CN112499105A - Processing system is used in fiber mortar preparation - Google Patents

Abstract

The invention relates to a processing system for preparing fiber mortar, which comprises an installation bottom plate, a support column, a support Contraband-shaped frame, a collection box, a conveying mechanism and a cutting mechanism, and can solve the problems that in the process of preparing the fiber mortar, a fiber belt to be cut is usually placed on a workbench manually, the fiber belt is stretched and conveyed manually, and is cut by a cutting tool after a proper cutting distance is measured.

Description

Processing system is used in fiber mortar preparation

Technical Field

The invention relates to the technical field of mortar preparation, in particular to a processing system for preparing fiber mortar.

Background

Mortar as a main building engineering material often shows certain performance defects in the construction process: the defects of large brittleness, low tensile strength, large dry shrinkage, poor impact resistance and the like cause the mortar product to be easy to generate cracks and reduce the durability of a building. The fiber yarns are added into the dry-mixed mortar and the concrete, and the fibers are distributed in a disorderly direction and mutually overlapped to form network winding on the mixture, so that the slippage of aggregates can be effectively overcome, the generation of cracks is hindered, and the crack resistance and the impermeability of a mortar product are improved, thereby improving the integrity, the flexibility, the continuity and the durability of the mortar.

Because the fiber filaments are usually stored and transported in the form of fiber tapes after being processed and formed in factories, the fiber tapes need to be cut during the preparation and forming of the fiber mortar to prepare finished fiber filaments, and then the finished fiber filaments are mixed with other materials to prepare the fiber mortar, however, the following problems often exist in the preparation process of the traditional fiber mortar: in the process of preparing the fiber mortar, the fiber belts to be cut are usually placed on a workbench manually, the fiber belts are stretched and conveyed manually, and the cutting tools are used for cutting the fiber belts after the proper cutting distance is measured.

Disclosure of Invention

In order to solve the above problems, the present invention provides a processing system for fiber mortar preparation, which can solve the problems mentioned in the background art.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides a system of processing is used in fiber mortar preparation, includes mounting plate, support column, supports Contraband type frame, collecting box, conveying mechanism and cuts the mechanism, the corner evenly is provided with the support column all around to the mounting plate lower extreme, and the upper end of mounting plate is installed and is supported Contraband type frame, collects and is provided with the collecting box between the inner wall of Contraband type frame, is located and installs conveying mechanism through normal running fit on the support Contraband type frame of collecting box top, is located and installs on the support Contraband type frame of conveying mechanism one side and cuts the mechanism.

The conveying mechanism comprises a fixed plate, a conveying rotating shaft, a conveying belt, a limiting rotating shaft, a guiding rotating shaft, a conveying bottom plate, a conveying motor, a connecting shaft, a synchronizing wheel, a synchronous belt, a conveying cam, a conveying rotary drum, a separating plate and a clamping unit, wherein the conveying bottom plate is symmetrically arranged on support Contraband-shaped frames positioned on two sides of the collecting box, the conveying rotary drum is arranged on the conveying bottom plate positioned on one side of the collecting box in a rotating fit manner and is positioned above the collecting box, the conveying motor is arranged on the conveying bottom plate through a motor base, an output shaft of the conveying motor is connected with the conveying rotary drum through a coupler, the conveying cam is fixedly arranged on the conveying bottom plate positioned on the other side of the collecting box, the conveying cam is positioned on the inner side of the conveying rotary drum and is in rotating fit with the conveying rotary drum, the other end of the connecting shaft is provided with a synchronizing wheel, fixed plates are symmetrically arranged on a support Contraband type frame positioned on one side of the conveying rotary drum, conveying rotary shafts are symmetrically arranged between the fixed plates through rotating fit, synchronizing wheels with the same structural shape as that on the connecting shaft are arranged on the conveying rotary shafts positioned on the outer sides of the fixed plates, the synchronizing wheels are connected and driven through synchronous belts, a conveying belt is sleeved on the conveying rotary shafts positioned on the inner sides of the fixed plates through rotating fit, guide rotary shafts are arranged on the fixed plates positioned above the conveying belt through rotating fit, limit rotary shafts are symmetrically arranged on the fixed plates through rotating fit and are respectively positioned on the upper side and the lower side of the conveying belt, partition plates are uniformly arranged on the circumferential outer wall of the conveying rotary drum along the circumferential direction of the conveying rotary drum, clamping units are uniformly arranged in the conveying rotary drum, the spacing pivot that sets up can be collected between two parties to making loose fibrous zone in the earlier stage of carrying the fibrous zone, drives the conveyer belt through carrying the pivot and rotates, can realize the preliminary transport operation to semi-manufactured goods cellosilk.

