CN116766288A - Auxiliary cutting device for building insulation board - Google Patents

Abstract

The invention relates to the technical field of cutting, in particular to an auxiliary cutting device for a building insulation board. The invention provides an auxiliary cutting device for a building insulation board, which can stably push the insulation board to ensure the cutting effect. An auxiliary cutting device for a building insulation board comprises a base, a support frame, a sliding frame, a telescopic rod, a cutting machine, a limiting side plate and the like; fixedly connected with support frame on the base, the left portion sliding type of support frame is connected with the carriage, and the pivoted is connected with the telescopic link between carriage and the support frame, and the right part of support frame is connected with the guillootine, and the right side of support frame is connected with spacing curb plate. Through being provided with pushing mechanism, can realize that heated board thrust lasts stably and evenly distributes in the both sides of cutting the position, and reach the effect that can stably cut the heated board, promptly, guarantee the effect of cutting of heated board, the subsequent use of the heated board of being convenient for.

Description

Auxiliary cutting device for building insulation board

Technical Field

The invention relates to the field of cutting, in particular to an auxiliary cutting device for a building insulation board.

Background

The building insulation board is used in building construction with high fire resistance, high heat preservation and other high quality performances, provides a heat preservation function for the outer wall of a building, has good heat preservation effect, can reduce the thickness of the periphery of the building, increases the indoor use area and optimizes the building structure.

The area of a common building insulation board is very big, then in the building construction process, need use cutting device to cut the insulation board according to actual demand condition, adjust into suitable size and use, but prior art is when the insulation board cuts, adopt the manual work to carry out the mode of propelling movement to the insulation board and cut the flow, and because the application of force characteristic of people, on the one hand, the length of insulation board is very long, people can not keep a stable thrust, namely the phenomenon that the thrust takes place to break easily appears in the in-process of manual propelling movement insulation board, on the other hand, the width of insulation board is also very long, in order to keep the stationarity of insulation board, at least two people are required to carry out the propelling movement, but can't guarantee that two people application of force sizes are identical, consequently, the mode that adopts the manual work to push necessarily exists the uneven phenomenon of propelling movement dynamics, when leading to the insulation board to cut, cut the sideline is uneven, influence the cutting effect of insulation board, be unfavorable for the follow-up use of insulation board.

Disclosure of Invention

Aiming at the defect that the cutting effect is poor due to uneven pushing force when the insulation board is pushed by manpower to cut in the prior art, the invention provides the auxiliary cutting device for the building insulation board, which can stably push the insulation board to ensure the cutting effect.

The invention provides an auxiliary cutting device for a building insulation board, which comprises a base, a support frame, a sliding frame, a telescopic rod, a cutting machine and a limiting side plate, wherein the support frame is fixedly connected to the base, the sliding frame is connected to the left part of the support frame in a sliding mode, the telescopic rod is connected between the sliding frame and the support frame in a rotating mode, the cutting machine is connected to the right part of the support frame, the limiting side plate is connected to the right side of the support frame, the auxiliary cutting device further comprises a pushing mechanism, the pushing mechanism comprises a driving device, a bidirectional screw rod, a guide rod, a transmission device and a pushing plate, the bidirectional screw rod is rotationally connected to the support frame, the guide rod is fixedly connected to the support frame, the bidirectional screw rod and the guide rod form a group of pushing assemblies, the pushing assemblies are respectively arranged on two sides of the cutting machine, the pushing plate is connected with the push plate in a threaded mode with the bidirectional screw rod, the pushing plate is connected with the guide rod in a sliding mode, the driving device is fixedly connected to the support frame, and the transmission device is connected between the driving device and the two bidirectional screw rods.

Preferably, the rear side of the sliding frame is provided with a cross rod, the cross rod is matched with the push plate to limit the front and rear positions of the heat-insulating plate, and the length of the cross rod does not exceed the position of the cutting machine.

