CN209665934U - Efficient kerb chamfering polishes integrated assembly line - Google Patents

Abstract

The utility model discloses a kind of efficient kerb chamferings to polish integrated assembly line, feed mechanism, facing attachment, the ferry-boat roller-way, polishing device, cutting agency set gradually including the conveying direction along building stones, wherein the facing attachment includes feeding pressure mechanism, the cutting mechanism that feeding pressure mechanism side is arranged in again；The polishing device includes that front and back front beam disposed in parallel and rear cross beam and multiple flat stone mill light units for being disposed in parallel on front beam of conveying direction along building stones and multiple facades for being disposed in parallel on rear cross beam polish unit again.The processes such as feeding, chamfering, polishing, blanking can be realized integrated the pipeline design by the utility model, really realize people computer system, high degree of automation, significantly reduce the labor intensity of worker, safety and sanitation coefficient greatly improves, working efficiency increases substantially 70% or more, is effectively guaranteed the processing quality and precision of kerb, is truly realized the seamless installation of kerb.

Description

Efficient kerb chamfering polishes integrated assembly line

Technical field

The utility model relates to kerb processing equipment technical fields, polish one more particularly, to efficient kerb chamfering Change assembly line.

Background technique

Kerb is the boundary stone for being generally used for pavement edge, also referred to as curbstone (kerbstone) or kerb, it is that garage is distinguished on road surface Road, pavement, greenery patches, isolation strip and road other parts boundary line, play ensure pedestrian, vehicular traffic safety and guarantee road surface The effect of neat in edge.

Currently, kerb processing generallys use the single mechanical chamfering of progress respectively, polishing, Shortcomings are:

Using artificial or sucker loading and unloading, but structure is simple and crude, and design is unreasonable, operates dangerous health, time-consuming and laborious, Large labor intensity, working efficiency are low.

Using motor plus the chamfering structure of saw blade, power of motor is small, and working efficiency is low.When chamfering, using spring compression Structure is used to fix the Working position of building stones；But spring compression structural pressure is uncontrollable, is not durable, and pressure is inadequate, high failure rate； The yields for greatly reducing chamfering causes kerb that can not install.

When polishing, 6 bistriques are installed on crossbeam, and crossbeam is mounted on slide plate；It is driven by the lifting of crossbeam all Bistrique integral elevating realizes building stones processing.But big beam length is too long, and crossbeam lifting can not balance, and causes facet unhorizontal, out An existing a head taller low situation, cannot achieve the seamless installation of building stones.In addition, unreasonable allocation, is operation system at automatically controlled aspect It unites immature, abrasive material is not in place, such as the processing of some corners is not in place, there is omission.In terms of Machine Design, due to Hard link, Belt is narrow, and sliding friction power is big, and returns vehicle by force, and torque is big, and causes off-axis, disconnected belt.

Processing technology requirement does not match, and does not meet working specification, can not solve to for example irregular building stones of incomplete product Certainly.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of efficient kerb chamferings to polish integrated assembly line, The processes such as feeding, chamfering, polishing, blanking are realized integrated the pipeline design by it, really realize people computer system, the degree of automation Height significantly reduces the labor intensity of worker, and safety and sanitation coefficient greatly improves, and working efficiency increases substantially 70% or more, It is effectively guaranteed the processing quality and precision of kerb, is truly realized the seamless installation of kerb.

In order to solve the above-mentioned technical problem, the technical scheme adopted by the utility model is

Efficient kerb chamfering polishes integrated assembly line, the feeder set gradually including the conveying direction along building stones Structure, facing attachment, ferry-boat roller-way, polishing device, cutting agency, wherein the facing attachment include again feeding pressure mechanism, be arranged exist The cutting mechanism of feeding pressure mechanism side；The polishing device includes front and back front beam disposed in parallel and rear cross beam, Yi Jiyan again The multiple flat stone mill light units and be disposed in parallel in multiple on rear cross beam that the conveying direction of building stones is disposed in parallel on front beam Facade polishes unit.

The feeding pressure mechanism includes press cylinder, bearing block, guide holder, carrying roller, chamfering conveyer belt, workbench, wherein more A carrying roller parallel co-planar is arranged and is supported in chamfering conveyer belt in the following, be symmetrically arranged at the both ends of each carrying roller can be along guide holder The a pair of bearing moved up and down, the lower end of a pair of bearing are connected with a pair of of press cylinder bar, and a pair of of guide holder is symmetrically set It sets in rack two sides；When binder, press cylinder bar stretches out, and jacks up carrying roller upwards, and building stones are pressed on workbench.

