CN114851295A - Cutting device is used in production of exempting from to tear open compound incubation template - Google Patents

Abstract

The invention provides a cutting device for production of a disassembly-free composite heat-insulation template, belongs to the technical field of production of composite templates, and solves the problems of low speed and low precision of heat-insulation core material grooving. The cutting device comprises two bottom plates and a cutting mechanism, a connecting mechanism is arranged between the two bottom plates, a collecting mechanism is arranged on the side surface of each bottom plate, the cutting mechanism comprises two transmission assemblies, each transmission assembly comprises four first mounting plates and two second mounting plates, the second mounting plates are fixed at the end parts of the bottom plates, a connecting shaft is arranged between the two second mounting plates, a first gear shaft is fixed on each connecting shaft, a first rack is meshed on each first gear shaft, the four first mounting plates are all fixed on the side surface of each bottom plate, a rotating shaft is arranged between the two first mounting plates, the connecting shaft is connected with the rotating shaft, a second gear shaft is fixed on each rotating shaft, a second rack is meshed on each second gear shaft, and electric heating cutters are fixed at one ends of the first racks and one end of the second racks; the invention can rapidly and accurately slot the heat-insulating core material.

Description

Cutting device is used in production of exempting from to tear open compound incubation template

Technical Field

The invention belongs to the technical field of composite template production, and relates to a cutting device for producing a disassembly-free composite heat-insulation template.

Background

The non-dismantling composite heat-insulating template is a heat-insulating structure integrated structural system imported from abroad. The disassembly-free composite heat-insulation template is characterized in that a traditional thin plastering system heat-insulation layer, an adhesive layer, a glass fiber mesh, a plastering mortar and other layers are prefabricated into a plate in a factory, and the traditional wood template and the steel template are replaced when concrete is poured.

Before the non-dismantling composite heat preservation template is produced, the heat preservation core material needs to be cut and grooved, the conventional equipment can only cut and grooved one surface of the heat preservation core material, the heat preservation core material needs to be cut in sequence during grooving, the cutting speed is reduced, meanwhile, the grooving needs to be carried out by adopting a plurality of cutting devices, the cutting precision is not easy to control, and therefore the rejection rate is increased.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a cutting device for producing a non-dismantling composite heat-insulating template, which aims to solve the technical problems that: how to fast and precisely slot the heat-insulating core material.

The purpose of the invention can be realized by the following technical scheme:

a cutting device for producing a non-dismantling composite heat-insulating template comprises two bottom plates and a cutting mechanism, wherein the two bottom plates are symmetrical to each other, four connecting mechanisms are arranged between the two bottom plates, collecting mechanisms are arranged on the side surfaces of the two bottom plates, the cutting mechanism comprises two transmission assemblies, each transmission assembly comprises four first mounting plates and two second mounting plates, the two second mounting plates are fixed at the end parts of the bottom plates at corresponding positions, a connecting shaft is rotatably arranged between the two second mounting plates, a first gear shaft is fixed on the connecting shaft, a first rack is meshed on the first gear shaft, the four first mounting plates are fixed on the side surfaces of the bottom plates at corresponding positions, a rotating shaft is rotatably arranged between the two first mounting plates at the same side, the two ends of the connecting shaft are respectively connected with the rotating shafts at corresponding positions through a first bevel gear pair and a second bevel gear pair, and a speed changer is arranged on the connecting shaft and the rotating shaft, the rotation shaft is fixed with a second gear shaft, the second gear shaft is meshed with a second rack, one end of the first rack and one end of the second rack are fixed with an electric heating cutter, the electric heating cutter is rectangular, the end part of the electric heating cutter is hinged with a separation blade in a one-way mode, the first rack other end and the second rack other end of the upper side transmission assembly are both fixed with second sliding fixture blocks, the first rack other end and the second rack other end of the lower side transmission assembly are both fixed with first sliding fixture blocks, the first sliding fixture blocks and the second sliding fixture blocks are both in a U shape, the connection grooves are formed in the first sliding fixture blocks, connecting blocks are fixed on the second sliding fixture blocks, the connecting blocks are arranged inside the connection grooves in a sliding mode, a rotation motor is fixed at the end part of the first mounting plate of the lower side, and an output shaft of the rotation motor is connected with the rotation shaft through a coupler.

