CN109822767B - Building insulation material processing system with practical structure - Google Patents

Abstract

The invention discloses a building thermal insulation material processing system with a practical structure, which comprises a processing box, wherein a cutting cavity is arranged in the processing box, a supporting cavity is communicated with the right side of the cutting cavity, a supporting block is installed in the supporting cavity in a sliding fit manner, the top end surface of the supporting block is attached to a cutting rod, a supporting spring is fixedly installed between the bottom end surface of the supporting block and the bottom wall of the supporting cavity, a cutting motor in a cutting mechanism controls the cutting rod to move up and down, the cutting blade cuts thermal insulation materials, the position of the cutting blade can be adjusted by rotating a turntable, and a main blade and an auxiliary blade in an impurity removing mechanism process the surface of the thermal insulation materials.

Description

Building insulation material processing system with practical structure

Technical Field

The invention relates to the technical field of material treatment, in particular to a building heat-insulating material treatment system with a practical structure.

Background

Building insulation material is through taking measures to building outer enclosure structure, reduce the indoor heat of building and give off to outdoor, thereby keep building indoor temperature, in prior art, the building insulation material that the structure is practical is when cutting, do not push down the material, lead to the cutting plane to have the slope, the product produces the waste product, still can't adjust cutting blade's position, the size of the insulation material that can't adjust the cutting out, and simultaneously, when handling the material surface, do not collect the waste material, lead to later stage work loaded down with trivial details, cause the waste, consequently, need one kind can guarantee that the insulation material cutting plane levels not slope, and can adjust cutting blade's position, the waste material that produces when simultaneously carrying out heat preservation surface treatment carries out the building insulation material processing system who collects.

Disclosure of Invention

The present invention aims to provide a structurally practical building insulation treatment system for overcoming the above-mentioned drawbacks of the prior art.

According to the embodiment of the invention, the building thermal insulation material processing system with a practical structure comprises a processing box, a cutting cavity is arranged in the processing box, a cutting mechanism is arranged in the cutting cavity, the cutting mechanism comprises a cutting rod, a thread sleeve is arranged on the cutting rod in a thread fit manner, a cutting blade is fixedly arranged on the thread sleeve, a main thread cavity is arranged on the left side of the cutting cavity, a main sliding block is arranged in the main thread cavity in a sliding fit manner, the cutting mechanism further comprises a cutting motor for providing power, a fixed main rod is fixedly arranged on an output shaft of the cutting motor towards the right, a pushing mechanism is arranged below the cutting mechanism, the pushing mechanism comprises an auxiliary cavity, an upper moving block is arranged in the auxiliary cavity in a sliding fit manner, a rotating wheel cavity is communicated with the right side of the auxiliary cavity, a rotating wheel rod is arranged in the rotating wheel cavity in a rotating fit manner, a rotating wheel is fixedly arranged on the, the utility model discloses a wheel, including push mechanism, edulcoration mechanism, blade chamber, the cavity of blade chamber, the vice blade of intracavity fixed mounting that drops, the cavity below intercommunication that drops is equipped with the waste material chamber, edulcoration mechanism right side is equipped with conveying mechanism, conveying mechanism is including providing the conveying motor who carries power, the fixed auxiliary rod of the forward output shaft fixed connection of conveying motor, and fixed mounting sends into the wheel on the fixed auxiliary rod, still be equipped with in the conveying mechanism and carry vice chamber, carry vice intracavity rotation fit installation and send out the pole, send out the wheel on the pole fixed mounting.

