CN206766528U - Interconnection system cement is unpacked conveying equipment - Google Patents

Abstract

Unpacked conveying equipment the utility model discloses interconnection system cement, belong to conveying equipment of unpacking, its structure includes belt feeder, feed hopper component, screw extrusion bag-breaking device, dust pelletizing system, roller, feeding screw, send a bag spiral, air-transport system, air supply system, transmission device and main structure, belt feeder is obliquely installed, support is on the ground, the bottom of screw extrusion bag-breaking device is fixed in main structure, transmission device is fixed in main structure, transmission device is connected with roller, the top of roller is provided with dust pelletizing system, sieve aperture is provided with roller, the bottom of roller is provided with feeding screw and send a bag spiral, the right-side outlet of feeding screw is connected with air-transport system, air-transport system, dust pelletizing system and feed hopper component are connected with air supply system respectively.The utility model, which has, prevents personnel etc. enter accidentally from producing security incident, greatly improves the security of equipment；The sack of various different size sizes is adapted to, the features such as improving the versatility of bag-breaking device.

Description

Interconnection system cement is unpacked conveying equipment

Technical field

One kind is the utility model is related to unpack conveying equipment, especially a kind of interconnection system cement for cement bagged material Unpack conveying equipment.

Background technology

Cement is one of indispensable base stock of concrete batch plant, is in great demand, and generally requires largely to be stored in In cement bin, but some areas fall behind relatively, without bulk cement.In this case generally by artificial broken bag, but efficiency compared with It is low.Completion to subsequent handling can also have an impact.Therefore cement is completed to cement storage while how rapid, batch broken bag The conveying in storehouse, and it is vital.

But the size of sack often difference, therefore the ecad of bag-breaking device also determines the life of next procedure significantly Produce efficiency.

Bag-breaking device is now commonly used, generally comprises two groups of blades, blade is fixed, can only tear the cement of particular size open Bag, adaptability is not strong.

For bag-breaking device blade often than sharp, conventional bag-breaking device often lacks protection mechanism, misoperation, it may occur that Security incident.

Utility model content

Technical assignment of the present utility model is to provide a kind of interconnection system cement for above-mentioned deficiency of the prior art to unpack Conveying equipment, the interconnection system cement are unpacked conveying equipment with preventing personnel etc. from entering generation security incident accidentally, greatly improved The security of equipment；The sack of various different size sizes is adapted to, the characteristics of improving the versatility of bag-breaking device.

Technical scheme is used by the utility model solves its technical problem：It includes belt feeder, feed hopper component, spiral shell Rotation extruding bag-breaking device, dust pelletizing system, roller, feeding screw, send a bag spiral, air-transport system, air supply system, transmission device And main structure, described belt feeder are obliquely installed, on the ground, its top is close to feed hopper component, described feed hopper for support The bottom of component is provided with screw extrusion bag-breaking device, and the bottom of described screw extrusion bag-breaking device is fixed in main structure, Described transmission device is fixed in main structure, and described transmission device is connected with roller, and the top of described roller is provided with Dust pelletizing system, sieve aperture is provided with described roller, the bottom of roller is provided with feeding screw and send a bag spiral, feeding screw Right-side outlet is connected with air-transport system, described air-transport system, dust pelletizing system and feed hopper component respectively with source of the gas System is connected.

Described feed hopper component includes feed hopper, lid, cylinder assembly, big panel turnover component and small panel turnover component, described The top of feed hopper is provided with lid, and described big panel turnover component and small panel turnover component are separately positioned on the left and right sides of feed hopper, Described big panel turnover component and small panel turnover component are connected with cylinder assembly respectively.

Described cylinder assembly includes big panel turnover component connection cylinder and cylinder, described big turnover panel is connected with small panel turnover component Component is connected cylinders with big panel turnover component, and described small panel turnover component is connected cylinders with small panel turnover component；

Described big panel turnover component includes big turnover panel connecting shaft, big turnover panel axle bed, big turnover panel axle sleeve and big turnover panel, described Big turnover panel connecting shaft includes two, is separately fixed at both sides of the big turnover panel with one side, is set respectively in each big turnover panel connecting shaft There are big turnover panel axle bed and big turnover panel axle sleeve, described big turnover panel axle bed is nested together with big turnover panel axle sleeve, and big turnover panel axle sleeve is placed on In big turnover panel connecting shaft, two big turnover panel connecting shaft stretches out feed hopper side wall respectively, and is connected cylinder with big panel turnover component respectively Bottom be connected, described big panel turnover component connection cylinder top be connected with being arranged on the cylinder connecting seat on feed hopper top；

Described small panel turnover component includes small turnover panel connecting shaft, small turnover panel axle bed, small turnover panel axle sleeve and small turnover panel, described Small turnover panel connecting shaft includes two, is separately fixed at both sides of the small turnover panel with one side, is set respectively in each small turnover panel connecting shaft There are small turnover panel axle bed and small turnover panel axle sleeve, described small turnover panel axle bed is nested together with small turnover panel axle sleeve, and small turnover panel axle sleeve is placed on In small turnover panel connecting shaft, two small turnover panel connecting shaft stretches out feed hopper side wall respectively, and is connected cylinder with small panel turnover component respectively Bottom be connected, described small panel turnover component connection cylinder top be connected with being arranged on the cylinder connecting seat on feed hopper top；

Described big turnover panel axle bed and small turnover panel axle bed are individually fixed in the fixed seat of feed hopper bottom；

Turnover panel limited block is respectively arranged with described big turnover panel and the feed hopper of small turnover panel bottom.

