CN115738881A - Processing and feeding system and feeding method for building waterproof inorganic mineral coating - Google Patents

Abstract

The invention belongs to the technical field of waterproof inorganic mineral coating processing, and particularly relates to a processing and feeding system and a feeding method for a building waterproof inorganic mineral coating. The quick cutting when having realized the braided bag raw and other materials to building waterproof inorganic mineral coating carries has replaced manual operation labour saving and time saving, has reduced raw and other materials in bags to staff's health injury, has effectively improved building waterproof inorganic mineral coating's the material loading efficiency of raw and other materials in bags, and the result of use is showing and is promoting.

Description

Processing and feeding system and feeding method for building waterproof inorganic mineral coating

Technical Field

The invention relates to the technical field of waterproof inorganic mineral coating processing, in particular to a processing and feeding system and a feeding method for a building waterproof inorganic mineral coating.

Background

The inorganic coating is a coating which takes inorganic materials as main film forming substances, is called inorganic mineral coating for short, is an inorganic polymer coating which is composed of inorganic polymers, dispersed and activated metal, metal oxide nano materials and rare earth ultrafine powder, has no pollution to the environment, long service life and corrosion resistance reaching the international advanced level; in the processing procedure of the building waterproof inorganic mineral coating in the prior art, because the raw materials for processing the building waterproof inorganic mineral coating are usually packaged by woven bags, the woven bags are required to be manually cut and then inversely conveyed during feeding, the raw materials inside the woven bags cannot be directly poured into dispersing equipment, the operation is more complicated, the feeding efficiency is influenced, and the using effect is not good enough.

Disclosure of Invention

1. Technical problem to be solved

Based on the technical problems that in the processing process of the existing building waterproof inorganic mineral coating, as the raw materials for processing the building waterproof inorganic mineral coating are usually packaged by woven bags, the woven bags are required to be cut manually and then poured backwards for conveying during feeding, the raw materials in the woven bags cannot be directly poured into dispersing equipment, the operation is complicated, the feeding efficiency is influenced, and the using effect is poor, the invention provides a processing and feeding system and a feeding method for the building waterproof inorganic mineral coating.

2. Technical scheme

The utility model provides a waterproof inorganic mineral coating's of building processing feeding system, is including placing the platform, both ends all have set firmly the support around placing the platform, even individual establish the conveyer belt between the support, the inside linear equidistant structure meshing that is of conveyer belt is connected with a plurality of driving teeth, both ends all are connected with the rotate bracket around the center pin of driving teeth, the conveyer belt outer wall is the align to grid structure and has set firmly a plurality of non slipping spurs, is located the front end motor A is installed through the mount pad to support antetheca left end, the center pin coaxial coupling of the driving teeth of motor A output shaft and leftmost end, the conveyer belt right-hand member is equipped with cutting assembly, the cutting assembly right-hand member has set firmly rejects the mechanism, it has set firmly the screening module to reject the mechanism bottom surface, the screening module bottom surface has set firmly dispersion devices.

Preferably, the right end of the placing table is of an inclined structure, the outer ends of the anti-skidding blocks are of a uniformly-arranged structure and are provided with a plurality of limiting grooves, the front end and the rear end of the conveying belt are in sliding connection with the inner wall of the support, the anti-skidding blocks facilitate conveying of bagged raw materials, the bagged raw materials are prevented from being stagnated on the conveying belt, and the feeding effect is improved.

Preferably, the cutting assembly includes the slope piece, slope piece bottom surface left wall is linear equidistant structure and has set firmly a plurality of stoppers, stopper and spacing groove clearance fit, slope piece upper end left wall is fixed with support right wall connection, slope piece right-hand member rotates and is connected with the pivot, and the stopper has improved the transport effect, has reduced the emergence that drops when conveniently transporting the material.

Preferably, a plurality of saw blades are sleeved on the rotating shaft in a linear equidistant structure, a motor B is installed on the rear wall of the inclined block through an installation seat, an output shaft of the motor B is coaxially connected with the rotating shaft, a plurality of grooves are formed in the bottom surface of the right end of the inclined block in a linear equidistant structure, the saw blades are in clearance fit with the grooves, the motor B drives the rotating shaft to enable the saw blades to rotate, and the saw blades cut the outer package of bagged raw materials.