The cutting mechanism comprises a main thread cavity communicated with the left side of the cutting cavity, a main sliding block is installed in the main thread cavity in a sliding fit mode, a main threaded hole with a downward opening is formed in the main sliding block, a meshing cavity is arranged below the main thread cavity, a main threaded rod is installed between the meshing cavity and the main thread cavity in a rotating fit mode, the main threaded rod is installed in the main threaded hole in a threaded fit mode, a main cone pulley is fixedly installed and meshed on the bottom end face of the main threaded rod, a main transmission cavity is arranged on the left side of the meshing cavity, a meshing rod is installed between the main transmission cavity and the meshing cavity in a rotating fit mode, an auxiliary cone pulley is fixedly installed and meshed on the right end face of the meshing rod, the auxiliary cone pulley is meshed with the meshing main cone pulley, a pair of electromagnets is arranged in the meshing rod, and a first gear is fixedly installed on, a cutting motor is fixedly installed in the inner wall of the left side of the main transmission cavity, a fixed main rod is fixedly installed on the right side end face of an output shaft of the cutting motor, a second gear is fixedly installed on the fixed main rod, a main chain is installed between the second gear and the first gear in a transmission matching manner, a cutting rod is installed in the right side end face of a main sliding block in a rotating matching manner, rod sleeves are installed on the cutting rod in a rotating matching manner in a bilateral symmetry manner, connecting rods are fixedly installed on the bottom end face of the rod sleeves, pressing blocks are arranged below the rod sleeves, pressure cavities are arranged in the pressing blocks, clamping blocks are fixedly installed on the connecting rods in a bilateral symmetry manner, the clamping blocks are installed with the pressure cavities in a sliding matching manner, a pressing block spring is fixedly installed between the bottom end face of the connecting rods and the bottom wall of the pressure cavities, a thread sleeve is installed between the left rod, the end face of the right side of the cutting rod is fixedly provided with a turntable, the right side of the cutting cavity is communicated with a supporting cavity, a supporting block is installed in the supporting cavity in a sliding fit mode, the end face of the top of the supporting block is attached to the cutting rod, and a supporting spring is fixedly installed between the end face of the bottom of the supporting block and the bottom wall of the supporting cavity.

A further technical scheme is that the pushing mechanism comprises an auxiliary cavity arranged on the right side of the main transmission cavity, the fixed main rod extends rightwards to penetrate through the inner wall on the left side of the auxiliary cavity, a main bevel gear is fixedly installed on the right end face of the fixed main rod, a gravity cavity is communicated and arranged below the cutting cavity, a gravity block is installed in the gravity cavity in a sliding fit manner, a gravity spring is fixedly installed between the bottom end face of the gravity block and the bottom wall of the gravity cavity, a vertical cavity is communicated and arranged on the bottom wall of the gravity cavity, a vertical block is installed in the vertical cavity in a sliding fit manner, the top end face of the vertical block is fixedly connected with the bottom end face of the gravity block, a vertical spring is fixedly installed between the bottom end face of the vertical block and the bottom wall of the vertical cavity, a moving cavity is communicated and arranged on the left side of the vertical cavity, and a, a rotating wheel cavity is communicated with the left side of the moving cavity, a rotating wheel rod is installed between the top wall and the bottom wall of the rotating wheel cavity in a rotating matching manner, a rotating wheel is fixedly installed on the rotating wheel rod, a rotating groove is formed in the rotating wheel, the left side end face of the downward moving block is inserted into the rotating groove, the left side of the rotating wheel cavity is communicated with the auxiliary cavity, an upward moving block is installed in the auxiliary cavity in a sliding matching manner, the right side end face of the upward moving block is inserted into the rotating groove, a moving rod is installed in the top end face of the upward moving block in a rotating matching manner, an auxiliary bevel gear is fixedly installed on the top end face of the moving rod, an auxiliary thread cavity is communicated with the left side of the gravity cavity, an auxiliary threaded rod is installed between the auxiliary thread cavity and the auxiliary cavity in a rotating matching manner, an auxiliary bevel gear is fixedly installed on the left side end face of the auxiliary threaded, and an auxiliary threaded hole with a left opening is formed in the auxiliary sliding block, and the auxiliary threaded hole is in threaded fit installation with the auxiliary threaded rod.

According to a further technical scheme, the conveying mechanism comprises an outlet which is communicated with the right side of the opening on the right side of the gravity cavity, a conveying main cavity with an upward opening is arranged above the outlet, an auxiliary transmission cavity is arranged on the rear side of the conveying main cavity, a conveying motor is fixedly arranged in the inner wall of the rear side of the auxiliary transmission cavity, a fixed auxiliary rod is fixedly arranged on the front side end face of a forward output shaft of the conveying motor, the fixed auxiliary rod extends forwards and is installed in a rotating fit with the inner wall of the front side of the conveying main cavity, a third gear is fixedly arranged on the fixed auxiliary rod, a conveying auxiliary cavity is communicated and arranged below the outlet, a sending rod which penetrates through the inner wall of the front side of the auxiliary transmission cavity is installed in a rotating fit manner in the inner wall of the front side of the conveying auxiliary cavity, a fourth gear is fixedly arranged on the end face of the rear side of the sending rod and is meshed with the third gear, and a sending rod is arranged between the inner walls of, the feeding rod and the fixed auxiliary rod are positioned in the conveying main cavity, the feeding wheel is fixedly installed in the conveying main cavity, the feeding wheel is controlled to be installed with a main belt in a transmission matching mode, the conveying auxiliary cavity is positioned between the front inner wall and the rear inner wall of the conveying auxiliary cavity, the left side of the feeding rod is rotatably matched with the driven rod to be installed, the driven rod and the feeding rod are positioned in the conveying auxiliary cavity, the feeding wheel is fixedly installed in the conveying auxiliary cavity, and the feeding wheel is controlled to be installed with an auxiliary belt in a transmission matching mode.

