abrasion of cutter, improve cutter uses the longevity Life.

Detailed description of the invention

Fig. 1 is the structural schematic diagram for the depression angle that a kind of double-side saw of the present invention cuts brick cutting machine；

Fig. 2 is the structural schematic diagram for the posterior view point that a kind of double-side saw of the present invention cuts brick cutting machine；

Fig. 3 is the structural schematic diagram for looking up angle that a kind of double-side saw of the present invention cuts brick cutting machine；

Fig. 4 is the main view that a kind of double-side saw of the present invention cuts brick cutting machine；

Fig. 5 is the overall structure diagram for the left view angle that a kind of double-side saw of the present invention cuts upcut portion part in brick cutting machine；

Fig. 6 is the overall structure diagram for looking up angle that a kind of double-side saw of the present invention cuts upcut portion part in brick cutting machine；

Fig. 7 is the overall structure diagram for the LOOK RIGHT degree that a kind of double-side saw of the present invention cuts centralising device in brick cutting machine；

Fig. 8 is the overall structure diagram for the left view angle that a kind of double-side saw of the present invention cuts centralising device in brick cutting machine；

Fig. 9 is the overall structure diagram that a kind of double-side saw of the present invention cuts incision component in brick cutting machine；

Figure 10 is the partial structural diagram that a kind of double-side saw of the present invention cuts incision component in brick cutting machine；

Figure 11 is that a kind of double-side saw of the present invention cuts the structural schematic diagram that blade insert is drawn in brick cutting machine.

Appended drawing reference:

1. rack；2. upcut portion part；21. lifting drive；22. fixed plate；Motor mounting plate on 23.；Sawing on 24. Motor；Saw blade on 25.；26. protruding rail；27. lifting slider；28. elevating screw；29. lifting nut；3. belt；4. incision component； 41. mounting plate；42. lower sawing motor；421. lower saw blades；43. lower motor mounting plate；44. translator slider；45. lead screw；46. thread Thick stick nut；47. drive rod；48. worm reduction gear；49. lower beam；491. connecting plate；5. centralising device；51. centering transverse slat； 52. support base；53. cylinder；54. left centering sliding block；55. right centering sliding block；56. cylinder fixed seat；57. left connecting shaft；571. Right connecting shaft；58. rotating driver；59. gear；6. stroke blade insert；61. stroke knife support；62. knife rest；63. telescopic device；64. Piston rod；65. pivoted arm；66. stroke knife；67. lifting position-limit plate；68. descending spacing plate；69. cylinder mounting base；7. upper beam；8. Brick pressing device；81. support frame；82. press beam；83. pinch roller；84. connecting rod；85. sliding slot；9. belt stretcher.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to embodiments to the present invention It is further elaborated, but the scope of protection of present invention is not limited to following specific embodiments.

As shown in Figs 1-4, a kind of double-side saw cuts brick cutting machine, including rack 1, upcut portion part 2, belt 3, stroke 6 and of blade insert Incision component 4, the upcut portion part 2, belt 3 are mounted in the rack 1, and the belt 3 is arranged in the upcut portion part 2 Top, the upcut portion part 2 are mounted on the side of upper beam 7 along 3 transmission direction of belt, and the both ends of the upper beam 7 are solid respectively Be scheduled on the two sides of the rack 1, the upper beam 7 be placed in the top of the belt 3 and with the lower beam 49 is parallel to each other sets It sets, the belt 3 includes two disposed in parallel point of belts, and plate is transmitted on two pieces points of belts, set between two pieces points of belts Gap is set, 3 upper surface of the belt positioned at 1 lower section of rack is contacted with belt stretcher 9, and belt stretcher 9 is used for will Belt 3 pulls open, and provides installation site for incision component 4, belt stretcher 9 includes two tensioning guide rods, the tensioning guide rod Both ends connect with the two sides of rack 1 by bearing, the incision component 4 is mounted on the installation formed between two tensioning guide rods In region；