Preferably, reject the mechanism and include the framework, the framework bottom is the fretwork form, the framework right-hand member is the opening form, the spout has been seted up to the framework antetheca, the inside sliding connection of spout has the slider, the slider back wall is linear equidistant structure and has set firmly a plurality of sloping poles, the inside bottom surface of framework is linear equidistant structure and has seted up a plurality of inclined grooves, the cooperation of pegging graft of sloping pole and inclined groove, slider slide along the spout, make the sloping pole reciprocate and carry the outer packing bag after the cutting.

Preferably, the slider front end rotates and is connected with the connecting rod, the pot head is equipped with the bent axle on the connecting rod, the framework front end is located to bent axle rear end cover, the bent axle rear end rotates with the framework front end to be connected, framework antetheca right-hand member has set firmly L type piece, bent axle front end cover is located L type piece left end and is connected rather than rotating, drives the tilting bar and shakes the adnexed raw and other materials and shake to the below on the outer packing bag after will cutting from top to bottom, has reduced the residue of raw and other materials.

Preferably, the crankshaft is sleeved with a belt wheel A, the front end of the central shaft of the transmission gear positioned at the rightmost end is sleeved with a belt wheel B, the belt wheel B positioned at the left end is in friction transmission with the belt wheel A positioned at the right end through a belt, the belt wheel B provides power for the crankshaft, and the connecting rod drives the sliding block to move up and down.

Preferably, the screening module includes the screening frame, the inside upper end of screening frame is rotated and is connected with the screen cloth, screen cloth left end bottom surface frictional contact has the lug, the round bar has been cup jointed at lug left end middle part, the inside right-hand member of screening frame has set firmly U type filter block, screening frame bottom surface is the slope structure, the discharge gate has been seted up to the screening frame right-hand member, the discharge gate is linked together with the dispersion devices, and the screen cloth is filtered raw and other materials, and the sieve mesh that passes the screen cloth of less granule falls into the screening frame bottom surface, and inside the caking raw and other materials that fail to pass through the screen cloth fell into U type filter block, made things convenient for categorised screening.

Preferably, the inside crushing roller that is equipped with of U type filter block, the crushing roller outer wall is the align to grid structure and has set firmly a plurality of broken swoves of slope, first bevel gear has all been cup jointed to the center pin front end of crushing roller and the pole front end, motor C is installed through the mount pad to screening frame right side wall, coaxial coupling has even axle on motor C's the output shaft, both ends have all been cup jointed second bevel gear about even axle, first bevel gear is connected with second bevel gear meshing, makes the crushing roller drive the broken sword of slope and carry out the breakage to the raw and other materials of caking, and the broken sword coverage of slope is wider, and crushing effect is better.

A feeding method of a processing feeding system of building waterproof inorganic mineral coating comprises the following steps:

conveying: through external equipment or artifical transport, place the raw and other materials in bags of building waterproof inorganic mineral coating production usefulness in the slope department of placing the platform, on raw and other materials in bags landing to the conveyer belt this moment, it is rotatory to drive the driving gear that is located the leftmost end through motor A, makes the conveyer belt clockwise rotation, and the blocking through the non slipping spur has avoided raw and other materials in bags to be stagnant on the conveyer belt, slides to the cutting assembly when carrying raw and other materials in bags to the conveyer belt right-hand member on.

Cutting: the bagged raw materials slide downwards along the inclined block, the output shaft of the motor B drives the rotating shaft to rotate while the rotating shaft drives the saw blade to rotate, when the bagged raw materials pass through the groove, the outer packaging bag of the bagged raw materials is cut by the rotating saw blade, and the cut outer packaging bag and the cut raw materials all enter the rejecting mechanism.

Removing: when the conveying belt rotates, the transmission teeth positioned at the rightmost end synchronously rotate, the belt wheel B synchronously rotates to the belt wheel A through belt friction transmission at the moment, the belt wheel A drives the crankshaft to rotate along the frame body and the L-shaped block, the crankshaft drives the connecting rod to move up and down at the moment, the connecting rod drives the sliding block to move up and down, the sliding block slides up and down along the sliding groove, the inclined rod synchronously moves up and down, the inclined rod shakes the crushed outer packaging bag, raw materials attached to the cut outer packaging bag shake down to the lower side, and the outer packaging bag slides to the rear end along the inclined rod to be discharged to the outside for collection.

