CN113414836A - Heated board cutting equipment - Google Patents

Abstract

The invention relates to the field of buildings, in particular to a heat-insulation board cutting device, and belongs to the technical field of heat-insulation board cutting.

Description

Heated board cutting equipment

Technical Field

The invention relates to the field of buildings, in particular to a heat-insulation plate cutting device.

Background

For example, publication number is CN201721168906.X heated board cutting machine, including the frame, the frame top is provided with the cutting device that is used for cutting into required shape with the heated board and is used for fixing cutting device on the portable support body in frame both sides and can drive the running gear that cutting device marchd on the frame, and the piece of the high temperature adhesion on the cutting part can not be got rid of simultaneously to this equipment at the cutting heated board.

Disclosure of Invention

The invention aims to provide insulation board cutting equipment which can cut an insulation board, remove chips adhered to a cutting component at high temperature and cut the insulation board into different angles.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a heated board cutting equipment, includes material loading assembly, cutting assembly and arrangement assembly, material loading assembly, arrangement assembly all are connected with the cutting assembly.

As a further optimization of the technical scheme, the invention relates to a heat-insulation board cutting device, wherein a feeding assembly comprises a feeding motor, belt wheels I, belts I, a half gear shaft support, a feeding box, half gears, racks, feeding plates, feeding plate slide rails, rack slide rails, notch pull rods, pull rod support lugs, a rotating plate, feeding box support lugs, a rotating shaft, positioning rods, springs and pressing sheets, the feeding motor is connected with the feeding box, the feeding motor is connected with the belt wheels I, the two belt wheels I are connected through the belts I, one belt wheel I is connected with the half gear shaft, the half gear shaft is rotatably connected with the half gear shaft support, the half gear shaft is connected with the feeding box, the half gears are connected with the half gears in a meshed manner, the racks are connected with the rack slide rails in a sliding manner, the rack slide rails are positioned on the side surfaces of the feeding box, and the racks are connected with the feeding plates, go up flitch and last flitch slide rail sliding connection, it is connected with the material loading case to go up the flitch slide rail, the opening pull rod is articulated mutually with pull rod journal stirrup, pull rod journal stirrup is connected with the commentaries on classics board, it is connected with last workbin journal stirrup to change the board, it is connected with last workbin journal stirrup to go up the workbin journal stirrup, it is connected with the axis of rotation to go up the workbin journal stirrup, the locating lever and last workbin journal stirrup sliding connection, the locating lever is connected with the preforming, the spring cup joints on the locating lever, the spring both ends are connected with last workbin journal stirrup, the preforming respectively, the spring is in tensile state.

As a further optimization of the technical scheme, the invention relates to insulation board cutting equipment, wherein a cutting assembly comprises a limiting plate, a positioning hole, a cutting bottom plate, a cutting motor, a worm wheel shaft support lug, a belt wheel II, a belt II, a conveying roller I, a belt wheel III, a belt III, a conveying roller II, a roller support lug, a belt wheel IV, a belt IV, a conveying roller III, a central disc, a clamping jaw, a cutting wire, a cutting support, a guide wheel I, a guide wheel II, a heating shell and an ignition device, wherein a rotating shaft is rotatably connected with the cutting bottom plate, the limiting plate is slidably connected with the cutting bottom plate, the positioning hole is positioned at the bottom of the cutting bottom plate, the cutting motor is connected with the worm, spiral teeth on the worm are meshed with the worm wheel, the worm wheel is connected with the worm wheel shaft, the worm wheel shaft is rotatably connected with the worm wheel shaft support lug, and the cutting bottom plate are connected with the worm wheel shaft support lug, the worm wheel shaft is connected with a belt wheel II, two belt wheels II are connected through a belt II, one belt wheel II is connected with a conveying roller I, the conveying roller I is rotatably connected with a roller support lug, the roller support lug is connected with a cutting bottom plate, the conveying roller I is connected with a belt wheel III, the two belt wheels III are connected through a belt III, one belt wheel III is connected with the conveying roller II, the conveying roller II is rotatably connected with the roller support lug, the conveying roller I is connected with a belt wheel IV, the two belt wheels IV are connected through a belt IV, one belt wheel IV is connected with the conveying roller III, the conveying roller III is rotatably connected with the roller support lug, a worm is connected with a central disc, the central disc is connected with a clamping jaw, the clamping jaw is contacted with a cutting wire, the clamping jaw is made of metal materials with large elastic deformation, the guide wheel I and the guide wheel II are both rotatably connected with a cutting support, the guide wheel I and the guide wheel II are both contacted with the cutting wire and tension the cutting wire, heating shell is connected with the cutting support, and the cutting support is connected with the cutting bottom plate, and heating shell is connected with ignition, and the ignition position corresponds the cutting silk top.