According to the technical scheme, the impurity removing mechanism comprises a blade cavity communicated with the upper portion of the outlet, a main blade is fixedly installed on the top wall of the blade cavity, a dropping cavity is formed in the lower portion of the outlet, auxiliary blades are fixedly installed between the front inner wall and the rear inner wall of the dropping cavity, and a waste cavity is formed in the lower portion of the dropping cavity.

The invention has the beneficial effects that: the heat-insulating material conveying mechanism is simple in structure and convenient to operate, the cutting motor in the cutting mechanism controls the cutting rod to move up and down, the pressing block presses the heat-insulating material, the cutting blade cuts the heat-insulating material, the flatness and the non-inclination of the cutting surface of the heat-insulating material are guaranteed, the position of the cutting blade can be adjusted by rotating the rotary table, the size of the cut heat-insulating material is adjusted, the main blade and the auxiliary blade in the impurity removal mechanism process the surface of the heat-insulating material, the waste material cavity collects the waste materials after impurity removal, and the conveying mechanism is matched with the pushing mechanism to enable the heat-insulating material to move.

Drawings

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

FIG. 2 is a schematic sectional view taken along line A-A in FIG. 1;

fig. 3 is an enlarged schematic view at B in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, for the sake of convenience, the orientations described hereinafter being defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1-3, the building thermal insulation material processing system with a practical structure according to the embodiment of the present invention includes a processing box 72, a cutting cavity 61 is provided in the processing box 72, a cutting mechanism is provided in the cutting cavity 61, the cutting mechanism includes a cutting rod 62, a thread bushing 60 is installed on the cutting rod 62 in a thread fit manner, a cutting blade 59 is fixedly installed on the thread bushing 60, a main thread cavity 63 is provided on the left side of the cutting cavity 61, a main sliding block 65 is installed in the main thread cavity 63 in a sliding fit manner, the cutting mechanism further includes a cutting motor 15 for providing power, a fixed main rod 16 is fixedly installed on the right output shaft of the cutting motor 15, a pushing mechanism is provided below the cutting mechanism, the pushing mechanism includes an auxiliary cavity 18, an upper moving block 21 is installed in the auxiliary cavity 18 in a sliding fit manner, a rotating wheel cavity 28 is communicated with the right side of the auxiliary cavity 18, a rotating, fixed mounting runner 29 on runner pole 27, push mechanism still includes gravity chamber 38, and sliding fit installs gravity piece 39 in gravity chamber 38, the push mechanism right side is equipped with edulcoration mechanism, edulcoration mechanism includes blade chamber 51, and blade chamber 51 is inside fixed mounting main blade 52, and blade chamber 51 below is equipped with and drops chamber 40, and the chamber 40 inside fixed mounting secondary blade 41 that drops is equipped with waste material chamber 36 in the intercommunication of the chamber 40 below that drops, edulcoration mechanism right side is equipped with conveying mechanism, conveying mechanism is including providing the conveying motor 79 who carries power, and the fixed secondary pole 73 of the forward output shaft fixed connection of conveying motor 79, and fixed mounting sends into wheel 47 on the fixed secondary pole 73, still be equipped with in the conveying mechanism and carry secondary chamber 42, carry the interior rotation fit installation in secondary chamber 42 and send out pole 74, send out wheel 45 on the pole 74 fixed mounting.

