CN116690202A - Adjustable multifunctional heat-preservation building material grooving machine - Google Patents

Abstract

The invention discloses an adjustable multifunctional heat-insulating building material grooving machine, which relates to the technical field of building material grooving, and comprises brackets, wherein a blanking conveying frame is fixedly connected between two adjacent brackets through bolts, an feeding conveying plate is fixedly connected to the inner wall of the other bracket through bolts, splice plates are clamped between two brackets positioned at two ends of the blanking conveying frame, shielding frames are clamped at the top ends of the brackets positioned at one side of the feeding conveying plate and the top ends of the brackets positioned at one side of the blanking conveying frame.

Description

Adjustable multifunctional heat-preservation building material grooving machine

Technical Field

The invention relates to the technical field of building material grooving, in particular to an adjustable multifunctional heat-preservation building material grooving machine.

Background

The building materials are a collective name of materials used in civil engineering and constructional engineering, and mainly comprise a plurality of materials such as ceramics, stones, aluminum alloy and the like, when the materials are subjected to grooving treatment, the grooving machine is required to be used for carrying out corresponding planing, slotting, shearing, broaching, sawing, filing, scraping and other various processing treatments, so that the subsequent materials can be spliced and installed conveniently;

however, in the conventional grooving machine, the building material can be cut and grooved only from a single direction in the grooving process, the grooving angle and mode can not be adjusted according to the requirement, the grooving effect is reduced, meanwhile, the intermittent grooving can not be performed on the building material according to the production requirement, and the adaptability is poor, so that in order to avoid the technical problems, it is necessary to provide an adjustable multifunctional heat-insulation building material grooving machine to overcome the defects in the prior art.

Disclosure of Invention

The invention provides an adjustable multifunctional heat-preservation building material grooving machine, which can effectively solve the problems that in the background technology, the building material can only be cut and grooved from a single direction, the grooving angle and direction can not be adjusted according to the needs, the grooving effect is reduced, meanwhile, the intermittent grooving can not be carried out on the building material according to the production needs, and the adaptability is poor.

In order to achieve the above purpose, the present invention provides the following technical solutions: the adjustable multifunctional heat-preservation building material grooving machine comprises brackets, wherein a blanking conveying frame is connected between two adjacent brackets, a feeding conveying plate is connected to the inner wall of the other bracket, splice plates are clamped between the two brackets at two ends of the blanking conveying frame, and shielding frames are clamped at the top ends of the brackets at one side of the feeding conveying plate and the top ends of the brackets at one side of the blanking conveying frame;

the top end of the splice plate is provided with a multi-angle and multi-mode slotting mechanism, and the multi-angle and multi-mode slotting mechanism comprises a fixed portal frame;

a fixed portal frame is connected between the two corresponding brackets at the top end of the splice plate, a movable portal frame is movably connected inside the fixed portal frame, a U-shaped sliding rail is clamped on the inner wall of the movable portal frame, and roller guide rails are symmetrically and movably connected inside the U-shaped sliding rail;

the other end of the roller guide rail is connected with a mounting plate at the position corresponding to the other side of the movable portal frame, an inner cross sleeve is clamped on the inner wall of the mounting plate, a cross vertical rod is connected inside the inner cross sleeve in a sliding manner, and a clamping frame is connected to the bottom end of the cross vertical rod;

One bracket top one side position department is connected with the frame, the frame inner wall has the push rod through threaded symmetry connection, the mobile platform has been cup jointed through the screw thread in the push rod outside, mobile platform top one side position department rotates and is connected with the rotary disk, rotary disk top joint has spacing frame, spacing frame inside rotates and is connected with the screw rod, the screw rod outside corresponds spacing frame inside position department and has the locating piece through threaded connection, the locating piece top rotates and is connected with the traction plate, the traction plate other end corresponds mobile platform top position department rotation and is connected with the stroke slider, mobile platform top corresponds stroke slider one side position department and is connected with touch-control switch.

According to the technical scheme, the top ends of the movable portal frames are equidistantly clamped with the convex plates, the inner walls of the two convex plates are respectively and rotatably connected with the bidirectional screw rod, the outer sides of the bidirectional screw rods are respectively and rotatably connected with the U-shaped sliding blocks through threads, the positions, corresponding to one side of the movable portal frames, of one end of each U-shaped sliding block and one end of each roller guide rail are respectively and rotatably connected with the connecting plate, and the top ends of the two convex plates are respectively and rotatably connected with the lifting rods;

the top end of the clamping frame is clamped with a driving motor through a U-shaped plate, the inner wall of the clamping frame is rotationally connected with a rotating rod, the outer side of the rotating rod is sleeved with a saw blade at the position corresponding to the inner position of the clamping frame, and the outer side of the rotating rod and the outer side of a rotating shaft of the driving motor are fixedly sleeved with transmission gears;

The top end of the mounting plate is fixedly connected with a fixing frame through a bolt, the bottom end of the fixing frame is fixedly connected with an electric telescopic rod through a bolt at the position corresponding to the inner part of the inner cross sleeve, two ends of the clamping frame are fixedly connected with a limiting frame through bolts, and the outer side of the inner cross sleeve is connected with a baffle ring through threads at the position corresponding to the bottom of the limiting frame;

the electric telescopic rod pushes the cross vertical rod to slide in the inner cross sleeve, the position of the clamping frame is changed according to the requirement, the cutting slotting depth is adjusted, in addition, the bidirectional screw rod is rotated to push the U-shaped sliding block to slide at the top end of the movable portal frame, the roller guide rail is driven to slide in the U-shaped sliding rail through the connecting plate, and then the mounting plate, the inner cross sleeve, the cross vertical rod and the clamping frame are driven to rotate ninety degrees, so that the angle of the saw blade is changed.

According to the technical scheme, the outer side of the movable portal frame is in sliding connection with the inner wall of the fixed portal frame, two ends of the bidirectional screw rod respectively penetrate through one end of the two convex plates, and two ends of the bidirectional screw rod are respectively clamped with a knob;

the U-shaped sliding block bottom is in sliding connection with the top end of the movable portal frame, the top end of the lifting rod penetrates through the top end of the fixed portal frame, the outer side of the lifting rod is in threaded connection with the inner wall of the fixed portal frame, and the top end of the lifting rod is clamped with a rotary table.

According to the technical scheme, the driving motor is powered by an external power supply, the two driving gears are meshed with each other, the outer side of the positioning block is in sliding connection with the inner wall of the limiting frame, the top end of the moving platform is provided with the sliding groove, and the bottom end of the travel sliding block is in sliding connection with the inner wall of the sliding groove.