The working principle of the invention is as follows: the heat-insulation core material to be cut is placed on the bottom plates, the connecting mechanism drives the two bottom plates to be close to each other, so that the heat-insulation core material is clamped, the rotating motor drives the rotating shaft to rotate through the output shaft, the rotating shaft drives the connecting shaft to rotate through the second bevel gear pair, the connecting shaft drives the other rotating shaft to rotate through the first bevel gear pair, so that the connecting shaft and the two rotating shafts synchronously rotate, the connecting shaft drives the first gear shaft to rotate, the first gear shaft drives the first rack to longitudinally move, the rotating shaft drives the second gear shaft to rotate, the second gear shaft drives the second rack to transversely move, the first rack and the two second racks move electrically and the electric heating cutter moves, so that the electric heating cutter at the corresponding positions longitudinally and transversely cuts the lower part of the heat-insulation core material, and meanwhile, the second rack and the first rack drive the second rack at the upper side through the first sliding clamping block and the second sliding clamping block, The first rack moves, so that the electric heating cutter at the corresponding position transversely and longitudinally cuts the upper part of the heat-insulating core material, the speed changer can be adjusted, the rotating speeds of the connecting shaft and the two rotating shafts are different, the cutting speed is convenient to control, after the cutting is finished, the rotating motor drives the rotating shafts to reversely rotate through the output shafts, the rotating shafts drive the connecting shaft to reversely rotate through the second bevel gear pair, the connecting shaft drives the other rotating shaft to reversely rotate through the first bevel gear pair, so that the connecting shaft and the two rotating shafts synchronously rotate, the connecting shaft drives the first gear shaft to reversely rotate, the first gear shaft drives the first rack to reversely move, the rotating shafts drive the second gear shaft to reversely rotate, the second gear shaft drives the second rack to reversely move, the second rack and the first rack drive the electric heating cutter to reversely move, the separation blade extrudes the cut heat-insulating core material, and the cut heat-insulating core material is moved to the collecting mechanism, the collecting mechanism crushes the cut heat-insulating core materials, and then intensively collects the crushed heat-insulating core materials.

The novel rack-type bus stop plate is characterized in that a baffle is fixed on the bottom plate, the baffle is U-shaped, a limiting groove is formed in the baffle, a first rack is arranged on the limiting groove in a sliding mode, two first limiting plates and two second limiting plates are fixed on the bottom plate, the first limiting plates and the second limiting plates are mutually connected, a cross groove is formed in the first limiting plates and the second limiting plates, and the first rack and the second rack are arranged on the cross groove in a sliding mode.

Structure more than adopting, first limiting plate and second limiting plate can carry on spacingly to first rack and second rack, and the moving trajectory of first rack and second rack can be injectd to the cross recess to reduce cutting error.

The connecting mechanism comprises a first connecting plate and a second connecting plate, the first connecting plate is fixed on the side face of the upper side bottom plate, the second connecting plate is fixed on the side face of the lower side bottom plate, and an electric push rod is fixed between the first connecting plate and the second connecting plate.

Structure more than adopting, electric putter drives first connecting plate and descends, and first connecting plate drives the upside bottom plate and descends to make two bottom plates be close to each other, press from both sides tightly the heat preservation core.

The collecting mechanism comprises a first connecting box and a second connecting box, the first connecting box and the second connecting box are both U-shaped, the inner sides of the first connecting box and the second connecting box are both fixed with a crushing box, the crushing box is fixed on the side face of the bottom plate, the inner part of the crushing box is rotated and provided with a crushing cutter wheel, the side face of the crushing box is fixed with a crushing motor, the output shaft of the crushing motor passes through a shaft coupling to be connected with the crushing cutter wheel, three limiting holes are formed in the first connecting box and the second connecting box, and the second rack and the two first racks are arranged inside the limiting holes corresponding to the positions in a sliding mode respectively.

By adopting the structure, the cut heat-insulation core material is moved to the crushing cutter wheel, the crushing motor drives the crushing cutter wheel to rotate through the output shaft, and the crushing cutter wheel crushes the cut heat-insulation core material.

The novel dust-proof box is characterized in that a collecting box is fixed between the three crushing boxes, three through holes are formed in the side face of the collecting box, a drawing box is arranged in the collecting box in a sliding mode, three conical bags are arranged in the drawing box and located on the through holes in the corresponding positions respectively, a plurality of drawing fans are fixed to the end portions of the drawing box, and dust-proof nets are arranged at the two ends of each drawing fan.

