CN114770628A

CN114770628A - Slotting device for machining heat-insulation energy-storage integrated wallboard

Info

Publication number: CN114770628A
Application number: CN202210366342.XA
Authority: CN
Inventors: 尹显东
Original assignee: Dongkou Wanmei Composite Material Co ltd
Current assignee: Dongkou Wanmei Composite Material Co ltd
Priority date: 2022-04-08
Filing date: 2022-04-08
Publication date: 2022-07-22
Also published as: CN118003390A

Abstract

The invention relates to the field of integrated wallboard processing equipment, in particular to a slotting device for processing a heat-insulation energy-storage integrated wallboard, which comprises a base fixed with a workbench, wherein a rack is fixed on the workbench, and a slotting machine is arranged on the rack, and the slotting device also comprises: the dust and debris collecting mechanism is used for collecting dust and debris generated by the operation of the slotting machine; the dust and debris collecting mechanism is arranged on the screening mechanism and used for collecting dust and debris generated by the operation of the grooving machine, conveying the collected dust and debris to the screening mechanism and simultaneously driving the screening mechanism to screen the dust and debris; the backflushing anti-blocking mechanism is arranged on the rack, and the screening mechanism screens the dust fragments and simultaneously drives the backflushing anti-blocking mechanism to blow and dredge the screening mechanism. This kind of integrated wallboard processing of thermal-insulated energy storage is with fluting device realizes having reduced working strength to the collection and the branch sieve of dust piece to the health safety of protection operation environment safety and staff.

Description

Slotting device for machining heat-insulation and energy-storage integrated wallboard

Technical Field

The invention relates to the field of integrated wallboard processing equipment, in particular to a slotting device for processing a heat-insulation and energy-storage integrated wallboard.

Background

The integrated wallboard of thermal-insulated energy storage can produce a lot of dust pieces when carrying out slotting and processing, and these dust pieces are when collecting, waste time and energy, and after dissipation to operational environment, it is abominable to lead to operational environment, and the healthy safety of unfavorable recruitment people takes place the conflagration incident easily moreover, in view of this, we provide a slotting device for the integrated wallboard processing of thermal-insulated energy storage.

Disclosure of Invention

The invention aims to provide a slotting device for processing a heat-insulation and energy-storage integrated wallboard, which is used for solving the problems in the background technology. In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a fluting device is used in processing of integrated wallboard of thermal-insulated energy storage, includes the base, is fixed with the workstation on the base, and is fixed with the frame on the workstation, is provided with the groover in the frame, still includes:

the dust and debris collecting mechanism is used for collecting dust and debris generated by the operation of the slotting machine;

the screening mechanism is arranged on the base, the dust and debris collecting mechanism is arranged on the screening mechanism, collects dust and debris generated by operation of the grooving machine and then conveys the collected dust and debris to the screening mechanism, and simultaneously drives the screening mechanism to screen the dust and debris;

the backflushing anti-blocking mechanism is arranged on the rack, and the screening mechanism is used for screening the dust fragments and simultaneously driving the backflushing anti-blocking mechanism to blow and dredge the screening mechanism.

Preferably, divide sieve mechanism to fix on the base including dividing the sieve case, and divide the sieve case to pass through support two, divide the fixed and intercommunication play feed cylinder of lateral wall and trachea three of sieve case, it is connected with axostylus axostyle two to run through and the dead axle rotates on the top cap of sieve case to divide, the coaxial fixed connection in the bottom surface center of carousel in upper end of axostylus axostyle two, the inner wall dead axle that divides the sieve case rotates and is connected with the sieve tray, axostylus axostyle two runs through and fixed connection is located the center department of sieve tray, it is located the upper and lower both sides of sieve tray respectively with the lateral wall link that divides the sieve case to go out feed cylinder and trachea three, and trachea three is fixed with the lateral wall link that divides the sieve case and is fixed with the filter screen, and the lower extreme of axostylus axostyle two fixed connection brush heads is passed through to the lower extreme of axostylus axostyle two.