Described screw extrusion bag-breaking device include the outer tube assembly of spiral, tube assembly in spiral, connecting shaft, counter flange, Reductor bearing, reductor and bearing, tube assembly is arranged in the outer tube assembly of spiral in described spiral, described connecting shaft one End is connected with tube assembly in spiral, and the other end is connected with reductor, and described reductor passes through reductor bearing and counter flange Mutually fixed, described counter flange is mutually fixed with the outer tube assembly of spiral, and axle is provided between described connecting shaft and counter flange Hold.

Tube assembly includes flange, helical blade and small blade on the left of spiral inner tube in described spiral, in described spiral Flange is fixed with two circular small blades, institute with being fixedly connected on the left of helical blade on the left of pipe on described helical blade Flange is mutually fixed with connecting shaft on the left of the spiral inner tube stated；

The outer tube assembly of described spiral includes framework, hopper and spiral outer tube left side flange, described hopper and is fixed on frame Inside frame, the bottom of described hopper is circular arc, and left end is provided with flange on the left of spiral outer tube, right-end openings, open topped, Described counter flange is mutually fixed with flange on the left of spiral outer tube, and tube assembly is arranged in hopper in described spiral；

Described connecting shaft includes axis body and connecting shaft right flange, and described connecting shaft right flange is fixed on axis body Right-hand member, described connecting shaft right flange are mutually fixed with flange on the left of spiral inner tube, and left end and the reductor of described axis body connect Connect.

Blade bag-breaking device is provided between described feed hopper component and screw extrusion bag-breaking device, described blade is broken Bagging apparatus include lower bucket body, A shaft assemblies, B axle component, B axle component moving drive mechanism, reductor, first flange component, Second flange component and the 3rd flange assembly, described A shaft assemblies and B axle component are separately positioned on the left and right two in lower bucket body Side, described A shaft assemblies and B axle component are connected with reductor respectively, described B axle component and B axle component moving drive mechanism It is connected, is connected with the reductor that A shaft assemblies are connected by first flange component with lower bucket body, the reductor being connected with B axle component It is connected by second flange component and the 3rd flange assembly with lower bucket body.

Described A shaft assemblies include A axle bearings, A axles axle sleeve, A axles axis body and A axle blades, described A axle axis bodies it is front and rear Both ends pass lower bucket body respectively, and A axle blades are provided with the middle part of A axle axis bodies, are set respectively on the A axle axis bodies at A axle blades both ends There are an A axle axle sleeves, be respectively arranged with A axle bearings on the A axle axis bodies on the outside of A axle axle sleeves, described A axle bearings are fixed on lower bucket body On, the A axle axis bodies one end for stretching out lower bucket body is connected with reductor；

Described B axle component includes B axle bearing, B axle axle sleeve, B axle axis body, B axle blade and sliding panel, described B axle axle The rear and front end of body passes lower bucket body respectively, is provided with B axle blade in the middle part of B axle axis body, on the B axle axis body at B axle blade both ends It is respectively arranged with B axle axle sleeve, B axle bearing, the top of described B axle bearing is respectively arranged with the B axle axis body on the outside of B axle axle sleeve Sliding panel is respectively arranged with bottom, the B axle axis body one end for stretching out lower bucket body is connected with reductor, is set on described lower bucket body There is big sliding groove, described B axle axis body is located in big sliding groove；

Described second flange component and the 3rd flange assembly include mounting flange and loose flange respectively, with B axle axis body Connected reductor is connected with loose flange, and described loose flange is separately positioned on the outside of B axle bearing, described fixation Orchid is mutually fixed with lower bucket body respectively, and the sliding panel on described B axle bearing is each passed through loose flange, described mounting flange point The upper and lower part of loose flange is not arranged on, and small slip is respectively arranged with the mounting flange corresponding with sliding panel Groove, the sliding panel on B axle bearing be placed in small sliding groove, the loose flange on second flange component with and B axle axis body be connected Reductor is connected, and described loose flange is connected with B axle component moving drive mechanism.

Described B axle component moving drive mechanism includes hand adjustment wheel assembly, adjustment bar assembly and chain, described hand adjustment wheel Component with adjustment bar assembly be connected by chain, described hand adjustment wheel assembly and adjust bar assembly respectively with second flange component and Loose flange on 3rd flange assembly is connected；

Described hand adjustment wheel assembly includes hand adjustment wheel, hand adjustment wheel adjusting seat, hand adjustment wheel sprocket, hand adjustment axle block and hand adjustment wheel Axle, described hand adjustment wheel adjusting seat, hand adjustment axle block, hand adjustment wheel sprocket and hand adjustment wheel are from left to right successively set on hand adjustment wheel shaft On, described hand adjustment wheel shaft left end is provided with trapezoidal thread, and described hand adjustment wheel adjusting seat coordinates with hand adjustment wheel shaft, described Hand adjustment wheel adjusting seat and the loose flange of second flange component mutually fix；

Described adjustment bar assembly includes adjustment bar axle, adjustment bar chain wheel, adjustment bar axle bed and adjustment bar adjusting seat, described Adjustment bar adjusting seat, adjustment bar axle bed and adjustment bar chain wheel be from left to right successively set on adjustment bar axle on, described adjustment Bar axle left end is provided with trapezoidal thread, and described adjustment bar adjusting seat coordinates with adjustment bar axle thread, the adjustment of described adjustment bar The loose flange of seat and the 3rd flange assembly is mutually fixed；

Described hand adjustment wheel sprocket is connected with adjustment bar chain wheel by chain.