Screening: tremble backward raw and other materials and fall into the screen cloth top, it is rotatory to drive the axle through motor C, make second bevel gear rotatory and mesh transmission to first bevel gear synchronous revolution, the first bevel gear that is located the left end drives the round bar and rotates, make the bellying of lug and screen cloth bottom surface intermittent type friction contact, promote the screen cloth shake and filter to raw and other materials, the sieve mesh that passes the screen cloth of less granule falls into screening frame bottom surface, the caking raw and other materials that fail to pass through the screen cloth fall into inside the U type filter block, it is rotatory to drive the center pin of crushing roller through the first bevel gear rotation that is located the right-hand member, make the crushing roller drive the broken sword of slope and carry out the breakage to the raw and other materials of caking, broken to falling into screening frame bottom surface behind the passing type filter block behind the suitable diameter, raw and other materials slide to the discharge gate and carry to the dispersion devices inside and carry out the dispersion operation along the slope bottom surface of screening frame.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

1. through external equipment or artifical transport, place the slope department at the placement platform with the raw and other materials in bags of waterproof inorganic mineral coating production usefulness of building, raw and other materials in bags landing to the conveyer belt this moment, it is rotatory to drive the driving gear that is located the leftmost end through motor A, make the conveyer belt clockwise rotation, blockking through the non slipping spur has avoided raw and other materials in bags to be stagnant on the conveyer belt not earlier, slide to cutting assembly when carrying raw and other materials in bags to the conveyer belt right-hand member on, raw and other materials in bags slide down along the sloping block, motor B's output shaft drives the pivot rotatory while gliding, it is rotatory to make the pivot drive the saw bit, when raw and other materials in bags pass through groove, rotatory saw bit cuts the outer packing bag of raw and other materials in bags, outer packing bag and raw and other materials after the cutting all get into and reject inside the mechanism. Realized the fly-cutting when carrying the braided bag raw and other materials to building waterproof inorganic mineral coating, replaced manual operation labour saving and time saving, reduced raw and other materials in bags to staff's health injury, effectively improved building waterproof inorganic mineral coating's the material loading efficiency of raw and other materials in bags, the result of use is showing and is promoting.

2. The conveyer belt is rotatory in, band pulley A drives the bent axle rotatory along framework and L type piece, the bent axle drives the connecting rod this moment and reciprocates, make the connecting rod drive the slider and reciprocate, make the tilting lever reciprocate in step, the tilting lever shakes broken outer packing bag, will attach to the raw and other materials on the outer packing bag after the cutting and shake off to the below, make outer packing bag slide along the tilting lever and discharge to the outside collection of rear end, made things convenient for and rejected the outer packing bag after the cutting fast, the outer packing bag after having avoided too much cutting causes the emergence of jam, the transport effect of the outer packing bag after the cutting has been improved, the residue of raw and other materials has been reduced.

3. Raw and other materials after trembling fall into the screen cloth top, it is rotatory to drive even axle through motor C, make second bevel gear rotatory and mesh transmission to first bevel gear synchronous revolution, it is rotatory to be located the first bevel gear of left end and drive the round bar, make the protruding department and the screen cloth bottom surface intermittent type frictional contact of lug, promote the screen cloth shake and filter raw and other materials, the sieve mesh that passes the screen cloth of less granule falls into screening frame bottom surface, inside the caking raw and other materials that fail to pass through the screen cloth fell into U type filter block, the convenience is filtered the raw and other materials of caking, the raw and other materials of having avoided the caking directly get into dispersion devices, dispersion effects of dispersion devices has been improved.

4. The rotatory center pin that drives the crushing roller that is located the first bevel gear of right-hand member is rotatory, makes the crushing roller drive the broken sword of slope and carries out the breakage to the raw and other materials of caking, falls into the screening frame bottom surface after broken to passing U type filter block behind the suitable diameter, and raw and other materials are along the inside dispersion operation that carries out of slope bottom surface landing to the discharge gate of screening frame and carry to dispersion devices, carry out the breakage to the raw and other materials of caking in the screening, have reduced the broken cost of the raw and other materials of caking, use more energy-conservingly.