Beneficially or exemplarily, the cutting mechanism comprises a main thread cavity 63 which is communicated with the left side of the cutting cavity 61, a main sliding block 65 is installed in the main thread cavity 63 in a sliding fit mode, a main threaded hole 64 with a downward opening is formed in the main sliding block 65, a main threaded rod 66 is installed below the main threaded cavity 63 in a sliding fit mode and is not installed between the engagement cavity 68 and the main threaded cavity 63 in a rotating fit mode, the main threaded rod 66 is installed in a threaded fit mode with the main threaded hole 64, a main conical wheel 67 is fixedly installed and engaged on the bottom end face of the main threaded rod 66, a main transmission cavity 12 is arranged on the left side of the engagement cavity 68, an engagement rod 70 is installed between the main transmission cavity 12 and the engagement cavity 68 in a rotating fit mode, an engagement auxiliary conical wheel 69 is fixedly installed on the right end face of the engagement rod 70, the engagement auxiliary conical wheel 69 is engaged with the engagement main conical wheel 67, a pair, the left end face of the meshing rod 70 is fixedly provided with a first gear 11, the left inner wall of the main transmission cavity 12 is internally and fixedly provided with a cutting motor 15, the right end face of a right output shaft of the cutting motor 15 is fixedly provided with a fixed main rod 16, the fixed main rod 16 is fixedly provided with a second gear 14, the second gear 14 is in transmission fit with the first gear 11 to install a main chain 13, the right end face of the main sliding block 65 is internally and rotatably provided with a cutting rod 62, the cutting rod 62 is provided with a rod sleeve 58 in bilateral symmetry and rotatably fit with the rod sleeve 58, the bottom end face of the rod sleeve 58 is fixedly provided with a connecting rod 57, a pressing block 83 is arranged below the rod sleeve 58, a pressing cavity 81 is arranged in the pressing block 83, the connecting rod 57 is provided with clamping blocks 80 in bilateral symmetry and fixedly provided with the clamping cavities 81, the clamping blocks 80 are in sliding fit with the pressing cavity 81, and a pressing block, the cutting rod 62 is positioned on the left and right sides, the thread fit installation thread sleeve 60 is arranged between the rod sleeves 58, the cutting blade 59 is fixedly installed on the bottom end face of the thread sleeve 60, the rotary table 56 is fixedly installed on the right end face of the cutting rod 62, the supporting cavity 54 is communicated with the right side of the cutting cavity 61, the supporting block 55 is installed in the supporting cavity 54 in a sliding fit mode, the top end face of the supporting block 55 is attached to the cutting rod 62, the supporting spring 53 is fixedly installed between the bottom end face of the supporting block 55 and the bottom wall of the supporting cavity 54, so that heat insulation materials are conveyed into the cutting cavity 61, the cutting motor 15 is started to drive the fixed main rod 16 to rotate, the fixed main rod 16 rotates to drive the second gear 14 to rotate, the second gear 14 drives the first gear 11 to rotate through the transmission of the main chain 13, the electromagnet 71 is attracted, the first gear 11 rotates to drive the meshing, the vice cone pulley 69 of meshing drives main threaded rod 66 through with the meshing of main cone pulley 67 and rotates, and main threaded rod 66 rotates and drives main sliding block 65 downstream, and main sliding block 65 downstream drives cutting rod 62 downstream, and insulation material is pushed down to briquetting 83, and cutting blade 59 downstream cuts, and the back is accomplished in the cutting, and cutting motor 15 reversal resets, and electro-magnet 71 breaks off, through rotating carousel 56, can adjust cutting blade 59's position.

