CN113858439B - Building mortar processing presses down dirt formula guide mechanism - Google Patents

Abstract

The invention discloses a dust suppression type material guide mechanism for building mortar processing, which is integrally arranged on a bracket and positioned above sealed stirring equipment; the left side and the right side of the shell are respectively fixedly connected with a feeding pipe and a waste discharge pipe in a through mode; further comprising: the guide roller piece is arranged inside the shell and is positioned between the two ends of the feeding pipe and the two ends of the waste discharge pipe; the hydraulic assembly is fixed on the outer walls of the two sides of the shell, and a fixing frame is fixedly installed at the output shaft end of the hydraulic assembly; the bag breaking cone is fixed at the output shaft end of the motor; the division board subassembly, the pivot install in inside shell and inlet pipe and the through connection department of arranging the waste pipe. This building mortar processing presses down dirt formula guide mechanism realizes operations such as mechanized bagged cement feeding, broken bag guide and waste discharge, reduces artifical labour and consumes to effectively reduce the raise dust pollution among this operation process, improve the security of work.

Description

Building mortar processing presses down dirt formula guide mechanism

Technical Field

The invention relates to the technical field of building mortar processing, in particular to a dust suppression type material guide mechanism for building mortar processing.

Background

When miniature pouring construction or repair operation, in order to improve the efficiency of construction, reduce consuming time and the expenditure that the mortar was transported, can accomplish the stirring of cement mortar at the job site, through adding the ratio of material and grit and water in to bagged cement, form the mortar or the concrete of place construction strength under agitated vessel's supplementary rotation effect.

However, the prior bagged cement guide mechanism has the following problems in operation:

1. when materials in the bagged cement are led into the sealed stirring equipment, the disassembly, assembly and transportation are long, small workers need to nurse and transport for a long time, the labor intensity is high, the working efficiency is reduced, and potential safety hazards caused by strain in work are large;

2. and when the people carries out dismouting and transport to bagged cement and throws the material, the regional raise dust pollution problem of operational environment that causes that can be very big is unfavorable for environmental problem's control, and can also lead to the stirring course of working of mortar, and the nurse personnel very easily inhales the cement powder, causes healthy extra burden.

Aiming at the problems, innovative design is urgently needed on the basis of the original bagged cement material guiding mechanism.

Disclosure of Invention

The invention aims to provide a dust suppression type guide mechanism for building mortar processing, which aims to solve the problems that the conventional bagged cement guide mechanism in the background art is long in time consumption for disassembly and assembly and transportation, needs small workers to nurse and transport for a long time, is high in labor intensity, causes reduction of working efficiency, has high potential safety hazard caused by strain in work, can greatly cause dust pollution in a working environment area, is not beneficial to control of environmental problems, and can cause extra burden on body health because nursing staff can easily suck cement powder in the stirring and processing process of mortar.

In order to achieve the purpose, the invention provides the following technical scheme: a dust suppression type material guide mechanism for building mortar processing is integrally arranged on a bracket and is positioned above sealed stirring equipment;

the left side and the right side of the shell are respectively and fixedly connected with a feeding pipe and a waste discharge pipe in a through mode, inclined included angles of 30 degrees are formed between the feeding pipe and the shell and between the waste discharge pipe and the shell, and an isolation plastic curtain is installed at the feeding position of the feeding pipe;

further comprising:

the guide roller piece is arranged inside the shell, is positioned between two ends of the feeding pipe and the waste discharge pipe, is respectively provided with a feeding roller and a waste discharge conveying belt, is mutually connected with the guide roller piece through a transmission assembly, and is driven and controlled by a motor crawler belt assembly arranged outside the shell;

the hydraulic assembly is fixed on the outer walls of the two sides of the shell, a fixing frame is fixedly installed at the output shaft end of the hydraulic assembly, a motor and a first pushing assembly are fixed in the middle of the fixing frame, and the fixing frame is connected with the first pushing assembly and penetrates through the shell;

the bag breaking cone is fixed at the output shaft end of the motor, the bag breaking cone, the shell and the first pushing assembly are arranged in a penetrating mode, and the bag breaking cone and the first pushing assembly are located inside the shell;

the division board subassembly, the pivot install in inside shell and inlet pipe and the through connection department of arranging the waste pipe, and run through formula movable mounting on the outer wall of shell has the second to promote the subassembly to the second promotes the below that the subassembly is located the guide roll spare.