Preferably, the lower end of the discharge cylinder is communicated with the first collecting cylinder, a first valve plate is arranged on the side wall of the discharge cylinder, the lower end of the screening box is communicated with the second collecting cylinder, a second valve plate is arranged on the side wall of the lower end of the screening box, a third air pipe is inserted below the liquid level in the water tank, and the water tank is connected with an exhaust pipe.

Preferably, dust piece collection mechanism includes the air pump, and the air pump passes through the support one to be fixed on the top cap of branch sieve case, and the impeller shaft lower extreme of air pump is perpendicular and fixed connection bull stick one, and the bull stick one is kept away from the one end dead axle of impeller shaft rotates the connection gear, and the gear is connected with the inboard tooth meshing of ring gear, and the coaxial fixed connection of ring gear is on the upper surface of carousel.

Preferably, the side wall of the air pump is fixed and connected with a second air pipe, one end of the second air pipe is fixed to the top cover and communicated with the inside of the screening box, the other end of the second air pipe is communicated with the dust suction cylinder, the dust suction cylinder is fixed to the grooving machine and sleeved outside the grooving cutter bar, the lower end of the dust suction cylinder is sleeved with and slidably connected with the sliding cylinder, the upper end of the sliding cylinder is connected with a convex ring fixed to the outer side wall of the dust suction cylinder through a spring, balls are embedded in the bottom surface of the sliding cylinder, and the balls can freely rotate on the bottom surface of the sliding cylinder.

Preferably, a cantilever is fixed on the top cover, a first shaft rod is rotatably connected to the cantilever through a fixed shaft, the upper end of the first shaft rod is perpendicular to and fixedly connected with a cuboid-shaped sliding block, the first shaft rod and the second shaft rod are arranged in parallel, the sliding block is located in a strip-shaped through hole, the sliding block can slide in the strip-shaped through hole, the strip-shaped through hole is formed in the middle of the driving lever, one end of the driving lever is hinged to the upper surface of the gear, and the other end of the driving lever is in transmission connection with a recoil anti-blocking mechanism.

Preferably, run through and fixed connection uide bushing on the lateral wall of play feed cylinder, peg graft and sliding connection slide bar two in the uide bushing, the one end of slide bar two passes out feed cylinder and divides the port of sieve case and extends to branch sieve incasement side, the slide bar is two and is fixed with the scraper blade in the one end of dividing the sieve incasement side, the one end that slide bar two is located out the feed cylinder outside is fixed with the balladeur train, the rocker of the lower extreme fixed connection L shape of axostylus axostyle one, the lower extreme of rocker is pegged graft and sliding connection is seted up in the balladeur train upper slitter spout.

Preferably, the backflushing anti-blocking mechanism comprises a pump barrel, one end of the pump barrel is fixedly connected to the rack in a rotating mode, a piston plate is connected to the pump barrel in a sliding mode, a first sliding rod is fixed to the piston plate, and one end of the first sliding rod penetrates through the end wall of the pump barrel and is hinged to one end, far away from the gear, of the driving lever.

Preferably, the side wall of the pump barrel is fixedly communicated with a first check valve and a second check valve, the first check valve is respectively connected with the first air nozzle and the second air nozzle through a first air pipe, the conduction direction of the first check valve points to the first air pipe, and the conduction direction of the second check valve points to the pump barrel.

Preferably, the first air nozzle is fixed on the inner side wall of the third air pipe, the spraying direction of the first air nozzle points to the filter screen, the second air nozzle is fixed on the side wall of the screening box, and the spraying direction of the second air nozzle points to the bottom surface of the screening disc.

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

according to the invention, the dust debris generated by the operation of the grooving machine is collected by the dust debris collecting mechanism and then is conveyed to the screening mechanism, so that the working strength is greatly reduced, the safety of the operating environment and the health safety of workers are protected, the screening mechanism is driven by the dust debris collecting mechanism to screen the dust debris, the dust debris is conveniently recycled in a grading manner, and the subsequent treatment process and difficulty are reduced.