As shown in Figures 9 and 10, the incision component 4 is mounted on the lower section in the rack 1 and being located at the belt 3, institute Stating incision component 4 includes that the mounting plate 41 of 1 two sides of rack, the lower beam being arranged between the mounting plate 41 is arranged in 49, the lower saw cutting device on the lower beam 49 is set；It is slidably connected between the lower saw cutting device and the lower beam 49, The lower cutting apparatus connects horizontal drive component, and lower cutting apparatus described in the horizontal drive Component driver is on the lower beam 49 It moves horizontally；The lower beam 49 connection lifting driving assembly, the lifting driving assembly driving lower beam 49 relative to It is moved up and down on the mounting plate 41, plate is on the belt 3 along 1 inlet of rack to the direction of 1 inlet port of rack Transport, and to preceding transporting after the cutting-up of the upcut portion part 2 and incision component 4, upcut portion part 2 and incision component 4 are simultaneously Cutting-up is carried out to plate.The lower saw cutting device includes lower saw blade 421, lower sawing motor 42 and the fixed lower sawing motor 42 Lower motor mounting plate 43, the lower saw blade 421 connects the lower sawing motor 42, the lower sawing motor 42 and the lower saw Shield is arranged in one end that piece 421 connects, and the lower saw blade 421 is placed in the shield, prevents spark or cutting fragment It splashes, is connected between the lower motor mounting plate 43 and the lower beam 49 by sliding block railroad, the lower sawing motor The 42 driving lower saw blades 421 rotate, and the direction of the lower saw blade 421 setting is vertical with the belt 3, and with the belt 3 transporting directions are consistent.Gap of the lower saw blade 421 across two pieces points of belts is cut by the lower surface of plate.

The sliding block railroad includes the protruding rail 26 being arranged on the lower beam 49, setting in the lower motor installation Translator slider 44 on plate 43 is arranged groove on the side wall of the protruding rail 26, is provided with and bends inwards in the translator slider 44 Protrusion, it is described protrusion with groove cooperation slide, the protruding rail 26 and translator slider 44 cooperatively form sliding block railroad.

The horizontal drive component includes lead screw 45 and rotation drive device, and the lower motor mounting plate 43 passes through lead screw spiral shell Mother 46 is mounted on the lead screw 45, and one end of the lead screw 45 connects rotating driver 58.The lead screw 45 is ball-screw, The feed screw nut 46 is fixedly connected with the lower motor mounting plate 43, and the feed screw nut is mounted on the lead screw 45, institute The one end for stating lead screw 45 connects the rotating driver 58, and the rotation drive device is manual shaking wheel or motor, the present embodiment Preferred rotation drive device is manual shaking wheel.The rotation drive device drives the lead screw 45 to rotate, and passes through ball at this time Rotation is converted linear motion by lead screw, and the feed screw nut 46 moves horizontally on screw rod, since lead screw 45 passes through bearing It is fixed on upper beam 7, lower motor mounting plate 43 is under the drive of feed screw nut 46 by sliding block railroad in the upper cross Beam 7 moves horizontally.

The lifting driving assembly includes drive rod 47, rotating driver 58 and the installation that 1 two sides of rack are arranged in Worm reduction gear 48 on plate 41, one of them described worm reduction gear 48 connect rotation drive device, and two worm gears subtract It is connected between fast machine 48 by the drive rod 47.The worm reduction gear 48 includes worm gear, lead screw 45, worm screw and feed screw nut 46, one end of the worm screw connects rotation drive device, and the worm screw and the worm gear are installed, and the lead screw 45 is mounted on On the worm gear, the inner ring of the feed screw nut 46 is mounted on the worm screw, the outer ring of the feed screw nut 46 and it is described under Crossbeam 49 is fixedly connected.The rotation drive device drives worm screw rotation, rotates worm gear using the transmission of worm and gear, described Lead screw 45 and the worm gear, which are assembled together, realizes the synchronous rotation of worm gear and lead screw, and the feed screw nut 46 has inner trapezoidal thread Cooperate with lead screw, when lead screw rotates, so that feed screw nut 46 is done axial elevating movement along lead screw, while lower beam 49 is with lead screw Nut 46 moves up and down.The worm driver gear that the worm reduction gear 48 divides to be arranged on the 1 side mounting plate 41 of rack Speed reducer and the driven worm reduction gear being arranged on 1 other side mounting plate 41 of rack, the worm driver gear speed reducer connect Rotation drive device is connect, is connected between the worm driver gear speed reducer and driven worm reduction gear by the drive rod 47, two Worm screw on a worm reduction gear is connect with the both ends of the drive rod 47 by shaft coupling respectively, realizes worm driver gear speed reducer Power is transferred to the driven worm reduction gear.