Described dust pelletizing system includes dust-removal cloth-bag, air accumulator and centrifugal blower, and described dust-removal cloth-bag is arranged on roller Top, described air accumulator is arranged in dust-removal cloth-bag, and described centrifugal blower is arranged on the outside of dust-removal cloth-bag；Described gas Power induction system includes roots blower and rotating valve assembly, and described roots blower is connected with rotating valve assembly, described rotation Valve module is connected with the right-side outlet of feeding screw, and described rotating valve assembly and air accumulator are connected with air supply system respectively.

Described transmission device includes driving motor and roller, and described roller includes four, and described roller is arranged on Roller top, described driving motor are connected with roller, driving drum rotation.

Described feeding screw includes spiral and motor, and described send bag spiral to include spiral and motor, described source of the gas System includes air compressor machine and pipeline, and described air compressor machine passes through the pipeline cylinder assembly with feed hopper component, dust pelletizing system respectively Air accumulator, the rotating valve assembly of air-transport system is connected.

Compared to the prior art interconnection system cement of the present utility model unpacks conveying equipment, have beneficial effect following prominent Fruit：

The size turnover panel of body of feedstock component is usually closed, and prevents personnel etc. enter accidentally from producing security incident, has material to enter Fashionable size turnover panel is opened, and bagged material enters blade bag-breaking device by the gap between size turnover panel, completes broken bag, significantly Improve the security of equipment；

B axle axis body under blade bag-breaking device in two axles of bucket body can be by adjusting hand adjustment wheel come transverse shifting, so Can increase accordingly or reduce with the distance between axles of A axle axis bodies, so as to adjust two groups of blades on A axles axis body and B axle axis body Distance, it is total and adapt to the sack of various different size sizes, improve the versatility of bag-breaking device；

Helical blade in screw extrusion bag-breaking device without Structural Design of Shaft, avoid useless bag from twining axle；Spiral broken bag it is same When, the function of conveying material is played, and 1 reductor driving is only needed, greatly reduce energy consumption；

This equipment realizes the broken bag of cement, separation, conveying is automatic carries out, and greatly improves production efficiency；

Dust pelletizing system effectively eliminates dust pollution, and the equipment feature of environmental protection is high.

Brief description of the drawings

Accompanying drawing 1 be interconnection system cement unpack conveying equipment remove belt feeder after main structure diagram；

Accompanying drawing 2 is that interconnection system cement is unpacked the left view structural representation of conveying equipment；

Accompanying drawing 3 is the main structure diagram that feed hopper component connects with blade bag-breaking device；

Feed hopper component front view when accompanying drawing 4 is big turnover panel and small turnover panel semi-closure；

Feed hopper component front view when accompanying drawing 5 is big turnover panel and the unlatching of small turnover panel；

Accompanying drawing 6 is the A-A sectional views shown in Fig. 5；

Accompanying drawing 7 is the B-B sectional views shown in Fig. 5；

Accompanying drawing 8 is the front view of blade bag-breaking device；

Accompanying drawing 9 is the C-C sectional views shown in Fig. 8；

Accompanying drawing 10 is the D-D sectional views shown in Fig. 8；

Accompanying drawing 11 is the E-E sectional views shown in Figure 10；

Accompanying drawing 12 is the left view structural representation of screw extrusion bag-breaking device；

Accompanying drawing 13 is the F-F views shown in Figure 12；

Description of reference numerals：

1 feed hopper component, 101 feed hoppers, 102 lids, 13 cylinder assemblies, 131 big panel turnover components connection cylinders, 132 small are turned over It is board component connection cylinder, 14 big panel turnover components, 141 big turnover panel connecting shafts, 142 big turnover panel axle beds, 143 big turnover panel axle sleeves, 144 big Turnover panel, 15 small panel turnover components, 151 small turnover panel connecting shafts, 152 small turnover panel axle beds, 153 small turnover panel axle sleeves, 154 small turnover panels, 16 gas Cylinder connecting seat, 17 fixed seats, 18 turnover panel limited blocks,

2 blade bag-breaking devices, 21 times bucket bodies, 211 big sliding grooves, 22A shaft assemblies, 221A axle bearings, 222A axles axle sleeve, 223A axles axis body, 224A axles blade, 23B shaft assemblies, 231B axle bearings, 232B axles axle sleeve, 233B axles axis body, 234B axles blade, 235 sliding panels, 24 hand adjustment wheel assemblies, 241 hand adjustment wheels, 242 hand adjustment wheel adjusting seats, 243 hand adjustment wheel sprockets, 244 hand adjustment axle blocks, 245 hand adjustment wheel hand adjustment wheel shafts, 25 adjustment bar assemblies, 251 adjustment bar axles, 252 adjustment bar chain wheels, 253 adjustment bar axle beds, 254 are adjusted Whole bar adjusting seat；26 reductors, 27 first flange components, 28 second flange components, 29 the 3rd flange assemblies, 210 chains,

3 belt feeders,

The outer tube assembly of 4 screw extrusion bag-breaking devices, 41 spirals, 411 frameworks, 412 hoppers, flange on the left of 413 spiral outer tubes, Tube assembly, 421 spiral inner tubes left side flange, 422 helical blades, 423 small blades, 43 connecting shafts, 431 connecting shafts are right in 42 spirals Side flange, 432 axis bodies, 44 counter flanges, 45 reductor bearings, 46 reductors, 461 reductor flanges, 47 bearings,

5 dust pelletizing systems, 51 air accumulators, 52 centrifugal blowers, 53 dust-removal cloth-bags,

A bag spiral, 9 air-transport systems, 91 roots blowers, 92 rotating valve assemblies, 10 gas are sent in 6 rollers, 7 feeding screws, 8 Source system, 11 transmission devices, 111 driving motors, 112 rollers, 12 main structures.

Embodiment

Conveying equipment of being unpacked with reference to Figure of description 1 to accompanying drawing 13 to interconnection system cement of the present utility model is made in detailed below Ground explanation.

