CN103737714B - Semi automatic block streamline - Google Patents

Abstract

The invention provides a kind of semi automatic block streamline, belong to field of mechanical technique.It solve brick making system link inharmonious, complex structure, the problem that assembling is inconvenient.This semi automatic block streamline comprises proportioning machine arranged in a straight line successively, mixer, block machine and buttress ink recorder, the discharging opening of proportioning machine is connected with out material strip, below the blanking end going out material strip, truck is set, below truck, be provided with material conveyor, the described material conveyor other end connects mixer; The discharge end of mixer is connected by belt conveyor with the feed end of block machine, between block machine and buttress ink recorder, be provided with brick producing machine.The present invention has that production efficiency is high, the simple advantage of good stability, textural association.

Description

Semi automatic block streamline

Technical field

The invention belongs to field of mechanical technique, particularly a kind of semi automatic block streamline.

Background technology

Along with the develop rapidly of modernization science and technology, brand-new concrete brick-making technology has eliminated traditional burning process, and has realized automation and intellectuality, and whole brickmaking flow process has been come by a series of brick making device.Existing brick making system generally comprises proportioner, agitating device, building block forming device, goes out brick device, folds brick device etc., each device all has the different division of labor, link is there is inharmonious, complex structure, the problems that assembling is inconvenient between existing each device.

Summary of the invention

The object of the invention is to there are the problems referred to above for existing technology, propose that a kind of production efficiency is high, the semi automatic block streamline of good stability.

Object of the present invention realizes by following technical proposal: a kind of semi automatic block streamline, it is characterized in that, comprise proportioning machine arranged in a straight line successively, mixer, block machine and buttress ink recorder, the discharging opening of proportioning machine is connected with out material strip, below the blanking end going out material strip, truck is set, below truck, be provided with material conveyor, the described material conveyor other end connects mixer, the discharge end of mixer is connected by belt conveyor with the feed end of block machine, between block machine and buttress ink recorder, be provided with brick producing machine, described block machine comprises block machine frame, block machine frame is by one group of front support vertical rod, one group of rear support vertical rod and one group of intermediate uprights form, intermediate uprights is between front support vertical rod and rear support vertical rod, front support vertical rod, rear support vertical rod is parallel to each other with intermediate uprights respectively, be connected by axial connecting rod on a group between front support vertical rod and the upper end of rear support vertical rod, by being connected with axial connecting rod under a group between lower end, two front support vertical rods, two rear support vertical rods, connect respectively by lateral connection bar on a group between the upper end of intermediate uprights, connect respectively by connecting rod horizontal under a group between lower end, the upper and lower side of intermediate uprights is connected with the upper axial connecting rod of homonymy and lower axial connecting rod respectively, two front support vertical rods and two intermediate uprights form first point of frame, the top of this first point of frame is provided with top cover, in this first point of frame, forming machine is installed, two rear support vertical rods and two intermediate uprights form second point of frame, in this second point of frame, charger is installed, belt conveyor is arranged between the feed end of charger and the discharge end of mixer.

In above-mentioned semi automatic block streamline, brick producing machine comprises brick producing machine frame, transfer passage and the round brush be positioned at above transfer passage, brick producing machine frame bilateral symmetry is provided with two adjustment supports, described round brush is installed in rotation between two adjustment supports, described brick producing machine frame is provided with motor and motor is positioned at below transfer passage, motor output end is provided with drive sprocket, described round brush has the driven sprocket that matches with drive sprocket and described driven sprocket is connected with drive sprocket by driving chain, described adjustment support has at least one arc regulating tank, and described brick producing machine frame offers and arc regulating tank adjustment hole one to one.

In above-mentioned semi automatic block streamline, described adjustment support comprises installation portion and adjusting portion, and described installation portion one end is articulated and connected in brick producing machine frame, and the other end is connected with round brush, and above-mentioned arc regulating tank is opened in adjusting portion.

In above-mentioned semi automatic block streamline, described proportioning machine comprises the first feed bin, the second feed bin and the 3rd feed bin, first feed bin and the second feed bin are arranged side by side and are provided with material conveyor belt in the discharge outlet of the first feed bin and the second feed bin, and the blanking end of two material conveyor belts is all positioned at the top of the 3rd feed bin charging aperture, the discharging opening of the 3rd feed bin is positioned at above-mentioned going out above material strip.

In above-mentioned semi automatic block streamline, proportioning machine frame is provided with inductor and inductor flushes with the 3rd feed bin charging aperture, is provided with the shut being controlled opening and closing by inductor in the discharge outlet of the first feed bin, the second feed bin and the 3rd feed bin.

In above-mentioned a kind of semi automatic block streamline, described charger comprises feed hopper, conveyer belt, mobile magazine, described feed hopper is installed on frame rear end top, described conveyer belt to be axially set on second point of frame and to be positioned at below feed hopper, described mobile magazine to be axially set on second point of frame and to be positioned at below conveyer belt, mobile magazine is flexibly connected with frame rear end and moves axially in frame, and the parallel distance between described mobile magazine to lower module is less than the parallel distance between conveyer belt to lower module.

In above-mentioned a kind of semi automatic block streamline, charger also comprises mobile idler pulley and guide post, described mobile idler pulley is arranged at bottom, mobile hopper both sides respectively, guide post is arranged at second point of frame both sides respectively, described mobile hopper is moved axially on guide post by mobile idler pulley, be provided with rotation flitch bottom described mobile hopper, mobile hopper both sides are provided with driving swivel link, and described driving swivel link is connected with rotation flitch and controls to rotate flitch closure or openness.