By adopting the technical scheme, automatic conveying, bag breaking, material guiding and waste discharging operations of bagged cement under the action of mechanical control are realized, the labor intensity of manual assistance is reduced, and dust suppression treatment in the process can be realized.

Preferably, a fixed plate is further fixed in the waste discharge pipe on the inner side of the waste discharge conveying belt, the fixed plate and the waste discharge conveying belt are coaxially arranged, permanent magnetic plates are fixed at the top and the bottom of the fixed plate, and hollow strips are further distributed in the middle of the outer side of the waste discharge conveying belt at equal intervals.

By adopting the technical scheme, the waste discharge conveyer belt is effectively discharged by using the waste cement bags after material guiding.

Preferably, the pushing brush is movably mounted inside the hollow strip in a penetrating manner, the pushing brush and the hollow strip form a relative telescopic structure, the permanent magnet is fixed at the bottom of the pushing brush, and the maximum extending length of the pushing brush is equal to the distance between the bottom of the waste discharge conveying belt and the inner wall of the waste discharge pipe.

By adopting the technical scheme, a small amount of cement powder taken out of the useless cement bag can be pushed back and collected, and waste is reduced.

Preferably, the threaded sleeve that first catch bar and supporting correspondence were installed to the inside run-through of first promotion subassembly, and first promotion subassembly and broken bag awl constitute relative rotation structure to the cover is equipped with the chain belt subassembly between the middle part of broken bag awl and the outer wall of threaded sleeve, is fixed with the elastic component moreover between the bottom outer wall of first catch bar and the bottom edge of first promotion subassembly.

By adopting the technical scheme, the bag breaking cone and the first pushing assembly are convenient to mount and control, and kinetic energy output is provided for the application of the threaded sleeve and the structure of the threaded sleeve.

Preferably, the outer wall of the first push rod is set to be a reciprocating screw rod groove-shaped structure, the outer wall groove-shaped structure of the first push rod is connected with the inner wall of the threaded sleeve, and the first push rod and the bag breaking cone are located right above the intermittent position in the guide roller piece.

By adopting the technical scheme, the operations of positioning, bag breaking, material discharging, repeated pushing and the like of the cement bag are realized, and the materials in the cement bag can be fully led out conveniently.

Preferably, the bottom of the isolation board assembly is made of flexible plastic, an inner cavity is formed in the outer edge of the end, located outside the shell, of the rotating shaft of the isolation board assembly, one end of a pull rope is arranged at the end of the rotating shaft of the isolation board assembly, and the other end of the pull rope is fixed at the bottom of the fixing frame right above the pull rope.

By adopting the technical scheme, kinetic energy is provided for the rotation of the isolation plate component through the lifting of the fixing frame.

Preferably, a vortex spring is sleeved at the rotating joint of the rotating shaft and the inner cavity of the partition plate assembly, the stay ropes on the outer side of the rotating shaft of the partition plate assembly are spirally wound and distributed, and the inner side wall of the rotating joint of the shell and the partition plate assembly is of an inner concave structure.

By adopting the technical scheme, the isolation board assembly moves synchronously along with the lifting of the bag breaking cone, so that the isolation processing during bag breaking and material guiding is realized, dust raising is prevented, and the inlet and outlet of bagged cement cannot be influenced.

Preferably, the second pushing assembly is connected with the outer side wall of the shell in a penetrating sliding mode, a corrugated sealing strip is arranged at the penetrating position of the second pushing assembly, a second pushing rod is fixed to the middle of the second pushing assembly, and the second pushing rod and the first pushing rod are arranged in a vertical coaxial one-to-one correspondence mode.

Adopt above-mentioned technical scheme, the second of being convenient for promotes the subassembly and is in stable lift, can not cause its dust that runs through position to leak at the lift in-process.