According to the technical scheme, the electric telescopic rod and the touch switch are powered by an external power supply, the signal output end of the touch switch is connected with the input end of the electric telescopic rod, the bottom end of the electric telescopic rod is fixedly connected with the top end of the cross vertical rod, and the top end of the limiting frame is sleeved outside the cross vertical rod.

According to the technical scheme, a side milling and collecting mechanism is arranged between the two brackets at the bottom position of the corresponding shielding frame, and the side milling and collecting mechanism comprises a T-shaped plate;

the two ends of the bracket are fixedly connected with T-shaped plates through bolts at the positions corresponding to the bottoms of the shielding frames, the inner walls of the two T-shaped plates positioned at one end of the same bracket are rotationally connected with interval adjusting rods, the outer sides of the interval adjusting rods are symmetrically connected with movable supporting plates through threads, the tops of the movable supporting plates are fixedly connected with arc covers through bolts, the inner walls of the arc covers are rotationally connected with side milling rods, the outer sides of the side milling rods are fixedly sleeved with side milling cutters at equal intervals at the positions corresponding to the inner positions of the arc covers, the tops of the arc covers are fixedly connected with supporting plates in an equidistant manner, the tops of the two supporting plates positioned on the same arc cover are fixedly connected with rotary motors through bolts;

One end of the arc-shaped cover is clamped with a dust hood, the inner wall of the dust hood is clamped with a grid, a vertical plate is clamped at the position of the inner wall of the dust hood corresponding to one side of the grid, the inner wall of the vertical plate is rotationally connected with a rotating shaft, one end of the rotating shaft is fixedly connected with a fan blade through a bolt, the dust hood is characterized in that a transmission rod is rotatably connected to the top end of the dust hood at a position corresponding to one side of the rotating shaft, bevel gears are clamped at the bottom end of the transmission rod and one end of the rotating shaft, and transmission belts are sleeved at the positions corresponding to the top of the arc-shaped hood at the outer side of the transmission rod and the outer side of the output shaft of the rotating motor;

the bottom end of the dust hood is clamped with a slag discharging channel, the bottom end of the slag discharging channel is clamped with a slag discharging bent pipe, a slag collecting box is fixedly connected to the bottom position between the two brackets through bolts, a filter screen frame is connected inside the slag collecting box in a sliding manner, the bottom end of the slag collecting box is clamped with an exhaust cylinder, a fan is embedded and installed inside the exhaust cylinder, and a connecting pipe is clamped at one end of the slag collecting box corresponding to the slag discharging bent pipe;

the rotating electrical machines drive side milling pole and side milling cutter rotatory to side milling through the building materials side to shelter from the piece through the arc cover, then simultaneously the rotating electrical machines drive rotation axis and fan blade rotation, produce the suction, adsorb the piece inside the suction hood, simultaneously through the inside fan rotary fit of suction drum, and utilize connecting pipe, sediment return bend and sediment passageway cooperation, with the inside piece of suction hood, inhale the sediment incasement portion and store.

According to the technical scheme, equal joint in interval regulation pole both ends has the carousel, shielding frame top symmetry is seted up flutedly, the backup pad top runs through the recess, all rotate at the movable plate both ends and be connected with the gyro wheel, and the movable plate bottom passes through gyro wheel and shielding frame top swing joint, the rotating electrical machines is supplied power through external power source, the rotating electrical machines output shaft runs through arc cover and side milling rod top fixed connection.

According to the technical scheme, the air outlet is formed in one end of the dust hood, two adjacent bevel gears are meshed with each other, one end of the slag discharging elbow is embedded into the connecting pipe, the outer side of the slag discharging elbow is in sliding connection with the inner wall of the connecting pipe, a sealing ring is sleeved between the outer side of the slag discharging elbow and the connecting pipe, and the fan is powered by an external power supply.

According to the technical scheme, the bottom end of the feeding conveying plate is provided with the conveying and deviation preventing mechanism, and the conveying and deviation preventing mechanism comprises a supporting rod;

the three brackets are symmetrically clamped with supporting rods, the tops of the two supporting rods positioned on the same side are fixedly connected with top frames through bolts, the inner walls of the top frames are symmetrically clamped with limiting rods, the outer sides of the limiting rods are movably sleeved with movable frames, one ends of the movable frames are equidistantly rotated and connected with rotating plates, one ends of the rotating plates are rotatably connected with compression rollers, one ends of the movable frames are equidistantly rotated and connected with positioning rods corresponding to the positions of one sides of the rotating plates, one ends of the positioning rods and one ends of the rotating plates are rotatably connected with fixed blocks, one ends of the fixed blocks are clamped with sliding rods, the other ends of the sliding rods penetrate through the fixed blocks of one ends of the rotating plates, tensioning springs are clamped between the positions of the outer sides of the corresponding sliding rods, and position adjusting rods are rotatably connected between the two top frames;

Rectangular grooves are symmetrically formed in the top ends of the feeding conveying plates, conveying belts are symmetrically connected in the rectangular grooves in a rotating mode, concave plates are symmetrically clamped at the two ends of the feeding conveying plates, ejector rods are connected to the inner walls of the concave plates through threads, and an anti-deflection plate is rotatably connected to one end of each ejector rod corresponding to the top position of each feeding conveying plate;

utilize the conveyer belt to drive the building materials and remove on the material loading delivery board to prevent through preventing the offset of board that inclines, rotate the ejector pin in addition and push away preventing that the offset board removes, adjust the distance between two prevent the offset boards, be convenient for carry out spacing to the building materials of different width, through the flexible characteristic of tensioning spring, push away a fixed block and slide along the slide bar, force the fixed block to push away the rotating plate and the compression roller rotates, make the compression roller push down fixedly to the building materials.

According to the technical scheme, one end of the position adjusting rod penetrates through one end of the movable frame, the outer side of the position adjusting rod is connected with the inner wall of the movable frame through threads, two ends of the position adjusting rod are respectively clamped with the turntables, and the bottom end of the deviation preventing plate is attached to the top end of the feeding conveying plate.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. The multi-angle and multi-mode grooving mechanism is arranged, the cross vertical rod is pushed to slide in the inner cross sleeve through the electric telescopic rod, the position of the clamping frame is changed according to the requirement, the grooving depth is adjusted, then the transmission gear is matched, the driving motor conveniently drives the rotating rod and the saw blade to rotate, the top end of the building material is cut and grooved, the bidirectional screw rod is rotated to push the U-shaped sliding block to slide at the top end of the movable portal frame, the roller guide rail is driven to slide in the U-shaped sliding rail through the connecting plate, the mounting plate and the clamping frame are pulled to rotate ninety degrees and are parallel to the building material, the angle of the saw blade is changed, the cutting and grooving are conveniently carried out on two ends of the building material, the angle of grooving and cutting are changed, the height of the saw blade is changed, the cutting positions of two ends of the building material are adjusted, in addition, the distance of the electric telescopic rod is limited by the matching of the limiting frame and the baffle ring, and the grooving depth is kept;