Interconnection system cement of the present utility model is unpacked conveying equipment, and its structure includes belt feeder 3, feed hopper component 1, spiral Extruding bag-breaking device 4, dust pelletizing system 5, roller 6, feeding screw 7, send bag spiral 8, air-transport system 9, air supply system 10, pass Dynamic device 11 and main structure 12, described belt feeder 3 are obliquely installed, support on the ground, its top close to feed hopper component 1, The bottom of described feed hopper component 1 is provided with screw extrusion bag-breaking device 4, the bottom of described screw extrusion bag-breaking device 4 It is fixed in main structure 12, described transmission device 11 is fixed in main structure 12, described transmission device 11 and the phase of roller 6 Even, the top of described roller 6 is provided with dust pelletizing system 5, sieve aperture is provided with described roller 6, the bottom of roller 6 is provided with Feeding screw 7 and bag spiral 8 is sent, the right-side outlet of feeding screw 7 is connected with air-transport system 9, described Geldart-D particle system System 9, dust pelletizing system 5 and feed hopper component 1 are connected with air supply system 10 respectively.

Described feed hopper component 1 includes feed hopper 101, lid 102, cylinder assembly 13, big panel turnover component 14 and small turnover panel Component 15, the top of described feed hopper 101 are provided with lid 102, and described big panel turnover component 14 and small panel turnover component 15 are distinguished Be arranged on the left and right sides of feed hopper 101, described big panel turnover component 14 and small panel turnover component 15 respectively with the phase of cylinder assembly 13 Even.

Described cylinder assembly 13 includes big panel turnover component connection cylinder 131 and cylinder 132 is connected with small panel turnover component, described Big panel turnover component 14 be connected with big panel turnover component cylinder 131 be connected, described small panel turnover component 15 is connected with small panel turnover component Cylinder 132 is connected；

Described big panel turnover component 14 includes big turnover panel connecting shaft 141, big turnover panel axle bed 142, big turnover panel axle sleeve 143 and big Turnover panel 144, described big turnover panel connecting shaft 141 include two, are separately fixed at big turnover panel 144 with the both sides on one side, Mei Ge great Be respectively arranged with big turnover panel axle bed 142 and big turnover panel axle sleeve 143 in turnover panel connecting shaft 141, described big turnover panel axle bed 142 with it is big Turnover panel axle sleeve 143 is nested together, and big turnover panel axle sleeve 143 is placed in big turnover panel connecting shaft 141, and two big turnover panel connecting shaft 141 is divided Not Shen Chu the side wall of feed hopper 101, and the bottom for being connected cylinder 131 with big panel turnover component respectively is connected, described big panel turnover component The top of connection cylinder 131 is connected with being arranged on the cylinder connecting seat 16 on the top of feed hopper 101；

Described small panel turnover component 15 includes small turnover panel connecting shaft 151, small turnover panel axle bed 152, small turnover panel axle sleeve 153 and small Turnover panel 154, described small turnover panel connecting shaft 151 include two, are separately fixed at small turnover panel 154 with the both sides on one side, Mei Ge little Be respectively arranged with small turnover panel axle bed 152 and small turnover panel axle sleeve 153 in turnover panel connecting shaft 151, described small turnover panel axle bed 152 with it is small Turnover panel axle sleeve 153 is nested together, and small turnover panel axle sleeve 153 is placed in small turnover panel connecting shaft 151, and two small turnover panel connecting shaft 151 is divided Not Shen Chu the side wall of feed hopper 101, and the bottom for being connected cylinder 132 with small panel turnover component respectively is connected, described small panel turnover component The top of connection cylinder 132 is connected with being arranged on the cylinder connecting seat 16 on the top of feed hopper 101；

Described big turnover panel axle bed 142 and small turnover panel axle bed 152 are individually fixed in the fixed seat 17 of the bottom of feed hopper 101 On；

Turnover panel limited block 18 is respectively arranged with described big turnover panel 144 and the feed hopper 101 of the bottom of small turnover panel 154.It is right The opening degree progress of big turnover panel 144 and small turnover panel 154 is spacing, stops when reaching turnover panel limited block 18..

Closed during big turnover panel 144 and flat small turnover panel 154 in feed hopper 101, prevent personnel etc. from entering accidentally, produce safety Accident, there is material to enter fashionable big turnover panel 144 and small turnover panel 154 and open, bagged material by big turnover panel 144 and small turnover panel 154 it Between gap fall.

Big turnover panel 144 connects cylinder 131 in big panel turnover component respectively with small turnover panel 154 and connects cylinder with small panel turnover component Complete to open and close in the presence of 132, the cylinder rod that big panel turnover component connection cylinder 131 connects cylinder 132 with small panel turnover component is stretched out, band The dynamic big turnover panel connecting shaft 141 being attached thereto and small turnover panel connecting shaft 151 rotate so that with big turnover panel connecting shaft 141 and small The big turnover panel 144 and small turnover panel 154 that turnover panel connecting shaft 151 is fixedly connected are rotated down unlatching；When cylinder rod bounces back, big turnover panel 144 Closing is rotated up with small turnover panel 154.

Described screw extrusion bag-breaking device includes tube assembly 41 outside spiral, tube assembly 42, connecting shaft 43, transition in spiral Flange 44, reductor bearing 45, reductor 46 and bearing 47, tube assembly 42 is arranged on the outer tube assembly 41 of spiral in described spiral Interior, described one end of connecting shaft 43 is connected with tube assembly in spiral 42, and the other end is connected with reductor 46, described reductor 46 Fixed by reductor bearing 45 and the phase of counter flange 44, described counter flange 44 is fixed with the outer phase of tube assembly 41 of spiral, institute Bearing 47 is provided between the connecting shaft 43 and counter flange 44 stated.