The workbench is the upper rack by being packed in right above chamfering conveyer belt and in the same plane multiple What bearing was formed.

The flat stone mill light unit includes lifting position-limit mechanism；Spindle drum two sides in the lifting position-limit mechanism are symmetrically set It is equipped with a pair of of lifting cylinder, lifting air cylinder rod is connected with vertical major；Vertical major top is set in spindle drum inner cavity simultaneously It can move up and down；The limited block that limit guide rod both ends are equipped with spindle drum, vertical major respectively is connected；Pass through lifting cylinder Bar is flexible, drives the lifting of the surface wheel head of vertical major and its lower end, controls lifting travel by limit guide rod, limited block.

The polishing device further includes leveling mechanism, the leveling mechanism be a pair of of air motor with polished section, one Air motor is symmetricly set on motor mount, the inner end of the last one horizontal spindle is arranged in motor mount.

The feed mechanism include charging roller, crank arm hang, air-actuated jaw, hang charging roller is set one wherein cranking arm Side is simultaneously connected by electric block with air-actuated jaw.

The cutting agency include blanking roller-way, crank arm hang, air-actuated jaw, be arranged in the one of blanking roller-way wherein cranking arm and hanging Side is simultaneously connected by electric block with air-actuated jaw.

The air-actuated jaw includes cylinder, guide sleeve, guide rod, gripping block, non-slip mat；Wherein cylinder rod is led with being sheathed on Guide sleeve on bar is connected, and is provided with multiple location holes along its length on the guide bar, corresponding with building stones length Location hole in be inserted into positioning pin, the position of locking guide sleeve on the guide bar；A pair of of gripping block is packed in guide rod respectively, leads To putting on, it is fixed with a pair of of non-slip mat relatively in the medial surface of a pair of of gripping block；It is stretched by cylinder rod driving guide sleeve along guide rod Clamping or relieving of a pair of of gripping block to building stones are realized in contracting movement.

The bull ladle of cranking arm includes upright bar, long-armed, galianconism, shaft, electric block, upright bar and long-armed, long-armed between galianconism It is connected by shaft, electric block is connected on long-armed.

The cutting agency further includes transition roller-way, aggregator, the transition roller-way, aggregator be set to polishing device with Between blanking roller-way, multiple universal wheels are evenly equipped on table top gathering materials.

Compared with the prior art the utility model, has the advantages that:

The processes such as feeding, chamfering, polishing, blanking are realized integrated the pipeline design by the utility model, really realize people Machine unification, high degree of automation greatly reduce the labor intensity of worker, and safety and sanitation coefficient greatly improves, and working efficiency is big Amplitude improves 70% or more, is effectively guaranteed the processing quality and precision of kerb, is truly realized the seamless peace of kerb Dress.

Using automatic loading and unloading mechanism, labor intensity of workers is substantially reduced, increases substantially working efficiency, easy to operate peace Entirely, loading and unloading flexible swinging, high degree of automation.

Feeding pressure mechanism uses pneumatic clamping structure, and instead of original mechanical spring compressing structure, pressure controllable is durable, nothing Failure improves yields and reaches 100%.Chamfering motor working power in cutting mechanism is big, and work efficiency is high.

Rationally, technological design reaches requirement for polishing device configuration, and electric-control system optimization fundamentally solves off-axis, breaks The defect of belt, significantly reduces failure rate.Leveling mechanism is increased, in place, also exhaustive, kerb add abrasive material for corner Working medium amount and precision greatly improve.

It goes up and down position-limit mechanism and goes up and down single surface wheel head using single cylinder is corresponding, go up and down and realize instead of original crossbeam The integral elevating of all surface wheel heads, up and down balance system is good, and facet flatness is good, can be realized the seamless installation of kerb.

Entire assembly line is reduced vacuum pump, reduced costs, dropped significantly by an air compressor machine and an air gauge control Low failure rate keeps installation maintenance more convenient using universal component.

Detailed description of the invention

Fig. 1 is the overlooking structure figure of the utility model；

Fig. 2 is the forward sight structure chart of the utility model；

Fig. 3 is the broken section structure chart of facing attachment in Fig. 1；

Fig. 4 is the overlooking structure figure of polishing device in Fig. 1；

Fig. 5 is the part-structure figure of polishing device in Fig. 4；

Fig. 6 is the enlarged drawing of leveling mechanism in Fig. 4；

Fig. 7 is the part-structure figure of cutting agency in Fig. 1.