Preferably, the inner hollow outer sleeve is fixed on the outer side wall of the shell, the inner hollow outer sleeve is arranged with the tail end of the second pushing assembly in a penetrating mode, the tail end of the second pushing assembly is rotatably provided with a gear shaft, the top of the inner hollow outer sleeve is provided with the lower end of the supporting push rod in a penetrating mode, and the upper end of the supporting push rod is fixed on the fixing frame;

the inside wall of interior cavity overcoat and the lower extreme outer wall that supports the push rod all are provided with bar sawtooth structure, and the inside wall of interior cavity overcoat and the lower extreme outer wall sawtooth structure that supports the push rod mesh with the outside and the middle part of gear shaft respectively.

By adopting the technical scheme, when the fixing frame performs lifting motion, the second pushing assembly and the upper structure thereof perform reverse motion with the second pushing assembly, and the bagged cement is pushed to change the positioning form.

Compared with the prior art, the invention has the beneficial effects that: the dust suppression type material guide mechanism for building mortar processing realizes the operations of mechanical bagged cement feeding, bag breaking and material guide, waste discharge and the like, reduces the consumption of labor force, effectively reduces the dust pollution in the operation process, and improves the safety of work;

1. only through the lifting of the fixing frame, under the assembling action of the pull rope and the matched vortex spring, the automatic overturning expansion or storage of the isolating plate component can be stably and effectively controlled, the in-and-out of bagged cement cannot be influenced, in the bag breaking and material guiding process, the isolation and plugging of the internal environment and the outside are carried out, the cement material is effectively prevented from overflowing through the position to cause dust pollution, the internal hollow strip and the pushing brush combination which are arranged on the waste discharge conveying belt are combined, the positioning states of the pushing brush at different positions are changed by utilizing the homopolar repulsion and heteropolar attraction between magnets, a small amount of sliding cement material can be pushed back while the waste bag is conveniently discharged, the waste caused by scattering is reduced, and the discharged dust is effectively prevented;

2. when first promotion subassembly and broken bag awl synchronous descending motion, it is rotatory that support push rod promotes the gear shaft meshing, and under the meshing state effect between gear shaft and interior empty overcoat inside wall, make the second promote subassembly and the synchronous lift of second catch bar change the location state of placing of bagged cement, be convenient for effectively derive of material in it, and first promotion subassembly is broken bag and the guide simultaneously at the rotation of broken bag awl, its chain belt subassembly control thread bush is rotatory, make the first catch bar of reciprocal lead screw column structural design continuously repeated lift, make its body carry out repeated striking to bagged cement after the location, improve guide exhaust efficiency, avoid remaining.

Drawings

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

FIG. 2 is a schematic view of the installation structure of the insulation board assembly of the present invention;

FIG. 3 is a schematic view of the connection structure of the inner cavity and the pull rope of the present invention;

FIG. 4 is a schematic view of the transmission structure of the support rod of the present invention;

FIG. 5 is a schematic view of the connection structure of the support rod and the gear shaft according to the present invention;

FIG. 6 is a schematic front view of a second pushing assembly of the present invention;

FIG. 7 is a schematic view of the internal structure of the first pushing assembly of the present invention;

FIG. 8 is a schematic view of the waste conveyor belt of the present invention;

FIG. 9 is a schematic view of the installation structure of the hollow bar of the present invention;

FIG. 10 is a schematic view of a push brush mounting structure according to the present invention.