As the further optimization of the technical scheme, the invention relates to insulation board cutting equipment, the arrangement assembly comprises an arrangement inclined plate, a vertical plate, T-shaped slide rails, a motor shaft, a connecting rod I, a connecting rod II, a push rod, sliding lugs and push rollers, a cutting bottom plate is connected with the arrangement inclined plate, the arrangement inclined plate is connected with the vertical plate, the vertical plate is perpendicular to the arrangement inclined plate, the T-shaped slide rails are located in the arrangement inclined plate, the motor is connected with the motor shaft, the motor shaft is connected with the connecting rod I, the connecting rod I is hinged with the connecting rod II, the connecting rod II is rotatably connected with the push rod, the push rod is connected with the two sliding lugs, the push rollers are rotatably connected with the two sliding lugs, and the two sliding lugs are slidably connected with the T-shaped slide rails.

The insulation board cutting equipment has the beneficial effects that: automatic slope cutting when the pay-off angle can be adjusted to the material loading assembly makes the flitch cutting, the cutting assembly can carry the heated board of material loading assembly top to the cutting wire on, the cutting wire is through the quick cutting of high temperature heating with the heated board, can adhesion heated board hot melt residue on the cutting wire, the residue is buckled through the leading wheel and is stirred with the clamping jaw, the residue can not the adhesion on the cutting wire, the cutting finishes the back cutting wire and pushes away the heated board of different cutting directions to the parallel and level, slide down along the arrangement swash plate, the arrangement finishes.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

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

FIG. 2 is a schematic structural diagram I of the feeding assembly 1 of the present invention;

FIG. 3 is a schematic structural diagram II of the feeding assembly 1 of the present invention;

FIG. 4 is a schematic structural diagram III of the feeding assembly 1 of the present invention;

FIG. 5 is a fourth schematic structural view of the feeding assembly 1 of the present invention;

FIG. 6 is a first schematic structural view of the cutting assembly 2 of the present invention;

FIG. 7 is a second schematic structural view of the cutting assembly 2 of the present invention;

FIG. 8 is an enlarged view of the first embodiment of the cutting assembly 2 of the present invention;

FIG. 9 is an enlarged view of the second embodiment of the cutting assembly 2 of the present invention;

FIG. 10 is a third schematic view of the cutting assembly 2 of the present invention;

fig. 11 is a partial broken view of the cutting assembly 2 of the present invention;

FIG. 12 is a first schematic view of the arrangement of the finishing assembly 3 of the present invention;

fig. 13 is a second schematic structural view of the finishing assembly 3 of the present invention.

In the figure: a feeding assembly 1; a feeding motor 1-1; a pulley I1-2; 1-3 of a belt; half gear shafts 1-4; a half gear shaft support 1-5; 1-6 of a feeding box; 1-7 of a half gear; 1-8 of racks; feeding plates 1-9; feeding plate slide rails 1-10; rack sliding rails 1-11; 1-12 parts of a gap pull rod; 1-13 of a pull rod support lug; rotating plates 1-14; 1-15 of material loading box support lugs; 1-16 of a rotating shaft; positioning rods 1-17; springs 1-18; tabletting for 1-19; a cutting assembly 2; a limiting plate 2-1; positioning holes 2-2; cutting the bottom plate 2-3; cutting the motor 2-4; 2-5 parts of worm; 2-6 of worm wheel; 2-7 of a worm wheel shaft; worm gear shaft support lugs 2-8; belt wheels II 2-9; 2-10 parts of a belt II; conveying rollers I2-11; 2-12 of a belt wheel III; 2-13 of a belt III; conveying rollers II 2-14; 2-15 of roller support lug; belt pulleys IV 2-16; belts IV 2-17; conveying rollers III 2-18; 2-19 of a central disc; 2-20 parts of clamping jaw; 2-21 parts of cutting wires; cutting the stent 2-22; guide wheels I2-23; 2-24 parts of a guide wheel; heating the shell 2-25; ignition devices 2-26; a finishing assembly 3; arranging an inclined plate 3-1; 3-2 of a vertical plate; 3-3 of a T-shaped slide rail; 3-4 of a motor; 3-5 parts of a motor shaft; 3-6 parts of a connecting rod; 3-7 of a connecting rod; 3-8 parts of a push rod; 3-9 of a sliding support lug; 3-10 parts of push roller.

