Adjustable cutting device applied to composite insulation board production line
The utility model relates to a building material production facility technical field, concretely relates to be applied to cutting device with adjustable composite insulation board production line.
The composite heat-insulation board is more and more commonly applied to energy-saving heat-insulation construction of modern buildings, and the demand of the composite heat-insulation board also tends to increase year by year. The various messenger of building appearance also has multiple demand to the size of composite insulation board, and traditional production line production generally is the heated board of the big breadth of 1200x24000mm specification, in the field usage, still must cut according to the operation requirement, has increased the work load of construction, simultaneously, because on-the-spot cutting equipment is simple relatively, can't guarantee that the panel shape after the cutting is regular, increases the degree of difficulty of construction.
Disclosure of Invention
In order to solve the problems in the prior art, the utility model designs an adjustable cutting device which can cut the plates in the production process aiming at the requirements of the plates with different sizes and is applied to a composite plate document production line, the specific technical proposal is that,
the adjustable cutting device comprises two cutting saws and a support frame, wherein the support frame is composed of a cross beam and supporting legs at two ends of the cross beam, vertical plates are arranged on the front side and the rear side of the cross beam respectively, the two cutting saws are arranged on one side of the cross beam side by side, each cutting saw is connected with a saw seat, the saw seats are vertically arranged, the upper ends of the saw seats are connected onto the vertical plates of the cross beam through sliding devices, adjusting rings with internal threads are welded in the middle of the saw seats, cross rods are welded on the supporting legs on two sides of the support frame respectively, bearings are welded on the cross rods, the bearings and the adjusting rings on the saw seats close to the bearings are coaxially arranged, lead screws are fixed on inner rings of the bearings, and the lead screws. The utility model discloses a cutting saw erects on the conveying bed of composite insulation board production line with adjustable, rotates the lead screw, because the lead screw is fixed and be threaded connection with the adjustable ring of saw seat, then rotates the in-process at the lead screw, just can drive the saw seat and prolong the lead screw and remove, and the upper end of saw seat is passed through slider and is connected with the riser of crossbeam, makes to remove more convenient. The positions of the two cutting saws are adjusted by the screw rod, so that the cutting production of plates with different sizes is realized.
Furthermore, the sliding device comprises a roller and a clamping plate, the roller and the clamping plate are connected to the upper end of the saw seat through a connecting shaft, the clamping plate and the saw seat body clamp a vertical plate on one side of the cross beam together, the roller is located on the upper surface of the vertical plate, and two sets of sliding devices are arranged at the upper end of the saw seat. The clamping plate enables the saw seat to be clamped on the vertical plate, and the roller reduces the friction force of the saw seat in the moving process.
Furthermore, the clamping plate is provided with an internal thread through hole, and a positioning bolt is screwed in the internal thread through hole. After the saw base is moved to a proper position, the positioning bolt is screwed down, and the bottom of the positioning bolt compresses the vertical plate of the cross beam to position the saw base.
Furthermore, the cutting saw is fixed on a mounting hole of the saw seat through a fastening bolt, the mounting hole is a circular rectangular hole elongated in the vertical direction, and the cutting saw can move up and down along the mounting hole and is fastened and fixed by the fastening bolt. The up-down position of the cutting saw is adjusted.
Furthermore, the other side of the cross beam is provided with another two cutting saws in the same installation mode. The size of the plate which can be produced by four cutting saws is more comprehensive.
Furthermore, the saw blades of the two cutting saws on one side of the cross beam are arranged relatively close to each other, and the saw blades of the two cutting saws on the other side of the cross beam are arranged relatively far away from each other. The distance between the saw blades can be adjusted conveniently.
Furthermore, a sliding rod is erected above the supporting frame, and a plurality of sliding blocks with clamping pieces are arranged on the sliding rod. The clamping piece of the sliding block is used for fixing power lines and water pipes of the four cutting saws and can move along with the change of the positions of the cutting saws.
Furthermore, a hand wheel is arranged at the outer side end of the screw rod. The lead screw is convenient to rotate.
Compared with the prior art, the utility model discloses a cutting device with adjustable design has set up 4 cutting saws to every cutting saw passes through slider and connects on the crossbeam of support frame, and cutting saw threaded connection lead screw rotates the lead screw alright make cutting saw prolong the crossbeam and remove, makes the production line of having installed this cutting device produce multiple specification and dimension's compound insulation board, and the high position of cutting saw also can be adjusted through fastening bolt in addition, uses more in a flexible way.
FIG. 1 is a schematic view of an adjustable cutting device
FIG. 2 is a front view of the saw base
FIG. 3 is a rear view of the saw base
Description of the reference numerals
1 a first cutting saw, 2 a second cutting saw, 3 a third cutting saw, 4 a fourth cutting saw, 5 a support frame, 6 a saw seat, 7 a sliding device, 11 saw blades, 51 support legs, 52 cross beams, 521 vertical plates, 53 cross rods, 54 lead screws, 55 lead screw fixing bearings, 56 hand wheels, 71 clamp plates, 72 rollers, 73 positioning bolts, 61 adjusting rings, 62 mounting holes, 63 mounting plates, 8 transmission shafts, 81 transmission shaft fixing bearings, 82 transmission wheel fixing bearings
The invention will be further described with reference to the accompanying drawings and specific embodiments.