the push rod pushes the moving platform to move inside the frame, the rotating disc is attached to one end of the building material, the building material is clamped and limited, the building material is prevented from shifting in the process of conveying and slotting, the rotating disc is pushed to rotate along with the movement of the building material, the travel sliding block is pushed to slide right along the top end of the moving platform through the traction plate, one end of the travel sliding block is forced to contact with the touch switch, the electric telescopic rod is controlled to rise, the cross vertical rod, the clamping frame and the saw blade are pulled to rise, slotting of the building material is relieved, the rotating disc continuously rotates for a circle along with the continuous movement of the building material, the travel sliding block is pulled to slide left and right along the top end of the moving platform through the traction plate to contact with the touch switch once again, the electric telescopic rod is controlled to descend, the cross vertical rod, the clamping frame and the saw blade are pushed to descend, intermittent cutting and slotting are carried out on the building material, the cutting slotting mode is changed, in addition, the rotating screw rod pushes the positioning block to slide along the limiting frame, the rotating radius of the positioning block is changed, the distance of the left and right round trip sliding of the travel sliding block is adjusted, and slotting distance is adjusted.

2. The dust collection device is characterized in that a side milling and collecting mechanism is arranged, a side milling rod and a side milling cutter are driven to rotate through a rotating motor, side milling is carried out on the side surface of a building material, blank surfaces at two ends are cut off and detected, convenience is provided for subsequent slotting, meanwhile, chips are shielded through an arc-shaped cover, the chips are prevented from splashing, in addition, a rotating shaft and a bevel gear are driven to rotate through the cooperation of the driving rod and the bevel gear, suction force is generated, the chips are adsorbed into the dust collection cover and filtered through a grille, the chips are stored in the dust collection cover, then the fan in the air suction barrel rotates, wind force is generated, the chips in the dust collection cover are sucked into the slag collection box through a connecting pipe, a slag discharge bent pipe and a slag discharge channel, and filtered through a filter screen frame, the chips are stored in a concentrated mode, the pollution to the surrounding environment is reduced, and the effect of adsorbing the chips is increased due to the cooperation of the fan blades and the collection effect is guaranteed;

in addition, the distance between two arc covers is changed by rotating the distance adjusting rod to drive the movable supporting plate and the arc covers to move, so that side milling is conducted on building materials with different widths according to requirements, adaptability is improved, meanwhile, the movable plate and the rotating motor are driven to slide along the top end of the shielding frame through the supporting plate, and the movable effect of the arc covers is guaranteed when the arc covers are limited.

3. The movable type building material conveying device has the advantages that the movable type building material conveying device is provided with the conveying and deviation preventing mechanism, the building material is driven to move on the feeding conveying plate through the matching of the rectangular grooves and the conveying belt, the building material is limited through the deviation preventing plate, the deviation of the building material is prevented, the conveying effect is guaranteed, the ejector rods are rotated to push the deviation preventing plate to move, the distance between the two deviation preventing plates is adjusted, the building material with different widths is conveniently limited, the adaptability is improved, in addition, the fixing block is pushed to slide along the sliding rod through the telescopic characteristic of the tensioning spring, the fixing block is forced to push the rotating plate and the pressing roller to rotate, the pressing roller is used for pressing and fixing the building material, the stability of the building material in conveying is guaranteed, the shaking of the building material is prevented during subsequent processing, in addition, the pressing roller and the rotating plate are pushed to open during the moving of the building material, the convenience of embedding of the building material under the pressing roller is improved.

Synthesize the side milling is carried out the transportation through side milling and collection mechanism and is carried with preventing the cooperation of partially mechanism to the building materials to at the in-process of carrying, prevent that the skew from appearing in the building materials, guaranteed follow-up grooved effect, in addition when carrying, can carry out side milling to the two of building materials, be convenient for cut off the blank face at building materials both ends, it is convenient to improve for follow-up fluting, can be as required through multi-angle and multi-mode fluting mechanism in addition, adjustment grooved angle and grooved mode, the different building materials of processing as required of being convenient for.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the installation structure of the U-shaped sliding rail of the present invention;

FIG. 3 is a schematic view of the mounting structure of the roller rail of the present invention;

FIG. 4 is a schematic view of the mounting structure of the saw blade of the present invention;

FIG. 5 is a schematic view of a multi-angle and multi-mode slotting mechanism according to the present invention;

FIG. 6 is a schematic view of the mounting structure of the T-shaped plate of the present invention;

FIG. 7 is a schematic view of the mounting structure of the side mill of the present invention;

FIG. 8 is a schematic view of the side milling and collecting mechanism of the present invention;

FIG. 9 is a schematic diagram of the transport and anti-deflection mechanism of the present invention.

Reference numerals in the drawings: 1. a bracket; 2. a blanking conveying frame; 3. a feeding conveying plate; 4. splice plates; 5. a shielding frame;

6. a multi-angle and multi-mode slotting mechanism; 601. a fixed portal frame; 602. a movable portal frame; 603. a U-shaped slide rail; 604. a roller guide rail; 605. a convex plate; 606. a two-way screw rod; 607. a U-shaped sliding block; 608. a connecting plate; 609. a lifting rod; 610. a mounting plate; 611. an inner cross sleeve; 612. a cross vertical rod; 613. a clamping frame; 614. a driving motor; 615. a rotating rod; 616. a saw blade; 617. a transmission gear; 618. a frame; 619. a push rod; 620. a mobile platform; 621. a rotating disc; 622. a limit frame; 623. a screw; 624. a positioning block; 625. a traction plate; 626. a travel slide block; 627. a touch switch; 628. a fixing frame; 629. an electric telescopic rod; 630. a limiting frame; 631. a baffle ring;

7. A side milling and collecting mechanism; 701. t-shaped plates; 702. a spacing adjusting rod; 703. moving the supporting plate; 704. an arc-shaped cover; 705. side milling rod; 706. a side milling cutter; 707. a support plate; 708. a moving plate; 709. a rotating electric machine; 710. a dust hood; 711. a grille; 712. a riser; 713. a rotation shaft; 714. a fan blade; 715. a transmission rod; 716. bevel gears; 717. a transmission belt; 718. a slag discharging channel; 719. a deslagging elbow pipe; 720. a slag collecting box; 721. a filter screen frame; 722. an air pumping barrel; 723. a blower; 724. a connecting pipe;