Tube assembly 42 includes flange 421, helical blade 422 and small blade 423, institute on the left of spiral inner tube in described spiral The left side of flange 421 and helical blade 422 is welded to connect on the left of the spiral inner tube stated, and is fixed with described helical blade 422 Two circular small blades 423, described spiral inner tube left side flange 421 are fixed with the phase of connecting shaft 43；

The outer tube assembly 41 of described spiral includes framework 411, hopper 412 and spiral outer tube left side flange 413, described material Groove 412 is fixed on inside framework 411, and the bottom of described hopper 412 is circular arc, and left end is provided with flange on the left of spiral outer tube 413, right-end openings, open topped, the phase of flange 413 is fixed on the left of described counter flange 44 and spiral outer tube, described spiral Interior tube assembly 42 is arranged in hopper 412；Described hopper 412 is welded on inside framework 411；Described counter flange 44 and spiral shell Flange 413 is bolted fixation on the left of rotation outer tube；

Described connecting shaft 43 includes axis body 432 and connecting shaft right flange 431, described connecting shaft right flange 431 The right-hand member of axis body 432 is fixed on, described connecting shaft right flange 431 is fixed with the phase of flange 421 on the left of spiral inner tube, described The left end of axis body 432 is connected with reductor 46.

Described connecting shaft right flange 431 is welded in the right-hand member of axis body 432, described connecting shaft right flange 431 with Flange 421 is bolted fixation on the left of spiral inner tube.

The right side of described reductor 46 is provided with reductor right flange 461, described reductor right flange 461 with Reductor bearing 45 is bolted.

Described bearing 47 is bolted on counter flange 44.

Reductor 46 drives connecting shaft 43 to rotate, and connecting shaft 43 is revolved by flange 421 on the left of spiral inner tube fixed thereto Turn, flange 421 drives helical blade 422 to rotate on the left of spiral inner tube.

Bagged material enters from the top of hopper 412 of screw extrusion bag-breaking device, falls directly on tube assembly 42 in spiral On helical blade 422, with the rotation of helical blade 422, helical blade 422 plays squeezing action to material sack, while Under the booster action of the circular small blade 423 of helical blade 422, auxiliary broken bag is completed, while helical blade 422 material and gives up The right openings of hopper 412 discharge of bag tube assembly 41 outside spiral.

Blade bag-breaking device 2, described knife are provided between described feed hopper component 1 and screw extrusion bag-breaking device 4 Piece bag-breaking device 2 include lower bucket body 21, A shaft assemblies 22, B axle component 23, B axle component moving drive mechanism, reductor 26, First flange component 27, the flange assembly 29 of second flange component 28 and the 3rd, described A shaft assemblies 22 and B axle component 23 are distinguished The left and right sides being arranged in lower bucket body 21, described A shaft assemblies 22 and B axle component 23 are connected with reductor 26 respectively, described B axle component 23 be connected with B axle component moving drive mechanism, the reductor 26 being connected with A shaft assemblies 22 passes through first flange group Part 27 is connected with lower bucket body 21, and the reductor 26 being connected with B axle component 23 passes through the flange assembly of second flange component 28 and the 3rd 29 are connected with lower bucket body 21.

Described A shaft assemblies 22 include A axle bearings 221, A axles axle sleeve 222, A axles axis body 223 and A axles blade 224, described The rear and front end of A axles axis body 223 pass lower bucket body 21 respectively, the middle part of A axles axis body 223 is provided with A axles blade 224, A axle knives A axles axle sleeve 222 is respectively arranged with the A axles axis body 223 at the both ends of piece 224, is distinguished on the A axles axis body 223 in the outside of A axles axle sleeve 222 A axle bearings 221 are provided with, described A axle bearings 221 are fixed on lower bucket body 21, stretch out the A axles axis body 223 1 of lower bucket body 21 End is connected with reductor 26；

Described B axle component 23 includes B axle bearing 231, B axle axle sleeve 232, B axle axis body 233, B axle blade 234 and slided Plate 235, the rear and front end of described B axle axis body 233 pass lower bucket body 21 respectively, and the middle part of B axle axis body 233 is provided with B axle knife Piece 234, B axle axle sleeve 232, the B axle axle in the outside of B axle axle sleeve 232 are respectively arranged with the B axle axis body 233 at the both ends of B axle blade 234 B axle bearing 231 is respectively arranged with body 233, the upper and lower part of described B axle bearing 231 is respectively arranged with sliding panel 235, The one end of B axle axis body 233 for stretching out lower bucket body 21 is connected with reductor 26, and big sliding groove 211 is provided with described lower bucket body 21, Described B axle axis body 233 is located in big sliding groove 211；

The described flange assembly 29 of second flange component 28 and the 3rd includes mounting flange 281 and loose flange 282 respectively, The reductor 26 being connected with B axle axis body is connected with loose flange 282, and described loose flange 282 is separately positioned on B axle bearing 231 outside, described mounting flange 281 are fixed with the lower phase of bucket body 21 respectively, the sliding panel 235 on described B axle bearing 231 Loose flange 282 is each passed through, described mounting flange 281 is separately positioned on the upper and lower part of loose flange 282, described It is respectively arranged with small sliding groove 283 on the mounting flange 281 corresponding with sliding panel 235, the sliding panel 235 on B axle bearing 231 Be placed in small sliding groove 283, the loose flange 282 on second flange component 28 with and the reductor 26 that is connected of B axle axis body be connected, Described loose flange 282 is connected with B axle component moving drive mechanism.