According to the invention, the screen separating mechanism screens the dust fragments and simultaneously drives the backflushing anti-blocking mechanism to blow and dredge the screen separating mechanism, so that a filter screen and a screen plate in the screen separating mechanism are prevented from being blocked, and the screening effect and efficiency of the dust fragments are ensured.

Drawings

FIG. 1 is a schematic view of the cross-sectional structure of the final assembly of the present invention;

FIG. 2 is a top view of the turntable and shifter lever structure of the present invention;

FIG. 3 is a schematic cross-sectional view of the dust suction cylinder and the slide cylinder according to the present invention;

fig. 4 is a top view of the carriage structure of the present invention.

In the figure: 1. a base; 2. a work table; 3. a frame; 4. a grooving machine; 5. a first air pipe; 6. a one-way valve I; 7. a second one-way valve; 8. a pump barrel; 9. a first sliding rod; 10. a deflector rod; 11. a cantilever; 12. a first shaft lever; 13. a rocker; 14. a carriage; 15. a second sliding rod; 16. a discharging barrel; 17. a first valve plate; 18. a first collecting cylinder; 19. a slider; 20. a guide sleeve; 21. a gear; 22. a first rotating rod; 23. an air pump; 24. a second air pipe; 25. a first bracket; 26. a ring gear; 27. a turntable; 28. a screening box; 29. an air faucet I; 30. a filter screen; 31. an exhaust pipe; 32. a third trachea; 33. a water tank; 34. a second valve plate; 35. a second bracket; 36. a second collecting cylinder; 37. a brush head; 38. a second rotating rod; 39. a sieve tray; 40. an air nozzle II; 41. a squeegee; 42. a second shaft lever; 43. a strip-shaped through hole; 44. a piston plate; 45. a dust suction cylinder; 46. a convex ring; 47. a slide cylinder; 48. a spring; 49. and (4) a ball.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1 to 4, the present invention provides a technical solution: the utility model provides a fluting device is used in processing of integrated wallboard of thermal-insulated energy storage, includes base 1, is fixed with workstation 2 on the base 1, and is fixed with frame 3 on the workstation 2, is provided with groover 4 in the frame 3, still includes:

the dust and debris collecting mechanism is used for collecting dust and debris generated by the operation of the grooving machine 4;

the screening mechanism is arranged on the base 1, the dust and debris collecting mechanism is arranged on the screening mechanism, and the dust and debris collecting mechanism collects dust and debris generated by the operation of the grooving machine 4 and then conveys the collected dust and debris to the screening mechanism, and simultaneously drives the screening mechanism to screen the dust and debris;

the backflushing anti-blocking mechanism is arranged on the rack 3, and the screening mechanism is used for screening the dust fragments and simultaneously driving the backflushing anti-blocking mechanism to blow and dredge the screening mechanism.

In this embodiment, the screening mechanism includes a screening box 28, the screening box 28 is fixed on the base 1 through a second bracket 35, the side wall of the screening box 28 is fixed and communicated with a material outlet barrel 16 and a third air pipe 32, a top cover of the screening box 28 is connected with a second shaft rod 42 in a penetrating and fixed-axis rotating manner, the upper end of the second shaft rod 42 is coaxially and fixedly connected to the center of the bottom surface of the turntable 27, the inner wall of the screening box 28 is connected with a screen tray 39 in a fixed-axis rotating manner, the second shaft rod 42 is connected in a penetrating and fixed manner to the center of the screen tray 39, the connecting ends of the material outlet barrel 16, the third air pipe 32 and the side wall of the screening box 28 are respectively located at the upper and lower sides of the screen tray 39, a filter screen 30 is fixed to the connecting end of the side wall of the third air pipe 32 and the screening box 28, the lower end of the second shaft rod 42 is fixedly connected with a brush head 37 through a second rotating rod 38, the lower end of the material outlet barrel 16 is communicated with a first collecting barrel 18, a first valve plate 17 is arranged on the side wall of the material outlet barrel 16, the lower end of the screening box 28 is communicated with a second collecting barrel 36, and a second valve plate 34 is arranged on the side wall of the lower end of the screening box 28, a third air pipe 32 is inserted below the liquid level in the water tank 33, and the water tank 33 is connected with an exhaust pipe 31.

