CN204525744U - The vertical formwork erection production line of light composite wallboard - Google Patents

Abstract

The utility model discloses the vertical formwork erection production line of a kind of light composite wallboard, comprises the control system controlling mechanical automation, to get the raw materials ready system, wall panel forming machine, for the rail network that wall panel forming machine runs, the die-filling equipment framed to wall panel forming machine installation form, carry out slip casting platform and the wallboard demoulding equipment of slip casting, rail network comprises the first track, maintenance input track, maintenance track and maintenance output track, die-filling equipment, slip casting platform and demoulding equipment are disposed on the first track and the first track are divided into multistage, and die-filling equipment is arranged between demoulding equipment and slip casting platform, and die-filling equipment comprises the first forming machine upset car, dress plate pan filler and auxiliary pan filler, demoulding equipment comprises the second forming machine upset car, demoulding stacking machine, seperator and assisted demoulding machine, form a mechanical automation by described each several part, and the production line of sustainable circulation production run, solves in prior art and worked by manual operation, and labour intensity is large, the problem of inefficiency.

Description

The vertical formwork erection production line of light composite wallboard

Technical field

Apparatus field on the production line that the utility model relates to light composite wallboard, specifically relates to the vertical formwork erection production line of light composite wallboard.

Background technology

Light composite wallboard is the class board that current countries in the world are greatly developed.Light composite wallboard is for modern high-rise building, ecological residence, frame structure and low-rise building and the partition wall light lath of development & production, light composite wallboard is as novel wall material, of many uses: as interior wall, exterior wall, roof boarding, floor, enclosure wall etc., the speed of building a house can be accelerated, reduce labor intensity, shorten construction period, effectively improve the usable floor area of building, integrated cost reduces, and light composite wallboard is the direction of materials for wall reform and development.

The wall panel forming machine of vertical formwork erection light composite wallboard has separate unit production output high, and the advantages such as floor space is little, are subject to the favor of user day by day.But the work such as die-filling, the demoulding, piling, separation, transport utilizing wall panel forming machine to produce in formwork erection light composite wallboard production process traditional at home is at present all operated by the carrying out of artificial a piece a piece or adopt easy conveying equipment to combine manually to carry out operating, its mechanization, automaticity are low, such mode of production not only molding time length, inefficiency, artificial working strength is large, and the factors of instability can be there are because of manual operation, as there will be breakage of colliding with in the process of moving in the product quality of producing.A complete orderly production line can not be formed, production efficiency, quality are just difficult to be not fully exerted and ensure, and need manual hand manipulation due to links, and the artificial usage quantity of whole production line is more, cost is higher, causes no small financial burden to investment enterprise.

Utility model content

The purpose of this utility model is to provide a kind of light composite wallboard vertical formwork erection production line, and this production line can improve production efficiency and the automaticity of insulating light wall slab, also just can reduce the input of manpower and reduce artificial labour intensity.

For solving this technical problem, the technical solution of the utility model is: the vertical formwork erection production line of light composite wallboard, comprise system of getting the raw materials ready and the wall panel forming machine of wall board forming material, also comprise the control system of mechanical automation in each portion of production control line, formed can for the rail network of wall panel forming machine persistent loop production run, wall panel forming machine carried out to the demoulding equipment after the framed die-filling equipment of installation form, slip casting platform wall panel forming machine being carried out to slip casting and wall board forming; Described rail network comprises the first track, maintenance input track, maintenance track and maintenance output track, and described first track and maintenance track are connected between maintenance input track and between maintenance output track; Described die-filling equipment, slip casting platform and demoulding equipment are disposed on the first track and the first track are divided into multistage, and described die-filling equipment is arranged between demoulding equipment and slip casting platform; Described die-filling equipment comprises the first forming machine upset car, dress plate pan filler and auxiliary pan filler, described first forming machine upset car is connected on the first track, described dress plate pan filler is arranged on a side of forming machine upset car reverses direction, and described auxiliary pan filler is arranged on the first not relative with dress plate pan filler forming machine and overturns on another side of car; Described slip casting platform comprises and is connected to operating platform on the first track and automatic grouting pump, and described automatic grouting pump is connected between the system of getting the raw materials ready and operating platform by pipeline; Described demoulding equipment comprises the second forming machine upset car, demoulding stacking machine, seperator and assisted demoulding machine; described second forming machine upset car is connected on the first track; described demoulding stacking machine is arranged on a side of the second forming machine upset car reverses direction; described seperator is arranged on and does not overturn with the second forming machine on relative demoulding stacking machine one side of car, and described assisted demoulding machine is arranged on the second not relative with demoulding stacking machine forming machine and overturns on another side of car.