In the figure: 1. a housing; 2. a feed pipe; 3. a waste discharge pipe; 4. isolating the plastic curtain; 5. a guide roller member; 6. a feed roll; 7. a waste discharge conveyor belt; 701. a fixing plate; 702. a permanent magnet plate; 703. hollow strips; 704. pushing the brush; 705. a permanent magnet; 8. a hydraulic assembly; 9. a fixed mount; 10. a motor; 11. a first pushing assembly; 1101. a first push rod; 1102. a threaded sleeve; 1103. a chain belt assembly; 1104. an elastic member; 12. breaking a bag and tapering; 13. a separator plate assembly; 1301. an inner cavity; 1302. pulling a rope; 14. a second pushing assembly; 1401. a second push rod; 1402. a hollow outer sleeve; 1403. a gear shaft; 1404. the push rod is supported.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a technical solution: a dust suppression type material guide mechanism for building mortar processing is integrally arranged on a bracket and is positioned above sealed stirring equipment;

the left side and the right side of the shell 1 are respectively and fixedly connected with a feeding pipe 2 and a waste discharge pipe 3 in a through mode, inclined included angles of 30 degrees are formed between the feeding pipe 2 and the waste discharge pipe 3 and the shell 1, and an isolation plastic curtain 4 is installed at the feeding position of the feeding pipe 2, so that the in-and-out of bagged cement and the bag breaking and material guiding in the bag breaking are realized;

further comprising:

according to the technical scheme shown in fig. 1 and 4, a guide roller member 5 is installed inside a housing 1, the guide roller member 5 is located between two ends of a feeding pipe 2 and a waste discharge pipe 3, a feeding roller 6 and a waste discharge conveyer belt 7 are respectively installed inside the feeding pipe 2 and the waste discharge pipe 3, the feeding roller 6, the waste discharge conveyer belt 7 and the guide roller member 5 are connected with each other through a transmission assembly, the rotation of the guide roller member 5 is controlled through a motor crawler assembly installed outside the housing 1 in a transmission manner, the motor crawler assembly is used for controlling the starting of the guide roller member 5, and when the guide roller member works, the feeding roller 6 and the waste discharge conveyer belt 7 synchronously work to respectively realize the entering of raw materials and the discharge of waste materials;

according to the technical scheme shown in fig. 1 and fig. 8-10, a fixed plate 701 is further fixed in a waste discharge pipe 3 on the inner side of a waste discharge conveyor belt 7, the fixed plate 701 and the waste discharge conveyor belt 7 are coaxially arranged, permanent magnet plates 702 are fixed at the top and the bottom of the fixed plate 701, hollow bars 703 are further equidistantly distributed in the middle of the outer side of the waste discharge conveyor belt 7, when the waste discharge conveyor belt 7 is started, the contact friction force between the waste discharge conveyor belt and a waste bag can be improved through the hollow bars 703 arranged at equal intervals at the top, the waste bag is discharged through the pushing action, a pushing brush 704 is movably arranged in the inner part of the hollow bars 703 in a penetrating mode, the pushing brush 704 and the hollow bars 703 form a relatively telescopic structure, a permanent magnet is fixed at the bottom of the pushing brush 704, the maximum extending length of the pushing brush 704 is equal to the interval between the bottom of the waste discharge conveyor belt 7 and the inner wall of the waste discharge pipe 3, in the conveying process of the waste discharge conveyor belt 7, the pushing brush 704 in the inner part of the hollow bars 703 is positioned at the inner part of the waste discharge conveyor belt 705 because the permanent magnet plates 702 and the permanent magnet plates 702 generate the absorption force of the different poles, the permanent magnet plates 703, the waste discharge conveyor belt 703 can be reduced, and the waste discharge conveyor belt can be pushed out from the waste discharge conveyor belt 703 and pushed out of the waste bag, and the waste conveyor belt 703, and the waste material can be pushed out of the waste conveyor belt 703, and the waste conveyor belt 7, and the waste conveyor belt 703 can be reduced, and the waste conveyor belt 703 can be pushed out from the waste conveyor belt 7, and the waste conveyor belt 703, and the waste material pushed out of the waste conveyor belt 703, and the waste conveyor belt 7.