Drawings

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

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

FIG. 3 is a schematic view of the tilting block structure of the present invention;

FIG. 4 is a schematic view of the cutting assembly of the present invention shown in disassembled configuration;

FIG. 5 is a cross-sectional view of the frame structure of the present invention;

FIG. 6 is a cross-sectional view of a screen frame structure of the present invention;

FIG. 7 is a schematic view of the inside of the structure of the screening frame of the present invention;

fig. 8 is a schematic view of the structure of the inclined crushing cutter of the present invention.

In the figure: 1. a placing table; 2. a support; 3. a conveyor belt; 4. a transmission gear; 5. anti-skid blocks; 51. a limiting groove; 6. a motor A; 7. a cutting assembly; 71. an inclined block; 72. a limiting block; 73. a rotating shaft; 74. a saw blade; 75. a motor B; 76. a groove; 8. a rejecting mechanism; 81. a frame body; 82. a chute; 83. a slider; 84. an inclined lever; 85. an inclined groove; 86. a connecting rod; 87. a crankshaft; 88. an L-shaped block; 89. a pulley A; 810. a belt pulley B; 811. a belt; 9. a screening module; 91. screening frames; 92. screening a screen; 93. a bump; 94. a round bar; 95. a U-shaped filter block; 96. a crushing roller; 97. inclining the crushing knife; 98. a first bevel gear; 99. a motor C; 910. a second bevel gear; 911. a discharge port; 912. a connecting shaft; 10. a dispersing device.

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.

Example one

Referring to fig. 1-2, a processing feeding system of building waterproof inorganic mineral coating, including placing platform 1, both ends all have set firmly support 2 around placing platform 1, establish conveyer belt 3 between even support 2, conveyer belt 3 is inside to be linear equidistant structure meshing and is connected with a plurality of driving teeth 4, both ends all rotate with support 2 around the center pin of driving teeth 4 and are connected, 3 outer walls of conveyer belt are the align to grid structure and have set firmly a plurality of non slipping spur 5, 2 antetheca left ends of support that are located the front end install motor A6 through the mount pad, the center pin coaxial coupling of motor A6 output shaft and the driving teeth 4 of leftmost end, 3 right-hand members of conveyer belt are equipped with cutting assembly 7, cutting assembly 7 right-hand members have set firmly rejection mechanism 8, rejection mechanism 8 bottom surfaces have set firmly screening module 9, screening module 9 bottom surfaces have set firmly dispersion devices 10.

In the embodiment, the right end of the placing table 1 is of an inclined structure, the outer ends of the anti-skid blocks 5 are of a uniform arrangement structure and are provided with a plurality of limiting grooves 51, and the front end and the rear end of the conveyor belt 3 are in sliding connection with the inner wall of the support 2; the anti-slip blocks 5 facilitate the conveying of bagged raw materials, avoid the occurrence of unsmooth stopping of the bagged raw materials on the conveyor belt 3, and improve the feeding effect.

The working principle of the invention is as follows: through external equipment or artifical transport, place the raw and other materials in bags of building waterproof inorganic mineral coating production usefulness in the slope department of placing platform 1, raw and other materials in bags landing to conveyer belt 3 this moment, it is rotatory to drive transmission tooth 4 that is located the leftmost end through motor A6, makes conveyer belt 3 clockwise rotation, and it is not enough before the raw and other materials in bags have been avoided stopping on conveyer belt 3 through blockking of non slipping spur 5, slides to cutting assembly 7 when carrying raw and other materials in bags to conveyer belt 3 right-hand member on.

Example two

Referring to fig. 3 and 4, on the basis of the first embodiment, the cutting assembly 7 includes an inclined block 71, a plurality of limiting blocks 72 are fixedly arranged on the left wall of the bottom surface of the inclined block 71 in a linear equidistant structure, the limiting blocks 72 are in clearance fit with the limiting grooves 51, the left wall of the upper end of the inclined block 71 is fixedly connected with the right wall of the bracket 2, and the right end of the inclined block 71 is rotatably connected with a rotating shaft 73; the limiting block 72 improves the conveying effect, and reduces the falling of materials when the materials are conveyed conveniently.

In the embodiment, a plurality of saw blades 74 are sleeved on the rotating shaft 73 in a linear equidistant structure, a motor B75 is mounted on the rear wall of the inclined block 71 through a mounting seat, an output shaft of the motor B75 is coaxially connected with the rotating shaft 73, a plurality of grooves 76 are formed in the bottom surface of the right end of the inclined block 71 in a linear equidistant structure, and the saw blades 74 are in clearance fit with the grooves 76; the motor B75 drives the rotating shaft 73 to rotate the saw blade 74, and the saw blade 74 cuts the outer package of the bagged raw material.