Preferably, still include dust absorption mechanism, dust absorption mechanism includes dust collection box, transmission pipe, dust extraction, expansion bracket, first elastic component and air-out net mouth, fixedly connected with dust collection box on the base, fixedly connected with expansion bracket on the dust collection box, fixedly connected with transmission pipe on the flexible son pole of expansion bracket, transmission pipe and dust collection box sliding connection, the tip of transmission pipe is in the guillootine top, the tip fixedly connected with dust extraction of transmission pipe, the cover is equipped with first elastic component on the flexible son pole of expansion bracket, the one end of first elastic component and the flexible son pole fixed connection of expansion bracket, the other end of first elastic component and the flexible female frame fixed connection of expansion bracket, fixedly connected with air-out net mouth on the dust collection box.

Preferably, still include pressing mechanism, pressing mechanism includes mounting bracket, second elastic component, presses pinch roller and inclined plane piece, and the tip both sides of transmission tube all sliding type are connected with the mounting bracket, and the cover is equipped with the second elastic component on the mounting bracket, and the one end and the mounting bracket fixed connection of second elastic component, the other end and the transmission tube fixed connection of second elastic component, the bottom rotation type of mounting bracket are connected with presses the pinch roller, the both sides fixedly connected with inclined plane piece of mounting bracket.

Preferably, the lifting mechanism comprises a first ejector rod and a second ejector rod, the second ejector rod is fixedly connected to the front side of the push plate, the first ejector rod is fixedly connected to the telescopic sub rod of the telescopic frame, and the second ejector rod can be in contact with the first ejector rod in the moving process and can be extruded to move upwards.

Preferably, still include dust fall mechanism, dust fall mechanism includes the water storage tank, presses the pump, control lever, transfer line and shower nozzle, fixedly connected with water storage tank on the dust collection box, is connected with the pressure pump on the water storage tank, and the water storage tank is connected with the shower nozzle, and the shower nozzle communicates with pressing the pump, and the shower nozzle is connected inside the dust collection box, fixedly connected with control lever on the flexible son pole of expansion bracket, and the rotation is connected with the transfer line on the dust collection box, and the one end and the control lever contact of transfer line, the other end and the pressing pump contact of transfer line.

Preferably, the thermal insulation board further comprises a limiting mechanism, the limiting mechanism comprises a fixing frame, a pressing plate and a third elastic piece, the fixing frame is fixedly connected to the left side of the sliding frame, the pressing plate is connected to the fixing frame in a sliding mode, the pressing plate is sleeved with the third elastic piece, one end of the third elastic piece is fixedly connected with the pressing plate, the other end of the third elastic piece is fixedly connected with the fixing frame, and the limiting mechanism is matched with the limiting side plate to limit the left and right positions of the thermal insulation board.

Preferably, the device further comprises a protection frame, and the support frame is fixedly connected with the protection frame and covers the outer side of the transmission device.

Compared with the prior art, the invention has the following beneficial effects:

1. through being provided with pushing mechanism, can realize that heated board thrust lasts stably and evenly distributes in the both sides of cutting the position, and reach the effect that can stably cut the heated board, promptly, guarantee the effect of cutting of heated board, the subsequent use of the heated board of being convenient for.

2. The dust collection mechanism can reduce the influence of chips on the cutting of the heat insulation plate, further ensures the cutting effect of the heat insulation plate, and ensures that the chips do not need to be cleaned and collected additionally in a unified chip collection mode, thereby providing convenience for the use of the auxiliary cutting device.

3. The pressing mechanism can prevent the lifting phenomenon from being influenced by the cutting machine after the insulation board contacts with the cutting machine, so that the insulation board is prevented from being in angle deviation with the cutting machine, and the cutting effect of the cutting machine is further improved.

4. The setting of dust fall mechanism can make the processing of the piece that disperses everywhere in the dust collection box space in aqueous, prevents to make the piece in the dust collection box by the air blow that continuously gets into and can't collect because the dust collection mechanism continuously inhales the air when using, provides convenience for collecting piece processing work.