The cutting mechanism comprises a cutting box, a positioning rotating shaft, a first cutting gear, a second cutting gear, a fixed rod, a first cutting rotating rod, a second cutting rotating rod, a first meshing gear, a second meshing gear, a driving gear, a cutting motor, a cutting spring and a cutting seat, wherein the cutting box is arranged on a support Contraband type frame positioned at the rear side of the conveying turntable, the fixed rod is arranged in the cutting box, the first cutting rotating rod is arranged on the fixed rod in a rotating fit manner, the second cutting rotating rod is arranged on the fixed rod positioned above the first cutting rotating rod in a rotating fit manner, the first cutting rotating rod and the second cutting rotating rod are connected through the cutting spring, the first cutting rotating rod and the second cutting rotating rod positioned at the outer side of the cutting box are symmetrically provided with the cutting seat with the same structural shape, cutting knives are symmetrically arranged on the inner side wall of the cutting seat, the first meshing gear is arranged on the first cutting rotating rod positioned at the inner side of the cutting box, and the second, a positioning rotating shaft is arranged in a cutting box between a first meshing gear and a second meshing gear in a rotating matching way, a first cutting gear is arranged at the lower end of the positioning rotating shaft through a spline, the first cutting gear is in meshing transmission with the first meshing gear, a second cutting gear is arranged on the positioning rotating shaft above the first cutting gear through a spline, the second cutting gear is in meshing transmission with the second meshing gear, a driving gear is arranged in the cutting box at the rear side of the first cutting rotating rod in a rotating matching way, the driving gear is arranged below the meshing gear and is in meshing transmission with the first cutting gear, a cutting motor is arranged in the cutting box through a motor base, an output shaft of the cutting motor is connected with a driving rod gear, the cutting operation of semi-finished fiber belts is realized through a cutting knife arranged on the cutting base, and the meshing action between the first cutting gear and the first cutting gear is lost after the first cutting gear is driven to rotate for a certain angle through the, afterwards, further promote under the elasticity answer effect of cutting the spring and cut bull stick one and cut bull stick two and carry out the antiport, further drive and cut the seat and open, so reciprocal, realize the continuous processing operation that cuts to the fibre area when avoiding causing the interference to the rotation route of grip slipper.

The clamping unit comprises a chute frame, a lifting carriage, a lifting gear, a guide wheel, a clamping rack, a clamping bottom plate, a clamping gear, a clamping slide bar, a transmission rack and a clamping seat, wherein the chute frame is uniformly arranged in the conveying drum between the partition plates along the circumferential direction of the conveying drum, the clamping rack is uniformly arranged in the chute frame through sliding fit, one end of the clamping rack is positioned outside the conveying drum, the clamping bottom plate is arranged at the end part of the clamping rack, the clamping slide bars are symmetrically arranged in the clamping drums positioned at two sides of the clamping rack through sliding fit, the clamping seats are symmetrically arranged at the outer ends of the clamping slide bars through sliding fit, the transmission rack is uniformly arranged on the side wall of each clamping slide bar, the clamping slide bars are respectively positioned at the upper side and the lower side of the clamping rack, and the clamping gears are symmetrically arranged in the conveying drum positioned, the clamping gear is respectively in clamping slide bars and clamping racks in meshing transmission, a lifting slide frame is arranged in a conveying rotary drum between the clamping racks in a sliding fit manner, one end of the lifting slide frame is provided with a lifting gear in a rotating fit manner, the lifting gear is in meshing transmission with the clamping racks, the other end of the lifting slide frame is provided with a guide wheel in a rotating fit manner, the guide wheel is abutted against the side wall of the conveying cam in a rolling fit manner, the conveying cam of an incomplete circular structure is arranged, the diameter of the conveying cam can be changed through the guide wheel, the reciprocating lifting motion of the lifting slide frame is controlled through the abutting effect between the lifting slide frame and the guide wheel, the clamping slide bars which are symmetrically arranged can be driven to synchronously move towards the rear side through the meshing transmission between the clamping gears and the transmission racks, the clamping seat arranged at the end part of the clamping slide bar can realize the clamping operation on the side wall of a semi-finished product fiber The clamping belt is further pulled to carry out conveying.