When the bag-shaped material removing mechanism is used, the bagged material slides downwards along the inclined block 71, the output shaft of the motor B75 drives the rotating shaft 73 to rotate while sliding, the rotating shaft 73 drives the saw blade 74 to rotate, when the bagged material passes through the groove 76, the rotating saw blade 74 cuts an outer packaging bag of the bagged material, and the cut outer packaging bag and the cut raw material all enter the removing mechanism 8.

EXAMPLE III

Referring to fig. 5, on the basis of the second embodiment, the removing mechanism 8 includes a frame 81, a bottom surface of the frame 81 is hollowed, a right end of the frame 81 is open, a sliding groove 82 is formed in a front wall of the frame 81, a sliding block 83 is slidably connected inside the sliding groove 82, a plurality of inclined rods 84 are fixedly arranged on a rear wall of the sliding block 83 in a linear equidistant structure, a plurality of inclined grooves 85 are formed in a bottom surface inside the frame 81 in a linear equidistant structure, and the inclined rods 84 are in inserted fit with the inclined grooves 85; the slider 83 slides along the chute 82, and moves the inclined rod 84 up and down to convey the cut outer package bag.

In this embodiment, the front end of the slider 83 is rotatably connected with a connecting rod 86, the upper end of the connecting rod 86 is sleeved with a crankshaft 87, the rear end of the crankshaft 87 is sleeved at the front end of the frame 81, the rear end of the crankshaft 87 is rotatably connected with the front end of the frame 81, the right end of the front wall of the frame 81 is fixedly provided with an L-shaped block 88, and the front end of the crankshaft 87 is sleeved at the left end of the L-shaped block 88 and is rotatably connected with the same; the inclined rod 84 is driven to shake up and down to shake off the raw materials attached to the cut outer packaging bag to the lower part, so that the residue of the raw materials is reduced.

In this embodiment, the crankshaft 87 is sleeved with a belt pulley a89, the front end of the central shaft of the transmission gear 4 at the rightmost end is sleeved with a belt pulley B810, and the belt pulley B810 at the left end is in friction transmission with the belt pulley a89 at the right end through a belt 811; the pulley B810 provides power to the crankshaft 87, and drives the slider 83 to move up and down through the connecting rod 86.

When the device is used, the transmission teeth 4 positioned at the rightmost end synchronously rotate while the transmission belt 3 rotates, the belt wheel B810 is in friction transmission to the belt wheel A89 to synchronously rotate through the belt 811, the belt wheel A89 drives the crankshaft 87 to rotate along the frame body 81 and the L-shaped block 88, the crankshaft 87 drives the connecting rod 86 to move up and down at the moment, the connecting rod 86 drives the sliding block 83 to move up and down, the connecting rod 86 rotates along the sliding block 83 at the same time, the sliding block 83 slides up and down along the sliding groove 82, the inclined rod 84 synchronously moves up and down, the inclined rod 84 shakes the crushed outer packaging bags, attached raw materials are shaken down to the lower part, and the outer packaging bags slide to the rear end along the inclined rod 84 to be discharged to the outside for collection.

Example four

Referring to fig. 6 to 8, on the basis of the third embodiment, the screening module 9 includes a screening frame 91, the upper end inside the screening frame 91 is rotatably connected with a screen 92, the bottom surface of the left end of the screen 92 is in friction contact with a bump 93, the middle part of the left end of the bump 93 is sleeved with a round bar 94, the right end inside the screening frame 91 is fixedly provided with a U-shaped filter block 95, the bottom surface of the screening frame 91 is in an inclined structure, the right end of the screening frame 91 is provided with a discharge hole 911, and the discharge hole 911 is communicated with the dispersing device 10; the screen mesh 92 screens raw materials, and the sieve mesh that passes screen mesh 92 of less granule falls into screening frame 91 bottom surface, and the caking raw materials that fail to pass through screen mesh 92 falls into inside U type filter block 95, has made things convenient for classified screening.