Described first forming machine upset car is mutually isostructural machinery with the second forming machine upset car, include upset base, rollover stand, conveying mechanism, clamp system and switching mechanism, described rollover stand connects and composes orthogonal L-type structure by the side of the first framework and the second framework, the L-type structural corners place of described rollover stand is hinged on the interlude of upset base, described conveying mechanism is arranged on the first framework, described conveying mechanism can correspondingly with the first track connect, described clamp system is arranged on the first framework edge relative with the second framework, described switching mechanism is arranged between rollover stand and upset base.

Described conveying mechanism comprises two parallel interval and is fixedly installed on guide rail on the first framework, two parallel interval are fixedly installed on two grooved rails on the first framework, the roll shaft that two ends between two grooved rails are fixed with respectively, the sprocket wheel that the end of two roll shafts is respectively equipped with, the chain of winding on the sprocket wheel of two roll shafts, be fixedly installed on motor on the first framework and both sides to be respectively equipped with road wheel and to be embedded the promotion dolly in two grooved rails, described two guide rails can correspondingly with the first track connect, the notch of described two grooved rails is oppositely arranged between two guide rails, described promotion dolly is provided with connector and is connected on chain, described promotion dolly is provided with the pushing block raised up, described clamp system comprises oil cylinder, L-type connecting lever, the first linking arm and the second linking arm, described oil cylinder is hinged in the edge surface of the first framework, one end of described first linking arm and an arm free end of L-type connecting lever are hinged on the upper of the first framework respectively, on the other end that the two ends of described second linking arm are hinged on the first linking arm respectively and L-type connecting lever, the piston-rod end of described oil cylinder is hinged on the hinged place of the first linking arm and the second linking arm, described switching mechanism comprises the first driving overturning oil cylinder and second and drives overturning oil cylinder, described first drives overturning oil cylinder to be hinged on upset base, described first drives the piston-rod end of overturning oil cylinder to be hinged on the first framework, the driving overturning oil cylinder of described second is hinged on upset base, and described second drives the piston-rod end of overturning oil cylinder to be hinged on the second framework, the dual-side of described second framework is provided with tensioning mechanism, described tensioning mechanism is comprised and to be fixed on the rotating shaft bar in the edge surface of the second framework, the gear be fixed on rotating shaft bar, the second oil cylinder be fixedly mounted on the second framework by bearing block, to be fixedly connected on the tooth bar on the second cylinder piston rod end and to hook arm, described tooth bar is engaged on gear, one end of described hook arm is fixedly installed on rotating shaft bar, the other end of described hook arm extend internally be bent into hook-shaped.

Described second framework is provided with support cylinder, and described support cylinder is arranged in four corner distributions of the second framework respectively.

Described demoulding stacking machine comprises stripper apparatus for automatically being deviate from from wall panel forming machine by the wallboard after shaping, be used for the wallboard after by the demoulding automatically push piling palletizing apparatus in heaps and be used for piling is in heaps after wallboard automatically carry out the upset car of 90 degree of upsets; Described stripper apparatus is can the mode of horizontal reciprocating movement be arranged on upset car, and described palletizing apparatus is arranged on upset car; Described upset car comprises horizontal base and is hinged on the rollover stand on horizontal base; Described stripper apparatus comprises being arranged on walking mechanism on rollover stand and being driven by walking mechanism and moves back and forth the demoulding drag hook on rollover stand; Described palletizing apparatus is arranged on the side of rollover stand.

Described rollover stand comprises horizontal frame and vertical pillars, one side of described horizontal frame is hinged on horizontal base, described vertical pillars lower end is fixedly connected on horizontal frame and the hinged side of horizontal base, described vertical pillars is interval with many, promote the upset of rollover stand by arranging overturning oil cylinder between horizontal base and rollover stand, described overturning oil cylinder is hinged on horizontal base, and the piston-rod end of described overturning oil cylinder is hinged on the bottom surface of horizontal frame, described walking mechanism comprises motor, transmission shaft lever, gear, chain, first sprocket wheel and the second sprocket wheel, described transmission shaft lever is installed in parallel on the horizontal frame side not relative with vertical pillars, the two ends of described transmission shaft lever are separately installed with the edge surface that the first sprocket wheel protrudes from horizontal frame, on side relative with transmission shaft lever on described horizontal frame, two ends are separately installed with second sprocket wheel corresponding with the first sprocket position, transmission is carried out by chain respectively between described two group of first sprocket wheel and the second sprocket wheel, described motor is fixedly mounted on horizontal frame, described transmission shaft lever and motor output shaft are respectively equipped with gear engage each other, described demoulding drag hook is an elongated drag hook shelf, one long side of described drag hook shelf is provided with upraised portion and is formed hook-shaped, the two ends of described drag hook shelf length direction are respectively equipped with connector, described two connectors are connected on two chains, and described drag hook shelf is provided with the road wheel of walking on horizontal frame, described palletizing apparatus comprises the mount pad be fixedly installed on the horizontal frame side relative with vertical pillars and the piling oil cylinder be erected on mount pad, the piston rod telescopic direction vertically vertical pillars of described piling oil cylinder, the piston-rod end of described piling oil cylinder is vertically fixedly installed push pedal, described push pedal is fixed with towards the guide post to mount pad, described mount pad is fixed with cover fairlead on the guide bar.