Furthermore, the driving gear is of an incomplete gear structure, and the driving gear drives the first cutting gear to rotate to a certain angle through the meshing effect and then automatically releases the meshing effect with the first cutting gear.

Further, cut and be provided with the arc pole on the bull stick two, and the lateral wall of arc pole is provided with meshing tooth two, cut and be provided with the arc pole on the bull stick one, and the lateral wall of arc pole is provided with meshing tooth one, and sets up to be greater than the length of cutting the bull stick on the bull stick one.

Furthermore, the clamping seat is provided with an arc-shaped clamping surface, a compression spring is arranged between the clamping seat and the clamping slide rod, and the clamping seat can adapt to the diameter change of the semi-finished fiber band under the elastic action of the compression spring.

Furthermore, the clamping rack is connected with the conveying rotary drum through a clamping spring, and the clamping rack can be quickly pulled to reset after the clamping operation is finished through the elastic force of the clamping spring.

The invention has the beneficial effects that:

1. in the processing system for preparing fiber mortar, the limiting rotating shaft arranged on the conveying mechanism can centrally collect loose fiber belts in the early stage of conveying the fiber belts, the conveying belt is driven to rotate through the conveying rotating shaft, the primary conveying operation of semi-finished fiber yarns can be realized, the arranged conveying cam with an incomplete circular structure can control the reciprocating lifting motion of the lifting carriage through the diameter change of the conveying cam, the lifting carriage is controlled to do reciprocating lifting motion through the abutting action between the conveying cam and the guide wheel, the lifting gear arranged at the end part of the lifting carriage can automatically align the symmetrically arranged clamping racks through the meshing action between the lifting gear and the clamping racks, the clamping racks are further pushed to move through the clamping action between the racks, the clamping bottom plate arranged at the end part of the clamping racks is further abutted against the side walls of the semi-finished fiber belts, and the symmetrically arranged clamping slide rods can be driven to synchronously move towards the rear side through the meshing transmission between the clamping gear and the transmission rack, the clamping operation of the side wall of the semi-finished product fiber band is realized by the clamping seat arranged at the end part of the clamping slide bar, the clamping operation stability can be improved and the clamping band can be further pulled to be conveyed through the rotation of the conveying rotary drum through the clamping of three surfaces of the fiber band, and the compression spring arranged between the clamping seat and the clamping slide bar can enable the clamping seat to automatically adapt to the diameter size change of the semi-finished product fiber band between different lengths.

2. The invention provides a processing system for preparing fiber mortar, wherein a first cutting gear and a second cutting gear arranged on a cutting mechanism are installed in a vertically staggered manner, the first cutting gear is in meshing transmission with a first meshing gear on the inner side of a first cutting rotating rod, and the second cutting gear is in meshing transmission with a second meshing gear on the outer side of the second cutting rotating rod, so that under the driving of a positioning rotating shaft, the first cutting rotating rod and the second cutting rotating rod rotate oppositely in opposite directions, a cutting spring is in a compressed state, a cutting seat is further driven to rotate, the cutting operation of semi-finished fiber tapes is realized through a cutting knife arranged on the cutting seat, as the arranged driving gear is an incomplete gear, after the first cutting gear is driven to rotate for a certain angle through meshing action, the first cutting rotating rod and the second cutting rotating rod are further pushed to rotate reversely under the elastic restoring action of the cutting spring, further drive and cut the seat and open, so reciprocal, realize the continuous cutting processing operation to the fibrous zone when avoiding causing the interference to the rotation route of grip slipper.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a first cross-sectional view of the present invention;

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

FIG. 4 is an enlarged schematic view taken at A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic view of a partial perspective structure of the clamping unit of the present invention;

FIG. 6 is a schematic view of a partial perspective structure of the clamping unit of the present invention;

fig. 7 is a partial perspective view of the cutting mechanism of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments, it being understood that the specific embodiments described herein are only for the purpose of explaining the present invention and are not intended to limit the present invention.