In this embodiment, a crushing roller 96 is arranged inside a U-shaped filter block 95, a plurality of inclined crushing cutters 97 are fixedly arranged on the outer wall of the crushing roller 96 in a uniformly arranged structure, a first bevel gear 98 is sleeved on the front end of a central shaft of the crushing roller 96 and the front end of a round rod 94, a motor C99 is mounted on the right wall of the screening frame 91 through a mounting seat, a connecting shaft 912 is coaxially connected to an output shaft of the motor C99, a second bevel gear 910 is sleeved on each of the left and right ends of the connecting shaft 912, and the first bevel gear 98 is meshed with the second bevel gear 910; the crushing roller 96 drives the inclined crushing knife 97 to crush the caked raw materials, the coverage of the inclined crushing knife 97 is wider, and the crushing effect is better.

During the use, the raw materials after shaking fall into the screen cloth 92, drive the rotation of connecting shaft 912 through motor C99, make second bevel gear 910 rotatory and meshing transmission to first bevel gear 98 synchronous revolution, first bevel gear 98 that is located the left end drives round bar 94 rotatory, make the bellying of lug 93 and screen cloth 92 bottom surface intermittent type frictional contact, promote the screen cloth 92 shake and filter the raw materials, the sieve mesh that less granule passed screen cloth 92 falls into the screening frame 91 bottom surface, the caking raw materials that fail to pass screen cloth 92 falls into inside U type filter block 95, it is rotatory to drive the center pin of crushing roller 96 through the rotation of first bevel gear 98 that is located the right-hand member, make crushing roller 96 drive slope crushing sword 97 carry out the breakage to the raw materials of caking, fall into screening frame 91 bottom surface after passing U type filter block 95 after broken to suitable diameter, raw materials slide to discharge gate 911 and carry to the inside dispersion devices 10 along the slope bottom surface of screening frame 91 and carry out the dispersion operation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a processing feeding system of waterproof inorganic mineral coating of building, is including placing platform (1), its characterized in that: place both ends around platform (1) and all set firmly support (2), even a establish conveyer belt (3) between support (2), conveyer belt (3) inside is linear equidistant structure meshing and is connected with a plurality of driving gear (4), both ends all rotate with support (2) around the center pin of driving gear (4) and are connected, conveyer belt (3) outer wall is align to grid structure and has set firmly a plurality of non slipping spur (5), is located the front end support (2) antetheca left end is installed motor A (6) through the mount pad, the center pin coaxial coupling of motor A (6) output shaft and the driving gear (4) of leftmost end, conveyer belt (3) right-hand member is equipped with cutting assembly (7), cutting assembly (7) right-hand member has set firmly rejection mechanism (8), rejection mechanism (8) bottom surface has set firmly screening module (9), screening module (9) bottom surface has set firmly dispersion devices (10).

2. The processing and feeding system of the building waterproof inorganic mineral coating material of claim 1, wherein: the conveying device is characterized in that the right end of the placing table (1) is of an inclined structure, the outer ends of the anti-skidding blocks (5) are of a uniform arrangement structure and are provided with a plurality of limiting grooves (51), and the front end and the rear end of the conveying belt (3) are connected with the inner wall of the support (2) in a sliding mode.

3. The processing and feeding system of the building waterproof inorganic mineral coating material of claim 2, wherein: cutting subassembly (7) are including slope piece (71), slope piece (71) bottom surface left wall is linear equidistant structure and has set firmly a plurality of stopper (72), stopper (72) and spacing groove (51) clearance fit, slope piece (71) upper end left wall is fixed with support (2) right wall connection, slope piece (71) right-hand member rotates and is connected with pivot (73).

4. The processing and feeding system of the inorganic mineral coating for waterproofing of buildings according to claim 3, characterized in that: be linear equidistant structure on pivot (73) and cup jointed a plurality of saw bits (74), motor B (75) are installed through the mount pad to slope piece (71) back wall, motor B (75) output shaft and pivot (73) coaxial coupling, slope piece (71) right-hand member bottom surface is linear equidistant structure and has seted up a plurality of recesses (76), saw bit (74) and recess (76) clearance fit.

5. The processing and feeding system of the inorganic mineral coating for waterproofing of buildings according to claim 1, characterized in that: reject mechanism (8) and include framework (81), framework (81) bottom surface is the fretwork form, framework (81) right-hand member is the opening form, spout (82) have been seted up to framework (81) antetheca, spout (82) inside sliding connection has slider (83), slider (83) back wall is linear equidistant structure and has set firmly a plurality of sloping bars (84), framework (81) inside bottom surface is linear equidistant structure and has seted up a plurality of inclined grooves (85), sloping bar (84) and inclined groove (85) cooperation of pegging graft.