It is connected between the both ends and the mounting plate 41 of the lower beam 49 by sliding block railroad, the lower beam 49 Both ends extend to form connecting plate 491 along the direction vertical with the lower beam 49, protruding rail 26, institute are set on the mounting plate 41 It states setting lifting slider 27, the lifting slider 27 on connecting plate 491 to move up and down on the protruding rail 26, the protruding rail 26 And the lifting slider 27 cooperatively forms the sliding block railroad between the connecting plate 491 and the mounting plate 41.The silk The outer ring of thick stick nut 46 is fixedly connected with the bottom of the lower beam 49.The bottom setting mounting hole of the lower beam 49 is for pacifying Feed screw nut 46 is filled, the worm gear and worm screw are mounted in lifting pedestal, and the feed screw nut 46 drives on the lower beam 49 Inner wall along the mounting plate 41 moves up and down, with saw cutting device at present as lower beam 49 moves up and down together.

As shown in figure 11, described stroke of blade insert 6 is arranged in the rack 1, and described stroke of blade insert 6 is arranged in the belt 3 top, and the side of the upcut portion part 2 is arranged in described stroke of blade insert 6, and described stroke of blade insert 6 is along belt transport side To the other side for being separately mounted to the upper beam 7, plate is on the belt 3 successively by the upcut portion part 2 and stroke knife Component 6 transports forward.Described stroke of blade insert 6 and the upcut portion part 2 are separately mounted to upper beam 7 along 3 transmission direction of belt Two sides, the both ends of the upper beam 7 are separately fixed at the two sides of the rack 1, and the upper beam 7 and the lower beam 49 are mutual It is arranged in parallel；Direction i.e. along the inlet of rack 1 to exit sets gradually upcut portion part 2, upper beam 7 and draws blade insert 6.

As it can be seen in figures 5 and 6, the upcut portion part 2 includes upper saw blade 25, upper sawing motor 24 and the fixed upper sawing electricity The upper motor mounting plate 23 of machine 24, the upper saw blade 25 connect the upper sawing motor 24, and the upper sawing motor 24 drives institute State saw blade 25 rotation, and the upper saw blade 25 setting direction it is vertical with the belt 3, and with 3 transporting direction of belt Unanimously, it is connected between the upper motor mounting plate 23 and the upper beam 7 by beam device or sliding block railroad.This implementation It is preferred in example, fixed plate 22 is set in the one side wall of upper beam 7, and lifting driving dress is fixedly mounted in 22 upper end of fixed plate 21 are set, lifting drive 21 is lifting decelerator, one end of the output end connection elevating screw 28 of the lifting decelerator, institute The other end for stating elevating screw 28 is connect by lifting nut 29 with the upper end of the upper motor mounting plate 23, the lifting nut 29 outer ring is fixedly mounted on the upper end of the upper motor mounting plate 23.The lifting nut 29 is feed screw nut, the lead screw The inner ring of nut is mounted on the elevating screw 28.The lifting decelerator drives the elevating screw 28 to rotate, the liter The inner ring of drop nut 29 has inner trapezoidal thread and elevating screw 28 to cooperate, when elevating screw 28 rotates, make lifting nut 29 along Elevating screw 28 does axial elevating movement, while upper motor mounting plate 23 is moved up and down with feed screw nut.The fixed plate Protruding rail 26 is set on 22, lifting slider 27 is set on the upper motor mounting plate 23, the lifting drive 21 drives described Upper motor mounting plate 23 moves up and down on the protruding rail 26.