Detailed Description

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

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 13, and the insulation board cutting apparatus includes a feeding assembly 1, a cutting assembly 2, and a finishing assembly 3, where the feeding assembly 1 and the finishing assembly 3 are both connected to the cutting assembly 2.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-13, and the embodiment further describes the first embodiment, where the feeding assembly 1 includes a feeding motor 1-1, a belt wheel i 1-2, a belt i 1-3, a half gear shaft 1-4, a half gear shaft support 1-5, a feeding box 1-6, a half gear 1-7, a rack 1-8, a feeding plate 1-9, a feeding plate slide rail 1-10, a rack slide rail 1-11, a notch pull rod 1-12, a pull rod support lug 1-13, a rotating plate 1-14, a feeding box support lug 1-15, a rotating shaft 1-16, a positioning rod 1-17, a spring 1-18, and a pressing sheet 1-19, the feeding motor 1-1 is connected to the feeding box 1-6, the feeding motor 1-1 is connected to the belt wheel i 1-2, two belt wheels I1-2 are connected through a belt I1-3, one belt wheel I1-2 is connected with a half gear shaft 1-4, the half gear shaft 1-4 is rotationally connected with a half gear shaft support 1-5, the half gear shaft support 1-5 is connected with an upper material box 1-6, the half gear shaft 1-4 is connected with a half gear 1-7, the half gear 1-7 is meshed with a rack 1-8, the rack 1-8 is slidably connected with a rack slide rail 1-11, the rack slide rail 1-11 is positioned on the side surface of the upper material box 1-6, the rack 1-8 is connected with an upper material plate 1-9, the upper material plate 1-9 is slidably connected with an upper material plate slide rail 1-10, the upper material plate slide rail 1-10 is connected with the upper material box 1-6, and a gap pull rod 1-12 is hinged with a pull rod support lug 1-13, the pull rod support lugs 1-13 are connected with the rotating plates 1-14, the rotating plates 1-14 are connected with the upper material box support lugs 1-15, the upper material box support lugs 1-15 are connected with the upper material box 1-6, the upper material box support lugs 1-15 are connected with the rotating shafts 1-16, the positioning rods 1-17 are in sliding connection with the upper material box support lugs 1-15, the positioning rods 1-17 are connected with the pressing sheets 1-19, the springs 1-18 are sleeved on the positioning rods 1-17, two ends of the springs 1-18 are respectively connected with the upper material box support lugs 1-15 and the pressing sheets 1-19, the springs 1-18 are in a stretching state, and the feeding assembly can adjust a feeding angle to enable the feeding plate to be automatically obliquely cut during cutting.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1-13, and the present embodiment further describes the first embodiment, where the cutting assembly 2 includes a limiting plate 2-1, a positioning hole 2-2, a cutting bottom plate 2-3, a cutting motor 2-4, a worm 2-5, a worm wheel 2-6, a worm wheel shaft 2-7, a worm wheel shaft lug 2-8, a belt wheel II 2-9, a belt II 2-10, a conveying roller I2-11, a belt wheel III 2-12, a belt III 2-13, a conveying roller II 2-14, a roller lug 2-15, a belt wheel IV 2-16, a belt IV 2-17, a conveying roller III 2-18, a center plate 2-19, a clamping jaw 2-20, a cutting wire 2-21, a cutting support 2-22, a guide wheel I2-23, a belt IV 2-17, a center plate 2-19, a clamping jaw 2-20, a cutting wire 2-21, a cutting support 2-22, a guide wheel I2-23, A guide wheel II 2-24, a heating shell 2-25 and an ignition device 2-26, wherein a rotating shaft 1-16 is rotatably connected with a cutting bottom plate 2-3, a limiting plate 2-1 is slidably connected with the cutting bottom plate 2-3, a positioning hole 2-2 is positioned at the bottom of the cutting bottom plate 2-3, a cutting