According to the technical scheme shown in fig. 1 and 7, the hydraulic assembly 8 is fixed on the outer walls of two sides of the shell 1, the fixing frame 9 is fixedly installed at the output shaft end of the hydraulic assembly 8, the motor 10 and the first pushing assembly 11 are fixed in the middle of the fixing frame 9, the position of the fixing frame 9 connected with the first pushing assembly 11 penetrates through the shell 1, the fixing frame 9 and the positioning heights of all installation structures on the fixing frame 9 can be adjusted through the action of the hydraulic assembly 8, and the operation is convenient;

the bag breaking cone 12 is fixed at the output shaft end of the motor 10, the bag breaking cone 12, the shell 1 and the first pushing assembly 11 are arranged in a penetrating manner, the bag breaking cone 12 and the first pushing assembly 11 are both positioned in the shell 1, a first pushing rod 1101 and a matched and correspondingly installed threaded sleeve 1102 are installed in the first pushing assembly 11 in a penetrating manner, the first pushing assembly 11 and the bag breaking cone 12 form a relative rotation structure, a chain belt assembly 1103 is sleeved between the middle part of the bag breaking cone 12 and the outer wall of the threaded sleeve 1102, an elastic member 1104 is fixed between the outer wall of the bottom part of the first pushing rod 1101 and the edge of the bottom part of the first pushing assembly 11, so that the first pushing assembly 11 and the bag breaking cone 12 can be lifted synchronously, the two are distributed to push bagged cement to knock and break the bag for guiding, height dislocation cannot occur, the good transmission effect of the chain belt assembly 1103 is maintained, the outer wall of the first push rod 1101 is set to be a reciprocating lead screw groove-shaped structure, the groove-shaped structure of the outer wall of the first push rod 1101 is connected with the inner wall of the threaded sleeve 1102, the first push rod 1101 and the bag breaking cone 12 are located right above the intermittent position inside the guide roller piece 5, the bag breaking cone 12 rotates to break and guide the bagged cement, and can drive the threaded sleeve 1102 to continuously rotate, so that the first push rod 1101 in the shape of a multifilament rod can continuously reciprocate to lift the bagged cement, continuous intermittent knocking vibration is generated on the bagged cement, the discharging effect of the bagged cement is improved, and residue accumulation is avoided;

according to the technical scheme shown in fig. 1-3, a partition board assembly 13 is provided, a rotating shaft is installed inside the through connection part between the casing 1 and the feeding pipe 2 and the waste discharge pipe 3, a second pushing assembly 14 is movably installed on the outer wall of the casing 1 in a through manner, the second pushing assembly 14 is located below the guide roller piece 5, the partition board assembly 13 can control the opening or plugging of the through connection part between the casing 1 and the feeding pipe 2 and the waste discharge pipe 3 through the rotation action of the partition board assembly 13, the opening of the through connection part facilitates the passing of bagged cement, when plugging is carried out again, the dust raising problem after the bagged cement is broken and discharged can be effectively avoided, the bottom of the partition board assembly 13 is made of flexible plastic material, the outer edge of the rotating shaft end of the partition board assembly 13 located outside the casing 1 is provided with an inner cavity 1301, and the rotating shaft end of the partition board assembly 13 is provided with one end of a pull rope 1302, the other end of the pull rope 1302 is fixed at the bottom of the fixing frame 9 right above the pull rope 1302, a vortex spring is sleeved at the rotary joint of the rotating shaft of the isolation plate assembly 13 and the inner cavity 1301, the pull rope 1302 on the outer side of the rotating shaft of the isolation plate assembly 13 is spirally wound and distributed, the inner side wall of the rotary joint of the shell 1 and the isolation plate assembly 13 is of an inward concave structure, when the fixing frame 9 moves upwards, the pull rope 1302 is pulled to enable the isolation plate assembly 13 to rotate and is guided into the groove structure to prevent the isolation plate assembly from influencing the passing of bagged cement, when the fixing frame 9 moves downwards, the pull rope 1302 is loosened, and the vortex spring moves to reset, so that the through connection between the shell 1 and the feeding pipe 2 as well as the waste discharge pipe 3 is blocked due to the rotation of the isolation plate assembly 13, the operation is efficient, and the dust suppression effect is good;