Beneficially or exemplarily, the pushing mechanism includes an auxiliary cavity 18 disposed on the right side of the main transmission cavity 12, the fixed main rod 16 extends rightward to penetrate through the inner wall on the left side of the auxiliary cavity 18, the main bevel gear 17 is fixedly mounted on the end surface on the right side of the fixed main rod 16, the gravity cavity 38 is communicated and disposed below the cutting cavity 61, the gravity block 39 is slidably mounted in the gravity cavity 38, the gravity spring 37 is fixedly mounted between the bottom end surface of the gravity block 39 and the bottom wall of the gravity cavity 38, the vertical cavity 33 is communicated and disposed on the bottom wall of the gravity cavity 38, the vertical block 35 is slidably mounted in the vertical cavity 33, the top end surface of the vertical block 35 is fixedly connected with the bottom end surface of the gravity block 39, the vertical spring 34 is fixedly mounted between the bottom end surface of the vertical block 35 and the bottom wall of the vertical cavity 33, the moving cavity 31 is communicated and disposed on the left side of the vertical cavity 33, the downward moving block 32 is fixedly mounted on the left side of, a rotating wheel cavity 28 is communicated with the left side of the moving cavity 31, a rotating wheel rod 27 is installed between the top wall and the bottom wall of the rotating wheel cavity 28 in a rotating matching manner, a rotating wheel 29 is fixedly installed on the rotating wheel rod 27, a rotating groove 26 is arranged in the rotating wheel 29, the left side end surface of the downward moving block 32 is inserted in the rotating groove 26, the left side of the rotating wheel cavity 28 is communicated with the auxiliary cavity 18, an upward moving block 21 is installed in the auxiliary cavity 18 in a sliding matching manner, the right side end surface of the upward moving block 21 is inserted in the rotating groove 26, a moving rod 20 is installed in the top end surface of the upward moving block 21 in a rotating matching manner, an auxiliary bevel gear 19 is fixedly installed on the top end surface of the moving rod 20, an auxiliary thread cavity 24 is communicated with the left side of the gravity cavity 38, an auxiliary threaded rod 23 is installed between the auxiliary thread cavity 24 and the auxiliary cavity 18 in a rotating matching manner, an auxiliary bevel gear 22 is fixedly installed on the left side end surface, the auxiliary threaded cavity 24 is internally provided with an auxiliary sliding block 30 in a sliding fit manner, an auxiliary threaded hole 25 with a leftward opening is formed in the auxiliary sliding block 30, the auxiliary threaded hole 25 is in threaded fit with the auxiliary threaded rod 23, so that after the thermal insulation material is cut, the gravity block 39 moves downwards to drive the vertical block 35 to move downwards, the vertical block 35 moves downwards to drive the downward moving block 32 to move downwards, the downward moving block 32 drives the upward moving block 21 to move upwards through the rotating groove 26, the upward moving block 21 moves upwards to drive the moving rod 20 to move upwards, the moving rod 20 moves upwards to drive the auxiliary bevel gear 19 to move upwards, so that the auxiliary bevel gear 19 is meshed with the main bevel gear 17 and the auxiliary bevel gear 22, the cutting motor 15 is started, the main bevel gear 17 is driven to rotate by the fixed main rod 16, the main bevel gear 17 is meshed with the auxiliary bevel gear 19 to drive the auxiliary bevel gear 22 to rotate, and the auxiliary, the auxiliary threaded rod 23 rotates to drive the auxiliary sliding block 30 to move rightwards, the heat preservation material is pushed to move rightwards, then the cutting motor 15 rotates reversely, the auxiliary sliding block 30 moves rightwards to reset, the gravity block 39 moves upwards, and the auxiliary bevel gear 19 is disengaged from the main bevel gear 17 and the auxiliary bevel gear 22.

Advantageously or exemplarily, the conveying mechanism comprises an outlet 44 which is communicated with the right opening arranged at the right side of the gravity chamber 38, a conveying main chamber 49 with an upward opening is arranged above the outlet 44, a secondary transmission chamber 77 is arranged at the rear side of the conveying main chamber 49, a conveying motor 79 is fixedly arranged in the inner wall of the rear side of the secondary transmission chamber 77, a fixed secondary rod 73 is fixedly arranged on the front side end surface of the forward output shaft of the conveying motor 79, the fixed secondary rod 73 extends forwards and is rotatably matched and arranged with the inner wall of the front side of the conveying main chamber 49, a third gear 78 is fixedly arranged on the fixed secondary rod 73, a conveying secondary chamber 42 is communicated below the outlet 44, a sending rod 74 which penetrates through the inner wall of the front side of the secondary transmission chamber 77 is rotatably matched and arranged in the inner wall of the front side of the conveying secondary chamber 42, a fourth gear 75 is fixedly arranged on the end surface of the rear side of the sending rod 74, and the fourth gear 75 is meshed with the, the feeding rod 50 is arranged between the inner walls of the front side and the rear side of the conveying main cavity 49 and positioned on the left side of the fixed auxiliary rod 73 in a rotating fit manner, the feeding rod 50 and the fixed auxiliary rod 73 are arranged in the conveying main cavity 49 in a fixedly-arranged feeding wheel 47, the left side and the right side of the feeding wheel 47 are provided with a main belt 48 in a driving fit manner, the inner walls of the front side and the rear side of the conveying auxiliary cavity 42 are arranged on the left side of the feeding rod 74 in a rotating fit manner and provided with a driven rod 46, the driven rod 46 and the feeding rod 74 are arranged in the conveying auxiliary cavity 42 in a fixedly-arranged feeding wheel 45, the left side and the right side of the feeding wheel 45 are provided with an auxiliary belt 43 in a driving fit manner, so that the conveying motor 79 is started to drive the fixed auxiliary rod 73 to rotate, the fixed auxiliary rod 73 rotates to drive the third gear 78 to rotate, the third gear 78 rotates to drive the fourth gear 75 to rotate, the, the feeding wheel 47 on the right side rotates to drive the feeding wheel 47 on the left side to rotate through the transmission of the main belt 48, the heat insulation materials are conveyed into the cutting cavity 61, the conveying rod 74 rotates to drive the conveying wheel 45 on the right side to rotate, the conveying wheel 45 on the right side rotates to drive the conveying wheel 45 on the left side to rotate through the transmission of the auxiliary belt 43, and the heat insulation materials are conveyed out from the outlet 44.