8. a conveying and deviation preventing mechanism; 801. a support rod; 802. a top frame; 803. a limit rod; 804. a movable frame; 805. a rotating plate; 806. a press roller; 807. a positioning rod; 808. a fixed block; 809. a slide bar; 810. tensioning a spring; 811. a position adjusting lever; 812. rectangular grooves; 813. a conveyor belt; 814. a concave plate; 815. a push rod; 816. an anti-deflection plate.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: as shown in fig. 1-9, the invention provides a technical scheme, an adjustable multifunctional heat-insulation building material grooving machine comprises brackets 1, a blanking conveying frame 2 is fixedly connected between two adjacent brackets 1 through bolts, a feeding conveying plate 3 is fixedly connected to the inner wall of the other bracket 1 through bolts, a splice plate 4 is clamped between two brackets 1 positioned at two ends of the blanking conveying frame 2, a shielding frame 5 is clamped at the top end of the bracket 1 positioned at one side of the feeding conveying plate 3 and the top end of the bracket 1 positioned at one side of the blanking conveying frame 2, a multi-angle and multi-mode grooving mechanism 6 is arranged at the top end of the splice plate 4 through bolts, an electric telescopic rod 629 pushes a cross vertical rod 612 to slide in an inner cross sleeve 611, the position of the clamping frame 613 is changed according to requirements, a cutting grooving depth is adjusted, a bidirectional screw 606 is rotated to push a U-shaped sliding block 607 to slide at the top end of a movable portal 602, a roller 604 is driven to slide in the U-shaped sliding rail 603 through a connecting plate 608, and then a mounting plate 610, an inner cross sleeve 611, a cross vertical rod 612 and a clamping frame 613 are driven to rotate by ninety degrees, and the angle of the saw blade is changed;

A side milling and collecting mechanism 7 is arranged between the two brackets 1 at the position corresponding to the bottom of the shielding frame 5, a rotating motor 709 drives a side milling rod 705 and a side milling cutter 706 to rotate, side milling is carried out on the side surface of a building material, fragments are shielded by an arc-shaped cover 704, then the rotating motor 709 simultaneously drives a rotating shaft 713 and a wind blade 714 to rotate, suction force is generated, the fragments are adsorbed into the dust hood 710, meanwhile, the rotation fit of a fan 723 in the air suction barrel 722 is carried out, and the connection pipe 724, a slag discharging bent pipe 719 and a slag discharging channel 718 are utilized to be matched, so that the fragments in the dust hood 710 are sucked into a slag collecting box 720 for storage;

the bottom end of the feeding conveying plate 3 is provided with a conveying and deviation preventing mechanism 8, a conveying belt 813 is utilized to drive building materials to move on the feeding conveying plate 3, the deviation of the building materials is prevented through the deviation preventing plate 816, in addition, a rotating ejector rod 815 pushes the deviation preventing plate 816 to move, the distance between the two deviation preventing plates 816 is adjusted, the building materials with different widths are limited conveniently, one fixing block 808 is pushed to slide along a sliding rod 809 through the telescopic characteristic of a tensioning spring 810, and the fixing block 808 is forced to push a rotating plate 805 and a pressing roller 806 to rotate, so that the pressing roller 806 presses and fixes the building materials;

the multi-angle and multi-mode slotting mechanism 6 comprises a fixed portal frame 601, a movable portal frame 602, a U-shaped sliding rail 603, a roller guide rail 604, a convex plate 605, a two-way screw rod 606, a U-shaped sliding block 607, a connecting plate 608, a lifting rod 609, a mounting plate 610, an inner cross sleeve 611, a cross vertical rod 612, a clamping frame 613, a driving motor 614, a rotating rod 615, a saw blade 616, a transmission gear 617, a frame 618, a push rod 619, a movable platform 620, a rotating disc 621, a limiting frame 622, a screw 623, a positioning block 624, a traction plate 625, a stroke sliding block 626, a touch switch 627, a fixing frame 628, an electric telescopic rod 629, a limiting frame 630 and a baffle ring 631;

The top end of the splice plate 4 is fixedly connected with a fixed portal frame 601 through bolts, the inside of the fixed portal frame 601 is movably connected with a movable portal frame 602, the inner wall of the movable portal frame 602 is clamped with a U-shaped sliding rail 603, the inside of the U-shaped sliding rail 603 is symmetrically and movably connected with a roller guide rail 604, the top end of the movable portal frame 602 is equidistantly clamped with a convex plate 605, the inner walls of the two convex plates 605 are respectively and rotatably connected with a bidirectional screw rod 606, the outer side of the bidirectional screw rod 606 is connected with a U-shaped sliding block 607 through threads, one end of the U-shaped sliding block 607 and one end of the roller guide rail 604 are respectively and rotatably connected with a connecting plate 608 at the position corresponding to one side of the movable portal frame 602, the top ends of the two convex plates 605 are respectively and rotatably connected with lifting rods 609, the outer side of the movable portal frame 602 and the inner walls of the movable portal frame 602 are respectively in a sliding connection manner, the two ends of the bidirectional screw rod 606 are respectively clamped with a knob, the bottom end of the U-shaped sliding block and the top end of the movable portal frame 602 are respectively, the lifting rods 609 penetrate through the top ends of the fixed portal frame 601, and the lifting rods 609 are respectively connected with the inner walls of the fixed portal frame 601 through threads, and the lifting rods 609;

The other end of the roller guide rail 604 is fixedly connected with a mounting plate 610 through bolts at the position corresponding to the other side of the movable portal frame 602, the inner wall of the mounting plate 610 is clamped with an inner cross sleeve 611, a cross vertical rod 612 is slidably connected inside the inner cross sleeve 611, the bottom end of the cross vertical rod 612 is fixedly connected with a clamping frame 613 through bolts, the top end of the clamping frame 613 is clamped with a driving motor 614 through a U-shaped plate, the inner wall of the clamping frame 613 is rotatably connected with a rotating rod 615, the outer side of the rotating rod 615 is sleeved with a saw blade 616 at the position corresponding to the inner side of the clamping frame 613, and the outer side of the rotating rod 615 and the outer side of a rotating shaft of the driving motor 614 are fixedly sleeved with a transmission gear 617;

the frame 618 is fixedly connected to the position of one side of the top end of the bracket 1 through bolts, push rods 619 are symmetrically connected to the inner wall of the frame 618 through threads, a movable platform 620 is sleeved on the outer side of the push rods 619 through threads, a rotary disc 621 is rotatably connected to the position of one side of the top end of the movable platform 620, a limiting frame 622 is clamped on the top end of the rotary disc 621, a screw 623 is rotatably connected to the inside of the limiting frame 622, a positioning block 624 is rotatably connected to the top end of the positioning block 624 through threads, a traction plate 625 is rotatably connected to the position of the other end of the traction plate 625, a stroke sliding block 626 is rotatably connected to the position of the top end of the movable platform 620, a touch switch 627 is fixedly connected to the position of one side of the top end of the movable platform 620 through bolts, in order to transmit power, a driving motor 614 is powered through an external power supply, two transmission gears 617 are meshed with each other, the outer side of the positioning block 624 is slidably connected to the inner wall of the limiting frame 622, a sliding groove is formed in the top end of the movable platform 620, and the bottom end of the stroke sliding block 626 is slidably connected to the inner wall of the sliding groove;