In this embodiment, the dust and debris collecting mechanism includes an air pump 23, the air pump 23 is fixed on the top cover of the sieving box 28 through a first bracket 25, the lower end of the impeller shaft of the air pump 23 is perpendicular to and fixedly connected with a first rotating rod 22, and the first rotating rod 22 is far away from one end of the impeller shaft and is connected with a gear 21 in a fixed-axis rotating manner, the gear 21 is connected with the inner side teeth of a gear ring 26 in a meshing manner, the gear ring 26 is coaxially and fixedly connected with the upper surface of the turntable 27, the side wall of the air pump 23 is fixed and connected with a second air pipe 24, one end of the second air pipe 24 is fixed on the top cover and is communicated with the inside of the sieving box 28, the other end of the second air pipe is communicated with a dust suction cylinder 45, the dust suction cylinder 45 is fixed on the grooving machine 4 and is sleeved outside the grooving cutter bar, the lower end of the dust suction cylinder 45 is sleeved and slidably connected with a sliding cylinder 47, the upper end of the sliding cylinder 47 is connected with a convex ring 46 fixed on the outer side wall of the dust suction cylinder 45 through a spring 48, a ball 49 is inlaid in the bottom surface of the sliding cylinder 47, and the balls 49 are freely rotatable on the bottom surface of the spool 47.

In this embodiment, a cantilever 11 is fixed on the top cover, a first shaft rod 12 is connected to the cantilever 11 in a fixed-axis rotating manner, the upper end of the first shaft rod 12 is vertically and fixedly connected to a rectangular sliding block 19, the first shaft rod 12 and a second shaft rod 42 are arranged in parallel, the sliding block 19 is located in a strip-shaped through hole 43, the sliding block 19 can slide in the strip-shaped through hole 43, the strip-shaped through hole 43 is arranged in the middle of a shift lever 10, one end of the shift lever 10 is hinged to the upper surface of a gear 21, the other end of the shift lever is connected with a recoil anti-blocking mechanism in a transmission manner, a guide sleeve 20 penetrates through and is fixedly connected to the side wall of a discharge cylinder 16, a second slide rod 15 is inserted and connected in a sliding manner in the guide sleeve 20, one end of the second slide rod 15 penetrates through a connection port of the discharge cylinder 16 and the sub-screening box 28 and extends to the inner side of the sub-screening box 28, a scraper 41 is fixed to one end of the second slide rod 15 located at the inner side of the sub-screening box 28, and a sliding frame 14 is fixed to one end of the slide rod 15 located at the outer side of the discharge cylinder 16, the lower end of the first shaft lever 12 is fixedly connected with an L-shaped rocker 13, and the lower end of the rocker 13 is inserted and connected in a strip-shaped sliding groove formed in the sliding frame 14 in a sliding mode.

In this embodiment, the backflushing anti-blocking mechanism includes a pump barrel 8, one end of the pump barrel 8 is connected to the rack 3 in a fixed-axis rotating manner, a piston plate 44 is connected to the pump barrel 8 in a sliding manner, a first slide rod 9 is fixed to the piston plate 44, one end of the first slide rod 9 penetrates through the end wall of the pump barrel 8 and is hinged to one end, far away from the gear 21, of the deflector rod 10, a first check valve 6 and a second check valve 7 are fixed to and communicated with the side wall of the pump barrel 8, the first check valve 6 is connected with a first air nozzle 29 and a second air nozzle 40 through a first air pipe 5 respectively, the conduction direction of the first check valve 6 points to the first air pipe 5, the conduction direction of the second check valve 7 points to the pump barrel 8, the first air nozzle 29 is fixed to the inner side wall of a third air pipe 32, the injection direction of the first air nozzle 29 points to the filter screen 30, the second air nozzle 40 is fixed to the side wall of the sub-screening box 28, and the injection direction of the second air nozzle 40 points to the bottom surface of the screening disc 39.