The horizontal frame of described rollover stand is all covered with roll shaft along the demoulding drag hook direction of travel of stripper apparatus and travel region, and the arcwall face part of described roll shaft protrudes from the upper surface of horizontal frame; Described base is embedded with running roller along the detaching direction of seperator is uniform, and the arcwall face part of described running roller protrudes from the upper surface of base.

Described seperator comprises portal frame, be arranged on portal frame under base, the screens separating mechanism be arranged on portal frame; Described portal frame comprises two columns, be connected to entablature between two column upper ends with two column upper and lower sides respectively towards the vertical guiding crossbeam be fixedly installed in upset car direction; Described base is arranged between two column lower ends, and described base accepts horizontal base and both upper surface flush, and described two columns are respectively equipped with screens separating mechanism, and described two screens separating mechanisms are for being oppositely arranged.

Described separation clamping mechanism comprises Z-direction movable stand, Z-direction guidance set, Z-direction drive oil cylinder, X to movable stand, X to guidance set and X to driving oil cylinder; Described Z-direction movable stand is that a rectangular frame is vertically arranged between the guiding crossbeam of column upper and lower side, described Z-direction guidance set comprises and is oppositely arranged on Z-direction grooved rail on the guiding crossbeam of column upper and lower side respectively and is separately positioned on Z-direction movable stand upper and lower side and is correspondingly embedded the Z-direction road wheel in Z-direction grooved rail, described Z-direction drives oil cylinder to be fixedly installed on column, and described Z-direction drives the piston-rod end of oil cylinder to be connected on Z-direction movable stand; Described X is a mobile screens post being vertically arranged in the rectangular frame of Z-direction movable stand to movable stand, described X comprises to guidance set and is separately positioned on X to the X of movable stand upper and lower side to road wheel with to be vertically set on Z-direction movable stand the corresponding X embedded to road wheel for X respectively to grooved rail, described X is fixedly installed on Z-direction movable stand to driving oil cylinder, and described X is connected to X on movable stand to driving the piston end of oil cylinder.

Described maintenance input track and maintenance output track are respectively equipped with combined type ferry bus, each section of described first track is respectively equipped with transition go-cart, described maintenance track is provided with running go-cart, described combined type ferry bus can be connected with transition go-cart and the go-cart that operates respectively, the outside of described maintenance input track is added is provided with the First Transition oil cylinder with maintenance rail end correspondence position, and the outer side edges of described maintenance output track is added is provided with the second transition oil cylinder with the first rail end correspondence position.

By adopting technique scheme, the beneficial effects of the utility model are: the mechanical automation production line consisting of complete orderly, a sustainable circulation production run above-mentioned control system, system of getting the raw materials ready, rail network, die-filling equipment, slip casting platform and demoulding equipment, this is compared to existing technology by manually carrying out operation in a large number, not only can reduce artificial input, also reduce artificial labour intensity, and greatly improve production efficiency and product quality, thus solve problems of the prior art, be mainly manifested in following some.

1, rail network, die-filling equipment, slip casting platform and demoulding equipment is rationally distributed, can make that the production run step of whole production line is standardized and orderly carries out, this is the basic condition realizing complete orderly, the sustainable circulation of the utility model, whole production line is controlled by control system, realize the function of running automatically, automatic start-stop, precise positioning, improve the speed that whole production procedure respectively walks.This production line directly can add use on the production equipment basis of prior art, adapts to the use of user, and what reduce user is bring loss in the change mode of production.