The top end of the mounting plate 610 is fixedly connected with a fixing frame 628 through a bolt, the bottom end of the fixing frame 628 is fixedly connected with an electric telescopic rod 629 through a bolt at the position corresponding to the inner cross sleeve 611, two ends of the clamping frame 613 are fixedly connected with a limiting frame 630 through a bolt, the position corresponding to the bottom of the limiting frame 630 at the outer side of the inner cross sleeve 611 is connected with a baffle ring 631 through threads, in order to facilitate pushing the cross vertical rod 612 to slide, the electric telescopic rod 629 and the touch switch 627 are powered through an external power supply, the signal output end of the touch switch 627 is connected with the input end of the electric telescopic rod 629, the bottom end of the electric telescopic rod 629 is fixedly connected with the top end of the cross vertical rod 612, and the top end of the limiting frame 630 is sleeved outside the cross vertical rod 612;

the side milling and collecting mechanism 7 comprises a T-shaped plate 701, a spacing adjusting rod 702, a movable supporting plate 703, an arc cover 704, a side milling rod 705, a side milling cutter 706, a supporting plate 707, a movable plate 708, a rotary motor 709, a dust hood 710, a grid 711, a vertical plate 712, a rotary shaft 713, a fan blade 714, a transmission rod 715, a bevel gear 716, a transmission belt 717, a slag discharging channel 718, a slag discharging bent pipe 719, a slag collecting box 720, a filter screen frame 721, an air suction barrel 722, a fan 723 and a connecting pipe 724;

the two ends of the two brackets 1 are fixedly connected with T-shaped plates 701 through bolts at the positions corresponding to the bottoms of the shielding frames 5, the inner walls of the two T-shaped plates 701 at one end of the same bracket 1 are rotationally connected with interval adjusting rods 702, the outer sides of the two interval adjusting rods 702 are symmetrically connected with movable supporting plates 703 through threads, the tops of the two movable supporting plates 703 are fixedly connected with arc covers 704 through bolts, the inner walls of the two arc covers 704 are rotationally connected with side milling rods 705, the positions, corresponding to the inner positions of the arc covers 704, of the two side milling rods 705 are fixedly sleeved with side milling cutters 706 at equal intervals, the tops of the two arc covers 704 are fixedly clamped with supporting plates 707, the tops of the two supporting plates positioned on the same arc cover 704 are fixedly clamped with movable plates 708, the tops of the two movable plates 708 are fixedly connected with rotary motors 709 through bolts, in order to adjust the distance between the two side milling cutters 706, the tops of the two interval adjusting rods 702 are symmetrically clamped with rotary tables, the tops of the shielding frames 5 are symmetrically provided with grooves, the tops of the supporting plates 708 are rotationally connected with rollers 706 through the grooves, the bottoms of the movable plates 708 are rotationally connected with the tops of the arc covers 5 through the rotary motors 709, and the tops of the movable power supply shafts 709 are fixedly connected with the tops of the arc milling rods 709 through the outer sides of the movable power supply shafts;

The arc-shaped hood 704 is provided with a dust hood 710 in a clamping manner, a grid 711 is clamped on the inner wall of the dust hood 710, a vertical plate 712 is clamped on the inner wall of the dust hood 710 corresponding to the position on one side of the grid 711, a rotating shaft 713 is rotatably connected on the inner wall of the vertical plate 712, a fan blade 714 is fixedly connected on one end of the rotating shaft 713 through a bolt, a transmission rod 715 is rotatably connected on the top end of the dust hood 710 corresponding to the position on one side of the rotating shaft 713, bevel gears 716 are clamped on the bottom end of the transmission rod 715 and one end of the rotating shaft 713, and transmission belts 717 are sleeved on the outer side of the transmission rod 715 and the outer side of an output shaft of the rotating motor 709 corresponding to the top position of the arc-shaped hood 704;

the bottom end of the dust hood 710 is clamped with a slag discharging channel 718, the bottom end of the slag discharging channel 718 is clamped with a slag discharging bent pipe 719, a slag collecting box 720 is fixedly connected to the bottom position between two brackets 1 through bolts, a filter screen frame 721 is slidably connected to the inside of the slag collecting box 720, an exhaust cylinder 722 is clamped at the bottom end of the slag collecting box 720, a fan 723 is embedded and installed in the exhaust cylinder 722, a connecting pipe 724 is clamped at one end of the slag collecting box 720 corresponding to the slag discharging bent pipe 719, an air outlet is formed in one end of the dust hood 710, two adjacent bevel gears 716 are meshed with each other, one end of the slag discharging bent pipe 719 is embedded into the connecting pipe 724, the outer side of the slag discharging bent pipe 719 is slidably connected with the inner wall of the connecting pipe 724, a sealing ring is sleeved between the outer side of the slag discharging bent pipe 719 and the connecting pipe 724, and the fan 723 is powered by an external power supply;

The conveying and deviation preventing mechanism 8 comprises a supporting rod 801, a top frame 802, a limit rod 803, a movable frame 804, a rotating plate 805, a press roller 806, a positioning rod 807, a fixed block 808, a slide bar 809, a tensioning spring 810, a position adjusting rod 811, a rectangular groove 812, a conveying belt 813, a concave plate 814, a top rod 815 and a deviation preventing plate 816;

the three brackets 1 are symmetrically clamped with support rods 801, the top ends of the two support rods 801 positioned on the same side are fixedly connected with top frames 802 through bolts, limiting rods 803 are symmetrically clamped on the inner walls of the two top frames 802, movable frames 804 are movably sleeved on the outer sides of the two limiting rods 803, one end of each movable frame 804 is equidistantly and rotatably connected with a rotating plate 805, one end of each rotating plate 805 is rotatably connected with a compression roller 806, one end of each movable frame 804 is equidistantly and rotatably connected with a positioning rod 807 corresponding to one side of the corresponding rotating plate 805, one end of each positioning rod 807 and one end of each rotating plate 805 are rotatably connected with a fixed block 808, one end of each fixed block 808 is clamped with a sliding rod 809, the other end of each sliding rod 809 penetrates through the fixed block 808 at one end of the corresponding rotating plate 805, tensioning springs 810 are clamped on the outer side positions of the corresponding sliding rods 809 between the two fixed blocks 808, and position adjusting rods 811 are rotatably connected between the two top frames 802;