The working principle and the advantages of the invention are as follows: this kind of integrated wallboard processing of thermal-insulated energy storage is with fluting device is adding man-hour to the integrated wallboard fluting of thermal-insulated energy storage, and the working process as follows:

as shown in fig. 1 and 3, when the grooving machine 4 is started to work and the air pump 23 is started to work, when the grooving machine 4 is used for grooving the thermal insulation energy storage integrated wall board, the bottom surface of the sliding cylinder 47 is in rolling connection with the upper surface of the thermal insulation energy storage integrated wall board through the ball 49, so that the sliding cylinder 47 can surround the cutter bar of the grooving machine 4 to collect the generated dust debris, and when the ball 49 is used for moving the grooving machine 4 on one hand and forming a gap between the bottom surface of the sliding cylinder 47 and the upper surface of the thermal insulation energy storage integrated wall board on the other hand, so that the external air enters the sliding cylinder 47, when the grooving machine 4 moves downwards, the sliding cylinder 47 compresses the spring 48 after the ball 49 is in abutting connection with the upper surface of the thermal insulation energy storage integrated wall board, so that the spring 48 obtains a restoring force, and when the grooving machine 4 moves upwards, the sliding cylinder 47 moves downwards on the dust suction cylinder 45 under the restoring force of the spring 48, therefore, the cutter bar can be protected, and the operation safety is also improved.

Air pump 23 produces suction in to suction tube 45 through trachea two 24 after the work to make the cutter arbor during operation produce dust and piece and siphon away, wherein the air also plays the cutter arbor and dispel the heat the effect at the flow in-process in suction tube 45, improve the life of cutter arbor, then 23 trachea two 24 of air pump carry the dust piece to the branch sieve case 28 in, realize the collection to the dust piece, greatly reduced working strength, and protection operation environment safety and staff's health safety.

As described above, after the dust debris enters the sieving box 28, the sieving of the sieving disc 39 enables the enlarged debris to be left on the sieving disc 39, the small debris falls on the bottom of the sieving box 28 and is collected in the second collecting cylinder 36, the air blocks the smaller debris when passing through the filtering net 30, and the water liquid in the water tank 33 is used for capturing the tiny dust in the air, so that the dust in the air is completely purified and collected, the collection efficiency and the collection effect of the dust debris are improved, the purified air is discharged through the exhaust pipe 31, and the dust is prevented from being scattered to the working environment.

The air pump 23 operates and simultaneously drives the first rotating rod 22 and the gear 21 to rotate through the impeller shaft, as shown in fig. 2, the gear 21 drives the shift lever 10 to swing in the rotating direction while rotating around the impeller shaft, and the shift lever 10 drives the first shaft rod 12 to rotate in a reciprocating manner through the sliding block 19, so that the first shaft rod 12 drives the sliding frame 14 to move close to and away from the screening box 28 in a reciprocating manner through the rocker 13, so that the sliding frame 14 drives the scraping plate 41 to move in a reciprocating manner through the second sliding rod 15, and the gear 21 drives the rotating disc 27 to rotate through the gear ring 26, so that the rotating disc 27 drives the screening disc 39 to rotate through the second shaft rod 42, so that the scraping plate 41 scrapes the scraps on the screening disc 39 into the discharging cylinder 16, the scraps are prevented from being accumulated on the screening disc 39 and are collected in the first collecting cylinder 18, wherein the first valve plate 17 and the second valve plate 34 are used for closing after the first collecting cylinder 18 and the second collecting cylinder 36 are full, and the first collecting cylinder 18 and the second collecting cylinder 36 can be replaced conveniently, the collected dust fragments can be screened, the dust fragments can be recycled and reused in a grading way, and the subsequent treatment process and difficulty can be reduced.