2, existing vertical formwork erection adopts the cementing operations manually carrying out wall panel forming machine in producing, not only speed is slow, and the total quality of guarantee wallboard of having no idea, and the utility model is by slip casting platform automatic grouting, improve shaping speed, and ensure that the total quality of wallboard there will not be comparatively big error, error amount controls ± 2%, i.e. improving production efficiency and product quality.

3, stripping operation after the die-filling operation of existing wall panel forming machine and wall board forming is completed by manually piecemeal, both lost time, increase again the labour intensity of workman, and whole efficiency is very low, and by the first forming machine upset car in the utility model, dress plate pan filler and auxiliary pan filler carry out indirect labor in conjunction with orderly action and complete die-filling operation, reduce artificial labour intensity, promote die-filling efficiency, by the second forming machine upset car, demoulding stacking machine, seperator and assisted demoulding machine complete stripping operation automatically in conjunction with orderly action, instead of a large amount of manpowers needed in this step, also the efficiency of the demoulding is improved.

4, in production line of the present utility model, be provided with combined type ferry bus, transition go-cart, running go-cart, transhipment can be connected in orderly track netting twine production run, and track netting twine is added is provided with First Transition oil cylinder, the second transition oil cylinder, assist transhipment, this also improves the reduction labour intensity of production line and the effect of improving production efficiency further.

Accompanying drawing explanation

Fig. 1 is the complete structure schematic diagram of the utility model embodiment;

Fig. 2 is the structural representation of forming machine upset car in the utility model embodiment;

Fig. 3 and Fig. 4 is the forming machine upset rollover stand of car and the structural representation of structure for conveying in the utility model embodiment;

Fig. 5 is the structure for amplifying schematic diagram in A portion in Fig. 2;

Fig. 6 is the structure for amplifying schematic diagram in B portion in Fig. 4;

Fig. 7 and Fig. 8 be in the utility model embodiment forming machine upset car do not overturn and overturn after status architecture schematic diagram;

Fig. 9 is the side structure schematic diagram of demoulding stacking machine and seperator in the utility model embodiment;

Figure 10 is the plan structure schematic diagram of demoulding stacking machine and seperator in the utility model embodiment;

Figure 11 is the upset car side structure schematic diagram of demoulding stacking machine in the utility model embodiment;

Figure 12 is the upset car plan structure schematic diagram of demoulding stacking machine in the utility model embodiment;

Figure 13 is the position relationship structural representation of the upset car (clipped lines) of demoulding stacking machine in the utility model embodiment, stripper apparatus and palletizing apparatus;

Figure 14 is the demoulding drag hook of demoulding stacking machine in the utility model embodiment and catches on status architecture schematic diagram with wallboard;

Figure 15 is the main TV structure schematic diagram of seperator in the utility model embodiment;

Figure 16 is the utility model embodiment demoulding stacking machine rollover states, seperator be separated with wallboard after structural representation.

Detailed description of the invention

Below by describing embodiment of the present utility model in detail in conjunction with the accompanying drawings and embodiments, to fully understand of the present utility model.

As shown in Figure 1, the vertical formwork erection production line of the utility model light composite wallboard, comprise the control system (not illustrated in figure) of mechanical automation in each portion of production control line, wall board forming material the system a that gets the raw materials ready, wall panel forming machine b, formed can for the rail network c of wall panel forming machine b persistent loop production run, wall panel forming machine b carried out to the demoulding equipment f after the framed die-filling equipment d of installation form, slip casting platform e wall panel forming machine b being carried out to slip casting and wall board forming.

The described system a that gets the raw materials ready is the same with system of getting the raw materials ready of the prior art, comprise proportioning machine a1, cement coal ash powder tank a2, conveying worm a3, EPS prefoaming machine a4, light-weight aggregate mixer a5 etc., as dotted box portion in Fig. 1, annexation between its equipment, see shown in figure and with reference to prior art, just no longer carries out more descriptions to system a part of getting the raw materials ready here.Wall panel forming machine b is known equipment, and as shown in Figures 7 and 8, also no longer wall panel forming machine b more describes here.

Described rail network c, as shown in Figure 1, comprises the first track c1, maintenance input track c2, maintenance track c3 and maintenance output track c4, described first track c1 and maintenance track c3 to be connected between maintenance input track between c2 and maintenance output track c4; As shown in FIG., maintenance track c3 can need to be set up in parallel many according to production maintenance, forms perfect curing line.Described die-filling equipment d, slip casting platform e and demoulding equipment f are disposed on the first track c1 and the first track c1 are divided into multistage, and described die-filling equipment d is arranged between demoulding equipment f and slip casting platform e, as shown in Figure 1.