Part description in Fig. 1-Fig. 7:

100, it cranks arm and hangs；200, air-actuated jaw；300, charging roller；400, facing attachment；500, ferry-boat roller-way；600, it grinds Electro-optical device；700, transition roller-way；800, aggregator；801, universal wheel；900, blanking roller-way；

401, press cylinder；402, bearing block；403, guide holder；404, carrying roller；405, chamfering conveyer belt；406, building stones； 407, rack；408, workbench；409, chamfering motor；

601, longitudinal mobile motor；602, transmission shaft；603, front beam；604, gear；605, rack gear；606, longitudinally guiding Mechanism；607, rear cross beam height-regulating mechanism；608, rear cross beam；609, facade grinding head motor；610, facade bistrique；611, surface wheel head Motor；612, guide rod is limited；613, vertical major；614, lifting cylinder；615, spindle drum；616, surface wheel head；617, it polishes Piece；618, air motor；619, motor mount.

Specific embodiment

The utility model is described in further detail in the following with reference to the drawings and specific embodiments.

By Fig. 1-Fig. 7 it is found that the utility model includes the feed mechanism set gradually along the conveying direction of building stones, chamfering dress 400, ferry-boat roller-way 500, polishing device 600, transition roller-way 700, aggregator 800, cutting agency are set, further includes control mechanism； Wherein:

(1) feed mechanism: referring to Fig.1, Fig. 2.

Feed mechanism is used to complete the upper material process of building stones.

As shown in Figure 1 and Figure 2, feed mechanism includes charging roller 300, cranks arm and hang 100, air-actuated jaw 200；Wherein:

It cranks arm and hangs 100 sides that charging roller 300 is set, cranking arm and hanging 100 includes upright bar, long-armed, galianconism, shaft, electricity Cucurbit is moved, wherein upright bar and long-armed, the long-armed shaft that passes through between galianconism are rotatablely connected；Electronic calabash is connected on long-armed Reed, electric block are connected with air-actuated jaw.

Air-actuated jaw 200 includes cylinder, guide sleeve, guide rod, gripping block, non-slip mat；Wherein cylinder rod and guide sleeve phase Connection, guide sleeve are sheathed on guide rod and can move along guide rod.A pair of of gripping block is installed in guide rod, guide sleeve respectively On；It is fixed with a pair of of non-slip mat relatively in the medial surface of a pair of of gripping block, non-slip mat works as a buffer.

The working principle of air-actuated jaw is: by the flexible of cylinder rod, driving a gripping block on guide sleeve to another folder Tight block is mobile, to the building stones being located between a pair of of gripping block be clamped, conversely, then decontroling building stones.

The different length for corresponding to building stones on the guide bar is provided with multiple location holes along its length, according to processed building stones Length select corresponding location hole and be inserted into positioning pin, thus on the guide bar by guide sleeve locking；Make a pair of of gripping block Between spacing slightly larger than building stones length to reduce the impulse stroke of cylinder rod be conducive to the Quick-clamped of building stones.

(2) facing attachment :-Fig. 3 referring to Fig.1.

Facing attachment is used to complete the chamfering process of building stones.

As shown in Figure 1-Figure 3, facing attachment 400 includes cutting mechanism, jacking system, feeding pressure mechanism, positioning mechanism, chamfering Conveying mechanism, in which:

Cutting mechanism includes chamfering motor 409, cutting sheet, in which: cutting is equipped on the output shaft of chamfering motor 409 Piece, chamfering motor driven cutting sheet complete chamfering cutting to building stones；When cutting chamfering, building stones move together in company with chamfering conveyer belt It is dynamic.When cutting upper chamfering, the upper plane of cutting sheet and building stones is in an angle, is 45 ° of angles in the present embodiment.

Cutting mechanism is arranged in feeding pressure mechanism side.Chamfering conveying mechanism includes chamfering conveyer belt and its transmission mechanism.It rises Drop system uses screw-nut guide pillar guide mechanism, and the height and position of cutting sheet is accordingly adjusted according to building stones height.