Described stroke of blade insert 6 draws knife support 61, telescopic device 63 and draws knife 66, and described stroke of knife support 61 is mounted on described On the other side side wall of crossbeam 7, one end of the telescopic device 63 is hinged on described stroke of knife support 61 by pin shaft, described to stretch The end of piston rod 64 on compression apparatus 63 and pivoted arm 65 are articulated and connected, and the extreme ends connection of the pivoted arm 65 is described to draw knife 66, knife rest 62 is arranged in the side wall lower half of described stroke of knife support 61, and the knife rest 62 includes two side walls, and the pivoted arm 65 is placed in Between the two side walls of the knife rest, the two side walls of the pivoted arm 65 and the knife rest 62 pass through pin shaft hinge mounted one It rises.The fixed part of the telescopic device 63 is mounted in the cylinder mounting base 69 for drawing 61 vertical sidewall of knife support, described to stretch Compression apparatus 63 is one of cylinder or hydraulic cylinder, push in 64 telescopic process of piston rod of telescopic device 63 pivoted arm 65 around The pin shaft rotation between 62 side wall of knife rest, while be located at 65 extreme ends of pivoted arm draws knife 66 in pivoted arm rotation process It rises or falls, makes the upper surface progress cutting-up processing for drawing the realization of knife 66 to plate, the top of knife rest 62 also sets up lifting position-limit Plate 67, the lifting position-limit plate 67 are used to limit the rotational angle during pivoted arm 65 is rotated up, and prevent a stroke knife 66 from promoting height Height is spent, descending spacing plate 68 is set in the lateral wall front end of the knife rest 62, the pivoted arm 65 is placed in 67 He of lifting position-limit plate Between descending spacing plate 68, the descending spacing plate 68 is used to limit the rotational angle during pivoted arm 65 rotates down, and prevents It is excessively high too deep to the cutting-up depth of plate to draw 66 falling head of knife.

As shown in Fig. 1,7, the brick cutting machine further includes centralising device 5, and the belt 3 is arranged in the centralising device 5 Top and be located at 1 inlet of rack, the centralising device 5 to the plate carry out centering processing.The centralising device 5 includes pair It installs respectively at the both ends of middle transverse slat 51, support base 52, cylinder 53, centering sliding block, connecting shaft and gear 59, the centering transverse slat 51 At the both ends of the rack 1, the support base 52 is fixed on the middle position of the centering transverse slat 51 for installing the gear 59, the centering sliding block includes left centering sliding block 54 and right centering sliding block 55, and left centering sliding block 54 and right centering sliding block 55 are installed In described pair on the crossbeam of transverse slat 51, left centering sliding block 54 and right centering sliding block 55 are moved on the crossbeam, described Connecting shaft includes left connecting shaft 57 and right connecting shaft 571, and one end of the left connecting shaft 57 is connect with left centering sliding block 54, described One end of right connecting shaft 571 is connect with right centering sliding block 55, is provided in the left connecting shaft 57 and right connecting shaft 571 and gear 59 matching threads, the left connecting shaft 57 and right connecting shaft 571 are linked together by gear 59, and gear 59 is arranged on the left side Between connecting shaft 57 and right connecting shaft 571, guarantee the synchronous slide of both ends left centering sliding block 54 and right centering sliding block 55, wherein right Cylinder 53 is connected on centering sliding block 55, the piston rod of cylinder 53 is connect by connector with the right centering sliding block 55, cylinder 53 When the right centering sliding block 55 being driven to slide, since right connecting shaft 571 is engaged with gear 59, right connecting shaft 571 is described in the driving Gear 59 rotates, and the left connecting shaft 57 for being now placed in 59 other side of gear is moved along the opposite direction moved with right connecting shaft 571 It is dynamic, realize that synchronous relative motion or separated in synchronization of the left centering sliding block 54 with right centering sliding block 55 move.