rectangular grooves 812 are symmetrically formed in the top ends of the feeding conveying plates 3, conveying belts 813 are symmetrically connected to the inner sides of the rectangular grooves 812 in a rotating mode, concave plates 814 are symmetrically clamped at two ends of the feeding conveying plates 3, ejector rods 815 are connected to the inner walls of the concave plates 814 in a threaded mode, deviation-preventing plates 816 are rotatably connected to the positions, corresponding to the tops of the feeding conveying plates 3, of one ends of the ejector rods 815, the positions of the two ends of the position adjusting rods 811 penetrate through one end of the movable frame 804 for conveniently pressing down and limiting building materials, the outer sides of the position adjusting rods 811 are connected with the inner walls of the movable frame 804 in a threaded mode, rotary discs are clamped at the two ends of the position adjusting rods 811, and the bottoms of the deviation-preventing plates 816 are attached to the top ends of the feeding conveying plates 3.

The working principle and the using flow of the invention are as follows: firstly, building materials are prevented from being fed on a feeding conveying plate 3, the building materials are driven to move on the feeding conveying plate 3 through the matching of a rectangular groove 812 and a conveying belt 813, and in the moving process, the building materials are limited by an anti-deflection plate 816, so that the deviation of the building materials is prevented, the conveying effect is ensured, in addition, a push rod 815 is rotated, the push rod 815 pushes the anti-deflection plate 816 to slide along the inner wall of a concave plate 814, the distance between the two anti-deflection plates 816 is adjusted, the limiting of the building materials with different widths is facilitated, the adaptability is improved, in addition, in the conveying process, a fixed block 808 is pushed to slide along a positioning rod 807 through the telescopic characteristic of a tensioning spring 810, the fixed block 808 is forced to push the rotating plate 805 and the pressing roller 806 to enable the pressing roller 806 to press and fix the building materials downwards, the stability of the building materials on the feeding conveying plate 3 is ensured, in addition, the shaking of the building materials is prevented, in addition, the pressing roller 806 and the rotating plate 805 is pushed to rotate in the moving process, the building materials are conveniently embedded under the pressing roller 806, and the convenience is improved in the pressing fixing convenience is improved due to the inclination of the rotating plate 805;

then, the building materials are conveyed to the bottom end of the shielding frame 5, the rotating motor 709 is started, the rotating motor 709 drives the side milling rod 705 and the side milling cutter 706 to rotate, side milling is carried out on the side surface of the building materials, blank surfaces at two ends are cut and detected, convenience is provided for subsequent grooving, meanwhile, in the side milling process, the arc-shaped cover 704 shields the chips, then the power is transmitted through the cooperation of the transmission belt 717, the side milling rod 705 drives the transmission rod 715 to rotate, the power is transmitted again through the bevel gear 716, the rotating shaft 713 and the wind blade 714 are driven to rotate, suction force is generated, the chips are adsorbed into the dust hood 710, meanwhile, the grid 711 is used for filtering, the chips are stored in the dust hood 710, in addition, wind force is generated through the rotation of the fan 723 in the air suction barrel 722, then the connection pipe 724, the slag discharge bent pipe 719 and the slag discharge channel 718 are matched, the chips in the dust hood 710 are sucked into the slag collection box 720, the chips are stored in a concentrated mode after being filtered through the filter screen frame 721, pollution to surrounding environment is prevented, and because the wind blade 723 is matched, the effect of the absorption effect on the chips is increased, and the effect of splashing is guaranteed;

In addition, the distance adjusting rods 702 are rotated, so that the distance adjusting rods 702 drive the movable supporting plates 703 and the arc covers 704 to move, the distance between the two arc covers 704 is changed, side milling of building materials with different widths is facilitated according to requirements, adaptability is improved, in addition, in the moving process of the arc covers 704, the supporting plates 707 drive the movable plates 708 and the rotary motors 709 to slide along the top ends of the shielding frames 5, and the moving effect of the arc covers 704 is maintained while limiting the arc covers 704;

then, the position of the baffle ring 631 is adjusted according to the requirement, the electric telescopic rod 629 pushes the cross vertical rod 612 to slide in the inner cross sleeve 611, the position of the clamping frame 613 is changed according to the requirement, the slotting depth is adjusted, then the driving motor 614 is started, power is transmitted through the transmission gear 617, the rotating rod 615 and the saw blade 616 are driven to rotate, the top end of the building material is cut and slotting, the bidirectional screw 606 is rotated, the U-shaped sliding block 607 is pushed to slide at the top end of the movable portal frame 602, the roller guide rail 604 is driven to slide in the U-shaped sliding rail 603 through the connecting plate 608, the mounting plate 610, the inner cross sleeve 611, the cross vertical rod 612 and the clamping frame 613 are driven to rotate ninety degrees and are parallel to the building material, the angle of the saw blade 616 is changed, the cutting slotting is conveniently carried out on two ends of the building material, the adaptability is improved, and during cutting, the lifting rod 609 pushes the protruding plate 605 and the movable portal frame 602 to slide in the fixed portal frame 601, the height of the saw blade 616 is changed, and the cutting positions of two ends of the building material are adjusted;

Finally, the push rod 619 is rotated, the push rod 619 moves in the frame 618, thereby carrying the rotary disc 621 to be attached to one end of the building material, enabling the two rotary discs 621 to clamp and limit the building material, preventing the building material from shifting in the process of conveying and slotting, simultaneously pushing the rotary disc 621, the limiting frame 622 and the positioning block 624 to rotate at the top end of the moving platform 620 along with the movement of the building material, pushing the stroke sliding block 626 to slide right along the top end of the moving platform 620 through the traction plate 625, forcing one end of the stroke sliding block 626 to contact with the touch switch 627, controlling the electric telescopic rod 629 to rise, pulling the cross vertical rod 612, the clamping frame 613 and the saw blade 616 to rise, eliminating the slotting of the building material, continuously moving along with the building material, enabling the rotary disc 621 to continuously rotate for one circle, and then pulling the stroke sliding block 626 to slide left and right along the top end of the moving platform 620 through the traction plate 625, controlling the electric telescopic rod 629 to descend, pushing the cross vertical rod 612, the clamping frame 613 and the saw blade 616 to intermittently cut and slotting, and enabling the slotting spacing between the top end and the two ends of the building material to be equal, and in addition, rotating the screw rod 623 to push the limiting frame 622 to slide along the top end of the sliding block 624, and the distance of the slotting is adjusted to slide back and forth, and the slotting distance is changed.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a multi-functional heat preservation building materials groover with adjustable, includes bracket (1), its characterized in that: a blanking conveying frame (2) is connected between two adjacent brackets (1), an inner wall of the other bracket (1) is connected with a feeding conveying plate (3), splice plates (4) are clamped between the two brackets (1) positioned at two ends of the blanking conveying frame (2), and shielding frames (5) are clamped at the top ends of the brackets (1) positioned at one side of the feeding conveying plate (3) and the top ends of the brackets (1) positioned at one side of the blanking conveying frame (2);

the top end of the splice plate (4) is provided with a multi-angle and multi-mode slotting mechanism (6), and the multi-angle and multi-mode slotting mechanism (6) comprises a fixed portal frame (601);