motor 2-4 is connected with a worm 2-5, spiral teeth on the worm 2-5 are meshed with a worm wheel 2-6, the worm wheel 2-6 is connected with a worm wheel shaft 2-7, the worm wheel shaft 2-7 is rotatably connected with a worm wheel shaft support lug 2-8, the worm wheel shaft support lug 2-8 is connected with the cutting bottom plate 2-3, the worm wheel shaft 2-7 is connected with a belt wheel II 2-9, and the two belt wheels II 2-9 are connected through a belt II 2-10, one belt wheel II 2-9 is connected with a conveying roller I2-11, the conveying roller I2-11 is rotationally connected with a roller support lug 2-15, the roller support lug 2-15 is connected with a cutting base plate 2-3, the conveying roller I2-11 is connected with a belt wheel III 2-12, the two belt wheels III 2-12 are connected through a belt III 2-13, one belt wheel III 2-12 is connected with a conveying roller II 2-14, the conveying roller II 2-14 is rotationally connected with a roller support lug 2-15, the conveying roller I2-11 is connected with a belt wheel IV 2-16, the two belt wheels IV 2-16 are connected through a belt IV 2-17, one belt wheel IV 2-16 is connected with a conveying roller III 2-18, the conveying roller III 2-18 is rotationally connected with a roller support lug 2-15, the worm 2-5 is connected with a central disc 2-19, the central disc 2-19 is connected with a clamping jaw 2-20, the clamping jaw 2-20 is contacted with a cutting wire 2-21, the clamping jaw 2-20 is made of metal materials with large elastic deformation, a guide wheel I2-23 and a guide wheel II 2-24 are rotatably connected with a cutting support 2-22, the guide wheel I2-23 and the guide wheel II 2-24 are contacted with the cutting wire 2-21 and tension the cutting wire 2-21, a heating shell 2-25 is connected with the cutting support 2-22, the cutting support 2-22 is connected with a cutting bottom plate 2-3, the heating shell 2-25 is connected with an ignition device 2-26, the ignition device 2-26 is positioned above the cutting wire 2-21, the cutting assembly can convey the insulation board at the uppermost end of the feeding assembly to the cutting wire, the cutting wire can adhere heated board hot melt residue through the quick cutting of high temperature heating with the heated board on the cutting wire, and the residue is buckled through the leading wheel and is stirred with the clamping jaw, and the residue can not adhere on the cutting wire.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 13, and the present embodiment further describes the first embodiment, where the finishing assembly 3 includes a finishing inclined plate 3-1, a vertical plate 3-2, a T-shaped slide rail 3-3, a motor 3-4, a motor shaft 3-5, a connecting rod i 3-6, a connecting rod ii 3-7, a push rod 3-8, a sliding support lug 3-9, and a push roller 3-10, the cutting bottom plate 2-3 is connected with the finishing inclined plate 3-1, the finishing inclined plate 3-1 is connected with the vertical plate 3-2, the vertical plate 3-2 is perpendicular to the finishing inclined plate 3-1, the T-shaped slide rail 3-3 is located in the finishing inclined plate 3-1, the motor 3-4 is connected with the finishing inclined plate 3-1, and the motor 3-4 is connected with the motor shaft 3-5, the motor shaft 3-5 is connected with the connecting rod I3-6, the connecting rod I3-6 is hinged with the connecting rod II 3-7, the connecting rod II 3-7 is rotatably connected with the push rod 3-8, the push rod 3-8 is connected with the two sliding support lugs 3-9, the push roller 3-10 is rotatably connected with the two sliding support lugs 3-9, the two sliding support lugs 3-9 are slidably connected with the T-shaped slide rail 3-3, after cutting, the cutting wire pushes the heat insulation plates in different cutting directions to be level, the heat insulation plates slide down along the arranging inclined plate, and finishing.