Structure more than adopting, after the heat preservation core material is smashed, the inside air of pull box is taken out to the extraction fan, makes the inside formation negative pressure of pull box, and the heat preservation core material after will smashing attracts through-hole department, and inside rethread through-hole entering awl type bag, get into inside the pull box through awl type bag at last to concentrate the collection, after the pull box is filled with, can take out the pull box and collect the box, thereby clear up the pull box.

Compared with the prior art, this exempt from to tear open for compound incubation template production cutting device has following advantage:

1. the cutting mechanism is matched with the collecting mechanism, so that the upper side and the lower side of the heat-insulation core material can be cut off at the same time, the heat-insulation core material can be cut off transversely and longitudinally, and the grooving speed of the heat-insulation core material is greatly increased;

2. cutting mechanism and bottom plate cooperation can carry out a lot of spacingly to first rack and second rack, simultaneously, can transversely and vertically excise to the heat preservation core, avoids the heat preservation core to excise many times, has improved the fluting precision of heat preservation core, has greatly reduced the rejection rate.

Drawings

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

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is a perspective view of a portion of the components of the present invention;

in the figure: 1. a first mounting plate; 2. a crushing box; 3. a first connection box; 4. an electric push rod; 5. a second connecting box; 6. a baffle plate; 7. a box is drawn out; 8. an exhaust fan; 9. rotating the motor; 10. a first sliding fixture block; 11. a second sliding fixture block; 12. a second mounting plate; 13. a base plate; 14. a first gear shaft; 15. a first bevel gear pair; 16. a grinding motor; 17. a first connecting plate; 18. a second gear shaft; 19. a rotating shaft; 20. a second bevel gear pair; 21. a transmission; 22. a through hole; 23. a crushing cutter wheel; 24. an electric heating cutter; 25. a second rack; 26. a tapered bag; 27. a second connecting plate; 28. a first limit plate; 29. a second limiting plate; 30. a first rack; 31. and (4) collecting the box.

Detailed Description

The technical solution of the present patent will be further described in detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the convenience of describing the patent and for the simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the patent.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by those of ordinary skill in the art as appropriate.

Referring to fig. 1-4, the present embodiment provides a cutting device for producing a non-dismantling composite heat-insulating formwork, which includes two bottom plates 13 and a cutting mechanism, the two bottom plates 13 are symmetrical to each other, four connecting mechanisms are disposed between the two bottom plates 13, a collecting mechanism is disposed on the side surfaces of the two bottom plates 13, the cutting mechanism includes two transmission assemblies, each transmission assembly includes four first mounting plates 1 and two second mounting plates 12, the two second mounting plates 12 are both fixed on the end portions of the corresponding bottom plates 13, a connecting shaft is rotatably disposed between the two second mounting plates 12, a first gear shaft 14 is fixed on the connecting shaft, a first rack 30 is engaged on the first gear shaft 14, the four first mounting plates 1 are all fixed on the side surfaces of the corresponding bottom plates 13, a rotating shaft 19 is rotatably disposed between the two first mounting plates 1 on the same side, the two ends of the connecting shaft are respectively connected to the rotating shafts 19 on the corresponding positions through a first bevel gear pair 15 and a second bevel gear pair 20, the transmission 21 is arranged on the connecting shaft and the rotating shaft 19, the second gear shaft 18 is fixed on the rotating shaft 19, the second gear shaft 18 is meshed with a second rack 25, an electric heating cutter 24 is fixed at one end of the first rack 30 and one end of the second rack 25, the electric heating cutter 24 is rectangular, a blocking piece is hinged at the end part of the electric heating cutter 24 in a one-way mode, a second sliding fixture block 11 is fixed at the other end of the first rack 30 and the other end of the second rack 25 of the upper side transmission assembly, a first sliding fixture block 10 is fixed at the other end of the first rack 30 and the other end of the second rack 25 of the lower side transmission assembly, the first sliding fixture block 10 and the second sliding fixture block 11 are both U-shaped, a connecting groove is formed in the first sliding fixture block 10, a connecting block is fixed on the second sliding fixture block 11, the connecting block is arranged in the connecting groove in a sliding mode, the rotating motor 9 is fixed at the end part of the first mounting plate 1 on the lower side, the output shaft of the rotating motor 9 is connected with a rotating shaft 19 through a coupling;