Referring to 1-7, the processing system for preparing the fiber mortar comprises an installation bottom plate 1, support columns 2, support Contraband-shaped frames 3, a collection box 4, a conveying mechanism 5 and a cutting mechanism 6, wherein the support columns 2 are uniformly arranged at the corners around the lower end of the installation bottom plate 1, the support Contraband-shaped frames 3 are installed at the upper end of the installation bottom plate 1, the collection box 4 is arranged between the inner walls of the collection Contraband-shaped frames, the conveying mechanism 5 is installed on the support Contraband-shaped frames 3 above the collection box 4 through rotating fit, and the cutting mechanism 6 is installed on the support Contraband-shaped frames 3 on one side of the conveying mechanism 5.

The conveying mechanism 5 comprises a fixing plate 5a, a conveying rotating shaft 5b, a conveying belt 5c, a limiting rotating shaft 5d, a guiding rotating shaft 5e, a conveying bottom plate 5f, a conveying motor 5g, a connecting shaft 5h, a synchronizing wheel 5j, a synchronizing belt 5k, a conveying cam 5m, a conveying rotary drum 5n, a partition plate 5p and a clamping unit 5q, wherein the conveying bottom plate 5f is symmetrically arranged on a support Contraband type frame 3 at two sides of the collecting box 4, the conveying rotary drum 5n is arranged on the conveying bottom plate 5f at one side of the collecting box 4 through rotating fit, the conveying rotary drum 5n is arranged above the collecting box 4, the conveying motor 5g is arranged on the conveying bottom plate 5f through a motor base, an output shaft of the conveying motor 5g is connected with the conveying rotary drum 5n through a coupler, the conveying cam 5m is fixedly arranged on the conveying bottom plate 5f at the other side of the collecting box 4, the conveying cam 5m is arranged at the inner side A connecting shaft 5h is arranged on a conveying bottom plate 5f positioned on the inner side of a conveying cam 5m in a rotating fit manner, one end of the connecting shaft 5h is connected with a conveying turntable, a synchronizing wheel 5j is arranged at the other end of the connecting shaft 5h, fixing plates 5a are symmetrically arranged on a support Contraband type frame 3 positioned on one side of a conveying rotary drum 5n, conveying rotary shafts 5b are symmetrically arranged between the fixing plates 5a in a rotating fit manner, synchronizing wheels 5j with the same structural shape as that of the connecting shaft 5h are arranged on the conveying rotary shafts 5b positioned on the outer side of the fixing plates 5a, the synchronizing wheels 5j are connected and driven through a synchronizing belt 5k, a conveying rotary shaft 5b positioned on the inner side of the fixing plate 5a is sleeved with a conveying belt 5c in a rotating fit manner, a guiding rotary shaft 5e is arranged on the fixing plate 5a above the conveying belt 5c in a, and the limiting rotating shafts 5d are respectively positioned at the upper side and the lower side of the conveying belt 5c, the circumferential outer wall of the conveying rotary drum 5n is uniformly provided with partition plates 5p along the circumferential direction, clamping units 5q are uniformly arranged in the conveying rotary drum 5n between the partition plates 5p through sliding fit, and the clamping units 5q abut against the side wall of the conveying cam 5m through rolling fit.

The clamping unit 5q comprises a sliding groove frame 5q1, a lifting sliding frame 5q2, a lifting gear 5q3, a guide wheel 5q4, a clamping rack 5q5, a clamping bottom plate 5q6, a clamping gear 5q7, a clamping sliding rod 5q8, a transmission rack 5q9 and a clamping seat 5q10, wherein the sliding groove frame 5q1 is uniformly arranged in the conveying drum 5n between the partition plates 5p along the circumferential direction, the clamping rack 5q5 is uniformly arranged in the sliding groove frame 5q1 through sliding fit, the clamping rack 5q5 is connected with the conveying drum 5n through a clamping spring, one end of the clamping rack 5q5 is positioned outside the conveying drum 5n, the clamping bottom plate 5q6 is arranged at the end part of the clamping rack 5q5, the clamping sliding rods 5q8 are symmetrically arranged in the clamping drums at two sides of the clamping rack 5q5, the outer end of the clamping 8 is symmetrically arranged with the clamping seat 5q10 through sliding fit, an arc-shaped clamping surface is arranged on the clamping seat 5q10, a compression spring is arranged between the clamping seat 5q10 and the clamping slide bar 5q8, the clamping seat 5q10 can adapt to the diameter change of a semi-finished fiber band through the elastic force of the compression spring, transmission racks 5q9 are uniformly arranged on the side walls of the clamping slide bar 5q8, clamping slide bars 5q8 are respectively positioned at the upper side and the lower side of the clamping rack 5q5, clamping gears 5q7 are symmetrically installed in a conveying drum 5n between the clamping slide bar 5q8 and a clamping rack 5q5 through rotation fit, the clamping gears 5q7 are respectively in meshing transmission with the clamping slide bars 5q8 and the clamping racks 5q5 through meshing transmission, a lifting carriage 5q2 is installed in the conveying drum 5n between the clamping racks 5q5 through sliding fit, one end of the lifting carriage 5q2 is provided with a lifting gear 5q3 through rotation fit, and the lifting gear 5q3 is meshed with a clamping rack 5q5, the other end of the lifting carriage 5q2 is mounted with a guide wheel 5q4 by a running fit, and the guide wheel 5q4 abuts on the side wall of the conveying cam 5m by a rolling fit.