In above-mentioned a kind of semi automatic block streamline, guide pillar is respectively arranged with in both sides, block machine frame front end, top shoe and sliding block is provided with in frame, described guide pillar is arranged with respectively the upper guide bush running through top shoe and the lower guide pin bushing running through sliding block, top shoe, sliding block both sides lateral wall offers breach respectively, described breach extends to corresponding upper guide bush respectively, the lateral wall of lower guide pin bushing, the width of described breach is greater than guide pillar diameter, upper guide bush, lower guide pin bushing lateral wall extends outward guide pillar mounting blocks respectively, described guide pillar mounting blocks respectively with corresponding top shoe, sliding block is flexibly connected and makes top shoe, sliding block is vertically movement on guide pillar, the upper and lower two ends of described guide pillar are flexibly connected with frame respectively, described guide pillar bottom is provided with support column, support column bottom and block machine frame are connected, support column upper horizontal is provided with clamp assemblies, clamp assemblies comprises fixture and movable part, described fixture and support column are connected, described movable part is threaded with fixture, wheel flange is formed between fixture and holder, described guide pillar bottom is fixed in wheel flange.

In above-mentioned a kind of semi automatic block streamline, concrete vibrating mechanism is provided with bottom described block machine frame, described concrete vibrating mechanism is positioned at bottom sliding block, concrete vibrating mechanism comprises the pedestal that vibrates, supporting seat, vibro-rammer and vibrator, be connected bottom described supporting seat and frame, described supporting seat is erected on pedestal both sides of vibrating respectively, and described vibro-rammer is fixed on supporting seat, and described vibrator is fixedly installed on the lower surface of vibro-rammer.

In above-mentioned a kind of semi automatic block streamline, driving oil cylinder is provided with between described sliding block and block machine frame bottom, oil cylinder lower end is driven to be flexibly connected with block machine frame, sliding block lower surface is provided with connector, described connector comprises the connection lug that fixed block and two is parallel to each other, fixed block is flexibly connected with sliding block lower surface, two connect lug is vertically installed in fixed block lower surface both sides respectively, two connection lugs start there is coaxial connecting hole respectively, described driving oil cylinder top is provided with the connection collar coaxial with connecting hole, the described connection collar stretches between two connection lugs and the two is connected by connecting axle.

In above-mentioned a kind of semi automatic block streamline, both sides, described block machine frame front end are respectively arranged with balance columns, balance columns bottom is provided with installation component, installation component comprises installing sleeve and the balance columns mounting blocks be positioned at bottom installing sleeve, balance columns lower end is inserted in installing sleeve, balance columns mounting blocks is flexibly connected with sliding block upper surface, top shoe and frame top end face are run through in described balance columns upper end, balance columns upper end is provided with the first tooth bar, frame top is provided with first gear suitable with the first tooth bar, described first gear and the first tooth bar are connected with a joggle.

In above-mentioned a kind of semi automatic block streamline, top shoe top is vertically installed with the first gag lever post, described first gag lever post stretches out beyond frame top, described first gag lever post has two and is horizontally set at frame top, and the top of the first gag lever post is horizontally arranged with the limit shaft running through described first gag lever post.

In above-mentioned a kind of semi automatic block streamline, lazy-tongs are provided with between described top shoe and frame, described lazy-tongs comprise the second tooth bar and the second gear, second tooth bar is arranged on frame madial wall, second gear is arranged at top shoe edge, and described second gear and the second tooth bar are connected with a joggle.

In above-mentioned a kind of semi automatic block streamline, described top shoe both sides are vertically installed with the second gag lever post, described frame madial wall is horizontally arranged with limited block, and described second gag lever post bottom equals the distance of cope match-plate pattern lower surface to lower bolster upper surface to the distance of limited block upper surface.

Compared with prior art, the present invention has the following advantages:

1, in block machine, any one parts of guidance system can dismounting separately, without the need to integral disassembly, assembly, if there is damaged location, only need to remove parts separately, keep in repair, change convenient, the difficulty of dismounting, maintenance reduces greatly, labour intensity reduces, and labour cost reduces;

2, because dismounting is convenient, the time of whole maintenance or replacing greatly reduces, and thus can not delay the process time of forming machine, ensure that the production efficiency of forming machine;

3, dismounting, maintenance are only carried out for the parts damaged, and without the need to integral disassembly, assembly, therefore can not have an impact to other parts damaged outside parts, decrease unnecessary loss.

4, in brick producing machine, only drive round brush running with a driving motor, and added adjustment support in brick producing machine frame, the convenient height regulating round brush, the clean requirement of the fragment of brick of different size can be met, without the need to frequently changing round brush, time saving and energy saving, reasonable in design and versatility is wide.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Fig. 2 is the structural representation at another visual angle of the present invention.

Fig. 3 is the structural representation of proportioning machine in the present invention.

Fig. 4 is the perspective view of proportioning machine in the present invention.

Fig. 5 is the front perspective view of block machine in the present invention.

Fig. 6 is the back side perspective view of block machine in the present invention.

Fig. 7 is the positive facade structural representation of block machine in the present invention.

Fig. 8 is the side elevation structural representation of block machine in the present invention.

Fig. 9 is the three-dimensional drawing of lower clamp assemblies in block machine in the present invention.

Figure 10 is the drawing of installing sleeve and connector in block machine in the present invention.

Figure 11 is the structural representation of brick producing machine in the present invention.

Figure 12 is the structural representation at another visual angle of Figure 11.

Figure 13 is the structural representation at another visual angle of Figure 12.

Figure 14 is the structural representation at another visual angle of Figure 13.