Drawings

Fig. 1 is a schematic perspective view of the rear view of the present invention.

Fig. 2 is a schematic perspective view of the front view of the present invention.

Fig. 3 is a schematic perspective view of the rear view of the support frame, the sliding frame, the telescopic rod, the cutting machine and the limiting side plate of the invention.

Fig. 4 is a schematic perspective view of the front view of the support frame, the sliding frame, the telescopic rod, the cutting machine and the limiting side plate of the present invention.

Fig. 5 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 6 is a schematic perspective view of a dust suction mechanism according to the present invention.

Fig. 7 is a schematic view of a perspective view with a partial cross-section of a dust extraction mechanism according to the present invention.

Fig. 8 is a schematic perspective view of a pressing mechanism according to the present invention.

Fig. 9 is a schematic perspective view of a jack-up mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a dust settling mechanism of the present invention.

FIG. 11 is a schematic view of a perspective view, partially in section, of the dust fall mechanism of the present invention.

Fig. 12 is a schematic perspective view of a limiting mechanism according to the present invention.

The marks in the drawings are: the device comprises a base, a 2-supporting frame, a 3-sliding frame, a 4-telescopic rod, a 5-cutting machine, a 6-limiting side plate, a 7-pushing mechanism, a 71-driving device, a 72-bidirectional screw rod, a 73-guiding rod, a 74-conveying device, a 75-pushing plate, an 8-dust collection mechanism, a 81-dust collection box, a 82-conveying pipe, a 83-dust collection device, a 84-telescopic frame, a 85-first elastic piece, a 86-air outlet net opening, a 9-pressing mechanism, a 91-mounting frame, a 92-pressing wheel, a 93-second elastic piece, a 94-inclined surface block, a 10-jacking mechanism, a 101-first ejector rod, a 102-second ejector rod, a 11-dust fall mechanism, a 111-water storage tank, a 112-pressing pump, a 113-control rod, a 114-driving rod, a 115-nozzle, a 12-limiting mechanism, a 121-mounting frame, a 122-pressing plate, a 123-third elastic piece, a 13-protecting frame and a 14-heat insulation plate.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

1-5, including base 1, support frame 2, carriage 3, telescopic link 4, cutting machine 5 and spacing curb plate 6, welding has support frame 2 on the base 1, the left portion sliding connection of support frame 2 has carriage 3 (regard view of figure 2 and figure 4 as overall structure direction), support frame 2 comprises left side vertical support plate and right side vertical support plate and the horizontal support plate of connection at right side vertical support plate top, carriage 3 comprises the sliding plate that slides and set up at support frame 2 left side vertical support plate top and the link that sets up at the sliding plate rear side and be connected with sliding plate and horizontal pole, carriage 3 supports thermal insulation board 14 with the right part of support frame 2 jointly, carriage 3 makes thermal insulation board 14 can more smoothly remove, the rotation is connected with telescopic link 4 between carriage 3 and the support frame 2, the telescopic rod 4 increases the stability of the sliding frame 3 for moving the heat insulation plate 14 by increasing the supporting force to the sliding frame 3, the right part of the supporting frame 2 is connected with the cutting machine 5, the right side of the supporting frame 2 is connected with the limiting side plate 6 (shown in figure 4), the right side of the heat insulation plate 14 is limited, the distance between the limiting side plate 6 and the cutting machine 5 can be adjusted so as to adapt to different cutting widths, the telescopic rod further comprises a pushing mechanism 7, the pushing mechanism 7 comprises a driving device 71, a bidirectional screw 72, a guide rod 73, a transmission device 74 and a push plate 75, the bidirectional screw 72 is rotationally connected to the supporting frame 2, in the embodiment, the driving device 71 is a motor, the transmission device 74 is a belt pulley group formed by a belt pulley and a conveyor belt, the supporting frame 2 is welded with a guide rod 73, the bidirectional screw 72 and the guide rod 73 form a group of pushing components, the pushing components are provided with two groups, are respectively arranged on two sides of the cutting machine 5, are respectively connected with a pushing plate 75, the pushing plates 75 are connected with two-way screws 72 in a threaded mode, the pushing plates 75 are connected with guide rods 73 in a sliding mode, the supporting frame 2 is connected with a driving device 71 through bolts, a transmission device 74 is connected between the driving device 71 and the two-way screws 72, and the two-way screws 72 synchronously rotate under the action of the driving device 71.