The rotation of the second shaft rod 42 drives the brush head 37 to rotate through the second rotating rod 38, and cleans the filter screen 30, so that the debris is prevented from being stuck on the filter screen 30 to cause blockage.

When the gear 21 drives the driving lever 10 to move, the driving lever 10 drives the piston plate 44 to move in a reciprocating mode in the pump barrel 8 through the sliding rod I9, so that the piston plate 44 applies compression force and suction force to the interior of the pump barrel 8 in an alternating mode, when suction force is generated in the pump barrel 8, outside air enters the pump barrel 8 through the check valve II 7, when compression force is generated in the pump barrel 8, air in the pump barrel 8 is conveyed to the air nozzle I29 and the air nozzle II 40 through the air pipe I5, the air nozzle I29 conducts backflushing on the filter screen 30, blockage of the filter screen 30 is avoided, the air nozzle II 40 conducts backflushing dredging on the sieve disc 39, blockage of the sieve disc 39 is avoided, and therefore the screening effect and efficiency of dust fragments are guaranteed.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

Claims

1. The utility model provides a fluting device is used in processing of integrated wallboard of thermal-insulated energy storage, includes base (1), be fixed with workstation (2) on base (1), and be fixed with frame (3) on workstation (2), be provided with groover (4), its characterized in that on frame (3): further comprising:

the dust and debris collecting mechanism is used for collecting dust and debris generated by the operation of the grooving machine (4);

the dust and debris collecting mechanism is arranged on the screening mechanism, collects dust and debris generated by the operation of the grooving machine (4), conveys the collected dust and debris to the screening mechanism, and simultaneously drives the screening mechanism to screen the dust and debris;

the backflushing anti-blocking mechanism is arranged on the rack (3), and the screening mechanism is used for screening dust fragments and simultaneously driving the backflushing anti-blocking mechanism to blow and dredge the screening mechanism.

2. The slotting device for processing the heat-insulation energy-storage integrated wallboard according to claim 1, wherein: the screening mechanism comprises a screening box (28), the screening box (28) is fixed on the base (1) through a second support (35), the side wall of the screening box (28) is fixed and communicated with the charging barrel (16) and the air pipe III (32), a second shaft lever (42) penetrates through the top cover of the screening box (28) and is connected with the top cover in a fixed-axis rotating way, the upper end of the second shaft lever (42) is coaxially and fixedly connected with the center of the bottom surface of the turntable (27), the inner wall of the screening box (28) is fixedly connected with a screening disc (39) in a rotating way, the second shaft lever (42) penetrates through and is fixedly connected with the center of the screening disc (39), the side wall connecting ends of the discharge barrel (16), the third air pipe (32) and the screening box (28) are respectively positioned at the upper side and the lower side of the screening tray (39), a filter screen (30) is fixed at the connecting end of the air pipe III (32) and the side wall of the screening box (28), and the lower end of the second shaft lever (42) is fixedly connected with the brush head (37) through the second rotating rod (38).

3. The slotting device for processing the heat-insulation energy-storage integrated wallboard according to claim 2, wherein: the lower extreme and the collecting vessel of play feed cylinder (16) are linked together, and are provided with valve plate (17) on the lateral wall of play feed cylinder (16), the lower extreme and the collecting vessel of branch sieve case (28) are linked together (36), and are provided with valve plate two (34) on the lower extreme lateral wall of branch sieve case (28), trachea three (32) with insert below the inside liquid level of water tank (33), and connect exhaust pipe (31) on water tank (33).

4. The slotting device for machining the heat-insulation and energy-storage integrated wallboard as claimed in claim 2, wherein the slotting device comprises: dust piece collection mechanism includes air pump (23), and air pump (23) are fixed on the top cap of branch sieve case (28) through support (25), the impeller shaft lower extreme of air pump (23) is perpendicular and fixed connection bull stick (22), and bull stick (22) are kept away from the one end dead axle of impeller shaft rotates connecting gear (21), gear (21) are connected with the inboard tooth meshing of ring gear (26), the coaxial fixed connection of ring gear (26) is at the upper surface of carousel (27).