In figure, 1, proportioning machine; 2, mixer; 3, block machine; 4, brick producing machine; 5, ink recorder is piled up neatly; 6, truck; 7, material conveyor; 8, belt conveyor; 10, brick producing machine frame; 11, adjustment hole; 20, transfer passage; 30, round brush; 31, driven sprocket; 40, support is regulated; 41, installation portion; 42, adjusting portion; 42a, regulating tank; 50, driving motor; 51, drive sprocket; 60, mount pad; 100, block machine frame; 110, front support vertical rod; 120, intermediate uprights; 130, rear support vertical rod; 140, upper lateral connection bar; 141, lower horizontal connecting rod; 150, upper axial connecting rod; 151, lower axial connecting rod; 160, top cover; 161, vertical block; 162, gear shaft; 163, the first gear; 164, stator ring; 170, the second tooth bar; 180, limited block; 200, top shoe; 210, upper mould piece; 220, briquetting; 230, upper breach; 240, the first gag lever post; 241, limit shaft; 250, the second gear; 260, the second gag lever post; 300, sliding block; 310, lower module; 320, die cavity; 330, lower breach; 400, fixed head; 410, column; 420, vibrate pedestal; 430, vibro-rammer; 440, vibrator; 450, vibrating motor; 500, guide pillar; 510, upper clamp assemblies; 520, upper guide bush; 521, upper mounting blocks; 530, lower guide pin bushing; 531, lower mounting blocks; 540, support column; 550, lower clamp assemblies; 551, lower fixture; 552, lower movable part; 600, balance columns; 610, installing sleeve; 611, circular mounting block; 620, connector; 621, fixed block; 622, lug is connected; 630, oil cylinder is driven; 631, the collar is connected; 640, firm banking; 650, connecting axle; 700, feed hopper; 710, conveyer belt; 720, U-shaped support; 721, Connection Block; 730, mobile hopper; 731, mobile idler pulley; 732, drive link; 740, cross bar is connected; 741, parting bead; 742, guide post; 1000, proportioning machine frame; 1001, the first feed bin; 1002, the second feed bin; 1003, the 3rd feed bin; 1004, material conveyor belt; 1005, material strip is gone out; 1006, inductor.

Detailed description of the invention

Be below specific embodiments of the invention and by reference to the accompanying drawings, technical scheme of the present invention is further described, but the present invention be not limited to these embodiments.

As depicted in figs. 1 and 2, this semi automatic block streamline comprises proportioning machine 1 arranged in a straight line successively, mixer 2, block machine 3, brick producing machine 4 and buttress ink recorder 5.

As shown in Figure 3 and Figure 4, proportioning machine 1 comprises proportioning machine frame 1000, first feed bin 1001, second feed bin 1002 and the 3rd feed bin 1003, wherein the first feed bin 1001 and the second feed bin 1002 are disposed side by side on proportioning machine frame 1000 top, and be provided with material conveyor belt 1004 in the discharge outlet of the first feed bin 1001 and the second feed bin 1002, the material conveyor belt 1004 of the first feed bin 1001 and the material conveyor belt 1004 of the second feed bin 1002 set on the same line, and the throughput direction of two material conveyor belts 1004 is contrary.3rd feed bin 1003 is arranged on proportioning machine frame 1000 bottom and the blanking end of two material conveyor belts 1004 is positioned at the top of the 3rd feed bin 1003 charging aperture, and the discharging opening of the 3rd feed bin 1003 is connected with out material strip 1005.In the first feed bin 1001 that two kinds of different materials are first poured into proportioning machine 1 according to the composition of fragment of brick by operating personnel and the second feed bin 1002, two kinds of materials drop into respective material conveyor belt 1004 from the first feed bin 1001 and the second feed bin 1002 discharge outlet respectively, and input in the 3rd feed bin 1003 through material conveyor belt 1004, transfer out finally by going out material strip 1005.

When designing, first feed bin 1001 is identical with the size of the second feed bin 1002, the bore of its discharging opening is also identical, therefore the ratio dropping into two kinds of materials in the 3rd feed bin 1003 can be controlled by the transmission speed of material conveyor belt 1004, when the ratio of such as, two kinds of materials in the 3rd feed bin 1003 is 1:2, the transmission speed for the material conveyor belt 1004 carrying two kinds of materials is set as 1:2.By regulating and controlling the transmission speed of material conveyor belt 1004, can adjust the ratio of two kinds of materials in the 3rd feed bin 1003 effectively accurately, without the need to artificial special allotment, flexibility is strong, and error is little.

Further, proportioning machine frame 1000 is provided with inductor 1006 and inductor 1006 flushes with the 3rd feed bin 1003 charging aperture, at the first feed bin 1001, the discharging opening of the second feed bin 1002 and the 3rd feed bin 1003 is provided with shut, the startup of shut is controlled by inductor 1006, in an initial condition, the shut of the first feed bin 1001 and the second feed bin 1002 is in open mode, the shut of the 3rd feed bin 1003 is in closed condition, namely the material in the first feed bin 1001 and the second feed bin 1002 drops on respective material conveyor belt 1004 by respective discharging opening, when the material that inductor 1006 detects in the 3rd feed bin 1003 reaches setting, inductor 1006 sends signal, the discharging opening of the first feed bin 1001 and the second feed bin 1002 closes by the shut of the first feed bin 1001 and the second feed bin 1002 upon receipt of the signals, meanwhile, the shut of the 3rd feed bin 1003 is in open mode, and the material in the 3rd feed bin 1003 can be fallen into going out material strip 1005 from its discharge outlet.The opening and closing of three feed bins is controlled by inductor 1006, thus make the 3rd feed bin 1,003 first feed bin 1001 and second feed bin 1002 when blowing can not carry out feeding work to the 3rd feed bin 1003 again, ensure that the amount of the material that the 3rd feed bin 1003 is released at every turn is constant, amount required when amount during each blowing of the 3rd feed bin 1003 is follow-up block machine 3 block work, avoids the waste of material.

Going out below the blanking end of material strip 1005 to be provided with truck 6, material conveyor 7 is provided with below truck 6, the other end of material conveyor 7 connects mixer 2, when the material in the 3rd feed bin 1003 is all delivered to after in truck 6 through going out material strip 1005, truck 6 moves to mixer 2 feed end place under the drive of material conveyor 7, moves into place rear truck 6 and tilts and be poured in mixer 2 by material to carry out stirring work.