the heat-insulation core material to be cut is placed on the bottom plate 13, the connecting mechanism drives the two bottom plates 13 to be close to each other, so that the heat-insulation core material is clamped, the rotating motor 9 drives the rotating shaft 19 to rotate through the output shaft, the rotating shaft 19 drives the connecting shaft to rotate through the second bevel gear pair 20, the connecting shaft drives the other rotating shaft 19 to rotate through the first bevel gear pair 15, so that the connecting shaft and the two rotating shafts 19 synchronously rotate, the connecting shaft drives the first gear shaft 14 to rotate, the first gear shaft 14 drives the first rack 30 to longitudinally move, the rotating shaft 19 drives the second gear shaft 18 to rotate, the second gear shaft 18 drives the second rack 25 to transversely move, the first rack 30 and the two second racks 25 drive the electric heating cutter 24 to move, so that the electric heating cutter 24 at the corresponding position longitudinally and transversely cuts the lower part of the heat-insulation core material, and meanwhile, the second rack 25 and the first rack 30 drive the second rack on the upper side through the first sliding clamping block 10 and the second sliding clamping block 11 The strip 25 and the first rack 30 move, so that the electric heating cutter 24 at the corresponding position can transversely and longitudinally cut the upper part of the heat-insulating core material, the speed changer 21 can be adjusted, the rotating speeds of the connecting shaft and the two rotating shafts 19 are different, the cutting speed is convenient to control, after the cutting is finished, the rotating motor 9 drives the rotating shafts 19 to reversely move through the output shaft, the rotating shafts 19 drive the connecting shaft to reversely rotate through the second bevel gear pair 20, the connecting shaft drives the other rotating shaft 19 to reversely rotate through the first bevel gear pair 15, so that the connecting shaft and the two rotating shafts 19 synchronously rotate, the connecting shaft drives the first gear shaft 14 to reversely rotate, the first gear shaft 14 drives the first rack 30 to reversely move, the rotating shafts 19 drive the second gear shaft 18 to reversely rotate, the second gear shaft 18 drives the second rack 25 to reversely move, the second rack 25 and the first rack 30 drive the electric heating cutter 24 to reversely move, the separation blade extrudes the cut heat preservation core material, so that the cut heat preservation core material is moved to a collecting mechanism, the collecting mechanism crushes the cut heat preservation core material, and then the crushed heat preservation core material is collected in a concentrated mode.

The baffle 6 is fixed on the bottom plate 13, the baffle 6 is U-shaped, a limiting groove is formed in the baffle 6, the first rack 30 is arranged on the limiting groove in a sliding mode, two first limiting plates 28 and two second limiting plates 29 are fixed on the bottom plate 13, the first limiting plates 28 and the second limiting plates 29 are connected with each other, cross grooves are formed in the first limiting plates 28 and the second limiting plates 29, and the first rack 30 and the second rack 25 are arranged on the cross grooves in a sliding mode; the first and second limit plates 28 and 29 may limit the first and second racks 30 and 25, and the cross groove may limit the moving tracks of the first and second racks 30 and 25, thereby reducing cutting errors.

The connecting mechanism comprises a first connecting plate 17 and a second connecting plate 27, the first connecting plate 17 is fixed on the side surface of the upper side bottom plate 13, the second connecting plate 27 is fixed on the side surface of the lower side bottom plate 13, and an electric push rod 4 is fixed between the first connecting plate 17 and the second connecting plate 27; the electric push rod 4 drives the first connecting plate 17 to descend, and the first connecting plate 17 drives the upper side bottom plate 13 to descend, so that the two bottom plates 13 are close to each other, and the heat insulation core material is clamped tightly.

The collecting mechanism comprises a first connecting box 3 and a second connecting box 5, the first connecting box 3 and the second connecting box 5 are both in a U shape, the inner sides of the first connecting box 3 and the second connecting box 5 are both fixed with a crushing box 2, the crushing box 2 is fixed on the side surface of the bottom plate 13, a crushing cutter wheel 23 is rotatably arranged in the crushing box 2, a crushing motor 16 is fixed on the side surface of the crushing box 2, the output shaft of the crushing motor 16 is connected with the crushing cutter wheel 23 through a coupler, three limiting holes are formed in the first connecting box 3 and the second connecting box 5, and the second rack 25 and the two first racks 30 are respectively arranged in the limiting holes in corresponding positions in a sliding manner; therefore, the cut heat-insulation core material is moved to the crushing cutter wheel 23, the crushing motor 16 drives the crushing cutter wheel 23 to rotate through an output shaft, and the crushing cutter wheel 23 crushes the cut heat-insulation core material.