6. The processing and feeding system of the building waterproof inorganic mineral coating material of claim 5, wherein: slider (83) front end rotates and is connected with connecting rod (86), the pot head is equipped with bent axle (87) on connecting rod (86), bent axle (87) rear end cover is located framework (81) front end, bent axle (87) rear end rotates with framework (81) front end and is connected, framework (81) antetheca right-hand member has set firmly L type piece (88), bent axle (87) front end cover is located L type piece (88) left end and is connected rather than rotating.

7. The processing and feeding system of the inorganic mineral coating for waterproofing of buildings according to claim 6, characterized in that: the crankshaft (87) is sleeved with a belt wheel A (89), the front end of a central shaft of the transmission gear (4) at the rightmost end is sleeved with a belt wheel B (810), and the belt wheel B (810) at the left end is in friction transmission with the belt wheel A (89) at the right end through a belt (811).

8. The processing and feeding system of the inorganic mineral coating for waterproofing of buildings according to claim 1, characterized in that: screening module (9) are including screening frame (91), the inside upper end of screening frame (91) is rotated and is connected with screen cloth (92), screen cloth (92) left end bottom surface friction contact has lug (93), round bar (94) have been cup jointed at lug (93) left end middle part, the inside right-hand member of screening frame (91) has set firmly U type filter block (95), screening frame (91) bottom surface is the slope structure, discharge gate (911) have been seted up to screening frame (91) right-hand member, discharge gate (911) are linked together with dispersion devices (10).

9. The processing and feeding system of the inorganic mineral coating for waterproofing of buildings according to claim 8, characterized in that: the U-shaped filter block (95) is internally provided with a crushing roller (96), the outer wall of the crushing roller (96) is of a uniform arrangement structure and is fixedly provided with a plurality of inclined crushing cutters (97), the front end of a central shaft of the crushing roller (96) and the front end of a round rod (94) are respectively sleeved with a first bevel gear (98), the right wall of the screening frame (91) is provided with a motor C (99) through a mounting seat, an output shaft of the motor C (99) is coaxially connected with a connecting shaft (912), the left end and the right end of the connecting shaft (912) are respectively sleeved with a second bevel gear (910), and the first bevel gear (98) is meshed with the second bevel gear (910).

10. A feeding method of a processing feeding system of building waterproof inorganic mineral coating is characterized by comprising the following steps:

conveying: the bagged raw materials for producing the waterproof inorganic mineral coating of the building are placed at the inclined position of the placing table (1) through external equipment or manual carrying, the bagged raw materials slide onto the conveying belt (3), the motor A (6) drives the transmission gear (4) at the leftmost end to rotate, the conveying belt (3) rotates clockwise, the bagged raw materials are prevented from being stopped on the conveying belt (3) by the blocking of the anti-skid block (5), and the bagged raw materials slide onto the cutting assembly (7) when being conveyed to the right end of the conveying belt (3);

cutting: the bagged raw material slides downwards along the inclined block (71), an output shaft of a motor B (75) drives a rotating shaft (73) to rotate while sliding, so that the rotating shaft (73) drives a saw blade (74) to rotate, when the bagged raw material passes through the groove (76), the rotating saw blade (74) cuts an outer packaging bag of the bagged raw material, and the cut outer packaging bag and the cut raw material enter the rejecting mechanism (8);

removing: the belt wheel B (810) is in friction transmission to the belt wheel A (89) through a belt (811) to rotate synchronously, the belt wheel A (89) drives a crankshaft (87) to rotate along a frame body (81) and an L-shaped block (88), the crankshaft (87) drives a connecting rod (86) to move up and down at the moment, the connecting rod (86) drives a sliding block (83) to move up and down, the connecting rod (86) rotates along the sliding block (83), the sliding block (83) slides up and down along a sliding groove (82), so that an inclined rod (84) moves up and down synchronously, the inclined rod (84) shakes the crushed outer packing bags, raw materials attached to the cut outer packing bags are shaken down, and the outer packing bags slide to the rear end along the inclined rod (84) to be discharged to the outside for collection.

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