Beneficially or exemplarily, the impurity removing mechanism comprises a blade cavity 51 which is arranged above the outlet 44 in a communicating manner, a main blade 52 is fixedly mounted on the top wall of the blade cavity 51, a dropping cavity 40 is arranged below the outlet 44 in a communicating manner, an auxiliary blade 41 is fixedly mounted between the front inner wall and the rear inner wall of the dropping cavity 40, and a waste cavity 36 is arranged below the dropping cavity 40 in a communicating manner, so that when the thermal insulation material is pushed into the outlet 44 by the auxiliary sliding block 30, the main blade 52 and the auxiliary blade 41 remove impurities on the upper surface and the lower surface of the thermal insulation material, the smoothness of the surface of the thermal insulation material is ensured, and the removed waste falls into the waste cavity 36 through the dropping cavity 40 and can be taken out from the waste cavity 36.

When the device is used, the conveying motor 79 is started to drive the fixed auxiliary rod 73 to rotate, the fixed auxiliary rod 73 drives the third gear 78 to rotate, the third gear 78 drives the fourth gear 75 to rotate, the fourth gear 75 drives the sending-out rod 74 to rotate, the fixed auxiliary rod 73 drives the right-side sending-in wheel 47 to rotate, the right-side sending-in wheel 47 rotates to drive the left-side sending-in wheel 47 to rotate through the transmission of the main belt 48, heat insulation materials are sent into the cutting cavity 61, the conveying motor 79 is stopped, the cutting motor 15 is started to drive the fixed main rod 16 to rotate, the fixed main rod 16 rotates to drive the second gear 14 to rotate, the second gear 14 drives the first gear 11 to rotate through the transmission of the main chain 13, the electromagnet 71 is attracted, the first gear 11 rotates to drive the meshing rod 70 to rotate, the meshing rod 70 rotates to drive the meshing auxiliary bevel wheel 69 to rotate, the meshing auxiliary bevel wheel 69 drives the main threaded rod 66 to rotate through, the main threaded rod 66 rotates to drive the main sliding block 65 to move downwards, the main sliding block 65 moves downwards to drive the cutting rod 62 to move downwards, the pressing block 83 presses the heat insulation material, the cutting blade 59 moves downwards to cut, after the cutting is finished, the cutting motor 15 rotates reversely to reset, the electromagnet 71 is switched off, the position of the cutting blade 59 can be adjusted by rotating the turntable 56, the heat insulation material enables the gravity block 39 to move downwards, the gravity block 39 moves downwards to drive the vertical block 35 to move downwards, the vertical block 35 moves downwards to drive the downward moving block 32 to move downwards, the downward moving block 32 drives the upward moving block 21 to move upwards through the rotating groove 26, the upward moving block 21 moves upwards to drive the moving rod 20 to move upwards, the moving rod 20 moves upwards to drive the auxiliary bevel gear 19 to move upwards, the auxiliary bevel gear 19 is meshed with the main bevel gear 17 and the auxiliary bevel gear 22, the cutting motor 15 is started, the main bevel gear 17 is driven, the main bevel gear 17 drives the auxiliary bevel gear 22 to rotate by being meshed with the auxiliary bevel gear 19, the auxiliary bevel gear 22 drives the auxiliary threaded rod 23 to rotate, the auxiliary threaded rod 23 drives the auxiliary sliding block 30 to move rightwards to push the heat-insulating material to move rightwards, when the heat-insulating material is pushed into the outlet 44 by the auxiliary sliding block 30, the main blade 52 and the auxiliary blade 41 remove impurities on the upper surface and the lower surface of the heat-insulating material to ensure the smoothness of the surface of the heat-insulating material, the removed waste material falls into the waste material cavity 36 through the falling cavity 40 and can be taken out of the waste material cavity 36, then the cutting motor 15 rotates reversely, the auxiliary sliding block 30 moves rightwards to reset, the gravity block 39 moves upwards, the auxiliary bevel gear 19 is disengaged with the main bevel gear 17 and the auxiliary bevel gear 22, the conveying motor 79 is started, the delivery rod 74 rotates to drive the delivery wheel 45 on the right side to rotate, the delivery wheel 45, the insulation is delivered out of the outlet 44.