A collecting box 31 is fixed among the three crushing boxes 2, three through holes 22 are formed in the side face of the collecting box 31, a drawing box 7 is arranged in the collecting box 31 in a sliding mode, three conical bags 26 are arranged in the drawing box 7, the three conical bags 26 are respectively located on the through holes 22 in the corresponding positions, a plurality of drawing fans 8 are fixed at the end portions of the drawing box 7, and dust screens are arranged at the two ends of each drawing fan 8; after the heat preservation core material is smashed, the inside air of pull box 7 is taken out to extraction fan 8, makes the inside formation negative pressure of pull box 7, attracts the heat preservation core material after smashing to through-hole 22 department, inside rethread through-hole 22 gets into tapered bag 26, gets into inside pull box 7 through tapered bag 26 at last to concentrate the collection, fill the back when pull box 7, can take out pull box 7 and collect box 31, thereby clear up pull box 7.

The working principle of the invention is as follows:

the heat-insulating core material to be cut is placed on a bottom plate 13, an electric push rod 4 drives a first connecting plate 17 to descend, the first connecting plate 17 drives an upper bottom plate 13 to descend, so that two bottom plates 13 are close to each other to clamp the heat-insulating core material, a rotating motor 9 drives a rotating shaft 19 to rotate through an output shaft, the rotating shaft 19 drives a connecting shaft to rotate through a second bevel gear pair 20, the connecting shaft drives another rotating shaft 19 to rotate through a first bevel gear pair 15, so that the connecting shaft and the two rotating shafts 19 rotate synchronously, the connecting shaft drives a first gear shaft 14 to rotate, the first gear shaft 14 drives a first rack 30 to move longitudinally, the rotating shaft 19 drives a second gear shaft 18 to rotate, the second gear shaft 18 drives a second rack 25 to move transversely, the first rack 30 and the two second racks 25 drive an electric heating cutter 24 to move, so that the electric heating cutter 24 at the corresponding position cuts the lower part of the heat-insulating core material longitudinally and transversely, meanwhile, the second rack 25 and the first rack 30 on the upper side are driven by the first sliding fixture block 10 and the second sliding fixture block 11 to move the second rack 25 and the first rack 30, so that the electric heating cutter 24 at the corresponding position transversely and longitudinally cuts the upper side of the heat-insulating core material, the transmission 21 can be adjusted, the rotating speeds of the connecting shaft and the two rotating shafts 19 are different, the cutting speed is convenient to control, after the cutting is finished, the rotating motor 9 drives the rotating shafts 19 to reversely rotate through the output shaft, the rotating shafts 19 drive the connecting shaft to reversely rotate through the second bevel gear pair 20, the connecting shaft drives the other rotating shaft 19 to reversely rotate through the first bevel gear pair 15, so that the connecting shaft and the two rotating shafts 19 synchronously rotate, the connecting shaft drives the first gear shaft 14 to reversely rotate, the first rack 30 is driven by the first gear shaft 14 to reversely move, and the second gear shaft 18 is driven by the rotating shaft 19 to reversely rotate, the second gear shaft 18 drives the second rack 25 to move reversely, the second rack 25 and the first rack 30 drive the electric heating cutter 24 to move reversely, the blocking piece extrudes the cut heat-insulation core material, the cut heat-insulation core material is moved to the crushing cutter wheel 23, the crushing motor 16 drives the crushing cutter wheel 23 to rotate through an output shaft, the crushing cutter wheel 23 crushes the cut heat-insulation core material, after the heat-insulation core material is crushed, the air in the drawing box 7 is extracted by the extraction fan 8, negative pressure is formed in the drawing box 7, the crushed heat-insulation core material is attracted to the through hole 22, the crushed heat-insulation core material enters the conical bag 26 through the through hole 22, finally, the crushed heat-insulation core material enters the drawing box 7 through the conical bag 26, centralized collection is performed, after the drawing box 7 is filled with the materials, the drawing box 7 can be extracted out of the collection box 31, and the drawing box 7 is cleaned.

In conclusion, the cutting mechanism is matched with the collecting mechanism, the upper side and the lower side of the heat-insulation core material can be cut off at the same time, the heat-insulation core material can be cut off transversely and longitudinally, and the grooving speed of the heat-insulation core material is greatly increased; cutting mechanism and bottom plate 13 cooperation can carry out a lot of spacingly to first rack 30 and second rack 25, simultaneously, can transversely and vertically excise to the heat preservation core, avoids the heat preservation core to excise many times, has improved the fluting precision of heat preservation core, has greatly reduced the rejection rate.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (5)