Feeding pressure mechanism is used to compress building stones when chamfering.Feeding pressure mechanism includes press cylinder 401, bearing block 402, guide holder 403, carrying roller 404, chamfering conveyer belt 405, workbench 408, rack 407, in which:

Multiple 404 parallel co-planars of carrying roller are arranged and are supported in below chamfering conveyer belt 405；Carrying roller 404 is used to support chamfering Building stones 406 above conveyer belt.It is symmetrically arranged with a pair of bearing 402 at the both ends of each carrying roller 404, in a pair of bearing Lower end is symmetrically connected with a pair of of press cylinder bar；A pair of of guide holder 403 is symmetricly set on the two sides of rack 407, a pair of bearing 402 a pair of of the guide grooves that can be relatively set on a pair of of guide holder 403 move up and down.

407 top of rack right above chamfering conveyer belt 405 is arranged in workbench 408；Workbench is by being packed in chamfering What upper rack right above conveyer belt and multiple bearings in the same plane were formed.It can be led to according to the height of building stones 406 Jacking system is crossed to adjust the height of workbench, to realize the adjustment of spacing between workbench and chamfering conveyer belt.

Working principle is: press cylinder bar stretches out, and jacks up carrying roller upwards, while the stone above carrying roller and chamfering conveyer belt Material is also moved up and is in contact with workbench, so that building stones are pressed on workbench.

Feeding pressure mechanism can be guaranteed that the building stones section of cutting sheet is located along the same line, be conducive on the basis of workbench The chamfer machining of building stones eliminates defect ware to guarantee yields.

All press cylinders are connected by tracheae with same aerostatic press；Using same air gauge, air gauge is arranged in gas Lu Zhong.Using same tracheae design structure, gas circuit is optimized, it is easy to maintenance.

(3) polishing device: referring to Fig.1, Fig. 2, Fig. 4-Fig. 6.

Polishing device is used for glassed stone, specifically polishes and facade and plane adjacent at building stones chamfering.

As shown in Figure 1, Figure 2, shown in Fig. 4, Fig. 5, polishing device includes polishing conveying mechanism and before the conveying direction of building stones Front beam 603 disposed in parallel, rear cross beam 608 afterwards；It is set side by side on front beam 603 for polishing building stones plane after chamfering Multiple surface wheel head units, multiple facades mill for polishing building stones facade after chamfering is set side by side on rear cross beam 608 Head unit.Polishing conveying mechanism includes polishing conveyer belt and its transmission mechanism.In the present embodiment, surface wheel head 616 is 8, is stood Face bistrique 610 is 7, and there are also leveling mechanisms；To keep the structural technique designing of polishing device more reasonable.

As shown in Figure 4, Figure 5, in each flat stone mill light unit, including surface wheel head motor 611, belt gear, Surface wheel head 616, lifting position-limit mechanism；Wherein surface wheel head motor 611 is arranged on front beam 603, and is driven by belt The surface wheel head 616 that 613 lower end of vertical major is arranged in mechanism driving rotates, and realizes the polishing of building stones plane.

For surface wheel head lifting position-limit mechanism include including lifting cylinder 614, vertical major 613, spindle drum 615, Guide rod 612, limited block are limited, wherein the top of vertical major 613 is set in the inner cavity of spindle drum 615, and can be moved up and down. It is symmetrically arranged with a pair of of lifting cylinder 614 in the two sides of spindle drum 615, lifting air cylinder rod is connected with vertical major 613.Limit The limited block that the both ends of guide rod 612 are equipped with spindle drum 615, vertical major 613 respectively is connected.When work, pass through lifting Cylinder rod is flexible, drives the lifting of the surface wheel head of vertical major and its lower end, controls lifting travel by limit guide rod, limited block.

Longitudinal moving mechanism for surface wheel head includes longitudinal mobile motor 601, transmission shaft 602, gear 604, rack gear 605, longitudinally guiding mechanism 606；Wherein longitudinal mobile motor 601 passes through a pair of of transmission shaft 602 and connects with a pair of of transmission of gear 604 It connects, a pair of of gear is meshed with longitudinally disposed a pair of of rack gear 605；Under the guiding role of longitudinally guiding mechanism 606, realize Front beam 603 and the thereon longitudinal movement of surface wheel head 616.Longitudinally guiding mechanism 606 includes being symmetrical set on the rack A pair of of linear guide and can be connected along the slide plate that linear guide moves, a pair of slide with the both ends of front beam.

Working principle is: the polishing of surface wheel head is rotated by surface wheel head motor driven surface wheel head to realize. The lifting of single surface wheel head is to drive the surface wheel head of vertical major and its lower end to move down along spindle drum by lifting cylinder It moves to realize, impulse stroke is controlled by limit guide rod, limited block.The back-and-forth motion of surface wheel head is in longitudinally guiding mechanism Guiding role under, engage and drive front beam and all surface wheel heads lead to thereon by longitudinal mobile motor driving wheel and rack Slide plate is crossed to move to realize along linear guide.