As shown in fig. 1-4, the cross bar arranged at the rear side of the sliding frame 3 cooperates with the push plate 75 to limit the front and rear positions of the heat insulation plate 14, and the length of the cross bar does not exceed the position of the cutting machine 5.

As shown in fig. 2, the device further comprises a protection frame 13, and the protection frame 13 is mounted on the support frame 2 and covers the outer side of the transmission device 74.

Firstly, placing the thermal insulation board 14 on the sliding frame 3, at the moment, the cutting machine 5 is arranged at the rear side of the thermal insulation board 14, moving the sliding frame 3, enabling a cross bar at the rear side of the sliding frame 3 to be matched with the push plate 75, limiting the position of the front side and the rear side of the thermal insulation board 14, secondly, adjusting the left and right positions of the limiting side plates 6 according to the width required to cut the thermal insulation board 14, namely, adjusting the transverse distance between the limiting side plates 6 and the cutting machine 5 to be the cutting width of the thermal insulation board 14, fixing the positions of the limiting side plates 6 after the transverse distance is determined, thereby realizing the limiting of the right side position of the thermal insulation board 14, and then starting the driving device 71 and the cutting machine 5, the two bidirectional screws 72 rotate to drive the two push plates 75 to move backwards, the guide rods 73 enable the push plates 75 to move more stably, the push plates 75 are matched with the cross rods of the sliding frame 3 to enable the sliding frame 3 to stably push the heat preservation plates 14 backwards, meanwhile, the telescopic sub rods of the telescopic rods 4 rotate and stretch, the sliding frame 3 is matched with the movement of the sliding frame 3 to change, the sliding frame 3 can move more stably, the stability of the movement of the sliding frame 3 to push the heat preservation plates 14 is improved, after the heat preservation plates 14 are contacted with the cutting machine 5, the heat preservation plates 14 are cut by the cutting machine 5, finally, after the heat preservation plates 14 are cut, the heat preservation plates 14 are removed, the driving device 71 is controlled to move the push plates 75 back to the initial position, and the cutting machine 5 is closed; by arranging the pushing mechanism 7, under the action of the transmission device 74, the driving device 71 controls the bidirectional screw 72 to rotate at a constant speed, namely the pushing plate 75 can push the heat preservation plate 14 backwards at a constant speed, so that in the whole cutting process, under normal conditions, the auxiliary cutting device can not generate the phenomenon of thrust interruption and can keep the thrust stable, secondly, the two pushing assemblies are arranged to enable the two pushing plates 75 to be arranged on two sides of the cutting machine 5 respectively, and under the action of the transmission device 74, the pushing forces of the two pushing plates 75 are the same and respectively act on two sides of the cutting position of the heat preservation plate 14, so that the heat preservation plate 14 can be contacted with the cutting machine 5 more stably. The protection frame 13 protects the transmission device 74, and prevents external factors from affecting the normal operation of the transmission device 74 and the cutting effect of the insulation board 14.