1. A cutting device for producing a disassembly-free composite heat-insulation template comprises two bottom plates (13) and a cutting mechanism, and is characterized in that the two bottom plates (13) are symmetrical to each other, four connecting mechanisms are arranged between the two bottom plates (13), the side faces of the two bottom plates (13) are respectively provided with a collecting mechanism, the cutting mechanism comprises two transmission assemblies, each transmission assembly comprises four first mounting plates (1) and two second mounting plates (12), the two second mounting plates (12) are respectively fixed at the end parts of the bottom plates (13) at corresponding positions, a connecting shaft is rotatably arranged between the two second mounting plates (12), a first gear shaft (14) is fixed on the connecting shaft, a first rack (30) is meshed on the first gear shaft (14), the four first mounting plates (1) are respectively fixed at the side faces of the bottom plates (13) at corresponding positions, and a rotating shaft (19) is rotatably arranged between the two first mounting plates (1) at the same side, two ends of the connecting shaft are respectively connected with a rotating shaft (19) at a corresponding position through a first bevel gear pair (15) and a second bevel gear pair (20), speed changers (21) are respectively arranged on the connecting shaft and the rotating shaft (19), a second gear shaft (18) is fixed on the rotating shaft (19), a second rack (25) is meshed on the second gear shaft (18), an electric heating cutter (24) is fixed at one end of the first rack (30) and one end of the second rack (25), the electric heating cutter (24) is rectangular, a blocking piece is unidirectionally hinged at the end part of the electric heating cutter (24), a second sliding clamping block (11) is fixed at the other end of the first rack (30) and the other end of the second rack (25) of the upper side transmission assembly, a first sliding clamping block (10) is fixed at the other end of the first rack (30) and the other end of the second rack (25) of the lower side transmission assembly, the first sliding clamping block (10) and the second sliding clamping block (11) are both U-shaped, the connecting groove is formed in the first sliding clamping block (10), the connecting block is fixed on the second sliding clamping block (11), the connecting block is arranged in the connecting groove in a sliding mode, the rotating motor (9) is fixed to the end portion of the first mounting plate (1) on the lower side, and the output shaft of the rotating motor (9) is connected with the rotating shaft (19) through the coupler.

2. The cutting device for producing the non-dismantling composite heat-insulating template according to claim 1, wherein a baffle (6) is fixed on the bottom plate (13), the baffle (6) is U-shaped, a limiting groove is formed in the baffle (6), the first rack (30) is slidably arranged in the limiting groove, two first limiting plates (28) and two second limiting plates (29) are fixed on the bottom plate (13), the first limiting plates (28) are connected with the second limiting plates (29), cross grooves are formed in the first limiting plates (28) and the second limiting plates (29), and the first rack (30) and the second rack (25) are slidably arranged in the cross grooves.

3. The cutting device for the production of the non-dismantling composite heat-insulating template as claimed in claim 1 or 2, wherein the connecting mechanism comprises a first connecting plate (17) and a second connecting plate (27), the first connecting plate (17) is fixed on the side surface of the upper side bottom plate (13), the second connecting plate (27) is fixed on the side surface of the lower side bottom plate (13), and an electric push rod (4) is fixed between the first connecting plate (17) and the second connecting plate (27).

4. The cutting device for producing the non-dismantling composite heat-insulating template as claimed in claim 3, the collecting mechanism comprises a first connecting box (3) and a second connecting box (5), the first connecting box (3) and the second connecting box (5) are both U-shaped, the inner sides of the first connecting box (3) and the second connecting box (5) are both fixed with a crushing box (2), the crushing box (2) is fixed on the side face of a bottom plate (13), the crushing box (2) is internally provided with a crushing cutter wheel (23) in a rotating manner, the side face of the crushing box (2) is fixed with a crushing motor (16), the output shaft of the crushing motor (16) is connected with the crushing cutter wheel (23) through a coupler, three limiting holes are formed in the first connecting box (3) and the second connecting box (5), and a second rack (25) and two first racks (30) are respectively arranged in the limiting holes corresponding to the sliding manner.

5. The cutting device for the production of the non-dismantling composite heat-insulating template as claimed in claim 4, wherein a collection box (31) is fixed between the three crushing boxes (2), three through holes (22) are formed in the side surface of the collection box (31), a drawing box (7) is slidably arranged in the collection box (31), three conical bags (26) are arranged in the drawing box (7), the three conical bags (26) are respectively located on the through holes (22) in the corresponding positions, a plurality of drawing fans (8) are fixed at the end portions of the drawing box (7), and dust screens are arranged at the two ends of each drawing fan (8).

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