It as Figure 1 and Figure 4, include facade grinding head motor 609, belt drive in each facade polishing unit Structure, horizontal spindle, facade bistrique 610, rear cross beam height-regulating mechanism 607, in which: the facade bistrique electricity on rear cross beam 608 is set Machine 609 is rotated by the facade bistrique 610 that belt gear is driven horizontal spindle inner end, realizes the polishing of building stones facade.

It is provided on rear cross beam 608 for adjusting rear cross beam and thereon the rear cross beam height-regulating machine of all facade bistrique height Structure 607.Rear cross beam height-regulating mechanism 607 can adjust the middle position that facade bistrique is located at building stones, have according to the different height of building stones Effect is polished conducive to improving.

As shown in fig. 6, increasing leveling mechanism in polishing device, leveling mechanism is a pair of of gas with polished section 617 Dynamic motor 618, a pair of of air motor 618 are symmetricly set on motor mount 619, and motor mount is arranged in the last one water The inner end of flat main shaft.Leveling mechanism is used for last equating kerb, guarantees the processing quality and essence of kerb close to transition roller-way Degree.

(4) cutting agency: referring to Fig.1, Fig. 2, Fig. 7.

Cutting agency is used to complete the blanking procedure of building stones.

As shown in Figure 1, Figure 2, shown in Fig. 7, cutting agency include blanking roller-way 900, crank arm hang, air-actuated jaw, in which:

Bull ladle of cranking arm includes upright bar, long-armed, galianconism, shaft, electric block, wherein upright bar and long-armed, long-armed between galianconism It is rotatablely connected by shaft；Electric block is connected on long-armed, electric block is connected with air-actuated jaw.

Air-actuated jaw includes cylinder, guide sleeve, guide rod, a pair of of gripping block, a pair of of non-slip mat；Wherein cylinder rod and guiding Set is connected；Guide sleeve is sheathed on guide rod and can move along guide rod.A pair of of gripping block is individually fixed in guide rod, guiding It puts on, is fixed with a pair of of non-slip mat relatively in the medial surface of a pair of of gripping block, non-slip mat works as a buffer.

When work, by the stretching of cylinder rod, drive the gripping block on guide sleeve mobile to another gripping block, thus will Building stones between a pair of of gripping block clamp, conversely, then decontroling building stones.

According to the different length of building stones, it is correspondingly provided with multiple location holes along its length on the guide bar, according to institute Processing building stones length selects corresponding location hole and is inserted into positioning pin in location hole, to lock the position of guide sleeve on the guide bar It sets, spacing can be made between a pair of of gripping block to be conducive to building stones to reduce the impulse stroke of cylinder rod slightly larger than building stones length Quick-clamped.

As shown in Figure 1, Figure 2, Figure 6 shows, cutting agency further includes transition roller-way 700, aggregator 800；Wherein transition roller-way 700, aggregator 800 is arranged between polishing device 600 and blanking roller-way 900.

As shown in fig. 6, being evenly equipped with multiple universal wheels 801 on the table top of aggregator 800, can be adjusted by rotation building stones The placement angle of building stones, such as be rotated by 90 °, the stacking of the clamping and building stones that are convenient to air-actuated jaw is stacked, reasonable arrangement blowing Space.

(5) course of work of the utility model is as follows :-Fig. 7 referring to Fig.1.

A, hung using cranking arm in feed mechanism, electric block, air-actuated jaw carry out upper material process, building stones are disposed In on charging roller；

B, building stones are transported on chamfering conveyer belt from charging roller, are first positioned by positioning mechanism to building stones, then by binder Building stones are pressed on workbench by mechanism, then carry out chamfering work in company with the mobile building stones of chamfering conveyer belt by cutting mechanism Sequence；

C, the building stones after chamfering are transported on polishing conveyer belt by ferry-boat roller-way, simultaneously by surface wheel head and facade bistrique Polishing process is carried out in company with the mobile building stones of polishing conveyer belt；Equating process finally is carried out to building stones by leveling mechanism；

D, building stones are transported in aggregator by transition roller-way, building stones can adjust pendulum appropriate by universal wheel rotation Angle is put, is then delivered on blanking roller-way；

E, it is hung by cranking arm in cutting agency, air-actuated jaw progress blanking procedure, is advantageously implemented primary stacking windrow；

F, it repeats the above process, circuits sequentially reciprocal.