The invention has the beneficial effects that: the heat-insulating material conveying mechanism is simple in structure and convenient to operate, the cutting motor in the cutting mechanism controls the cutting rod to move up and down, the pressing block presses the heat-insulating material, the cutting blade cuts the heat-insulating material, the flatness and the non-inclination of the cutting surface of the heat-insulating material are guaranteed, the position of the cutting blade can be adjusted by rotating the rotary table, the size of the cut heat-insulating material is adjusted, the main blade and the auxiliary blade in the impurity removal mechanism process the surface of the heat-insulating material, the waste material cavity collects the waste materials after impurity removal, and the conveying mechanism is matched with the pushing mechanism to enable the heat-insulating material to move.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims (1)

1. The utility model provides a construction insulation material processing system that structure is practical, is including handling the case, its characterized in that: the processing box is internally provided with a cutting cavity, a cutting mechanism is arranged in the cutting cavity and comprises a cutting rod, a thread sleeve is installed on the cutting rod in a thread fit manner, a cutting blade is fixedly installed on the thread sleeve, a main thread cavity is arranged on the left side of the cutting cavity, a main sliding block is installed in the main thread cavity in a sliding fit manner, the cutting mechanism also comprises a cutting motor for providing power, a fixed main rod is fixedly installed on an output shaft of the cutting motor towards the right, a pushing mechanism is arranged below the cutting mechanism and comprises an auxiliary cavity, an upper moving block is installed in the auxiliary cavity in a sliding fit manner, a rotating wheel cavity is communicated with the right side of the auxiliary cavity, a rotating wheel rod is installed in the rotating wheel cavity in a rotating fit manner, a rotating wheel is fixedly installed on the rotating wheel rod, the pushing mechanism also comprises a gravity cavity, a gravity block is installed in the gravity cavity in, a main blade is fixedly installed in the blade cavity, a dropping cavity is formed below the blade cavity, an auxiliary blade is fixedly installed in the dropping cavity, a waste cavity is communicated and arranged below the dropping cavity, a conveying mechanism is arranged on the right side of the impurity removing mechanism and comprises a conveying motor for providing conveying power, a forward output shaft of the conveying motor is fixedly connected with a fixed auxiliary rod, a feeding wheel is fixedly installed on the fixed auxiliary rod, a conveying auxiliary cavity is also arranged in the conveying mechanism, a feeding rod is installed in the conveying auxiliary cavity in a rotating fit mode, and a feeding wheel is fixedly installed on the feeding rod; the cutting mechanism comprises a main thread cavity communicated with and arranged on the left side of the cutting cavity, a main sliding block is installed in the main thread cavity in a sliding fit manner, a main threaded hole with a downward opening is formed in the main sliding block, a meshing cavity is arranged below the main thread cavity, a main threaded rod is installed between the meshing cavity and the main thread cavity in a rotating fit manner, the main threaded rod is installed in a threaded fit manner with the main thread hole, a main cone pulley is fixedly installed and meshed on the bottom end face of the main threaded rod, a main transmission cavity is arranged on the left side of the meshing cavity, a meshing rod is installed between the main transmission cavity and the meshing cavity in a rotating fit manner, an auxiliary cone pulley is fixedly installed and meshed on the right end face of the meshing rod, the auxiliary cone pulley is meshed with the main cone pulley, a pair of electromagnets is arranged in the meshing rod, a first gear is fixedly installed on the left end face of, a fixed main rod is fixedly installed on the right side end face of an output shaft of the cutting motor, a second gear is fixedly installed on the fixed main rod, a main chain is installed between the second gear and the first gear in a transmission matching mode, a cutting rod is installed in a main sliding block right side end face in a rotating matching mode, a rod sleeve is installed on the cutting rod in a bilateral symmetry rotating matching mode, a connecting rod is fixedly installed on the bottom end face of the rod sleeve, a pressing block is arranged below the rod sleeve, a pressing cavity is formed in the pressing block, clamping blocks are fixedly installed on the connecting rod in a bilateral symmetry mode, the clamping blocks are installed in a sliding matching mode with the pressing cavity, a pressing block spring is fixedly installed between the bottom end face of the connecting rod and the bottom wall of the pressing cavity, a thread sleeve is installed on the cutting rod in a thread