As shown in Fig. 5 to Figure 10, block machine 3 comprises block machine frame 100, block machine frame 100 entirety is rectangular-shaped, comprise one group of front support vertical rod 110, one group of rear support vertical rod 130 and one group of intermediate uprights 120, intermediate uprights 120 is between front support vertical rod 110 and rear support vertical rod 130, front support vertical rod 110, rear support vertical rod 130 is parallel to each other with intermediate uprights 120 respectively, be connected by axial connecting rod 150 on a group between front support vertical rod 110 and the upper end of rear support vertical rod 130, by being connected with connecting rod 151 axial under a group between lower end, two front support vertical rods 110, two rear support vertical rods 130, connect respectively by lateral connection bar 140 on a group between the upper end of intermediate uprights 120, connect respectively by horizontal connecting rod 141 under a group between lower end, the upper and lower side of intermediate uprights 120 is connected with the upper axial connecting rod 150 of homonymy and lower axial connecting rod 151 respectively, two front support vertical rods 110 and two intermediate uprights 120 form first point of frame, the top of this first point of frame is provided with top cover 160, in this first point of frame, forming machine is installed, two rear support vertical rods 130 and two intermediate uprights 120 form second point of frame, in this second point of frame, charger is installed, be connected by belt conveyor 8 between the feed end of charger and the discharge end of mixer 2.

Top shoe 200 and sliding block 300 are installed first point of frame inside, this top shoe 200 is provided with rectangular-shaped upper mould piece 210, upper mould piece 210 has multiple briquetting 220, this lower module is provided with lower module 310, lower module 310 has multiple die cavity 320 matched with briquetting 220, die cavity about 320 is overall through, bottom lower module 310, supporting plate is installed, bottom first point of frame, concrete vibrating mechanism is installed, this concrete vibrating mechanism is positioned at bottom supporting plate, this concrete vibrating mechanism comprises supporting seat, vibrate pedestal 420, vibro-rammer 430, vibrator 440, this supporting seat comprises fixed head 400, fixed head 400 two ends are vertically installed with the column 410 running through fixed head 400 respectively, two column 410 bottoms are fixedly connected with bottom first point of frame, this fixed head 400 and two columns 410 are flexibly connected by screw thread and fixed head 400 parallel vertical can move on two columns 410, this pedestal 420 that vibrates has two and is individually fixed in the both sides upper surface of fixed head 400, this vibro-rammer 430 both sides lower surface pedestal 420 that vibrates respectively is fixedly connected with, vibro-rammer 430 upper surface is provided with running roller, above-mentioned supporting plate rests on running roller, vibrator 440 is arranged at the lower surface of vibro-rammer 430, the lateral wall of two intermediate uprights 120 is installed a vibrating motor 450 respectively, two vibrating motors 450 are electrically connected with vibrator 440 respectively and control vibrator 440 pairs of vibro-rammers 430 and vibrate and transfer vibrations on lower module 310.

In this forming machine, due to stressed maximum bottom first point of frame, therefore the bottom of first point of frame is the most steady, and concrete vibrating mechanism is connected with bottom first point of frame, the vibration of vibrator 440 is concentrated on supporting plate and lower module 310, thus makes other position on first point of frame except bottom vibrated less, prevent the connecting portion on first point of frame from loosening by long-term vibration, loosen if occur, staff must reinforce, as this increased the labour intensity of staff regularly to first point of frame.

Two guide pillars 500 and a balance columns 660 is vertically installed with respectively in the both sides of first point of frame, the lower wall of the upper axial connecting rod 150 of first point of frame both sides is respectively provided with two upper clamp assemblies 510, on this, clamp assemblies 510 comprises movable part and upper fixing element, this upper fixing element is fixedly connected with the lower wall of axial connecting rod, on this, movable part is threaded with upper fixing element, form retainer plate between upper movable part and upper fixing element, the upper end of guide pillar 500 is fixed in retainer plate; Herein, the upper end of each guide pillar 500 is fixedly connected with upper axial support bar by upper movable part and upper fixing element, and upper movable part and upper fixing element are threaded connection, and makes guide pillar 500 be convenient to dismounting.

Further, two guide pillars 500 are all set with upper guide bush 520 and lower guide pin bushing 530, this upper guide bush 520 lateral wall extends outward mounting blocks 521, top shoe 200 both sides start there are two upper trepannings respectively, top shoe 200 both sides lateral wall offers breach 230 on corresponding with trepanning on two two, on two, breach 230 communicates with trepanning on two respectively, the width of upper breach 230 is greater than guide pillar 500 diameter, two upper guide bush 520 are installed in respective upper trepanning respectively and the upper mounting blocks 521 of upper guide bush 520 is threaded with top shoe 200 lower surface, equally, lower guide pin bushing 530 lateral wall extends outward lower mounting blocks 531, two lower trepannings are offered respectively in sliding block 300 both sides, sliding block 300 both sides lateral wall offers twice breach 330 corresponding with two lower trepannings, twice breach 330 communicates with twice trepannings respectively, the width of lower breach 330 is greater than guide pillar 500 diameter, two lower guide pin bushings 530 are installed in two lower trepannings respectively and lower mounting blocks 531 on lower guide pin bushing 530 is threaded with the upper surface of sliding block 300, whole top shoe 200 can vertically movement on four guide pillars 500 by four upper guide bush 520 of both sides, realize the matched moulds of upper mould piece 210 and lower module 310, whole sliding block 300 can vertically movement on four guide pillars 500 by four lower guide pin bushings 530 of both sides, realize the demoulding of lower module 310 pairs of building blocks, two guide pillars 500 are respectively established in both sides, make top shoe 200 vertical with sliding block 300 mobile time smoothness better, rock before and after can not occurring, because upper mounting blocks 521 is threaded with top shoe 200, lower mounting blocks 531 is threaded with sliding block 300, therefore, after the upper end of guide pillar 500 is separated with upper axial connecting rod 150, upper mounting blocks 521 all can be for convenience detach with lower mounting blocks 531, after dismounting, upper mounting blocks 521 is separated with top shoe 200, lower mounting blocks 531 is separated with sliding block 300, guide pillar 500 is now movable, the width simultaneously going up breach 230 and lower breach 330 is all greater than the diameter of guide pillar 500, therefore, guide pillar 500 can take off by top shoe 200 and sliding block 300 with lower breach 330 easily through upper breach 230.