A fixed portal frame (601) is connected between the two brackets (1) corresponding to the top end of the splice plate (4), a movable portal frame (602) is movably connected inside the fixed portal frame (601), a U-shaped sliding rail (603) is clamped on the inner wall of the movable portal frame (602), and roller guide rails (604) are symmetrically and movably connected inside the U-shaped sliding rail (603);

the other end of the roller guide rail (604) is connected with a mounting plate (610) at the position corresponding to the other side of the movable portal frame (602), an inner cross sleeve (611) is clamped on the inner wall of the mounting plate (610), a cross vertical rod (612) is connected inside the inner cross sleeve (611) in a sliding manner, and a clamping frame (613) is connected to the bottom end of the cross vertical rod (612);

one bracket (1) top one side position department is connected with frame (618), frame (618) inner wall has push rod (619) through threaded symmetry, moving platform (620) has been cup jointed in the push rod (619) outside through the screw thread, moving platform (620) top one side position department rotates and is connected with rotary disk (621), rotary disk (621) top joint has spacing frame (622), spacing frame (622) inside rotation is connected with screw rod (623), screw rod (623) outside corresponds spacing frame (622) inside position department and has locating piece (624) through threaded connection, locating piece (624) top rotation is connected with traction plate (625), traction plate (625) other end corresponds moving platform (620) top position department rotation and is connected with stroke slider (626), moving platform (620) top corresponds stroke slider (626) one side position department and is connected with touch switch (627).

2. The adjustable multifunctional heat preservation building material grooving machine according to claim 1, characterized in that: the movable portal frame (602) is characterized in that protruding plates (605) are clamped at the top ends of the movable portal frames (602) at equal intervals, two bidirectional screw rods (606) are rotatably connected to the inner walls of the protruding plates (605), U-shaped sliding blocks (607) are connected to the outer sides of the bidirectional screw rods (606) through threads, connecting plates (608) are rotatably connected to one ends of the U-shaped sliding blocks (607) and one ends of roller guide rails (604) at positions corresponding to one sides of the movable portal frames (602), and lifting rods (609) are rotatably connected to the top ends of the protruding plates (605);

the top end of the clamping frame (613) is clamped with a driving motor (614) through a U-shaped plate, the inner wall of the clamping frame (613) is rotationally connected with a rotating rod (615), a saw blade (616) is sleeved at the position, corresponding to the inner position of the clamping frame (613), of the outer side of the rotating rod (615), and a transmission gear (617) is fixedly sleeved at the outer side of the rotating rod (615) and the outer side of a rotating shaft of the driving motor (614);

the top end of the mounting plate (610) is fixedly connected with a fixing frame (628) through a bolt, an electric telescopic rod (629) is fixedly connected with the bottom end of the fixing frame (628) at the position corresponding to the inner part of the inner cross sleeve (611) through a bolt, two ends of the clamping frame (613) are fixedly connected with a limiting frame (630) through a bolt, and a baffle ring (631) is connected with the outer side of the inner cross sleeve (611) at the position corresponding to the bottom of the limiting frame (630) through threads;

The electric telescopic rod (629) pushes the cross vertical rod (612) to slide in the inner cross sleeve (611), the position of the clamping frame (613) is changed according to the requirement, the cutting grooving depth is adjusted, in addition, the bidirectional screw rod (606) is rotated to push the U-shaped sliding block (607) to slide at the top end of the movable portal frame (602), the roller guide rail (604) is driven to slide in the U-shaped sliding rail (603) through the connecting plate (608), and then the mounting plate (610), the inner cross sleeve (611), the cross vertical rod (612) and the clamping frame (613) are driven to rotate ninety degrees, and the angle of the saw blade (616) is changed.

3. The adjustable multifunctional heat preservation building material grooving machine according to claim 2, characterized in that: the outer side of the movable portal frame (602) is in sliding connection with the inner wall of the fixed portal frame (601), two ends of the bidirectional screw rod (606) respectively penetrate through one end of the two convex plates (605), and two ends of the bidirectional screw rod (606) are respectively clamped with a knob;

the U-shaped sliding block (607) bottom and movable portal frame (602) top sliding connection, lifter (609) top runs through fixed portal frame (601) top, and lifter (609) outside and fixed portal frame (601) inner wall pass through threaded connection, lifter (609) top joint has the carousel.

4. The adjustable multifunctional heat preservation building material grooving machine according to claim 2, characterized in that: the driving motor (614) is powered by an external power supply, the two transmission gears (617) are meshed with each other, the outer side of the positioning block (624) is in sliding connection with the inner wall of the limiting frame (622), the top end of the moving platform (620) is provided with a sliding groove, and the bottom end of the travel sliding block (626) is in sliding connection with the inner wall of the sliding groove.

5. The adjustable multifunctional heat preservation building material grooving machine according to claim 2, characterized in that: the electric telescopic rod (629) and the touch switch (627) are powered by an external power supply, the signal output end of the touch switch (627) is connected with the input end of the electric telescopic rod (629), the bottom end of the electric telescopic rod (629) is fixedly connected with the top end of the cross vertical rod (612), and the top end of the limiting frame (630) is sleeved on the outer side of the cross vertical rod (612).