Described B axle component moving drive mechanism includes hand adjustment wheel assembly 24, adjustment bar assembly 25 and chain 210, described Hand adjustment wheel assembly 24 with adjustment bar assembly 25 be connected by chain 210, described hand adjustment wheel assembly 24 and adjust bar assembly 25 It is connected respectively with the loose flange 282 on the flange assembly 29 of second flange component 28 and the 3rd；

Described hand adjustment wheel assembly 24 includes hand adjustment wheel 241, hand adjustment wheel adjusting seat 242, hand adjustment wheel sprocket 243, hand adjustment wheel Axle bed 244 and hand adjustment wheel shaft 245, described hand adjustment wheel adjusting seat 242, hand adjustment axle block 244, hand adjustment wheel sprocket 243 and hand adjustment Wheel 241 is from left to right successively set on hand adjustment wheel shaft 245, and the described left end of hand adjustment wheel shaft 245 is provided with trapezoidal thread, described Hand adjustment wheel adjusting seat 242 and the screw thread of hand adjustment wheel shaft 245 coordinate, described hand adjustment wheel adjusting seat 242 and second flange component 28 The phase of loose flange 282 fix；

Described adjustment bar assembly 25 includes adjustment bar axle 251, adjustment bar chain wheel 252, adjustment bar axle bed 253 and adjustment bar Adjusting seat 254, described adjustment bar adjusting seat 254, adjustment bar axle bed 253 and adjustment bar chain wheel 252 are from left to right set gradually On adjustment bar axle 251, the described left end of adjustment bar axle 251 is provided with trapezoidal thread, and described adjustment bar adjusting seat 254 is with adjusting The whole screw thread of bar axle 251 coordinates, and described adjustment bar adjusting seat 254 and the phase of loose flange 282 of the 3rd flange assembly 29 are fixed；

Described hand adjustment wheel sprocket 243 is connected with adjustment bar chain wheel 252 by chain 210.

Described sliding panel 235 is bolted on B axle bearing 231.

B axle axis body 233 in 21 two axles of lower bucket body of blade bag-breaking device 2 can be by adjusting hand adjustment wheel 241 come horizontal To movement, can so increase accordingly or reduce with the distance between axles of A axles axis body 223, so as to adjust A axles axis body 223 and B axle The distance of two groups of blades on axis body 233, the sack of various different size sizes always is adapted to, improves the general of bag-breaking device Property.

The hand adjustment wheel 241 in hand adjustment wheel assembly 24 is rotated, hand adjustment wheel 241 drives hand adjustment wheel shaft 245 to rotate, hand adjustment wheel shaft So as to drive hand adjustment wheel sprocket 243 to rotate, hand adjustment wheel sprocket 243 drives adjustment bar chain wheel 252 to revolve by chain 210 for 245 rotations Turn, adjustment bar chain wheel 252 drives adjustment bar axle 251 to rotate, and hand adjustment wheel shaft 245 and adjustment bar axle 251 rotate respectively, so as to drive The hand adjustment wheel adjusting seat 242 and adjustment bar adjusting seat 254 being attached thereto move along hand adjustment wheel shaft 245 and adjustment bar axle 251 respectively, Hand adjustment wheel adjusting seat 242 and adjustment bar adjusting seat 254 drive the flange group of second flange component 28 and the 3rd being attached thereto respectively Loose flange 282 in part 29 moves, the reductor 26 that is connected with loose flange 282, the B axle component 23 being connected with reductor 26 Simultaneously mobile, big sliding groove 211 of the B axle axis body 233 along lower bucket body 21 in B axle component 23 moves, the slip in B axle component 23 Plate 235 moves along the small sliding groove 283 in mounting flange 281, so as to increase or reduce accordingly and A axles axis body 223 Distance between axles, so as to adjust the distance of two groups of blades on A axles axis body 223 and B axle axis body 233.

Described dust pelletizing system 5 includes dust-removal cloth-bag 53, air accumulator 51 and centrifugal blower 52, and described dust-removal cloth-bag 53 is set Put and be arranged in the top of roller 6, described air accumulator 51 in dust-removal cloth-bag 53, described centrifugal blower 52 is arranged on dust removing cloth The outside of bag 53；Described air-transport system 9 includes roots blower 91 and rotating valve assembly 92, described roots blower 91 and rotation Rotary valve component 92 is connected, and described rotating valve assembly 92 is connected with the right-side outlet of feeding screw 7, described rotating valve assembly 92 It is connected respectively with air supply system 10 with air accumulator 51.

Described transmission device 11 includes driving motor 111 and roller 112, and described roller 112 is described including four Roller 6 is arranged on the top of roller 112, and described driving motor 111 is connected with roller 112, and driving drum 6 rotates.Roller 6 plays Separate the effect of powder and useless bag.

Described feeding screw 7 includes spiral and motor, and described send bag spiral 8 to include spiral and motor, and described send Expect that spiral 7 is arranged on the bottom of main structure 12, play a part of conveying material, send bag spiral 8 to be arranged on the right side of main structure 12, Play a part of excluding useless bag；Described air supply system 10 includes air compressor machine and pipeline, and described air compressor machine is distinguished by pipeline The air accumulator 51 of cylinder assembly, dust pelletizing system 55, the rotating valve assembly 92 of air-transport system 9 with feed hopper component are connected, Air supply system 10 provides tolerance for the hermetic seal of rotating valve assembly 92 and the blowback of dust pelletizing system 55.