5. The slotting device for machining of the heat-insulation and energy-storage integrated wallboard according to claim 4, wherein: the fixed parallel connection breather pipe two (24) of lateral wall of air pump (23), and the one end of trachea two (24) is fixed on the top cap and with divide sieve case (28) inside to be linked together, the other end is linked together with a dust suction cylinder (45), and dust suction cylinder (45) are fixed on groover (4) to the outside at the fluting cutter arbor is established to the cover, sliding connection slide cartridge (47) is established and sliding connection to the lower pot head of dust suction cylinder (45), and the upper end of slide cartridge (47) is connected with bulge loop (46) that are fixed in on dust suction cylinder (45) lateral wall through spring (48), the bottom surface of slide cartridge (47) is inlayed and is had ball (49), and ball (49) can be in the bottom surface free rotation of slide cartridge (47).

6. The slotting device for processing the heat-insulation energy-storage integrated wallboard according to claim 4, wherein: be fixed with cantilever (11) on the overhead gage, and dead axle rotation is connected with axostylus axostyle (12) on cantilever (11), the upper end of axostylus axostyle (12) is perpendicular and the slider (19) of the rectangular form of fixed connection, and axostylus axostyle (12) and two (42) parallel arrangement of axostylus axostyle, slider (19) are located bar through-hole (43), and slider (19) can slide in bar through-hole (43), the middle part in driving lever (10) is seted up in bar through-hole (43), and the one end of driving lever (10) is articulated with the upper surface of gear (21), and the other end is connected with the transmission of recoil anti-blocking mechanism.

7. The slotting device for processing the heat-insulation energy-storage integrated wallboard according to claim 6, wherein: the side wall of the discharge barrel (16) is penetrated through and fixedly connected with a guide sleeve (20), a second sliding rod (15) is inserted and connected in the guide sleeve (20) in a sliding mode, one end of the second sliding rod (15) penetrates through a connecting port of the discharge barrel (16) and the screening box (28) and extends to the inner side of the screening box (28), a scraper (41) is fixed at one end, located at the inner side of the screening box (28), of the second sliding rod (15), a sliding frame (14) is fixed at one end, located at the outer side of the discharge barrel (16), of the second sliding rod (15), the lower end of the first shaft rod (12) is fixedly connected with an L-shaped rocker (13), and the lower end of the rocker (13) is inserted and connected in a strip-shaped sliding groove formed in the sliding frame (14) in a sliding mode.

8. The slotting device for machining of the heat-insulation and energy-storage integrated wallboard according to claim 6, wherein: the recoil anti-blocking mechanism comprises a pump barrel (8), one end of the pump barrel (8) is fixed to a shaft and is rotatably connected to the rack (3), a piston plate (44) is connected to the pump barrel (8) in a sliding mode, a first sliding rod (9) is fixed to the piston plate (44), one end of the first sliding rod (9) penetrates through the end wall of the pump barrel (8) and is hinged to one end, far away from the gear (21), of the driving lever (10).

9. The slotting device for processing the heat-insulation energy-storage integrated wallboard according to claim 8, wherein: fix and communicate check valve one (6) and check valve two (7) on the lateral wall of pump barrel (8), air cock one (29) and air cock two (40) are connected respectively through trachea one (5) in check valve one (6), the directional trachea one (5) of the direction that switches on of check valve one (6), the directional pump barrel (8) of the direction that switches on of check valve two (7).

10. The slotting device for processing the heat-insulation energy-storage integrated wallboard according to claim 9, wherein: air cock (29) are fixed on the inside wall of trachea three (32), and the injection direction of air cock (29) points to filter screen (30), air cock two (40) are fixed on the lateral wall of branch sieve case (28), and the injection direction of air cock two (40) points to the bottom surface of sieve tray (39).