During the concrete work, one end of the semi-finished product fiber belt is manually placed on the conveying belt 5c along the limiting rotating shaft 5d, then the semi-finished product fiber belt is clamped in the groove on the separation plate 5p after being guided by the guiding rotating shaft 5e, then the conveying motor 5g is started and drives the conveying rotating drum 5n to rotate, the conveying rotating drum 5n drives the synchronizing wheel 5j to rotate through the connecting shaft 5h while rotating, further drives the conveying rotating shaft 5b to rotate through the transmission action of the synchronizing belt 5k, further drives the conveying belt 5c to rotate, so as to realize the preliminary conveying operation of the semi-finished product fiber yarns, the lifting carriage 5q2 is driven to synchronously rotate while the conveying rotating drum 5n rotates, because the conveying cam 5m is in an incomplete circular structure and is fixedly arranged on the conveying bottom plate 5f, under the driving of the conveying rotating drum 5n, the guide wheel 5q4 arranged at the lower end of the lifting carriage 5q2 rolls along the outer wall of the conveying cam 5m, when the guide wheel rolls to the upper half circle of the conveying cam 5m, under the influence of the supporting and abutting action of the conveying cam 5m, the lifting carriage 5q2 starts to slide outwards along the inner wall of the conveying drum 5n, the lifting gear 5q3 is further pushed to move, the lifting gear 5q3 can enable the clamping racks 5q5 symmetrically arranged to automatically align the clamping racks through the meshing action between the lifting gear and the clamping rack 5q5, the clamping rack 5q5 is further pushed to move through the clamping action between the racks, after the clamping rack 5q5 moves for a certain distance for limiting, the clamping bottom plate 5q6 arranged at the end part of the clamping rack 5q5 abuts against the side wall of the semi-finished product fiber belt, and the clamping gear 5q7 is driven to rotate through the meshing transmission when the clamping rack 5q5 moves, further, the clamping sliding rods 5q8 which are symmetrically arranged are driven to synchronously move towards the rear side through meshing transmission between the clamping gear 5q7 and the transmission rack 5q9, so that the clamping seats 5q10 arranged at the end parts of the clamping sliding rods 5q8 realize the clamping operation on the side walls of semi-finished fiber belts, compression springs arranged between the clamping seats 5q10 and the clamping sliding rods 5q8 can enable the clamping seats 5q10 to automatically adapt to the diameter change of the semi-finished fiber belts among different lengths, and after the clamping operation is finished, the semi-finished fiber belts are further driven to carry out the conveying operation under the continuous driving of the conveying rotary drum 5 n.