Further, in first point of frame, the lower axial connecting rod 151 of both sides is installed with support column 540 respectively, support column 540 upper horizontal is provided with lower clamp assemblies 550, lower clamp assemblies 550 comprises lower fixture 551 and lower movable part 552, and this lower fixture 551 is fixedly connected with support column 540 upper surface, and this lower movable part 552 is threaded with lower fixture 551, form lower wheel flange between lower fixture 551 and lower holder, this guide pillar 500 bottom is fixed in lower wheel flange; Owing to having certain altitude bottom sliding block 300 and first point of frame, sliding block 300 is without the need to sliding into bottom first point of frame, therefore bottom first point of frame, support column 540 is fixedly mounted, shorten the entire length of guide pillar 500, handled easily when making its dismounting, if guide pillar 500 is long, then in forming machine routine work, the possibility that guide pillar 500 produces deformation increases greatly, affect the service life of guide pillar 500, lower clamp assemblies 550 is installed in support column 540 upper surface simultaneously, reaches the effect same with upper clamp assemblies 510, makes the lower end of guide pillar 500 also be convenient to dismounting.

Further, the balance columns 660 of every side is all parallel to each other between three between two guide pillars 500, balance columns 660 bottom is provided with installing sleeve 610, there is bottom installing sleeve 610 a circular mounting block 611, installing sleeve 610 is inner is hollow, balance columns 660 lower end is inserted in this installing sleeve 610, this circular mounting block 611 is threaded with sliding block 300 upper surface, this balance columns 660 upper end runs through top shoe 200 and top cover 160 is passed in the upper end of balance columns 660, balance columns 660 upper end face offers the first tooth bar, top cover 160 upper surface is erect and is provided with two symmetrical parallel vertical blocks 161, between two vertical blocks 161, a rooted tooth wheel shaft 162 is installed, the vertical block 161 of homonymy is run through at these gear shaft 162 two ends respectively, the first gear 163 is separately installed with at the two ends of gear shaft 162, on two of first point of frame, the upper surface of axial connecting rod 150 is separately installed with stator ring 164, balance columns 660 upper end is stablized with stator ring 164 by the first gear 163, this first gear 163 and the first tooth bar are connected with a joggle, when sliding block 300 is vertically mobile, this first gear 163 rotates on the first tooth bar, when sliding block 300 vertically moves, sliding block 300 both sides realize synchronizing moving, make sliding block 300 entirety more stable when vertical movement, can not shake to both sides, and the weight of sliding block 300 own wt and lower module 310, make sliding block 300 gravity when rising larger, but be connected with a joggle, make sliding block 300 both sides while synchronous, its frictional force risen drops to minimum, effectively reduce resistance when sliding block 300 rises.

Further, at the lower surface of sliding block 300, connector 620 is installed, connector 620 comprises fixed block 621 and is connected lug 622, fixed block 621 is flexibly connected with sliding block 300 lower surface, connect lug 622 have two and be installed vertically on fixed block 621 lower surface both sides respectively, certainly, two connection lugs 622 can be one-body molded with fixed block 621, the intensity of connector 620 entirety can be ensured like this, prevent connector 620 entirety from producing deformation, each connection lug 622 all offers a connecting hole, two connecting holes connecting lug 622 are coaxial, be provided with between lower axial connecting rod 151 and sliding block 300 and drive oil cylinder 630, lower axial connecting rod 151 is provided with a firm banking 640, be flexibly connected with firm banking 640 bottom this driving oil cylinder 630, this driving oil cylinder 630 has piston rod, piston rod upper end has the connection collar 631 coaxial with connecting hole, this connection collar 631 stretches between two connection lugs 622 and the two is connected by connecting axle 650, this driving oil cylinder 630 drives sliding block 300 vertically movement as power source, and drive oil cylinder 630 to be flexibly connected with sliding block 300 by connector 620, facilitate the dismounting driving oil cylinder 630 and sliding block 300, make to drive the routine servicing of oil cylinder 630 more convenient with maintenance, during dismounting, only connecting axle 650 need be extracted out just by connecting hole.

Be vertically installed with two first gag lever posts 240 on top shoe 200 top and horizontally set, this first gag lever post 240 upper end is passed top cover 160 and is stretched out beyond top cover 160, and the top of the first gag lever post 240 is provided with the limit shaft 241 running through this first gag lever post 240; Because the distance of the vertical movement of top shoe 200 is longer, top shoe 200 must keep good stability in moving process, accuracy when upper mould piece 210 and lower module 310 matched moulds just can be made higher, and the effect of guide pillar 500 prevents from rocking before and after top shoe 200, cannot ensure that top shoe 200 both sides shake, therefore, the setting of two first gag lever posts 240 ensure that there is good stability sliding block 300 both sides in vertical moving process, and limit shaft 241 then can prevent the first gag lever post 240 from declining excessively and being separated with top cover 160.

Vertically respectively in the front support vertical rod 110 of homonymy and the two lateral walls of intermediate uprights 120 be installed with the second tooth bar 170, correspondingly respectively on four angles of top shoe 200 upper end be provided with the second gear 250, this second gear 250 is connected with a joggle with the second tooth bar 170 and the second gear 250 mobilely to rotate with top shoe 200 is vertical on the second tooth bar 170; Top shoe 200 has larger gravity too when vertical movement, and must pressurize to the raw material in die cavity 320 with during lower module 310 matched moulds, therefore sliding block 300 must have higher precision when vertical movement, its resistance must be reduced when upper module rises simultaneously, increase its flexibility, second gear 250 and the second tooth bar 170 are connected with a joggle, and ensure that synchronism and the flexibility of top shoe 200 both sides while reduction top shoe 200 rises resistance, improve upper mould piece 210 and precision during lower module 310 matched moulds simultaneously.