Example 2

On the basis of embodiment 1, as shown in fig. 1, fig. 2, fig. 6 and fig. 7, the dust collection mechanism 8 further comprises a dust collection box 81, a transmission pipe 82, a dust collection device 83, a telescopic frame 84, a first elastic piece 85 and an air outlet net opening 86, in this embodiment, the dust collection device 83 is a dust collection fan, the first elastic piece 85 is a spring, the dust collection box 81 is mounted on the base 1, the dust collection box 81 is on the right side of the support frame 2, the telescopic frame 84 is welded on the dust collection box 81, the transmission pipe 82 is welded on a telescopic sub-rod of the telescopic frame 84, the transmission pipe 82 is connected with the dust collection box 81 in a sliding manner, the dust collection box 81 is fixedly connected with the air outlet net opening 86 at a position connected with the transmission pipe 82, namely, the transmission pipe 82 and the air outlet net opening 86 relatively slide, the end of the transmission pipe 82 is above the cutting machine 5, the end of the transmission pipe 82 is provided with the dust collection device 83, the air sucked by the dust collection device 83 can be discharged through the air outlet net opening 86, the telescopic frame 84 is sleeved with the first elastic piece 85, and the telescopic frame 84 is welded on the telescopic sub-rod, and the telescopic frame 84 is welded with the other end of the telescopic frame 85.

During the process of cutting the insulation board 14 by the cutting machine 5, a large amount of scraps are generated, on one hand, the scraps splash affects the working environment and is unfavorable for a user to cut, and the scraps splash is inconvenient to clean, on the other hand, the scraps may be accumulated on the insulation board 14 and affect the cutting effect of the cutting machine 5 on the insulation board 14, therefore, before the cutting machine 5 contacts with the insulation board 14, the dust collection device 83 is started, the scraps generated during the cutting of the cutting machine 5 are adsorbed by the dust collection device 83 and are collected in the dust collection box 81 through the transmission pipe 82, and the adsorbed redundant air is discharged from the air outlet net opening 86, and meanwhile, the air outlet net opening 86 can intercept the scraps and prevent the scraps from flying out; in order to ensure the adsorption effect of the dust suction device 83, the distance between the transmission pipe 82 and the heat insulation board 14 is small, so when the heat insulation board 14 needs to be removed after the heat insulation board 14 is cut, the telescopic sub-rod of the telescopic bracket 84 extends upwards to drive the transmission pipe 82 to move upwards away from the heat insulation board 14, the first elastic piece 85 is stretched, namely, the end part of the transmission pipe 82 is prevented from being too close to the heat insulation board 14 to be inconvenient for taking materials of the heat insulation board 14, then the telescopic sub-rod of the telescopic bracket 84 is loosened, and the telescopic sub-rod of the telescopic bracket 84 slides downwards to reset under the reset action of the first elastic piece 85; the dust collection mechanism 8 can reduce the influence of the scraps on the cutting of the heat preservation plate 14, further ensures the cutting effect of the heat preservation plate 14, and ensures that the scraps do not need to be cleaned and collected additionally in a unified scrap collecting mode, thereby providing convenience for the use of the auxiliary cutting device.

As shown in fig. 1, fig. 2 and fig. 8, still include pressing mechanism 9, pressing mechanism 9 includes mounting bracket 91, second elastic component 93, pressing wheel 92 and inclined plane piece 94, in this embodiment, second elastic component 93 is the spring, and the tip both sides of transfer line 82 all are connected with mounting bracket 91 in a sliding manner, and the cover is equipped with second elastic component 93 on the mounting bracket 91, and the one end and the mounting bracket 91 welding of second elastic component 93, the other end and the transfer line 82 welding of second elastic component 93, the bottom rotation of mounting bracket 91 are connected with pressing wheel 92, and pressing wheel 92 can press thermal insulation board 14 under the effect of second elastic component 93, and the both sides welding of mounting bracket 91 has inclined plane piece 94, can jack-up pressing mechanism 9 after thermal insulation board 14 and inclined plane piece 94 contact.