As shown in fig. 1, the utility model discloses a be applied to adjustable cutting device of composite insulation board production line, including first slitting saw 1, second slitting saw 2, third slitting saw 3, fourth slitting saw 4 and support frame 5. The support frame 5 is composed of a cross beam 51 and support legs 51 at two ends of the cross beam 51, vertical plates 521 are respectively arranged at the front side and the rear side of the cross beam 51, the cross beam 51 can be made of I-shaped steel, and cross rods 53 are welded on the support legs 51. The four cutting saws are respectively connected with saw seats 6 and are connected on a vertical plate of the cross beam 51 through the respective saw seats 6, wherein the first cutting saw 1 and the second cutting saw 2 are arranged on the front side of the cross beam 51 side by side, and the saw blade ends of the first cutting saw and the second cutting saw are arranged close to each other; the third dicing saw 3 and the fourth dicing saw 4 are arranged side by side on the rear side of the cross beam 51, and the blade ends thereof are arranged relatively far away from each other.
Two sets of sliding devices 7 are arranged at the upper end of the saw seat 6, the two sets of sliding devices 7 are respectively fixed at two sides of the top end of the saw seat 6, and the saw seat 6 is vertically arranged and connected to a vertical plate of the cross beam 51 through the sliding devices 7. The sliding device 7 comprises a roller 71 and a clamping plate 72, the roller 71 and the clamping plate 72 are connected to the saw seat 6 through a connecting shaft, wherein the roller 71 is pressed on the upper surface of the vertical plate of the cross beam 51 and can roll along the vertical plate 521, and the clamping plate 72 is arranged on the inner side surface of the vertical plate 521 and clamps the vertical plate 521 of the cross beam 51 together with the saw seat 6 body. The clamping plate 72 is provided with a through hole, a positioning bolt 73 is screwed in the through hole, and the positioning bolt 73 is screwed down, so that the bottom end of the positioning bolt presses the vertical plate 521 of the cross beam 51, and the positioning of the saw seat 6 can be completed.
As shown in fig. 2, two mounting plates 63 are vertically welded on the front surface of the saw base 6, two circular rectangular mounting holes 62 which are vertically arranged and are elongated in the vertical direction are formed in the mounting plates 63, the dicing saw is mounted on the mounting plates 63 of the saw base 6, the dicing saw is fixed in the mounting holes 62 of the mounting plates 63 through four fastening bolts, the fastening bolts can move up and down along the mounting holes 62 to adjust the height of the dicing saw, and the height of the dicing saw can be positioned by screwing the fastening bolts. The transmission shaft fixing bearings 81 are welded on the lower sides of the front faces of the mounting plates 63, the transmission shaft fixing bearings 81 on the two mounting plates 63 are coaxially arranged, the transmission shaft 8 is fixed in the inner ring of the transmission shaft fixing bearings, and a transmission wheel 82 is arranged at one end of the transmission shaft 8. The motors and the respective saw blades 11 of the 4 cutting saws are designed in a split mode, the saw blades 11 are fixed to the other end of the transmission shaft 8, the rotating shaft of each motor and the driving wheel of the transmission shaft 8 are located on the same side, and the driving wheel 82 is connected with the rotating shaft of each motor through a belt and driven to rotate by the motors.
Referring to fig. 3, an adjusting ring 61 is welded in the middle of the back of the saw base 6, the adjusting ring 61 is provided with internal threads, a lead screw fixing bearing 55 is welded and fixed on the cross bar 53 of the supporting leg 52, the lead screw fixing bearing 55 is coaxially arranged with the adjusting ring 61 of the saw base 6 close to the lead screw fixing bearing 55, a lead screw 54 is fixed in the inner ring of the lead screw fixing bearing 55, and the lead screw 54 penetrates through the adjusting ring 61 and is in threaded connection with the adjusting ring 61. A hand wheel 56 is fixed at the outer end of the screw 54 to facilitate the rotation of the screw.
In order to facilitate the retraction of the water pipe and the power line in the moving process of the cutting saw, a sliding rod can be arranged above the cross beam, a plurality of sliding blocks with clamps are arranged on the sliding rod, and the water pipe and the power line are respectively clamped by the clamps of the sliding blocks to move.
The utility model discloses a cutting device erects on the conveying bed of composite insulation board's production line with adjustable design, the supporting leg of support frame both sides is fixed respectively on the bed beam of conveying bed both sides, the saw bit of 4 cutting saws all stretches out to the downside, the conveying bed body is close to the bottom, when composite insulation board transports on the conveying bed, when the saw bit through the cutting saw that starts, just, the automatic cutting of accomplishing, the distance between the saw bit of four cutting saws of size accessible adjustment of the panel of cutting is adjusted, distance accessible between the saw bit rotates the lead screw and adjusts, the rethread positioning bolt fixes a position after the regulation is accomplished.
The above description is only for the preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, which is defined by the appended claims and the description of the invention.