The invention relates to a heat insulation plate cutting device, which has the working principle that: the insulation board is placed into the feeding box 1-6 through the side face of the feeding box 1-6, after the feeding box is full, the feeding motor 1-1 is started, the feeding motor 1-1 drives belt wheels I1-2 to rotate, the two belt wheels I1-2 drive half gear shafts 1-4 to rotate through belts I1-3, the half gear shafts 1-4 drive half gears 1-7 to rotate, the half gears 1-7 drive racks 1-8 to rotate, the racks 1-8 drive feeding boards 1-9 to rise along feeding board sliding rails 1-10, the feeding boards 1-9 drive insulation boards in the feeding box 1-6 to rise, the insulation boards cannot rise continuously after contacting with the limiting plates 2-1 and the conveying rollers II 2-14, transmission between the belt wheels I1-2 and the belts I1-3 begins to slip, and force is still applied to the half gears 1-7 to enable the half gears 1-7 to keep meshed with the racks The height of the supported heat-insulation board is kept at a constant closed angle, heat-insulation boards with different angles are often needed in a building, the feeding angle needs to be adjusted at the moment, the opening pull rod 1-12 is lifted, the opening pull rod 1-12 rotates around a hinged shaft with the pull rod support lug 1-13, the opening pull rod 1-12 drives the positioning rod 1-17 to move downwards through the pressing sheet 1-19 to pull out from the positioning hole 2-2, the rotating plate 1-14 is rotated, the rotating plate 1-14 drives the upper material box support lug 1-15 to rotate, the upper material box support lug 1-15 drives the rotating shaft 1-16 to rotate in the cutting bottom plate 2-3, the upper material box support lug 1-15 drives the upper material box 1-6 to rotate, the upper material box 1-6 drives the heat-insulation board to rotate, the opening pull rod 1-12 is loosened after the required angle is rotated, and the positioning rod 1-17 is reset to be inserted into the positioning hole 2-2 under the action of the spring 1-18 When the feeding box 1-6 cannot rotate, the feeding of the insulation boards is inclined, the cutting motor 2-4 is started, the cutting motor 2-4 drives the worm 2-5 to rotate, the worm 2-5 drives the worm wheel 2-6 to rotate, the worm wheel 2-6 drives the worm wheel shaft 2-7 to rotate, the worm wheel shaft 2-7 drives the belt wheel II 2-9 to rotate, the two belt wheels II 2-9 drive the conveying roller I2-11 to rotate through the belt II 2-10, the conveying roller I2-11 drives the belt wheel III 2-12 to rotate, the two belt wheels III 2-12 drive the conveying roller II 2-14 to rotate through the belt III 2-13, the conveying roller II 2-14 rotates to convey the uppermost insulation board to the position below the conveying roller I2-11, the conveying roller I2-11 rotates to drive the insulation boards to be in contact with the cutting wires 2-21, starting an ignition device 2-26, heating a cutting wire 2-21 in a heating shell 2-25 by flame sprayed by the ignition device 2-26, driving a central disc 2-19 to rotate by a worm 2-5, driving a clamping jaw 2-20 to rotate by the central disc 2-19, enabling the clamping jaw 2-20 to be in contact with the cutting wire 2-21, enabling the clamping jaw 2-20 to be made of metal materials with large elastic deformation, clamping the cutting wire 2-21 by elastic deformation on two sides of the clamping jaw 2-20 after the clamping jaw 2-20 is in contact with the cutting wire 2-21, driving the cutting wire 2-21 to rotate by the rotation of the clamping jaw 2-20, restoring after the clamping jaw 2-20 is not in contact with the cutting wire 2-21, continuously driving the cutting wire 2-21 to move by the next clamping jaw 2-20, and passing through a guide wheel I2-23, Limiting the guide wheels II 2-24, heating the ignition device 2-26, cutting the pushed insulation board into two halves with different angles by the cutting wires 2-21 at high speed and high temperature, adhering hot melting residues of the insulation board when the cutting wires 2-21 are cut, removing parts by slight bending of the guide wheels II 2-24 at the outermost sides after the cutting wires 2-26 are slightly brittle, completely removing the parts by stirring through the clamping jaws 2-20 without influencing the cutting effect, driving the belt pulleys IV 2-16 to rotate by the conveying roller I2-11, driving the conveying roller III 2-18 to rotate by the two belt pulleys IV 2-16 through the belt IV 2-17, conveying the cut insulation board to the finishing inclined plate 3-1 by the conveying roller III 2-18, sliding the finishing inclined plate 3-1 down along the finishing inclined plate 3-1, starting the motor 3-4, the motor 3-4 drives the motor shaft 3-5 to rotate, the motor shaft 3-5 drives the connecting rod I3-6 to rotate, the connecting rod I3-6 drives the sliding support lug 3-9 to slide in the T-shaped sliding rail 3-3 through the connecting rod II 3-7 and the push rod 3-8, the sliding support lug 3-9 drives the push roller 3-10 to horizontally slide to push the falling heat preservation plate, the inclined heat preservation plate is contacted with the vertical plate 3-2 and returns to the normal direction under the pushing force of the push roller 3-10, and finishing the arrangement.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides an heated board cutting equipment, includes material loading assembly (1), cutting assembly (2) and arrangement assembly (3), its characterized in that: the feeding assembly (1) and the finishing assembly (3) are connected with the cutting assembly (2).