6. The adjustable multifunctional heat preservation building material grooving machine according to claim 1, characterized in that: a side milling and collecting mechanism (7) is arranged between the two brackets (1) at the bottom position corresponding to the shielding frame (5), and the side milling and collecting mechanism (7) comprises a T-shaped plate (701);

The two ends of the bracket (1) are fixedly connected with T-shaped plates (701) corresponding to the bottom positions of the shielding frames (5) through bolts, the inner walls of the two T-shaped plates (701) positioned at one end of the same bracket (1) are rotationally connected with interval adjusting rods (702), the outer sides of the interval adjusting rods (702) are symmetrically connected with movable supporting plates (703) through threads, the top ends of the movable supporting plates (703) are fixedly connected with arc covers (704) through bolts, the inner walls of the two arc covers (704) are rotationally connected with side milling rods (705), the inner positions of the two arc covers (704) corresponding to the outer sides of the side milling rods (705) are uniformly sleeved with side milling cutters (706) at equal intervals, the top ends of the two arc covers (704) are fixedly sleeved with supporting plates (707), the top ends of the two supporting plates (707) positioned on the same arc cover (704) are fixedly connected with movable plates (708) corresponding to the top positions of the shielding frames (5), and the top ends of the two movable plates (708) are fixedly connected with rotary motors (709) through bolts;

the novel dust collection device comprises an arc-shaped cover (704), wherein one end of the arc-shaped cover (704) is clamped with a dust collection cover (710), the inner wall of the dust collection cover (710) is clamped with a grid (711), a vertical plate (712) is clamped at the position, corresponding to one side of the grid (711), of the inner wall of the dust collection cover (710), the inner wall of the vertical plate (712) is rotationally connected with a rotating shaft (713), one end of the rotating shaft (713) is fixedly connected with a fan blade (714) through a bolt, the position, corresponding to one side of the rotating shaft (713), of the top of the dust collection cover (710) is rotationally connected with a transmission rod (715), the bottom end of the transmission rod (715) and one end of the rotating shaft (713) are clamped with bevel gears (716), and the outer side of the transmission rod (715) and the outer side of an output shaft of the rotating motor (709) are sleeved with a transmission belt (717) corresponding to the position of the top of the arc-shaped cover (704);

The dust hood is characterized in that a slag discharging channel (718) is clamped at the bottom end of the dust hood (710), a slag discharging bent pipe (719) is clamped at the bottom end of the slag discharging channel (718), a slag collecting box (720) is fixedly connected to the bottom position between the two brackets (1) through bolts, a filter screen frame (721) is slidably connected to the inside of the slag collecting box (720), an exhaust cylinder (722) is clamped at the bottom end of the slag collecting box (720), a fan (723) is embedded and installed in the exhaust cylinder (722), and a connecting pipe (724) is clamped at one end of the slag collecting box (720) corresponding to the slag discharging bent pipe (719);

the rotating motor (709) drives the side milling rod (705) and the side milling cutter (706) to rotate, side milling is conducted on the side surface of a building material, chips are shielded through the arc-shaped cover (704), then the rotating motor (709) drives the rotating shaft (713) and the fan blade (714) to rotate simultaneously, suction force is generated, the chips are adsorbed to the inside of the dust collection cover (710), meanwhile, the fan (723) in the air suction barrel (722) is in rotary fit, and the connecting pipe (724), the deslagging bent pipe (719) and the deslagging channel (718) are utilized to be matched, so that the chips in the dust collection cover (710) are sucked into the inside of the slag collection box (720) to be stored.

7. The adjustable multifunctional heat preservation building material grooving machine according to claim 6, characterized in that: the distance adjusting rod is characterized in that two ends of the distance adjusting rod (702) are respectively connected with a turntable in a clamping mode, grooves are symmetrically formed in the top end of the shielding frame (5), the top end of the supporting plate (707) penetrates through the grooves, two ends of the moving plate (708) are respectively connected with rollers in a rotating mode, the bottom end of the moving plate (708) is movably connected with the top end of the shielding frame (5) through the rollers, the rotating motor (709) is powered through an external power supply, and an output shaft of the rotating motor (709) penetrates through the arc-shaped cover (704) and is fixedly connected with the top end of the side milling rod (705).

8. The adjustable multifunctional heat preservation building material grooving machine according to claim 6, characterized in that: an air outlet is formed in one end of the dust hood (710), two adjacent bevel gears (716) are meshed with each other, one end of the slag discharging bent pipe (719) is embedded into the connecting pipe (724), the outer side of the slag discharging bent pipe (719) is in sliding connection with the inner wall of the connecting pipe (724), a sealing ring is sleeved between the outer side of the slag discharging bent pipe (719) and the connecting pipe (724), and the fan (723) is powered through an external power supply.

9. The adjustable multifunctional heat preservation building material grooving machine according to claim 1, characterized in that: the bottom end of the feeding conveying plate (3) is provided with a conveying and deviation preventing mechanism (8), and the conveying and deviation preventing mechanism (8) comprises a supporting rod (801);

The three brackets (1) are symmetrically clamped with supporting rods (801), the tops of the two supporting rods (801) positioned on the same side are fixedly connected with a top frame (802) through bolts, the inner walls of the two top frames (802) are symmetrically clamped with limiting rods (803), movable frames (804) are movably sleeved on the outer sides of the limiting rods (803), rotating plates (805) are connected with one end of each movable frame at equal intervals, pressing rollers (806) are rotatably connected with one end of each rotating plate (805), positioning rods (807) are rotatably connected with one end of each positioning rod (807) at equal intervals corresponding to one side of each rotating plate (805), fixing blocks (808) are rotatably connected with one end of each rotating plate (805), one end of each fixing block (808) is clamped with a sliding rod (809), the other end of each sliding rod (809) penetrates through one fixing block (808) at one end of each rotating plate (805), tensioning springs (810) are rotatably connected with one end of each fixing block (808), and the positions of the corresponding to one side of each sliding rod (809) are rotatably connected with one adjusting rod (811);

rectangular grooves (812) are symmetrically formed in the top ends of the feeding conveying plates (3), conveying belts (813) are symmetrically connected in the rectangular grooves (812) in a rotating mode, concave plates (814) are symmetrically clamped at two ends of the feeding conveying plates (3), ejector rods (815) are connected to the inner walls of the concave plates (814) through threads, and anti-deflection plates (816) are rotatably connected to one ends of the ejector rods (815) at positions corresponding to the tops of the feeding conveying plates (3);

Utilize conveyer belt (813) to drive building materials and remove on material loading delivery board (3) to prevent through preventing offset board (816) that the skew appears in the building materials, rotate ejector pin (815) in addition and push away offset board (816) and remove, adjust the distance between two offset boards (816) and prevent, be convenient for carry out spacingly to the building materials of different width, through the flexible characteristic of tensioning spring (810), push a fixed block (808) along slide bar (809) slip, force fixed block (808) to push away rotating plate (805) and compression roller (806) rotation, make compression roller (806) push down the fixed to the building materials.

10. The adjustable multifunctional heat preservation building material grooving machine according to claim 9, characterized in that: one end of the position adjusting rod (811) penetrates through one end of the movable frame (804), the outer side of the position adjusting rod (811) is connected with the inner wall of the movable frame (804) through threads, two ends of the position adjusting rod (811) are respectively connected with a turntable in a clamping mode, and the bottom end of the deviation preventing plate (816) is attached to the top end of the feeding conveying plate (3).