As shown in Figure 1; described die-filling equipment d comprises the first forming machine upset car d1, dress plate pan filler d2 and auxiliary pan filler d3; described first forming machine upset car d1 is connected on the first track c1; described dress plate pan filler d2 is arranged on a side of forming machine upset car d1 reverses direction, and described auxiliary pan filler d3 is arranged on the first not relative with dress plate pan filler d2 forming machine and overturns on another side of car d1.Described slip casting platform e comprises and is connected to operating platform e1 on the first track c1 and automatic grouting pump e2, and described automatic grouting pump e2 is connected to by pipeline and gets the raw materials ready between system a and operating platform e1.Described demoulding equipment f comprises the second forming machine upset car f1, demoulding stacking machine f2, seperator f3 and assisted demoulding machine f4; described second forming machine upset car f1 is connected on the first track c1; described demoulding stacking machine f2 is arranged on a side of the second forming machine upset car f1 reverses direction; described seperator f3 is arranged on and does not overturn with the second forming machine on relative demoulding stacking machine f2 mono-side of car f1, and described assisted demoulding machine f4 is arranged on the second not relative with demoulding stacking machine f2 forming machine and overturns on another side of car f1.

Described control system (not making diagram in figure), adopt mechanical automation in PLC controls production line each portion equipment, usual employing travel switch, inductors etc. to be used as in control system motor in trigger equipment, the element that oil cylinder etc. are started working, such as say in this production line, travel switch operating platform e1 having touched and has arranged in precalculated position is walked at wall panel forming machine b, namely travel switch is triggered, after control system receives the information that travel switch is triggered, just enter next step program in program, namely wall panel forming machine b stops advancing, automatic grouting pump e2 starts to wall panel forming machine b slip casting.Such control system is that current a lot of automated machine is commonly used, more skilled control technology, here with regard to being described in detail not to this system.

The vertical formwork erection production line of light composite wallboard of the present utility model, its production procedure is such: wall panel forming machine b enters the first track c1, the the first forming machine upset car d1 being delivered to die-filling equipment d fixes and carries out 90 degree of upsets, the die-filling operation of wall panel forming machine b has been assisted by dress plate pan filler d2 and auxiliary pan filler d3, die-filling complete after the first forming machine upset car d1 overturn back, wall panel forming machine b is delivered to the operating platform e1 of slip casting platform e, automatic grouting pump e2 is to wall panel forming machine b slip casting, be transported on maintenance track c2 through maintenance input track c3 after slip casting completes and carry out maintenance, the the second forming machine f2 being transported to the demoulding equipment f on the first track c1 after maintenance is complete through maintenance output track c4 fixes and carries out 90 degree of upsets, by demoulding stacking machine f2 and assisted demoulding machine f4 combination, wallboard is automatically disengaged out also piling from wall panel forming machine b to complete, demoulding stacking machine f2 turns over and turn 90 degrees, the wallboard of script a pile is separated into two heaps by seperator f3, by fork truck j(as the j in Fig. 1) pitch and transport, namely the wallboard manufacture of batch is completed, after the demoulding completes, the second forming machine upset car f1 overturns back, continue to enter the first track c1 to be delivered to die-filling equipment d and to carry out above-mentioned periodic duty, machinery in above steps after finishing the work all can return enter once operation treat work state, the artificial less important work of minority is had in whole production procedure.

Above-mentioned first forming machine upset car d1 is mutually isostructural machinery with the second forming machine upset car f1, as shown in Figure 2, upset base 1 ', rollover stand 2 ', conveying mechanism 3 ', clamp system 4 ', switching mechanism 5 ', tensioning mechanism 6 ' and support cylinder 7 ' is comprised.

Described rollover stand 2 ' connects and composes orthogonal L-type structure by the side of the first framework 21 ' and the second framework 22 ', and the L-type structural corners place of described rollover stand 2 ' is hinged on the interlude of upset base 1, as shown in Figure 2, described switching mechanism 5 ' is arranged between rollover stand 2 ' and upset base 1 ' for driving rollover stand 2 ' to take pin joint as the upset of rotating shaft, as Fig. 2, shown in Fig. 7 and Fig. 8, comprise the first driving overturning oil cylinder 51 ' and second and drive overturning oil cylinder 52 ', described first drives overturning oil cylinder 51 ' to be hinged on upset base 1 ', described first drives the piston rod 511 ' end of overturning oil cylinder 51 ' to be hinged on the first framework 21 ', the driving overturning oil cylinder 51 ' of described second is hinged on upset base 1, described second drives the piston rod 521 ' end of overturning oil cylinder 52 ' to be hinged on the second framework 22 ', as shown in Figure 2, overturning oil cylinder 51 ' and second is driven to drive overturning oil cylinder 52 ' can be arranged side by side multiple respectively according to required power first.