2. The insulation board cutting apparatus according to claim 1, wherein: the feeding assembly (1) comprises a feeding motor (1-1), a belt wheel I (1-2), a belt I (1-3), a half gear shaft (1-4), a half gear shaft support (1-5), a feeding box (1-6), a half gear (1-7), a rack (1-8), a feeding plate (1-9), a feeding plate slide rail (1-10), a rack slide rail (1-11), a notch pull rod (1-12), a pull rod support lug (1-13), a rotating plate (1-14), a feeding box support lug (1-15), a rotating shaft (1-16), a positioning rod (1-17), a spring (1-18) and a pressing sheet (1-19), wherein the feeding motor (1-1) is connected with the feeding box (1-6), and the feeding motor (1-1) is connected with the belt wheel I (1-2), two belt wheels I (1-2) are connected through a belt I (1-3), one belt wheel I (1-2) is connected with a half gear shaft (1-4), the half gear shaft (1-4) is rotationally connected with a half gear shaft bracket (1-5), the half gear shaft bracket (1-5) is connected with an upper material box (1-6), the half gear shaft (1-4) is connected with a half gear (1-7), the half gear (1-7) is meshed and connected with a rack (1-8), the rack (1-8) is slidably connected with a rack sliding rail (1-11), the rack sliding rail (1-11) is positioned on the side surface of the upper material box (1-6), the rack (1-8) is connected with an upper material plate (1-9), the upper material plate (1-9) is slidably connected with an upper material plate sliding rail (1-10), the feeding plate slide rail (1-10) is connected with a feeding box (1-6), the opening pull rod (1-12) is hinged with a pull rod support lug (1-13), the pull rod support lug (1-13) is connected with a rotating plate (1-14), the rotating plate (1-14) is connected with a feeding box support lug (1-15), the feeding box support lug (1-15) is connected with a feeding box (1-6), the feeding box support lug (1-15) is connected with a rotating shaft (1-16), the positioning rod (1-17) is connected with the feeding box support lug (1-15) in a sliding manner, the positioning rod (1-17) is connected with a pressing plate (1-19), the spring (1-18) is sleeved on the positioning rod (1-17), and two ends of the spring (1-18) are respectively connected with the feeding box support lug (1-15), The pressing sheets (1-19) are connected, and the springs (1-18) are in a stretching state.