Bagged cement is transported to feed hopper component 1, the big turnover panel 144 and small turnover panel of feed hopper component 1 by belt feeder 3 154 are opened, and bagged cement enters blade bag-breaking device 2 by the gap between big turnover panel 144 and small turnover panel 154, and broken bag is completed Afterwards, cement enters screw extrusion bag-breaking device 4 together with useless bag, material is shipped in roller 6 by spiral, roller 6 is completed The screening of bag of cement and cement, useless bag, which enters, send bag spiral 8, by sending the device for transferring of bag spiral 8, the sieve that cement passes through roller 6 Hole is entered in the feeding screw 7 of the lower section of roller 6.Cement is sent into air-transport system 9, air-transport system 9 by feeding screw 7 Cement transportation into cement bin.

Illustrative embodiments listed above are only not to described by the utility model for understanding that the utility model is used The restriction of technical scheme, the those of ordinary skill about field, on the basis of technical scheme described in claim, it can also make Go out a variety of changes or deformation, all equivalent changes or deformation should all cover claims of the present utility model it It is interior.Part is not described in detail for the utility model, is the known technology of those skilled in the art of the present technique.

Claims (10)

1. The conveying equipment 1. interconnection system cement is unpacked, it is characterized in that：Including belt feeder, feed hopper component, screw extrusion bag-breaking device, Dust pelletizing system, roller, feeding screw, a bag spiral, air-transport system, air supply system, transmission device and main structure are sent, it is described Belt feeder is obliquely installed, and on the ground, its top is provided with close to feed hopper component, the bottom of described feed hopper component for support Screw extrusion bag-breaking device, the bottom of described screw extrusion bag-breaking device are fixed in main structure, and described transmission device is consolidated It is scheduled in main structure, described transmission device is connected with roller, and the top of described roller is provided with dust pelletizing system, described rolling Sieve aperture is provided with cylinder, the bottom of roller is provided with feeding screw and send a bag spiral, the right-side outlet and pneumatic transporting of feeding screw System is sent to be connected, described air-transport system, dust pelletizing system and feed hopper component are connected with air supply system respectively.
2. The conveying equipment 2. interconnection system cement according to claim 1 is unpacked, it is characterized in that：Described feed hopper component includes Feed hopper, lid, cylinder assembly, big panel turnover component and small panel turnover component, the top of described feed hopper are provided with lid, and described is big Panel turnover component and small panel turnover component are separately positioned on the left and right sides of feed hopper, described big panel turnover component and small panel turnover component point It is not connected with cylinder assembly.
3. The conveying equipment 3. interconnection system cement according to claim 2 is unpacked, it is characterized in that：Described cylinder assembly includes big Panel turnover component connection cylinder connects cylinder with small panel turnover component, and described big panel turnover component is connected cylinder phase with big panel turnover component Even, described small panel turnover component is connected cylinders with small panel turnover component；

   Described big panel turnover component includes big turnover panel connecting shaft, big turnover panel axle bed, big turnover panel axle sleeve and big turnover panel, and described turns over greatly Plate connecting shaft includes two, is separately fixed at both sides of the big turnover panel with one side, is respectively arranged with each big turnover panel connecting shaft big Turnover panel axle bed and big turnover panel axle sleeve, described big turnover panel axle bed are nested together with big turnover panel axle sleeve, and big turnover panel axle sleeve, which is placed on, to be turned over greatly In plate connecting shaft, two big turnover panel connecting shaft stretches out feed hopper side wall respectively, and is connected respectively with big panel turnover component under cylinder Portion is connected, and the top of described big panel turnover component connection cylinder is connected with being arranged on the cylinder connecting seat on feed hopper top；

   Described small panel turnover component includes small turnover panel connecting shaft, small turnover panel axle bed, small turnover panel axle sleeve and small turnover panel, described small to turn over Plate connecting shaft includes two, is separately fixed at both sides of the small turnover panel with one side, is respectively arranged with each small turnover panel connecting shaft small Turnover panel axle bed and small turnover panel axle sleeve, described small turnover panel axle bed are nested together with small turnover panel axle sleeve, and small turnover panel axle sleeve is placed on small turn over In plate connecting shaft, two small turnover panel connecting shaft stretches out feed hopper side wall respectively, and is connected respectively with small panel turnover component under cylinder Portion is connected, and the top of described small panel turnover component connection cylinder is connected with being arranged on the cylinder connecting seat on feed hopper top；

   Described big turnover panel axle bed and small turnover panel axle bed are individually fixed in the fixed seat of feed hopper bottom；

   Turnover panel limited block is respectively arranged with described big turnover panel and the feed hopper of small turnover panel bottom.
4. The conveying equipment 4. interconnection system cement according to claim 1 is unpacked, it is characterized in that：Described screw extrusion broken bag dress Put including tube assembly, connecting shaft, counter flange, reductor bearing, reductor and bearing in tube assembly outside spiral, spiral, it is described Spiral in tube assembly be arranged in the outer tube assembly of spiral, described connecting shaft one end is connected with tube assembly in spiral, the other end It is connected with reductor, described reductor is mutually fixed by reductor bearing with counter flange, described counter flange and spiral Outer tube assembly is mutually fixed, and bearing is provided between described connecting shaft and counter flange.
5. The conveying equipment 5. interconnection system cement according to claim 4 is unpacked, it is characterized in that：Tube assembly bag in described spiral Flange, helical blade and small blade on the left of spiral inner tube are included, the left side of flange and helical blade is consolidated on the left of described spiral inner tube It is fixed to connect, two circular small blades, described spiral inner tube left side flange and connecting shaft are fixed with described helical blade It is mutually fixed；

   The outer tube assembly of described spiral includes framework, hopper and spiral outer tube left side flange, described hopper and is fixed in framework Portion, the bottom of described hopper are circular arc, and left end is provided with flange on the left of spiral outer tube, right-end openings, and open topped is described Counter flange and spiral outer tube on the left of flange mutually fix, tube assembly is arranged in hopper in described spiral；