The cutting mechanism 6 comprises a cutting box 6a, a positioning rotating shaft 6b, a cutting gear I6 c, a cutting gear II 6d, a fixed rod 6e, a cutting rotating rod I6 f, a cutting rotating rod II 6g, a meshing gear I6 h, a meshing gear II 6j, a driving gear 6k, a cutting motor 6m, a cutting spring 6n and a cutting seat 6p, wherein the cutting box 6a is arranged on a support Contraband type frame 3 positioned at the rear side of the conveying rotating disc, the fixed rod 6e is arranged in the cutting, the cutting rotating rod I6 f is arranged on the fixed rod 6e through rotating fit, the cutting rotating rod II 6g is arranged on the fixed rod 6e above the cutting rotating rod I6 f through rotating fit, the cutting rotating rod I6 f and the cutting rotating rod II 6g are connected through a cutting spring 6n, the cutting seats 6p with the same structural shape are symmetrically arranged on the cutting rotating rod I6 f and the cutting rotating rod II 6g positioned at the outer side of the cutting box 6a, cutting knives are symmetrically arranged on the inner side wall of the cutting seat 6p, an arc-shaped rod is arranged on the cutting rotating rod two 6g, the outer side wall of the arc-shaped rod is provided with a meshing tooth two 6j, an arc-shaped rod is arranged on the cutting rotating rod one 6f, the meshing tooth one 6h is arranged on the outer side wall of the arc-shaped rod, the length of the arc-shaped rod arranged on the cutting rotating rod one 6f is larger than that of the arc-shaped rod on the cutting rotating rod two 6g, a positioning rotating shaft 6b is arranged in a cutting box 6a between the meshing tooth one 6h and the meshing tooth two 6j in a rotating fit mode, a cutting gear one 6c is arranged at the lower end of the positioning rotating shaft 6b through a spline, the cutting gear one 6c is in meshing transmission with the meshing tooth one 6h, a cutting gear two 6d is arranged on the positioning rotating shaft 6b above the cutting gear one 6c through a spline, a driving gear 6k is installed in the cutting box 6a located on the rear side of the first cutting rotating rod 6f through rotating fit, the driving gear 6k is located below the first meshing gear 6h and in meshing transmission with the first cutting gear 6c, the driving gear 6k is of an incomplete gear structure, the driving gear 6k drives the first cutting gear 6c to rotate to a certain angle through meshing, then the first cutting gear 6c can be automatically removed from the meshing effect between the first cutting gear 6c, a cutting motor 6m is installed in the cutting box 6a through a motor base, and an output shaft of the cutting motor 6m is connected with a driving rod gear.

When the cutting device works, when the clamping seat 5q10 drives the semi-finished fiber belt to be conveyed, the cutting motor 6m is started and drives the driving gear 6k to rotate, the driving gear 6k drives the cutting gear I6 c to rotate through meshing transmission, and further drives the cutting gear II 6d to synchronously rotate through the positioning rotating shaft 6b, the cutting gear I6 c drives the cutting rotating rod I6 f to rotate around the fixed rod 6e through meshing transmission between the cutting gear I6 c and the meshing gear II 6h, meanwhile, the cutting rotating rod II 6g drives the cutting rotating rod II 6g to rotate around the fixed rod 6e through meshing transmission between the cutting rotating rod II 6j, because the cutting gear I6 c and the cutting gear II 6d are installed in a vertically staggered mode, and the cutting gear I6 c is in meshing transmission with the meshing gear I6 h on the inner side of the cutting rotating rod I6 f, the cutting gear II 6d is in meshing transmission with the meshing gear II 6j on the outer side of the cutting rotating rod II 6g, therefore, under the drive of the positioning rotating shaft 6b, the first cutting rotating rod 6f and the second cutting rotating rod 6g rotate oppositely in opposite directions, the cutting spring 6n is in a compressed state, the cutting seat 6p is further driven to rotate, the cutting operation of semi-finished fiber belts is realized through the cutting knife arranged on the cutting seat 6p, as the arranged driving gear 6k is an incomplete gear, the meshing action between the first cutting gear 6c and the first cutting gear 6c is lost after the first cutting gear 6c is driven to rotate for a certain angle through the meshing action, then, the first cutting rotating rod 6f and the second cutting rotating rod 6g are further pushed to rotate reversely under the elastic force restoring action of the cutting spring 6n, the cutting seat 6p is further driven to open, the interference on the rotating path of the clamping seat 5q10 is avoided, and then, under the drive of the conveying rotating cylinder 5n, the guide wheel 5q4 arranged at the lower end of the lifting sliding frame 5q2 rolls to the conveying convex along the outer wall of the conveying cam 5m In the lower half of the wheel 5m, the conveyance cam 5m releases the supporting and abutting action on the lifting carriage 5q2, and then the grip base 5q10 further releases the grip action on the fiber yarn under the elastic return action of the grip spring, and the fiber yarn falls by gravity into the collection box 4, and then the fiber yarn and other raw materials for producing fiber mortar are mixed manually to produce a finished fiber mortar.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a system of processing is used in fibre mortar preparation, includes mounting plate (1), support column (2), supports Contraband type frame (3), collecting box (4), conveying mechanism (5) and cuts mechanism (6), its characterized in that: supporting columns (2) are uniformly arranged at the corners around the lower end of the mounting base plate (1), a support Contraband-shaped frame (3) is mounted at the upper end of the mounting base plate (1), a collecting box (4) is arranged between the inner walls of the collecting Contraband-shaped frame, a conveying mechanism (5) is mounted on a support Contraband-shaped frame (3) above the collecting box (4) in a rotating fit mode, and a cutting mechanism (6) is mounted on a support Contraband-shaped frame (3) on one side of the conveying mechanism (5);