3. The insulation board cutting apparatus according to claim 1, wherein: the cutting assembly (2) comprises a limiting plate (2-1), a positioning hole (2-2), a cutting bottom plate (2-3), a cutting motor (2-4), a worm (2-5), a worm wheel (2-6), a worm wheel shaft (2-7), a worm wheel shaft support lug (2-8), a belt wheel II (2-9), a belt II (2-10), a conveying roller I (2-11), a belt wheel III (2-12), a belt III (2-13), a conveying roller II (2-14), a roller support lug (2-15), a belt wheel IV (2-16), a belt IV (2-17), a conveying roller III (2-18), a central disc (2-19), a clamping jaw (2-20), a cutting wire (2-21), a cutting support (2-22), A guide wheel I (2-23), a guide wheel II (2-24), a heating shell (2-25) and an ignition device (2-26), wherein a rotating shaft (1-16) is rotatably connected with a cutting bottom plate (2-3), a limiting plate (2-1) is slidably connected with the cutting bottom plate (2-3), a positioning hole (2-2) is positioned at the bottom of the cutting bottom plate (2-3), a cutting motor (2-4) is connected with the cutting bottom plate (2-3), the cutting motor (2-4) is connected with a worm (2-5), spiral teeth on the worm (2-5) are meshed with a worm wheel (2-6), the worm wheel (2-6) is connected with a worm wheel shaft (2-7), the worm wheel shaft (2-7) is rotatably connected with a worm wheel shaft support lug (2-8), the worm wheel shaft support lugs (2-8) are connected with the cutting bottom plate (2-3), the worm wheel shaft (2-7) is connected with the belt wheels II (2-9), the two belt wheels II (2-9) are connected through the belt II (2-10), one belt wheel II (2-9) is connected with the conveying roller I (2-11), the conveying roller I (2-11) is rotatably connected with the roller support lugs (2-15), the roller support lugs (2-15) are connected with the cutting bottom plate (2-3), the conveying roller I (2-11) is connected with the belt wheels III (2-12), the two belt wheels III (2-12) are connected through the belt III (2-13), one belt wheel III (2-12) is connected with the conveying roller II (2-14), the conveying roller II (2-14) is rotatably connected with the roller support lugs (2-15), the conveying roller I (2-11) is connected with belt wheels IV (2-16), the two belt wheels IV (2-16) are connected through belts IV (2-17), one belt wheel IV (2-16) is connected with a conveying roller III (2-18), the conveying roller III (2-18) is rotatably connected with roller lugs (2-15), a worm (2-5) is connected with a central disc (2-19), the central disc (2-19) is connected with clamping jaws (2-20), the clamping jaws (2-20) are contacted with cutting wires (2-21), the clamping jaws (2-20) are made of metal materials with large elastic deformation, the guide wheel I (2-23) and the guide wheel II (2-24) are rotatably connected with a cutting support (2-22), and the guide wheel I (2-23) are mounted on the conveying roller IV, and the belt wheels IV (2-16) are connected through belts IV (2-17), one belt wheel IV (2-16) is connected with the conveying roller III, one belt wheel III (2-18) is rotatably connected with a belt pulley IV (2-15), the conveying roller III (2-20) is connected with a belt pulley IV (2-15) through a belt pulley IV), the central disc (2-19) and the central disc (2-20) and the cutting support (central disc (2) and the cutting support (2) which is connected with the cutting wire (2) which is connected with the cutting support and the cutting support (2) respectively, The guide wheels II (2-24) are all in contact with the cutting wires (2-21) and tension the cutting wires (2-21), the heating shells (2-25) are connected with the cutting supports (2-22), the cutting supports (2-22) are connected with the cutting bottom plate (2-3), the heating shells (2-25) are connected with the ignition devices (2-26), and the ignition devices (2-26) are located above the cutting wires (2-21).

4. The insulation board cutting apparatus according to claim 1, wherein: the tidying assembly (3) comprises a tidying inclined plate (3-1), a vertical plate (3-2), a T-shaped sliding rail (3-3), a motor (3-4), a motor shaft (3-5), a connecting rod I (3-6), a connecting rod II (3-7), a push rod (3-8), a sliding support lug (3-9) and a push roller (3-10), a cutting bottom plate (2-3) is connected with the tidying inclined plate (3-1), the tidying inclined plate (3-1) is connected with the vertical plate (3-2), the vertical plate (3-2) is perpendicular to the tidying inclined plate (3-1), the T-shaped sliding rail (3-3) is located in the tidying inclined plate (3-1), the motor (3-4) is connected with the tidying inclined plate (3-1), and the motor (3-4) is connected with the motor shaft (3-5), the motor shaft (3-5) is connected with the connecting rod I (3-6), the connecting rod I (3-6) is hinged with the connecting rod II (3-7), the connecting rod II (3-7) is rotatably connected with the push rod (3-8), the push rod (3-8) is connected with the two sliding support lugs (3-9), the push roller (3-10) is rotatably connected with the two sliding support lugs (3-9), and the two sliding support lugs (3-9) are slidably connected with the T-shaped sliding rail (3-3).

Images