Because the thermal insulation board 14 is continuously transported backwards after being contacted with the cutting machine 5, the thermal insulation board 14 may lift slightly at the rear end of the thermal insulation board 14, so the thermal insulation board 14 will deviate from the cutting machine 5 in angle, and when the deviation in angle is serious, the cutting position of the thermal insulation board 14 may deviate, and therefore, the pressing mechanism 9 is provided, before the thermal insulation board 14 is placed, the thermal insulation board 14 is placed on the sliding frame 3 from the left side of the auxiliary cutting device before the thermal insulation board 14 is cut, so the thermal insulation board 14 firstly contacts with the bevel block 94 and presses the mounting frame 91 upwards, the pressing wheel 92 rolls on the thermal insulation board 14, the second elastic piece 93 is compressed, after the thermal insulation board 14 is placed, the second elastic piece 93 resets, the pressing wheel 92 is driven to press the thermal insulation board 14 downwards, and because the pressing mechanism 9 presses the thermal insulation board 14 on two sides of the transmission pipe 82, namely, the two sides of the cutting position of the pressing mechanism 9 press the thermal insulation board 5, and therefore, the pressing mechanism 9 can prevent the thermal insulation board 14 from contacting with the cutting machine 5, and the thermal insulation board 5 from being further lifted by the thermal insulation board 5, and the thermal insulation board 5 is prevented from being further lifted, and the thermal insulation board is further prevented from being damaged, and the thermal insulation board is cut 5.

As shown in fig. 1, 2 and 9, the jack-up mechanism 10 further comprises a jack-up mechanism 10, the jack-up mechanism 10 comprises a first ejector rod 101 and a second ejector rod 102, the second ejector rod 102 is welded on the front side of the push plate 75, the first ejector rod 101 is welded on the telescopic sub rod of the telescopic frame 84, and the second ejector rod 102 can be contacted with the first ejector rod 101 in the moving process and can press the first ejector rod 101 to move upwards so as to control the telescopic sub rod of the telescopic frame 84 to move upwards.

When the thermal insulation board 14 is cut quickly, the second ejector rod 102 is in contact with the first ejector rod 101, and in the process of continuously moving backwards, the second ejector rod 102 jacks up the first ejector rod 101, the first ejector rod 101 drives the telescopic sub rod of the telescopic frame 84 to extend upwards, and when the thermal insulation board 14 is cut completely, the first ejector rod 101 is jacked up to the highest position, namely, the telescopic sub rod of the telescopic frame 84 drives the transmission pipe 82 to be far away from the thermal insulation board 14, so that a user can quickly take out the thermal insulation board 14 without manually operating the telescopic frame 84 to control the transmission pipe 82 to be far away from the thermal insulation board 14, the operation flow is reduced, and convenience is provided for the use of the auxiliary cutting device; after the first ejector rod 101 is separated from the second ejector rod 102, the telescopic sub rod of the telescopic frame 84 resets under the action of the first elastic piece 85, and drives the first ejector rod 101 to reset.

As shown in fig. 1, 10 and 11, the dust settling mechanism 11 further comprises a dust settling mechanism 11, the dust settling mechanism 11 comprises a water storage tank 111, a pressing pump 112, a control rod 113, a transmission rod 114 and a spray nozzle 115, the water storage tank 111 is installed on the dust collection tank 81, the pressing pump 112 is connected to the water storage tank 111, the spray nozzle 115 is connected with the pressing pump 112, the spray nozzle 115 is connected inside the dust collection tank 81, water in the water storage tank 111 can be sprayed inside the dust collection tank 81 through the spray nozzle 115 by pressing the pressing pump 112, chips are treated, the control rod 113 is welded on a telescopic sub rod of the telescopic frame 84, the transmission rod 114 is connected onto the dust collection tank 81 in a rotating mode, one end of the transmission rod 114 is in contact with the control rod 113, and the other end of the transmission rod 114 is in contact with the pressing pump 112.