As shown in FIG. 7 and 8, the cylinder 53 is also connected with horizontal drive component, and the horizontal drive apparatus includes lead screw 45 And rotation drive device, 53 device of cylinder are mounted in cylinder fixed seat 56, the cylinder fixed seat 56 passes through lead screw spiral shell Mother 46 is mounted on the lead screw 45, and one end of the lead screw 45 connects rotating driver 58.The rotation drive device is hand Shake wheel, by manual shaking wheel rotational lead screw 45, while feed screw nut 46 and cylinder fixed seat 56 do water on the lead screw 45 Translation is dynamic.The cylinder 53 and left centralising device 5 are adjusted by horizontal drive apparatus to the position on middle transverse slat 51, when right When plate carries out centering, centering is carried out to plate by left centering sliding block 54 and right centering sliding block 55, then 53 device of cylinder stops It only works, left centering sliding block 54 and right centering sliding block 55 remain static, and driving manual shaking wheel moves centralising device 5 and plate It is dynamic, plate is moved to Working position, is located at the projection of the processing line and the upper saw blade 25 and stroke knife 66 of plate with always On line, then belt 3, which rotates, makes plate successively transport supreme saw blade 25 and draws the underface of knife 66.The centralising device 5 is by plate Material is adjusted to suitable position, makes saw blade 25 and draw 66 face plate of knife to divide brick line, and upper saw blade 25 is in the upper surface of plate It carries out cutting and forms upper groove, the upper groove is a shallow grooves, and plate, which continues to be transported ahead to, draws 66 lower section of knife, draws knife 66 7 two sides of upper beam are separately positioned on upper saw blade 25 and opposite upper beam 7 is symmetrical arranged, and described stroke of knife 66 is located just at institute The top of upper groove is stated, draw knife 66 makes to form scratch in upper groove to upper groove progress secondary cut processing；The upper saw blade 25 In the course of work incision component 4 by horizontal drive component by the position of lower saw blade 421 adjust to the upper saw blade 25 just under Side, while being promoted upper saw blade 25 and the following table face contact with the plate by going up and down driving assembly, lower 421 contact plate of saw blade Cut after material, cut out a lower groove in the lower surface of the plate, the lower groove be located at the upper groove just under Side, the lower groove are a shallow grooves.

Double-side saw of the invention cuts brick cutting machine by the way that upcut portion part 2 and incision component 4 is arranged in sawing brick cutting machine, makes sawing Brick cutting machine to plate carry out cutting-up during using up and down to cutting by the way of, upper saw blade 25 is cut in the upper surface of plate Upper groove is formed, the upper groove is a shallow grooves, and plate, which continues to be transported ahead to, draws 66 lower section of knife, draws knife 66 to upper groove Carrying out secondary cut processing makes to form scratch in upper groove, and incision component 4 is driven by horizontal in upper 25 course of work of saw blade Dynamic component adjusts the position of lower saw blade 421 to the underface of the upper saw blade 25, while by going up and down driving assembly for upper saw Piece 25 is promoted and the following table face contact with the plate, and lower saw blade 421 is cut after contacting plate, in the following table of the plate Face cuts out a lower groove, and the upper groove and lower groove on plate are in same upright position, due in upper groove there is also Scratch, plate can be broken at scratch when brick cutting machine applies pressure to plate both ends during the slitting in later period, disconnected simultaneously During splitting lower groove and upper groove and meanwhile fracture keep end face more smooth, the easy chipping in lower surface when for solving plate slitting Or broken situation, to reduce breakage rate when product cutting；The present invention improves saw blade to a certain extent and draws knife 66 service life；The depth of cutting can be reduced to a certain extent to the mode cut up and down, thus lacked the mill of cutter Damage, improves cutting-tool's used life.