Further, the second gag lever post 260 that two run through top shoe 200 is respectively arranged with in top shoe 200 both sides, two second gag lever posts 260 lay respectively at the outside of two upper guide bush 520, this second gag lever post 260 is flexibly connected with top shoe 200, front support vertical rod 110 with the two lateral walls of intermediate uprights 120 are horizontally installed with limited block 180 respectively, two limited blocks 180 are positioned at below two second tooth bars 170, second gag lever post 260 is vertically mobile and when the second gag lever post 260 bottom contacts with limited block 180 upper surface with top shoe 200, distance between briquetting 220 lower surface and splint upper surface is the height of building block, because raw material is shaped to building block in the die cavity 320 of lower module 310, and building block has certain thickness, and forming machine is in the process of production building block, the thickness being difficult to the same specification building block of guarantee is consistent, and its intensity of thinner building block does not reach, breakage is in various degree had in transport or use procedure, and the building block that variable thickness causes is when building a wall, usually all with cement mixture, the discrepancy in elevation is partially filled, and so can reduce the intensity of body of wall, but the second gag lever post 260 and limited block 180 are set, make top shoe 200 cannot exceed predetermined dropping distance and ensure that each height declined is consistent, distance between briquetting 220 to supporting plate is fixing, and the distance between briquetting 220 and supporting plate is just the thickness of building block, therefore make the uniformity of the thickness of the building block of same specification better, and the second gag lever post 260 is flexibly connected with top shoe 200, make the second gag lever post 260 can up-down adjustment, if the thickness of building block is different, adjustable second gag lever post 260, make forming machine can produce the building block of different-thickness, the scope of application is wider.

Charger comprises feed hopper 700, conveyer belt 710, mobile hopper 730, these feed hopper 700 both sides are provided with two U-shaped connection brackets respectively downward vertically, U-shaped support 720 comprises arms bar and a foundation bar, the lateral wall of two armed levers is separately installed with a Connection Block 721, this Connection Block 721 is fixedly connected with the upper axial connecting rod 150 in second point of frame, two foundation bars are installed with conveyer frames, conveyer frames both sides are separately installed with two delivery wheels, this conveyer belt 710 to be installed on four delivery wheels and to be surrounded therein by two bottom bars, this conveyer belt 710 is positioned at below feed hopper 700, charger also comprises mobile idler pulley 731 and guide post 742, this moves hopper 730 and is positioned at below conveyer belt 710, and mobile hopper 730 is less than the distance of conveyer belt 710 to intermediate uprights 120 to the distance of intermediate uprights 120, this mobile idler pulley 731 has four and is installed on bottom, mobile hopper 730 both sides respectively, homonymy intermediate uprights 120 be separately installed with one in the middle part of rear support vertical rod 130 and be connected cross bar 740, between two connection cross bar 740 upper surfaces, five parting beads 741 be parallel to each other are installed, described guide post 742 has two and is axially installed on the two ends of five parting beads 741 respectively, this guide wheel moves axially and makes the splicing of mobile hopper 730 and feeding on guide post 742, between the inwall of two connection cross bars 740, supporting plate rolling frame is installed, this supporting plate rolling frame is placed with reserved idle supporting plate, this reserved idle supporting plate is in the same plane with the supporting plate be positioned on vibro-rammer 430, this moves bottom hopper 730 and is provided with rotating bottom board, mobile hopper 730 both sides are separately installed with the drive link 732 be connected with rotating bottom board, this drive link 732 is connected with rotating bottom board and controls rotating bottom board closure or openness, during splicing, rotating bottom board closes, raw material falls in mobile hopper 730 by conveyer belt 710, during feeding, rotating bottom board is opened, raw material falls in die cavity 320 by mobile hopper 730, carry out extrusion forming subsequently, this moves hopper 730 front end and is less than distance between conveyer belt 710 and first point of frame to the distance between mobile feeding mechanism and first point of frame.

This charger and forming machine are installed in same frame, and make whole equipment less relative to traditional occupation area of equipment, overall structure is compacter.

As shown in Figure 11 to 14, brick producing machine 4 comprises brick producing machine frame 10, transfer passage 20 and the round brush 30 be positioned at above transfer passage 20, this brick producing machine 4 also comprises the adjustment support 40 that two are symmetricly set on brick producing machine frame 10 both sides, round brush 30 is installed in rotation between two adjustment supports 40, brick producing machine frame 10 is provided with driving motor 50 and driving motor 50 is positioned at below transfer passage 20, the output of driving motor 50 is provided with drive sprocket 51, round brush 30 has the driven sprocket 31 that matches with drive sprocket 51 and driven sprocket 31 is connected with drive sprocket 51 by driving chain, support 40 is regulated to have at least one regulating tank 42a, and brick producing machine frame 10 offers and regulating tank 42a adjustment hole 11 one to one.

Further, the fixtures such as set bolt can be installed, for adjusting portion 42 is fixed on brick producing machine frame 10 in adjustment hole 11.Such as, in adjustment hole 11, set bolt is installed, by the cooperation of adjustment hole 11 and regulating tank 42a, the adjustment of round brush 30 height can be realized, to meet the requirement for cleaning of differing heights fragment of brick, simple to operation.

Preferably, regulate support 40 to comprise installation portion 41 and adjusting portion 42, installation portion 41 one end is articulated and connected in brick producing machine frame 10, and the other end is connected with round brush 30, and regulating tank 42a is opened in adjusting portion 42.Above-mentioned structural design, structure is simple and can not take larger space, and adjusting portion 42 pairs of installation portions 41 play the effect of reinforcing further, make stabilization of equipment performance good, install and change all more convenient.

Preferably, regulating tank 42a is chosen as arc regulating tank 42a easy to process, and arc regulating tank 42a is reasonable in design and have larger amplitude of fluctuation, coordinates closely with the fixture in adjustment hole 11, fixed, simple to operate.Such as: fixture is set bolt, when needing the position of round brush 30 to heighten or turn down a bit, only set bolt need be unscrewed, then regulating tank 42a is adjusted to suitable amplitude of fluctuation, tightened by set bolt, simple and convenient, versatility is wide again.