Claims (10)

1. efficient kerb chamfering polishes integrated assembly line, characterized in that set gradually including the conveying direction along building stones Feed mechanism, facing attachment, ferry-boat roller-way, polishing device, cutting agency, wherein the facing attachment include again feeding pressure mechanism, The cutting mechanism of feeding pressure mechanism side is set；The polishing device include again front and back front beam disposed in parallel and rear cross beam, And along building stones multiple flat stone mill light units for being disposed in parallel on front beam of conveying direction and be disposed in parallel on rear cross beam Multiple facades polish unit.

2. efficient kerb chamfering according to claim 1 polishes integrated assembly line, characterized in that the feeding pressure mechanism Including press cylinder, bearing block, guide holder, carrying roller, chamfering conveyer belt, workbench, plurality of carrying roller parallel co-planar support is simultaneously Chamfering conveyer belt is set in the following, be symmetrically arranged at the both ends of each carrying roller can be along a pair of bearings that guide holder moves up and down Seat, a pair of bearing lower end are connected with a pair of of press cylinder bar, and a pair of of guide holder is symmetricly set on rack two sides；When binder, Press cylinder bar stretches out, and jacks up carrying roller upwards, and building stones are pressed on workbench.

3. efficient kerb chamfering according to claim 2 polishes integrated assembly line, characterized in that the workbench is By the upper rack that is packed in right above chamfering conveyer belt and multiple bearings in the same plane are formed.

4. efficient kerb chamfering according to claim 1 polishes integrated assembly line, characterized in that the plane polishing Unit includes lifting position-limit mechanism；Spindle drum two sides in the lifting position-limit mechanism are symmetrically arranged with a pair of of lifting cylinder, rise Sending down abnormally ascending cylinder rod is connected with vertical major；Vertical major top is set in spindle drum inner cavity and can move up and down；Limit guide rod The limited block that both ends are equipped with spindle drum, vertical major respectively is connected；It is flexible by lifting air cylinder rod, drive vertical major And its surface wheel head lifting of lower end, lifting travel is controlled by limit guide rod, limited block.

5. efficient kerb chamfering according to claim 1 or 4 polishes integrated assembly line, characterized in that the polishing Device further includes leveling mechanism, and the leveling mechanism is a pair of of air motor with polished section, and a pair of of air motor is symmetrically set It sets on motor mount, the inner end of the last one horizontal spindle is arranged in motor mount.

6. efficient kerb chamfering according to claim 1 polishes integrated assembly line, characterized in that the feed mechanism Including charging roller, crank arm hang, air-actuated jaw, hang the side that charging roller is set and by electric block and gas wherein cranking arm Dynamic fixture is connected.

7. efficient kerb chamfering according to claim 1 polishes integrated assembly line, characterized in that the cutting agency Including blanking roller-way, crank arm hang, air-actuated jaw, hang the side that blanking roller-way is set and by electric block and gas wherein cranking arm Dynamic fixture is connected.

8. efficient kerb chamfering according to claim 6 or 7 polishes integrated assembly line, characterized in that described pneumatic Fixture includes cylinder, guide sleeve, guide rod, gripping block, non-slip mat；Wherein cylinder rod and the guide sleeve phase being sheathed on guide rod Connection, is provided with multiple location holes along its length on the guide bar, and it is fixed to be inserted into location hole corresponding with building stones length Position pin, the position of locking guide sleeve on the guide bar；It is fixed with a gripping block respectively on guide rod, guide sleeve, is pressed from both sides in a pair The medial surface of tight block is opposite to be fixed with a pair of of non-slip mat；By cylinder rod driving guide sleeve along guide rod telescopic moving, realize a pair of Clamping or relieving of the gripping block to building stones.

9. efficient kerb chamfering according to claim 6 or 7 polishes integrated assembly line, characterized in that described to crank arm Bull ladle includes upright bar, long-armed, galianconism, shaft, electric block, and upright bar and long-armed, the long-armed shaft that passes through between galianconism connect, In Electric block is connected on long-armed.

10. efficient kerb chamfering according to claim 1 or claim 7 polishes integrated assembly line, characterized in that the blanking Mechanism further includes transition roller-way, aggregator, and the transition roller-way, aggregator are set between polishing device and blanking roller-way, In Multiple universal wheels are evenly equipped on the table top that gathers materials.