   Described connecting shaft includes axis body and connecting shaft right flange, and described connecting shaft right flange is fixed on the right side of axis body End, described connecting shaft right flange are mutually fixed with flange on the left of spiral inner tube, and the left end of described axis body is connected with reductor.
6. The conveying equipment 6. interconnection system cement according to claim 1 is unpacked, it is characterized in that：Described feed hopper component and spiral shell Blade bag-breaking device is provided between rotation extruding bag-breaking device, described blade bag-breaking device includes lower bucket body, A axle groups Part, B axle component, B axle component moving drive mechanism, reductor, first flange component, second flange component and the 3rd flange group Part, described A shaft assemblies and B axle component are separately positioned on the left and right sides in lower bucket body, described A shaft assemblies and B axle component It is connected respectively with reductor, described B axle component is connected with B axle component moving drive mechanism, the reductor being connected with A shaft assemblies It is connected by first flange component with lower bucket body, the reductor being connected with B axle component passes through second flange component and the 3rd flange Component is connected with lower bucket body.
7. The conveying equipment 7. interconnection system cement according to claim 6 is unpacked, it is characterized in that：Described A shaft assemblies include A axles Bearing, A axles axle sleeve, A axles axis body and A axle blades, the rear and front end of described A axle axis bodies pass lower bucket body respectively, A axle axis bodies Middle part is provided with A axle blades, is respectively arranged with A axle axle sleeves on the A axle axis bodies at A axle blades both ends, the A axle axles on the outside of A axle axle sleeves A axle bearings are respectively arranged with body, described A axle bearings are fixed on lower bucket body, stretch out A axle axis bodies one end of lower bucket body with subtracting Fast machine is connected；

   Described B axle component includes B axle bearing, B axle axle sleeve, B axle axis body, B axle blade and sliding panel, described B axle axis body Rear and front end passes lower bucket body respectively, and B axle blade is provided with the middle part of B axle axis body, is distinguished on the B axle axis body at B axle blade both ends Be provided with B axle axle sleeve, be respectively arranged with B axle bearing on the B axle axis body on the outside of B axle axle sleeve, the top of described B axle bearing and under Portion is respectively arranged with sliding panel, and the B axle axis body one end for stretching out lower bucket body is connected with reductor, is provided with described lower bucket body big Sliding groove, described B axle axis body are located in big sliding groove；

   Described second flange component and the 3rd flange assembly include mounting flange and loose flange respectively, are connected with B axle axis body Reductor be connected with loose flange, described loose flange is separately positioned on the outside of B axle bearing, described mounting flange point Do not fixed mutually with lower bucket body, the sliding panel on described B axle bearing is each passed through loose flange, and described mounting flange is set respectively Put and be respectively arranged with small sliding groove, B on the upper and lower part of loose flange, the mounting flange corresponding with sliding panel Sliding panel on axle bearing is placed in small sliding groove, the loose flange on second flange component with and the deceleration that is connected of B axle axis body Machine is connected, and described loose flange is connected with B axle component moving drive mechanism.
8. The conveying equipment 8. interconnection system cement according to claim 7 is unpacked, it is characterized in that：Described B axle component movement is driven Motivation structure includes hand adjustment wheel assembly, adjustment bar assembly and chain, and described hand adjustment wheel assembly and adjustment bar assembly pass through chain phase Even, described hand adjustment wheel assembly and adjust bar assembly respectively with the loose flange phase on second flange component and the 3rd flange assembly Even；

   Described hand adjustment wheel assembly includes hand adjustment wheel, hand adjustment wheel adjusting seat, hand adjustment wheel sprocket, hand adjustment axle block and hand adjustment wheel shaft, Described hand adjustment wheel adjusting seat, hand adjustment axle block, hand adjustment wheel sprocket and hand adjustment wheel is from left to right successively set on hand adjustment wheel shaft, Described hand adjustment wheel shaft left end is provided with trapezoidal thread, and described hand adjustment wheel adjusting seat coordinates with hand adjustment wheel shaft, described Hand adjustment wheel adjusting seat and the loose flange of second flange component are mutually fixed；

   Described adjustment bar assembly includes adjustment bar axle, adjustment bar chain wheel, adjustment bar axle bed and adjustment bar adjusting seat, described tune Whole bar adjusting seat, adjustment bar axle bed and adjustment bar chain wheel are from left to right successively set on adjustment bar axle, described adjustment bar axle Left end is provided with trapezoidal thread, and described adjustment bar adjusting seat coordinates with adjustment bar axle thread, described adjustment bar adjusting seat with The loose flange of 3rd flange assembly is mutually fixed；

   Described hand adjustment wheel sprocket is connected with adjustment bar chain wheel by chain.
9. The conveying equipment 9. interconnection system cement according to claim 1 is unpacked, it is characterized in that：Described dust pelletizing system includes removing Dirt cloth bag, air accumulator and centrifugal blower, described dust-removal cloth-bag are arranged on the top of roller, and described air accumulator is arranged on dedusting In cloth bag, described centrifugal blower is arranged on the outside of dust-removal cloth-bag；Described air-transport system includes roots blower and rotation Valve module, described roots blower are connected with rotating valve assembly, the right-side outlet phase of described rotating valve assembly and feeding screw Even, described rotating valve assembly and air accumulator are connected with air supply system respectively.
10. The conveying equipment 10. interconnection system cement according to claim 1 is unpacked, it is characterized in that：Described transmission device includes Driving motor and roller, described roller include four, and described roller is arranged on roller top, described driving motor and rolling Wheel is connected, driving drum rotation.