Preferably, the quantity of regulating tank 42a is two, the structural design of such two groups of regulating tank 42a, further increases brick producing machine frame 10 to the support force regulating support 40, improves job stability.

Preferably, the two ends of round brush 30 are arranged on two installation portions 41 respectively by two mount pad 60 correspondences, and detachable mounting means makes round brush 30 change and clean convenient, reasonable in design and structure is simple.

Surface coverage due to fragment of brick has more dust, and further preferably, round brush 30 may be selected to be hairbrush, and cleaning effect is better.

Round brush 30 is driven by driving motor 50 and is in rotary state always, regulates support 40 to be fixed in brick producing machine frame 10 and can't to swing.When the fragment of brick of another kind of size processed by block machine 3, the less clean fragment of brick in higher position is crossed in round brush 30 position, and round brush 30 position is too low will be ejected outside supporting plate by fragment of brick, reduces operating efficiency.Now just need the fixture by regulating in adjustment hole 11, and coordinate regulating tank 42a, make round brush 30 be adjusted to suitable height, to meet the demand of clean fragment of brick.

When using this streamline, in the first feed bin 1001 that two kinds of different materials are first poured into proportioning machine 1 by operating personnel and the second feed bin 1002, two kinds of materials drop into respective material conveyor belt 1004 from the first feed bin 1001 and the second feed bin 1002 discharge outlet respectively, and input in the 3rd feed bin 1003 through material conveyor belt 1004, now the discharge outlet of the 3rd feed bin 1003 is in closed condition, when the material reserves that inductor 1006 detects in the 3rd feed bin 1003 reach setting, material conveyor belt 1004 quits work, first feed bin 1001 and the second feed bin 1002 also stop blanking simultaneously, 3rd feed bin 1003 discharging opening is opened, material in 3rd feed bin 1003 drops into out material strip 1005 from discharge outlet, and is delivered on truck 6 through going out material strip 1005, when the material in the 3rd feed bin 1003 is all delivered to after on truck 6, the discharging opening of the 3rd feed bin 1003 is closed, meanwhile the first feed bin 1001 and the second feed bin 1002 carry out charge motion to the 3rd feed bin 1003 again, truck 6 is delivered to above mixer 2 charging aperture through material conveyor 7 simultaneously, and truck 6 tilts and is all poured into by material in mixer 2, after material stirs in mixer 2, fall into belt conveyor 8 from the discharging opening of mixer 2, and be delivered in block machine 3 feed hopper 700 by belt conveyor 8, material in feed hopper 700 falls into conveyer belt from feed hopper 700 discharge outlet again, and by tape transport to mobile hopper 730, now, rotating bottom board bottom mobile hopper 730 is closed, mobile hopper 730 downward module 310 direction on connection cross bar 740 is moved, when hopper 730 to be moved moves to above upper mould piece 210, the driving swivel link of mobile hopper 730 both sides drives the rotating bottom board bottom mobile hopper 730 to rotate, now, rotating bottom board is opened, raw material falls into the die cavity 320 of lower module 310 by the space bottom rotating bottom board and mobile hopper 730, in this process, mobile hopper 730 moves around above lower module 310, raw material in die cavity 320 is paved with, move hopper 730 subsequently and be retracted into initial position, complete a feeding job.

Immediately, top shoe 200 moves down on guide pillar 500, the briquetting 220 of upper mould piece 210 is entered by die cavity 320 upper port, because the second gag lever post 260 has High definition effect with limited block 180 pairs of top shoes 200, can stop moving downward after briquetting 220 enters die cavity 320, now, raw material in briquetting 220 pairs of die cavitys 320 pressurizes, simultaneously, vibrating motor 450 on two intermediate uprights 120 orders about vibrator 440 and works, vibrator 440 starts vibration at vibro-rammer 430 lower surface, vibration is once delivered on lower module 310 by vibro-rammer 430, while briquetting 220 pressurizes, raw material in die cavity 320 starts shaping and fastening, after vibration, vibrator 440 stops vibration, now, drive oil cylinder 630 to drive sliding block 300 and drive lower module 310 to move up, be wet building block because raw material is molded in die cavity 320, the surrounding of wet building block to be pasted onto on die cavity 320 inwall and to have the trend moved up with lower module 310, but under the effect of keeping out of briquetting 220, lower module 310 is while moving up, wet building block is motionless, now due to the movement of lower module 310, wet building block is separated with die cavity 320 and is still laid on supporting plate, the wet building block demoulding completes, upper mould piece 210 rises to initial position with top shoe 200.

Now, be reserved in idle supporting plate on supporting plate rolling frame downward module 310 scrolls beneath the supporting plate that will be contained with wet building block on supporting plate rolling frame to release to first point of frame outside, and idle supporting plate is now positioned at the also next shaping building block of preparation acceptance again on vibro-rammer 430, after being completely pushed out of etc. the supporting plate being placed with wet building block, drive oil cylinder 630 drive sliding block 300 to move down and make lower module 310 get back to initial position, to rest bottom die cavity 320 on idle supporting plate and to wait for next feeding.

The supporting plate being placed with wet building block is pushed on the transfer passage 20 on brick producing machine 4, surface cleaning work is carried out by the 30 pairs of building blocks of the round brush on transfer passage 20, be delivered on buttress ink recorder 5 finally by transfer passage 20, after buttress ink recorder 5 accumulates the supporting plate of some, by fork truck, these supporting plates transported.

Specific embodiment described herein is only to the explanation for example of the present invention's spirit.Those skilled in the art can make various amendment or supplement or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present invention or surmount the scope that appended claims defines.