When the cutting work of the heat preservation plate 14 is finished once, the telescopic support 84 is controlled to move up the transmission pipe 82, and simultaneously, the telescopic sub rod of the telescopic support 84 moves up to drive the control rod 113 to move up, so that the control rod 113 moves up the front end part of the transmission rod 114 to rotate, the rear end part of the transmission rod 114 moves down, the pressing pump 112 is pressed downwards, water in the water storage tank 111 is conveyed to the spray head 115 and finally sprayed in the dust collection tank 81, and scattered chips in the space of the dust collection tank 81 are treated in the water, so that the chips in the dust collection tank 81 can not be collected due to the fact that the continuously-entering air blows away because the dust collection mechanism 8 continuously sucks air when in use, and convenience is brought to the chip collection treatment work; after the spraying is finished, the control rod 113 is driven to reset by the telescopic sub rod of the telescopic frame 84, and the pressing pump 112 resets itself to drive the transmission rod 114 to reset.

As shown in fig. 2 and 12, the thermal insulation board further comprises a limiting mechanism 12, the limiting mechanism 12 comprises a fixing frame 121, a pressing plate 122 and a third elastic piece 123, in the embodiment, the third elastic piece 123 is a spring, the fixing frame 121 is welded on the left side of the sliding frame 3, the pressing plate 122 is connected to the fixing frame 121 in a sliding mode, the pressing plate 122 is sleeved with the third elastic piece 123, one end of the third elastic piece 123 is welded with the pressing plate 122, the other end of the third elastic piece 123 is welded with the fixing frame 121, and the limiting mechanism 12 is matched with the limiting side plate 6 to limit the left and right positions of the thermal insulation board 14.

Before the heated board 14 is placed on the carriage 3, the pressing plate 122 is outwards slid, the third elastic piece 123 is compressed, after the heated board 14 is placed on the carriage 3, the pressing plate 122 is loosened, the pressing plate 122 is matched with the limiting side plate 6 under the action of the third elastic piece 123, the left side and the right side of the heated board 14 are limited, and the cutting effect of the heated board 14 is improved.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (8)

1. The utility model provides a building heated board auxiliary cutting device, including base (1), support frame (2), carriage (3), telescopic link (4), guillootine (5) and spacing curb plate (6), fixedly connected with support frame (2) on base (1), the left side slidingtype of support frame (2) is connected with carriage (3) that can convenient heated board (14) remove, carriage (3) support heated board (14) jointly with the right part of support frame (2), be connected with telescopic link (4) between carriage (3) and support frame (2) in the rotation, the removal of telescopic link (4) messenger carriage (3) is more stable, the right part of support frame (2) is connected with guillootine (5) that are used for cutting heated board (14), the right side of support frame (2) is connected with spacing curb plate (6) that can be used for stably promoting heated board (14) removal, a pushing mechanism (7) including drive arrangement (71), bi-directional screw (72), guide bar (73), transmission device (74) and push pedal (75) are connected with on support frame (72) rotation fixed connection in the rotation, a group of pushing components are formed by the bidirectional screw rods (72) and the guide rods (73), two groups of pushing components are arranged on two sides of the cutting machine (5), pushing plates (75) are connected to each group of pushing components, the pushing plates (75) are connected with the bidirectional screw rods (72) in a threaded mode, the pushing plates (75) are connected with the guide rods (73) in a sliding mode, driving devices (71) are fixedly connected to the supporting frame (2), transmission devices (74) are connected between the driving devices (71) and the two bidirectional screw rods (72), and the two bidirectional screw rods (72) synchronously rotate under the action of the driving devices (71).

2. The auxiliary cutting device for the building insulation board according to claim 1, wherein a cross rod is arranged on the rear side of the sliding frame (3), the cross rod is matched with the pushing plate (75) to limit the front and rear positions of the insulation board (14), and the length of the cross rod does not exceed the position of the cutting machine (5).