Embodiment 2

The embodiment only describes and the difference of above-described embodiment, remaining technical characteristic is same as the previously described embodiments.? It in the present embodiment, is connected between the lower motor mounting plate 43 and the lower beam 49 by beam device, beam device includes The crossbeam being arranged on the lower beam 49, the sliding block being arranged on the lower motor mounting plate 43, the sliding block and the cross Beam is assembled to form beam device, and lower motor mounting plate 43 is slided on the crossbeam by sliding block.

Embodiment 3

The embodiment only describes and the difference of above-described embodiment, remaining technical characteristic is same as the previously described embodiments.? In the present embodiment, the left centering sliding block 54 and right centering sliding block 55 are all connected with a cylinder 53, and two cylinders 53 keep synchronizing Rotation, two cylinders 53 are each provided with power to left centering sliding block 54 and right centering sliding block 55 respectively, solve plate it is wide when The problem of one cylinder 53 can not can not push large scale adobe or plate.

Embodiment 4

The embodiment only describes and the difference of above-described embodiment, remaining technical characteristic is same as the previously described embodiments.? In the present embodiment, the brick cutting machine further includes brick pressing device 8, and the brick pressing device 8 includes support frame 81, press beam 82 and pinch roller 83,1 two sides of rack of the top of the belt 3 are arranged in support frame as described above 81, and the press beam 82 is arranged in support frame as described above 81 Between the belt 3, the press beam 82 is connect by connecting rod 84 with support frame as described above 81, and press beam 82 is transported along the belt 3 Defeated direction setting, and the press beam 82 is extended along the direction that the centralising device 5 to rack 1 exports, the press beam 82 Lower section several pinch rollers 83 are set, the pinch roller 83 is pressed on the upper surface of the plate.Prevent plate transport, saw blade and It draws knife 66 and phenomenon is displaced to plate in plate progress scratching process.

Including at least two press beams 82 disposed in parallel and at least two support frames disposed in parallel in the brick pressing device 8 81, in the present embodiment, two press beams 82 disposed in parallel and two support frames 81 being disposed in parallel relation to one another, support frame as described above are set Sliding slot 85 is set on 81, support frame as described above 81 and the orthogonal setting of the press beam 82, one end of the connecting rod 84 with it is described Press beam 82 connects, and the other end of the connecting rod 84 passes through the sliding slot 85 and is fixed on support frame as described above 81 by nut. The press beam 82 is at least connect with two support frames as described above 81, and the press beam 82 can be by connecting rod 84 in the sliding slot 85 Sliding is to adjust position of the press beam 82 above the belt 3.

According to the disclosure and teachings of the above specification, those skilled in the art in the invention can also be to above-mentioned embodiment party Formula is changed and is modified.Therefore, the invention is not limited to the specific embodiments disclosed and described above, to the one of invention A little modifications and changes should also be as falling into the scope of the claims of the present invention.In addition, although being used in this specification Some specific terms, these terms are merely for convenience of description, does not constitute any restrictions to invention.

Claims (10)

1. a kind of double-side saw cuts brick cutting machine, including rack, upcut portion part, belt, the upcut portion part, belt are mounted on the machine On frame, the top of the belt is arranged in the upcut portion part, which is characterized in that and it further include incision component, the incision component It is mounted on the rack and is located at the lower section of the belt, the incision component includes the installation that the rack two sides are arranged in Plate, the lower beam being arranged between the mounting plate, the lower saw cutting device being arranged on the lower beam；The lower saw cutting device It is slidably connected between the lower beam, the lower cutting apparatus connects horizontal drive component, the horizontal drive Component driver institute Lower cutting apparatus is stated to move horizontally on the lower beam；The lower beam connection lifting driving assembly, the lifting driving assembly Drive the lower beam relative to moving up and down on the mounting plate.

2. a kind of double-side saw according to claim 1 cuts brick cutting machine, which is characterized in that the lower saw cutting device includes lower saw The lower motor mounting plate of piece, lower sawing motor and the fixed lower sawing motor, the lower saw blade connect the lower sawing motor, It is connected between the lower motor mounting plate and the lower beam by beam device or sliding block railroad, the lower sawing motor Drive the lower saw blade rotation, and the direction of the lower saw blade setting is vertical with the belt, and with the belt-conveying direction Unanimously, the horizontal drive component includes lead screw and rotation drive device, and the lower motor mounting plate is installed by feed screw nut On the lead screw, one end of the lead screw connects rotating driver.