Claims (10)

1. a semi automatic block streamline, it is characterized in that, comprise proportioning machine arranged in a straight line successively, mixer, block machine and buttress ink recorder, the discharging opening of proportioning machine is connected with out material strip, below the blanking end going out material strip, truck is set, below truck, be provided with material conveyor, the described material conveyor other end connects mixer, the discharge end of mixer is connected by belt conveyor with the feed end of block machine, between block machine and buttress ink recorder, be provided with brick producing machine, described block machine comprises block machine frame, block machine frame is by one group of front support vertical rod, one group of rear support vertical rod and one group of intermediate uprights form, intermediate uprights is between front support vertical rod and rear support vertical rod, front support vertical rod, rear support vertical rod is parallel to each other with intermediate uprights respectively, be connected by axial connecting rod on a group between front support vertical rod and the upper end of rear support vertical rod, by being connected with axial connecting rod under a group between lower end, two front support vertical rods, two rear support vertical rods, connect respectively by lateral connection bar on a group between the upper end of intermediate uprights, connect respectively by connecting rod horizontal under a group between lower end, the upper and lower side of intermediate uprights is connected with the upper axial connecting rod of homonymy and lower axial connecting rod respectively, two front support vertical rods and two intermediate uprights form first point of frame, the top of this first point of frame is provided with top cover, in this first point of frame, forming machine is installed, two rear support vertical rods and two intermediate uprights form second point of frame, in this second point of frame, charger is installed, belt conveyor is arranged between the feed end of charger and the discharge end of mixer.

2. semi automatic block streamline according to claim 1, it is characterized in that, brick producing machine comprises brick producing machine frame, transfer passage and the round brush be positioned at above transfer passage, brick producing machine frame bilateral symmetry is provided with two adjustment supports, described round brush is installed in rotation between two adjustment supports, described brick producing machine frame is provided with motor and motor is positioned at below transfer passage, motor output end is provided with drive sprocket, described round brush has the driven sprocket that matches with drive sprocket and described driven sprocket is connected with drive sprocket by driving chain, described adjustment support has at least one arc regulating tank, and described brick producing machine frame offers and arc regulating tank adjustment hole one to one.

3. semi automatic block streamline according to claim 2, it is characterized in that, described adjustment support comprises installation portion and adjusting portion, and described installation portion one end is articulated and connected in brick producing machine frame, the other end is connected with round brush, and above-mentioned arc regulating tank is opened in adjusting portion.

4. semi automatic block streamline according to claim 1, it is characterized in that, described proportioning machine comprises the first feed bin, the second feed bin and the 3rd feed bin, first feed bin and the second feed bin are arranged side by side and are provided with material conveyor belt in the discharge outlet of the first feed bin and the second feed bin, and the blanking end of two material conveyor belts is all positioned at the top of the 3rd feed bin charging aperture, the discharging opening of the 3rd feed bin is positioned at above-mentioned going out above material strip.

5. semi automatic block streamline according to claim 4, it is characterized in that, proportioning machine frame is provided with inductor and inductor flushes with the 3rd feed bin charging aperture, is provided with the shut being controlled opening and closing by inductor in the discharge outlet of the first feed bin, the second feed bin and the 3rd feed bin.

6. semi automatic block streamline according to claim 1, it is characterized in that, described charger comprises feed hopper, conveyer belt, mobile magazine, described feed hopper is installed on frame rear end top, described conveyer belt to be axially set on second point of frame and to be positioned at below feed hopper, described mobile magazine to be axially set on second point of frame and to be positioned at below conveyer belt, mobile magazine is flexibly connected with frame rear end and moves axially in frame, and the parallel distance between described mobile magazine to lower module is less than the parallel distance between conveyer belt to lower module.

7. semi automatic block streamline according to claim 6, it is characterized in that, charger also comprises mobile idler pulley and guide post, described mobile idler pulley is arranged at bottom, mobile hopper both sides respectively, guide post is arranged at second point of frame both sides respectively, described mobile hopper is moved axially on guide post by mobile idler pulley, rotation flitch is provided with bottom described mobile hopper, mobile hopper both sides are provided with driving swivel link, and described driving swivel link is connected with rotation flitch and controls to rotate flitch closure or openness.

8. semi automatic block streamline according to claim 7, it is characterized in that, guide pillar is respectively arranged with in both sides, block machine frame front end, top shoe and sliding block is provided with in frame, described guide pillar is arranged with respectively the upper guide bush running through top shoe and the lower guide pin bushing running through sliding block, top shoe, sliding block both sides lateral wall offers breach respectively, described breach extends to corresponding upper guide bush respectively, the lateral wall of lower guide pin bushing, the width of described breach is greater than guide pillar diameter, upper guide bush, lower guide pin bushing lateral wall extends outward guide pillar mounting blocks respectively, described guide pillar mounting blocks respectively with corresponding top shoe, sliding block is flexibly connected and makes top shoe, sliding block is vertically movement on guide pillar, the upper and lower two ends of described guide pillar are flexibly connected with frame respectively, described guide pillar bottom is provided with support column, support column bottom and block machine frame are connected, support column upper horizontal is provided with clamp assemblies, clamp assemblies comprises fixture and movable part, described fixture and support column are connected, described movable part is threaded with fixture, wheel flange is formed between fixture and holder, described guide pillar bottom is fixed in wheel flange.

9. semi automatic block streamline according to claim 8, it is characterized in that, concrete vibrating mechanism is provided with bottom described block machine frame, described concrete vibrating mechanism is positioned at bottom sliding block, concrete vibrating mechanism comprises the pedestal that vibrates, supporting seat, vibro-rammer and vibrator, is connected bottom described supporting seat and frame, and described supporting seat is erected on pedestal both sides of vibrating respectively, described vibro-rammer is fixed on supporting seat, and described vibrator is fixedly installed on the lower surface of vibro-rammer.

10. semi automatic block streamline according to claim 9, it is characterized in that, driving oil cylinder is provided with between described sliding block and block machine frame bottom, oil cylinder lower end is driven to be flexibly connected with block machine frame, sliding block lower surface is provided with connector, described connector comprises the connection lug that fixed block and two is parallel to each other, fixed block is flexibly connected with sliding block lower surface, two connect lug is vertically installed in fixed block lower surface both sides respectively, two connection lugs start there is coaxial connecting hole respectively, described driving oil cylinder top is provided with the connection collar coaxial with connecting hole, the described connection collar stretches between two connection lugs and the two is connected by connecting axle.