3. The auxiliary cutting device for the building insulation board according to claim 1, further comprising a dust collection mechanism (8) for absorbing scraps generated during cutting of the insulation board (14), wherein the dust collection mechanism (8) comprises a dust collection box (81), a transmission pipe (82), a dust collection device (83), a telescopic bracket (84), a first elastic piece (85) and an air outlet net opening (86), the dust collection box (81) for collecting the scraps is fixedly connected to the base (1), the telescopic bracket (84) is fixedly connected to the dust collection box (81), the transmission pipe (82) is fixedly connected to a telescopic sub-rod of the telescopic bracket (84), the transmission pipe (82) is connected with the dust collection box (81) in a sliding mode, the end portion of the transmission pipe (82) is arranged above the cutting machine (5), the end portion of the transmission pipe (82) is fixedly connected with the dust collection device (83), one end of the telescopic sub-rod of the telescopic bracket (84) is sleeved with a first elastic piece (85), one end of the first elastic piece (85) is fixedly connected with a telescopic sub-rod of the telescopic bracket (84), and the other end of the telescopic bracket (85) is fixedly connected with the telescopic bracket (81) with the inner pressure of the telescopic bracket (81), and the telescopic bracket (84) is fixedly connected with the dust collection box (81).

4. The auxiliary cutting device for the building insulation board according to claim 3, further comprising a pressing mechanism (9) for preventing the front side of the insulation board (14) from being lifted, wherein the pressing mechanism (9) comprises a mounting frame (91), a second elastic member (93), a pressing wheel (92) and an inclined surface block (94), the two sides of the end part of the transmission pipe (82) are both connected with the mounting frame (91) in a sliding mode, the mounting frame (91) is sleeved with the second elastic member (93), one end of the second elastic member (93) is fixedly connected with the mounting frame (91), the other end of the second elastic member (93) is fixedly connected with the transmission pipe (82), the bottom of the mounting frame (91) is rotatably connected with the pressing wheel (92), and the two sides of the mounting frame (91) are fixedly connected with the inclined surface block (94).

5. The auxiliary cutting device for the building insulation board according to claim 3, further comprising a jacking mechanism (10) for automatically lifting the transmission pipe (82), wherein the jacking mechanism (10) comprises a first ejector rod (101) and a second ejector rod (102), the second ejector rod (102) is fixedly connected to the front side of the push plate (75), the first ejector rod (101) is fixedly connected to a telescopic sub rod of the telescopic frame (84), and the second ejector rod (102) can be contacted with the first ejector rod (101) in the moving process and can be extruded to move upwards.

6. The building insulation board auxiliary cutting device according to claim 5, further comprising a dust settling mechanism (11) for processing scraps, wherein the dust settling mechanism (11) comprises a water storage tank (111), a pressing pump (112), a control rod (113), a transmission rod (114) and a spray nozzle (115), the water storage tank (111) is fixedly connected to the dust collection tank (81), the pressing pump (112) is connected to the water storage tank (111), the spray nozzle (115) is connected with the pressing pump (112), the spray nozzle (115) is communicated with the inside of the dust collection tank (81), the control rod (113) is fixedly connected to a telescopic sub rod of the telescopic frame (84), the transmission rod (114) is connected to the dust collection tank (81) in a rotating mode, one end of the transmission rod (114) is in contact with the control rod (113), and the other end of the transmission rod (114) is in contact with the pressing pump (112).

7. The auxiliary cutting device for the building insulation board according to claim 1, further comprising a limiting mechanism (12) for limiting the left and right positions of the insulation board (14), wherein the limiting mechanism (12) comprises a fixing frame (121), a pressing plate (122) and a third elastic piece (123), the fixing frame (121) is fixedly connected to the left side of the sliding frame (3), the pressing plate (122) is connected to the fixing frame (121) in a sliding mode, the third elastic piece (123) is sleeved on the pressing plate (122), one end of the third elastic piece (123) is fixedly connected with the pressing plate (122), the other end of the third elastic piece (123) is fixedly connected with the fixing frame (121), and the limiting mechanism (12) is matched with the limiting side plate (6) to limit the left and right positions of the insulation board (14).

8. The auxiliary cutting device for the building insulation board according to claim 1, further comprising a protection frame (13), wherein the protection frame (13) is fixedly connected to the support frame (2) and covers the outer side of the transmission device (74).