the conveying mechanism (5) comprises a fixing plate (5a), a conveying rotating shaft (5b), a conveying belt (5c), a limiting rotating shaft (5d), a guiding rotating shaft (5e), a conveying bottom plate (5f), a conveying motor (5g), a connecting shaft (5h), a synchronizing wheel (5j), a synchronous belt (5k), a conveying cam (5m), a conveying rotary drum (5n), a partition plate (5p) and a clamping unit (5q), wherein the conveying bottom plate (5f) is symmetrically arranged on supports Contraband-shaped frames (3) positioned at two sides of the collecting box (4), the conveying rotary drum (5n) is arranged on the conveying bottom plate (5f) positioned at one side of the collecting box (4) in a rotating matching mode, the conveying rotary drum (5n) is positioned above the collecting box (4), the conveying motor (5g) is arranged on the conveying bottom plate (5f) through a motor base, an output shaft of the conveying motor (5g) is connected with the conveying rotary, a conveying cam (5m) is fixedly arranged on a conveying bottom plate (5f) positioned at the other side of the collecting box (4), the conveying cam (5m) is positioned at the inner side of a conveying rotary drum (5n), the conveying cam (5m) is in running fit with the conveying rotary drum (5n), a connecting shaft (5h) is arranged on the conveying bottom plate (5f) positioned at the inner side of the conveying cam (5m) in running fit, one end of the connecting shaft (5h) is connected with a conveying rotary disc, a synchronizing wheel (5j) is arranged at the other end of the connecting shaft (5h), fixing plates (5a) are symmetrically arranged on a support Contraband type frame (3) positioned at one side of the conveying rotary drum (5n), conveying rotary shafts (5b) are symmetrically arranged between the fixing plates (5a) in running fit, the synchronizing wheel (5j) which is identical to the structure shape on the connecting shaft (5h) is arranged on the conveying rotary shaft (, the synchronous wheels (5j) are connected and driven through a synchronous belt (5k), a conveying belt (5c) is sleeved on a conveying rotating shaft (5b) positioned on the inner side of a fixed plate (5a) in a rotating fit mode, a guide rotating shaft (5e) is installed on the fixed plate (5a) positioned above the conveying belt (5c) in a rotating fit mode, limiting rotating shafts (5d) are symmetrically installed on the fixed plate (5a) in a rotating fit mode, the limiting rotating shafts (5d) are respectively positioned on the upper side and the lower side of the conveying belt (5c), partition plates (5p) are evenly arranged on the outer circumferential wall of the conveying rotating drum (5n) along the circumferential direction of the conveying rotating drum, clamping units (5q) are evenly installed in the conveying rotating drum (5n) positioned between the partition plates (5p) in a sliding fit mode, and the clamping units (5q) abut against;

the cutting mechanism (6) comprises a cutting box (6a), a positioning rotating shaft (6b), a cutting gear I (6c), a cutting gear II (6d), a fixed rod (6e), a cutting rotating rod I (6f), a cutting rotating rod II (6g), a meshing gear I (6h), a meshing gear II (6j), a driving gear (6k), a cutting motor (6m), a cutting spring (6n) and a cutting seat (6p), wherein the cutting box (6a) is arranged on a support Contraband type frame (3) positioned at the rear side of the conveying turntable, the fixed rod (6e) is arranged in the cutting box, the cutting rotating rod I (6f) is arranged on the fixed rod (6e) in a rotating fit mode, the cutting rotating rod II (6g) positioned above the cutting rotating rod I (6f) is arranged on the fixed rod (6e) in a rotating fit mode, and the cutting rotating rod I (6f) is connected with the cutting rotating rod II (6g) through the cutting spring (6n), a first cutting rotating rod (6f) and a second cutting rotating rod (6g) which are positioned at the outer side of the cutting box (6a) are symmetrically provided with cutting seats (6p) with the same structural shape, the inner side wall of each cutting seat (6p) is symmetrically provided with cutting knives, a first meshing gear (6h) is arranged on the first cutting rotating rod (6f) positioned at the inner side of the cutting box (6a), a second meshing gear (6j) is arranged on the second cutting rotating rod (6g) positioned at the inner side of the cutting box (6a), a positioning rotating shaft (6b) is arranged in the cutting box (6a) between the first meshing gear (6h) and the second meshing gear (6j) through rotating fit, the lower end of the positioning rotating shaft (6b) is provided with a first cutting gear (6c) through a spline, the first cutting gear (6c) is in meshing transmission with the first meshing gear (6h), and a second cutting gear (6d) is arranged on the positioning rotating shaft (6b) positioned above the first cutting gear (6c) through, a second cutting gear (6d) is in meshing transmission with a second meshing gear (6j), a driving gear (6k) is arranged in a cutting box (6a) located on the rear side of a first cutting rotating rod (6f) in a rotating fit mode, the driving gear (6k) is located below a first meshing gear (6h) and in meshing transmission with a first cutting gear (6c), a cutting motor (6m) is arranged in the cutting box (6a) through a motor base, and an output shaft of the cutting motor (6m) is connected with a driving rod gear;