Described conveying mechanism 3, as shown in Figure 3 and Figure 4, be arranged on the first framework 21 ' for by wall panel forming machine b(as the b in Fig. 7 and Fig. 8) be transported to preposition, comprise two parallel interval and be fixedly installed on guide rail 31 ' on the first framework 21 ', two parallel interval are fixedly installed on two grooved rails 32 ' on the first framework 21 ', the roll shaft 33 ' that two ends between two grooved rails 32 ' are fixed with respectively, the sprocket wheel 34 ' that the end of two roll shafts 33 ' is respectively equipped with, winding on the sprocket wheel 34 of two roll shafts 33 ' for the chain 35 ' of transmission, be fixedly installed on and the first framework 21 is respectively equipped with road wheel 371 ' for the motor 36 ' that drives a roll shaft 33 ' to rotate and both sides is embedded the promotion dolly 37 ' in two grooved rails 32 ', described two guide rails 31 ' can correspondingly with the first track c1 connect, the notch of described two grooved rails 32 ' is oppositely arranged between two guide rails 31 ', described promotion dolly 37 ' is provided with connector 372 ' and is connected on chain 35 ', described promotion dolly 37 ' be provided with raise up for being stuck in the pushing block 373 ' that wall panel forming machine b bottom surface drives.

Described clamp system 4 ', as shown in Figure 5, be arranged on the first framework 21 ' edge relative with the second framework 22 ' for clamping the wall panel forming machine b be transported on precalculated position, comprise oil cylinder 41 ', L-type connecting lever 42 ', first linking arm 43 ' and the second linking arm 44 ', described oil cylinder 41 ' is hinged in the edge surface of the first framework 21 ', one end of described first linking arm 43 ' and an arm free end of L-type connecting lever 42 ' are hinged on the upper of the first framework 21 ' respectively, on the other end that the two ends of described second linking arm 44 ' are hinged on the first linking arm 43 ' respectively and L-type connecting lever 42 ', piston rod 411 ' the end of described oil cylinder 41 ' is hinged on the hinged place of the first linking arm 43 ' and the second linking arm 44 '.

Described support cylinder 7 ' is arranged on for knee wall panel moulding apparatus b on the second framework 22 ', and as shown in Figure 2, described support cylinder 7 ' is arranged in four corner distributions of the second framework 22 ' respectively, also have, the dual-side of described second framework 22 ' is provided with the tensioning mechanism 6 ' for catching on movement when wall panel forming machine 100 ' prevents it from overturning, comprise the rotating shaft bar 61 ' be fixed on by bearing block 611 ' in the edge surface of the second framework 22 ', be fixed on the gear 62 ' on rotating shaft bar 61 ', be fixedly mounted on the second oil cylinder 63 ' on the second framework 22 ', be fixedly connected on the tooth bar 64 ' on the second oil cylinder 63 ' piston rod 631 ' end and hook arm 65 ', described tooth bar 64 ' is engaged on gear 62 ', one end of described hook arm 65 ' is fixedly installed on rotating shaft bar 61 ', the other end of described hook arm 65 ' extends internally to be bent into and can catch on the hook-shaped of wall panel forming machine b framework, as shown in Figure 2 and Figure 6.

Be described below in detail the course of work of the first forming machine upset car d1, the second forming machine upset car f1, all working is in the automatic control realization automation action of control system under the sequence of movement preset.

First, wall panel forming machine b is transported on conveying mechanism 3 ' from the first track c1, the startup touching control system (can be mounted on rollover stand 2 ', the travel switch that wall panel forming machine b can be touched when carrying), conveying mechanism 3 ' is started working, motor 36 ' rotates to drive and promotes dolly 37 ' in the upper walking of grooved rail 32 ', pushing block 373 ' on walking dolly 37 ' can be stuck in the bottom frame of wall panel forming machine b, thus promote wall panel forming machine b in the upper walking of track 31 ', walking touches the unlatching (can be arrange travel switch to trigger equally) of next step action behind precalculated position.Then, clamp system 4 ' action, oil cylinder 41 ' stretches out, first linking arm 43 ' and the second linking arm 44 ' are supportted straight, the free end of L-type connecting lever 42 ' is clamped to the framework of tendency wall panel forming machine b, simultaneously, support cylinder 7 ' action withstands on wall panel forming machine b, and the second oil cylinder 63 ' action of tensioning mechanism 6 ' drives hook arm 65 ' to rotate hook on the framework of wall panel forming machine b, by clamp system 4 ', the combination of support cylinder 7 ' and tensioning mechanism 6 ' three can be stable wall panel forming machine b and rollover stand 2 ' are fixed together, situation that is mobile or that loosen is there is when avoiding overturning.After clamp system 4 ', support cylinder 8 ' and tensioning mechanism 7 ' execution, it is exactly last rotary movement, first drives overturning oil cylinder 51 ' and the second driving overturning oil cylinder 52 ' to make contrary action simultaneously turns over rollover stand 2 ' and turn 90 degrees, and namely completes rotary movement.