3. a kind of double-side saw according to claim 2 cuts brick cutting machine, which is characterized in that the lifting driving assembly includes passing Lever, rotating driver and the worm reduction gear being arranged on the mounting plate of the rack two sides, one of them described worm gear subtract Fast machine connects rotation drive device, is connected between two worm reduction gears by the drive rod.

4. a kind of double-side saw according to claim 1 cuts brick cutting machine, which is characterized in that the upcut portion part is along belt transport Direction is mounted on the side of upper beam, and the both ends of the upper beam are separately fixed at the two sides of the rack, and the upper beam is set In the belt top and be disposed in parallel relation to one another with the lower beam, the upcut portion part includes upper saw blade, upper sawing motor With the upper motor mounting plate of the fixation upper sawing motor, the upper saw blade connects the upper sawing motor, the upper sawing electricity The direction of the machine driving upper saw blade rotation, the upper saw blade setting is vertical with the belt, and with the belt-conveying direction Unanimously, it is connected between the upper motor mounting plate and the upper beam by sliding block railroad.

5. a kind of double-side saw according to claim 4 cuts brick cutting machine, which is characterized in that in the side side wall of the upper beam Lifting drive is fixedly mounted in upper setting fixed plate, the dead plate upper end, and the lifting drive is lifting decelerator, One end of the output end connection elevating screw of the lifting decelerator, the other end of the elevating screw pass through lifting nut and institute The upper end connection of motor mounting plate is stated, the lifting nut is fixedly mounted on the upper end of the upper motor mounting plate.

6. a kind of double-side saw according to claim 4 cuts brick cutting machine, which is characterized in that the brick cutting machine further includes drawing knife portion Part, described stroke of blade insert are separately mounted to the other side of the upper beam along belt transport direction, plate on the belt according to It is secondary to be transported forward by the upcut portion part and a stroke blade insert.

7. a kind of double-side saw according to claim 6 cuts brick cutting machine, which is characterized in that described stroke of blade insert includes drawing knife branch Seat, telescopic device and stroke knife, described stroke of knife support are mounted on the other side side wall of the upper beam, and the one of the telescopic device End is hinged on described stroke of knife support by pin shaft, and the end of the piston rod on the telescopic device is connect with pivoted arm, and described turn The extreme ends connection of arm is described to draw knife, and knife rest is arranged in the side wall lower half of described stroke of knife support, and the pivoted arm is placed in the knife Between the two side walls of frame, the pivoted arm and the knife rest hinge mounted.

8. a kind of double-side saw according to claim 1 cuts brick cutting machine, which is characterized in that the brick cutting machine further includes pressure brick dress It sets, the brick pressing device includes support frame, press beam and pinch roller, and the rack two of the top of the belt is arranged in support frame as described above Side, the press beam are arranged between support frame as described above and the belt, and the press beam is connect by connecting rod with support frame as described above, And the press beam is arranged along the direction of the belt-conveying, several pinch rollers are arranged in the lower section of the press beam, and the pinch roller compresses In the upper surface of plate.

9. a kind of double-side saw according to claim 8 cuts brick cutting machine, which is characterized in that include at least in the brick pressing device Sliding slot, support frame as described above is arranged on support frame as described above in two press beams disposed in parallel and at least two support frames disposed in parallel With the orthogonal setting of the press beam, one end of the connecting rod is connect with the press beam, and the other end of the connecting rod passes through The sliding slot is simultaneously fixed on support frame as described above by nut.

10. a kind of double-side saw according to claim 1 cuts brick cutting machine, which is characterized in that the brick cutting machine further includes centering Device, the centralising device be arranged in the top of the belt and be located at rack inlet, the centralising device to plate into Row centering.