according to the technical scheme shown in fig. 1 and fig. 4-6, the second pushing assembly 14 is in penetrating sliding connection with the outer side wall of the casing 1, a corrugated sealing strip is arranged at the penetrating position of the second pushing assembly 14, a second pushing rod 1401 is fixed at the middle part of the second pushing assembly 14, the second pushing rod 1401 and the first pushing rod 1101 are arranged in vertical coaxial one-to-one correspondence, a hollow jacket 1402 is fixed on the outer side wall of the casing 1, the hollow jacket 1402 is arranged in penetrating manner with the tail end of the second pushing assembly 14, a gear shaft 1403 is rotatably installed at the tail end of the second pushing assembly 14, the lower end of a supporting push rod 1404 is arranged at the top of the hollow jacket 1402 in penetrating manner, and the upper end of the supporting push rod 1404 is fixed on the fixed frame 9; the inside wall of interior empty overcoat 1402 and the lower extreme outer wall that supports push rod 1404 all are provided with bar sawtooth structure, and the inside wall of interior empty overcoat 1402 and the lower extreme outer wall sawtooth structure that supports push rod 1404 mesh with the outside and the middle part of gear shaft 1403 respectively, in mount 9 elevating movement, it can take by itself and support push rod 1404 lift, support push rod 1404 descending movement, its lower extreme outer wall meshes with the middle part of gear shaft 1403, make it rotatory, and under the inside wall meshing effect of gear shaft 1403 edge and interior empty overcoat 1402, gear shaft 1403 area second promotes subassembly 14 and its upper structure synchronous rising, make the second promote subassembly 14 to pass through the clearance between guide roll spare 5, jack up the cement corner in bags, make it be "U" shape, be convenient for subsequent cement is derived.

The working principle is as follows: when the building mortar processing dust suppression type material guide mechanism is used, firstly, the motor crawler assembly controls synchronous start and stop of the guide roller part 5, the feed roller 6 and the waste discharge conveyer belt 7, the feed roller 6 moves bagged cement to the guide roller part 5 and then stops working, at the moment, because the fixed frame 9 is positioned at the highest position, the pull rope 1302 is maintained in a loose state, the isolation plate assembly 13 is turned into the groove under the action of the vortex spring, the in and out of the bagged cement cannot be influenced, when the fixed frame 9 drives the upper structure of the fixed frame to descend due to the start of the hydraulic assembly 8, the bag breaking cone 12 and the first pushing assembly 11 synchronously descend, and the second pushing assembly 14 controls the ascending and descending due to the pushing down of the support push rod 1404, the gear shaft 1403 and the hollow outer sleeve 1402, be "u" type with bagged cement limit end jack-up, it breaks bag and cement to bagged cement and derives along with broken bag awl 12's rotatory, and first 11 inner structure transmissions of promotion subassembly make first 11 repeated lifts of promotion to carry out repeated the knocking to bagged cement, the efficiency of the discharge is improved, the back is accomplished in the ejection of compact, control guide roll spare 5, feed roller 6 and the 7 three restart of waste conveyor belt, waste conveyor belt 7 discharges the waste bag, and to the synchronous a small amount of cement material that drives of waste bag, it removes to promote brush 704 because of the effort between the magnetism, in leading-in shell 1 again with a small amount of cement material, waste and raise dust are reduced, in leading-in sealed agitated vessel of cement material through the bottom of shell 1, accomplish the mortar processing.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof.

Claims (5)

1. A dust suppression type material guide mechanism for building mortar processing is integrally arranged on a bracket and is positioned above sealed stirring equipment;

the left side and the right side of the shell are respectively fixedly connected with a feeding pipe and a waste discharge pipe in a through mode, inclined included angles of 30 degrees are formed between the feeding pipe and the shell and between the waste discharge pipe and the shell, and an isolation plastic curtain is installed at the feeding position of the feeding pipe;

it is characterized by also comprising:

the guide roller piece is arranged inside the shell, is positioned between two ends of the feeding pipe and the waste discharge pipe, is respectively provided with a feeding roller and a waste discharge conveying belt, is mutually connected with the guide roller piece through a transmission assembly, and is driven and controlled by a motor crawler belt assembly arranged outside the shell;