Above-mentioned demoulding stacking machine f2, as shown in Fig. 9, Figure 10 and Figure 16, comprise for by the wallboard g(g as shown in Figure 16 after shaping) stripper apparatus 1 automatically deviate from from wall panel forming machine b, for the wallboard g after the demoulding is pushed automatically piling palletizing apparatus in heaps 2 and be used for piling is in heaps after wallboard g automatically carry out the upset car 3 of 90 degree of upsets.

Described upset car 3, as Fig. 9, Figure 10, shown in Figure 11 and Figure 12, the rollover stand 32 comprising horizontal base 31 and be hinged on horizontal base 31, described rollover stand 32 comprises horizontal frame 321 and vertical pillars 322, one side of described horizontal frame 321 is hinged on horizontal base 31, described vertical pillars 322 lower end is fixedly connected on the side of the hinged horizontal frame 321 with horizontal base 31, described vertical pillars 322 is interval with many, promote the upset of rollover stand 32 by arranging overturning oil cylinder 33 between horizontal base 31 and rollover stand 32, described overturning oil cylinder 33 is hinged on horizontal base 31, the piston-rod end of described overturning oil cylinder 33 is hinged on the bottom surface of horizontal frame 321, described horizontal frame 321 is all covered with roll shaft 323 along the direction of travel of stripper apparatus 1 and travel region, the arcwall face part of described roll shaft 323 protrudes from the upper surface of horizontal frame 321.

Described stripper apparatus 1, as depicted in figure 10 and figure 13, can the mode of horizontal reciprocating movement be arranged on upset car 3, comprises the walking mechanism 11 that is arranged on rollover stand 32 and is driven by walking mechanism 11 and move back and forth the demoulding drag hook 12 on rollover stand 32, described walking mechanism 11 comprises motor 111, transmission shaft lever 112, gear 113, chain 114, first sprocket wheel 115 and the second sprocket wheel 116, described transmission shaft lever 112 is installed in parallel on horizontal frame 321 side not relative with vertical pillars 322, the two ends of described transmission shaft lever 112 are separately installed with the edge surface that the first sprocket wheel 115 protrudes from horizontal frame 321, on side relative with transmission shaft lever 112 on described horizontal frame 321, two ends are separately installed with second sprocket wheel 116 corresponding with the first sprocket wheel 115 position, transmission is carried out by chain 114 respectively between described two group of first sprocket wheel 115 and the second sprocket wheel 116, described motor 111 is fixedly mounted on horizontal frame 321, described transmission shaft lever 112 and motor 111 output shaft are respectively equipped with gear 113 engage each other, described demoulding drag hook 12 is an elongated drag hook shelf 121, one long side of described drag hook shelf 121 is provided with upraised portion 122 and is formed hook-shaped, as shown in figure 14, the two ends of described drag hook shelf 121 length direction are respectively equipped with connector 123, described two connectors 123 are connected on two chains 114, and described drag hook shelf 121 is provided with the road wheel 124 of walking on horizontal frame 321.

Described palletizing apparatus 2, as shown in Fig. 9, Figure 10 and Figure 13, comprise the mount pad 21 be fixedly installed on horizontal frame 321 side relative with vertical pillars 322 and the piling oil cylinder 22 be erected on mount pad 21, the piston rod telescopic direction vertically vertical pillars 322 of described piling oil cylinder 22, the piston-rod end of described piling oil cylinder 22 is vertically fixedly installed push pedal 23, described push pedal 23 is fixed with towards the guide post 24 to mount pad 21, described mount pad 21 is fixed with the fairlead 25 be enclosed within guide post 24.