the clamping unit (5q) comprises a sliding groove frame (5q1), a lifting sliding frame (5q2), a lifting gear (5q3), guide wheels (5q4), clamping racks (5q5), a clamping bottom plate (5q6), a clamping gear (5q7), a clamping sliding rod (5q8), a transmission rack (5q9) and a clamping seat (5q10), wherein the sliding groove frame (5q1) is uniformly arranged in the conveying drum (5n) between the partition plates (5p) along the circumferential direction of the conveying drum, the clamping racks (5q5) are uniformly arranged in the sliding groove frame (5q1) through sliding fit, one end of each clamping rack (5q5) is positioned outside the conveying drum (5n), the clamping bottom plate (5q 588) is arranged at the end part of each clamping rack (5q5), the clamping cylinders positioned at two sides of each clamping rack (5q 636) are symmetrically provided with clamping bottom plates (5q8) through sliding fit, and the sliding rod (8) is symmetrically arranged at the outer end part of each clamping slide rod (10) through sliding fit, the side wall of the clamping slide bar (5q8) is uniformly provided with transmission racks (5q9), the clamping slide bar (5q8) is respectively positioned at the upper side and the lower side of the clamping rack (5q5), clamping gears (5q7) are symmetrically arranged in a conveying drum (5n) between the clamping slide bar (5q8) and the clamping rack (5q5) through rotating fit, the clamping gears (5q7) are respectively in meshing transmission with the clamping slide bar (5q8) and the clamping rack (5q5), a lifting carriage (5q2) is arranged in the conveying drum (5n) between the clamping racks (5q5) through sliding fit, one end of the lifting carriage (5q2) is provided with a lifting gear (5q3) through rotating fit, the lifting gear (5q3) is in meshing transmission with the clamping rack (5q5), and the other end of the lifting carriage (5q2) is provided with a guide wheel (5q4) through rotating fit, and the guide wheel (5q4) abuts against the side wall of the conveying cam (5m) by rolling fit.

2. The processing system for fiber mortar preparation according to claim 1, wherein: the driving gear (6k) is of an incomplete gear structure, and the driving gear (6k) drives the first cutting gear (6c) to rotate to a certain angle through meshing action and then automatically releases the meshing action with the first cutting gear (6 c).

3. The processing system for fiber mortar preparation according to claim 1, wherein: the cutting rotating rod II (6g) is provided with an arc-shaped rod, the outer side wall of the arc-shaped rod is provided with a meshing tooth II (6j), the cutting rotating rod I (6f) is provided with the arc-shaped rod, the outer side wall of the arc-shaped rod is provided with a meshing tooth I (6h), and the length of the arc-shaped rod arranged on the cutting rotating rod I (6f) is larger than that of the arc-shaped rod arranged on the cutting rotating rod II (6 g).

4. The processing system for fiber mortar preparation according to claim 1, wherein: the clamping seat (5q10) is provided with an arc-shaped clamping surface, a compression spring is arranged between the clamping seat (5q10) and the clamping slide bar (5q8), and the clamping seat (5q10) can adapt to the diameter change of the semi-finished fiber band through the elastic action of the compression spring.

5. The processing system for fiber mortar preparation according to claim 1, wherein: the clamping rack (5q5) is connected with the conveying drum (5n) through a clamping spring, and the clamping rack (5q5) can be pulled quickly to reset through the elastic force of the clamping spring after the clamping operation is finished.

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