matching mode between the left rod sleeve and the right rod sleeve, a cutting blade, a supporting cavity is communicated with the right side of the cutting cavity, a supporting block is installed in the supporting cavity in a sliding fit mode, the top end face of the supporting block is attached to the cutting rod, and a supporting spring is fixedly installed between the bottom end face of the supporting block and the bottom wall of the supporting cavity; the pushing mechanism comprises an auxiliary cavity arranged on the right side of the main transmission cavity, the fixed main rod extends rightwards to penetrate through the inner wall of the left side of the auxiliary cavity, a main bevel gear is fixedly installed on the right end face of the fixed main rod, a gravity cavity is communicated and arranged below the cutting cavity, a gravity block is installed in the gravity cavity in a sliding fit manner, a gravity spring is fixedly installed between the bottom end face of the gravity block and the bottom wall of the gravity cavity, a vertical cavity is communicated and arranged on the bottom wall of the gravity cavity, a vertical block is installed in the vertical cavity in a sliding fit manner, the top end face of the vertical block is fixedly connected with the bottom end face of the gravity block, a vertical spring is fixedly installed between the bottom end face of the vertical block and the bottom wall of the vertical cavity, a moving cavity is communicated and arranged on the left side of the vertical cavity, a lower moving block which is in a sliding fit with the, a rotating wheel rod is installed between the top wall and the bottom wall of the rotating wheel cavity in a rotating matching mode, a rotating wheel is fixedly installed on the rotating wheel rod, a rotating groove is formed in the rotating wheel, the left end face of the downward moving block is inserted into the rotating groove, the left side of the rotating wheel cavity is communicated with the auxiliary cavity, an upward moving block is installed in the auxiliary cavity in a sliding matching mode, the right end face of the upward moving block is inserted into the rotating groove, a moving rod is installed in the top end face of the upward moving block in a rotating matching mode, an auxiliary bevel gear is fixedly installed on the top end face of the moving rod, an auxiliary thread cavity is communicated with the left side of the gravity cavity, an auxiliary threaded rod is installed between the auxiliary thread cavity and the auxiliary cavity in a rotating matching mode, an auxiliary bevel gear is fixedly installed on the left end face of the auxiliary threaded rod, the auxiliary bevel gear can be meshed with the main bevel gear and the auxiliary bevel, the auxiliary threaded hole is in threaded fit with the auxiliary threaded rod; the conveying mechanism comprises an outlet with a rightward opening, which is communicated with the right side of the gravity cavity, a conveying main cavity with an upward opening is arranged above the outlet, an auxiliary transmission cavity is arranged at the rear side of the conveying main cavity, a conveying motor is fixedly arranged in the inner wall at the rear side of the auxiliary transmission cavity, a fixed auxiliary rod is fixedly arranged on the front side end surface of a forward output shaft of the conveying motor, the fixed auxiliary rod extends forwards and is installed in a rotating fit manner with the inner wall at the front side of the conveying main cavity, a third gear is fixedly arranged on the fixed auxiliary rod, a conveying auxiliary cavity is communicated below the outlet, a sending rod penetrating through the inner wall at the front side of the auxiliary transmission cavity is installed in a rotating fit manner in the inner wall at the front side of the conveying auxiliary cavity, a fourth gear is fixedly arranged on the end surface at the rear side of the sending rod, the fourth gear is meshed with the third gear, and a sending rod is arranged between the inner walls at the front, a feeding wheel is fixedly arranged in the conveying main cavity on the feeding rod and the fixed auxiliary rod, a main belt is arranged between the left feeding wheel and the right feeding wheel in a transmission fit manner, a driven rod is arranged between the inner walls of the front side and the rear side of the conveying auxiliary cavity on the left side of the feeding rod in a rotating fit manner, a feeding wheel is fixedly arranged in the conveying auxiliary cavity on the driven rod and the feeding rod, and an auxiliary belt is arranged between the left feeding wheel and the right feeding wheel in a transmission fit manner; impurity removal mechanism is in including the intercommunication setting the blade chamber of export top, fixed mounting main blade on the blade chamber roof, export below intercommunication is equipped with the chamber that drops, the vice blade of fixed mounting between the inner wall around the chamber that drops, the chamber below intercommunication that drops is equipped with the waste material chamber.

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