the hydraulic assembly is fixed on the outer walls of the two sides of the shell, a fixing frame is fixedly installed at the output shaft end of the hydraulic assembly, a motor and a first pushing assembly are fixed in the middle of the fixing frame, and the fixing frame is connected with the first pushing assembly and penetrates through the shell;

the bag breaking cone is fixed at the output shaft end of the motor, the bag breaking cone, the shell and the first pushing assembly are arranged in a penetrating mode, and the bag breaking cone and the first pushing assembly are located inside the shell;

the rotating shaft is arranged in the through connection part of the shell, the feeding pipe and the waste discharge pipe, a second pushing component is movably arranged on the outer wall of the shell in a penetrating mode, and the second pushing component is positioned below the guide roller piece;

a fixed plate is fixed in the waste discharge pipe at the inner side of the waste discharge conveying belt, the fixed plate and the waste discharge conveying belt are coaxially arranged, permanent magnet plates are fixed at the top and the bottom of the fixed plate, and hollow strips are distributed in the middle of the outer side of the waste discharge conveying belt at equal intervals;

the pushing brush is movably mounted in the inner hollow strip in a penetrating mode, the pushing brush and the inner hollow strip form a relative telescopic structure, the bottom of the pushing brush is fixedly provided with a permanent magnet, and the maximum extending length of the pushing brush is equal to the distance between the bottom of the waste discharge conveying belt and the inner wall of the waste discharge pipe;

the bottom of the isolation plate assembly is made of flexible plastic materials, an inner cavity is formed in the outer edge of the rotating shaft end, located on the outer side of the shell, of the isolation plate assembly, one end of a pull rope is arranged at the rotating shaft end of the isolation plate assembly, and the other end of the pull rope is fixed to the bottom of the fixing frame right above the pull rope;

the vortex spring is sleeved at the rotating joint of the rotating shaft and the inner cavity of the isolation plate assembly, the stay ropes outside the rotating shaft of the isolation plate assembly are spirally wound and distributed, and the inner side wall of the rotating joint of the shell and the isolation plate assembly is of an inner concave structure.

2. The building mortar processing dust suppression type material guide mechanism of claim 1, which is characterized in that: first catch bar and supporting thread bush of corresponding installation are installed to the inside run-through of first promotion subassembly, and first promotion subassembly and broken bag awl constitution relative rotation structure to the cover is equipped with the chain belt subassembly between the middle part of broken bag awl and the outer wall of thread bush, is fixed with the elastic component moreover between the bottom outer wall of first catch bar and the bottom edge of first promotion subassembly.

3. The building mortar processing dust suppression type material guide mechanism of claim 2, which is characterized in that: the outer wall of the first pushing rod is of a reciprocating screw rod groove-shaped structure, the outer wall groove-shaped structure of the first pushing rod is connected with the inner wall of the threaded sleeve, and the first pushing rod and the bag breaking cone are located right above the intermittent position inside the guide roller piece.

4. The building mortar processing dust suppression type material guide mechanism of claim 1, which is characterized in that: the outer side wall of the second pushing assembly and the outer side wall of the shell are in sliding connection in a penetrating mode, a corrugated sealing strip is arranged at the penetrating position of the second pushing assembly, a second pushing rod is fixed in the middle of the second pushing assembly, and the second pushing rod and the first pushing rod are arranged in a vertical coaxial one-to-one correspondence mode.

5. The dust suppression type material guiding mechanism for building mortar processing of claim 4, further comprising:

the inner hollow outer sleeve is fixed on the outer side wall of the shell, the inner hollow outer sleeve is arranged with the tail end of the second pushing assembly in a penetrating mode, a gear shaft is rotatably arranged at the tail end of the second pushing assembly, the top of the inner hollow outer sleeve is provided with the lower end of a supporting push rod in a penetrating mode, and the upper end of the supporting push rod is fixed on the fixing frame;

the inside wall of interior cavity overcoat and the lower extreme outer wall that supports the push rod all are provided with bar sawtooth structure, and the inside wall of interior cavity overcoat and the lower extreme outer wall sawtooth structure that supports the push rod mesh with the outside and the middle part of gear shaft respectively.

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