Above-mentioned seperator 4 is for automatically separating wallboard g shaping side by side, its structure is as shown in Fig. 9, Figure 10 and Figure 15, be erected on the side of rollover stand 32 reverses direction, comprise portal frame 41, be arranged on portal frame 41 under base 42, the screens separating mechanism 43 be arranged on portal frame 41; Described portal frame 41 comprises two columns 411, be connected to entablature 412 between two column 411 upper ends with two column 411 upper and lower sides respectively towards the vertical guiding crossbeam 413 be fixedly installed in upset car 32 direction; Described base 42 is arranged between the lower end of two columns 411, described base 42 accepts horizontal base 31 and both upper surface flush, described base 42 is embedded with running roller 421 along the detaching direction of seperator 4 is uniform, and the arcwall face part of described running roller 421 protrudes from the upper surface of base 42; Described two columns 411 are respectively equipped with screens separating mechanism 43, and described two screens separating mechanisms 43 are for being oppositely arranged.

Described separation clamping mechanism 43 comprises Z-direction movable stand 431, Z-direction guidance set 432, Z-direction drive oil cylinder 433, X to movable stand 434, X to guidance set 435 and X to driving oil cylinder 436 (Z-direction, X to the Z-direction referred in three-dimensional and X to); Described Z-direction movable stand 431 is that a rectangular frame is vertically arranged between the guiding crossbeam 413 of column 411 upper and lower side, described Z-direction guidance set 432 comprises Z-direction grooved rail on the guiding crossbeam 413 being oppositely arranged on column 411 upper and lower side respectively 4321 and is separately positioned on Z-direction movable stand 431 upper and lower side and is correspondingly embedded the Z-direction road wheel 4322 in Z-direction grooved rail 4321, described Z-direction drives oil cylinder 433 to be fixedly installed on column 411, and described Z-direction drives the piston-rod end of oil cylinder 433 to be connected on Z-direction movable stand 431; Described X is a mobile screens post being vertically arranged in the rectangular frame of Z-direction movable stand 431 to movable stand 434, described X comprises to guidance set 435 and is separately positioned on X to the X of movable stand 434 upper and lower side to road wheel 4351 with to be vertically set on Z-direction movable stand 431 the corresponding X embedded to road wheel 4351 for X respectively to grooved rail 4352, described X is fixedly installed on Z-direction movable stand 431 to driving oil cylinder 436, and described X is connected to X on movable stand 434 to driving the piston end of oil cylinder 436.

Above-mentioned demoulding stacking machine f2 and seperator f3 is suitable before and after sequence of movement connecing, and describes in detail below both operation principles by job step.

The first step: demoulding work, wall panel forming machine b is overturn the side of rear open end towards upset car 3 by the second forming machine upset car f1, the motor 111 of stripper apparatus 1 starts, transmission shaft lever 112 is driven to rotate, thus drive chain 114 to rotate, namely walking mechanism 11 starts to rotate, demoulding drag hook 12 is driven to walk on horizontal frame 321, walk towards wall panel forming machine direction, walk to drag hook shelf 121 lug boss 122 embed be connected to all wallboard g ends arrange mould frame h on drag hook h1 in catch on (as shown in Figure 6), then motor 111 rotates backward, drive the walking in the other direction of demoulding drag hook 12, slowly all being spun off from wall panel forming machine b by all wallboard g is placed on horizontal frame 321, the roller bearing 323 of uniform setting on horizontal frame 321 can follow rotation when the de-row of wallboard 100, friction can be reduced like this and reduce resistance, alleviate the driving burden of motor 111, arrive this, stripper completes.

Second step: piling work, the demoulding out rear wall plate g is that side-stand type interval is placed, so all wallboard g then will be carried out to push together, so that the work of postorder, piling oil cylinder 22 is started working, its piston rod stretches out, push pedal 23 is made to be fitted in hithermost one piece of wallboard g on the surface, under the guide effect of guide post 24 and fairlead 25, the vertical release stably that can keep of push pedal 23 promotes wallboard g, and wallboard g draws close to vertical pillars 322 at next block block of promotion of push pedal 23, is stacked in together until draw close completely, arrive this, piling work completes.

3rd step: upset work, overturning oil cylinder 33 is started working, here the number of overturning oil cylinder 33 is arranged according to required drive, and it is that rotating shaft is upwards dug that its piston rod to stretch out horizontal frame 321 along pin joint, turns over and turn 90 degrees, the wallboard g be placed on by script side-stand type stacking on horizontal frame 321 overturns and is placed in vertical pillars 322 in horizontal stacking, therefore, push pedal here 23 and vertical pillars 322 clamp the effect of wallboard g in addition, prevent from loosening during upset, arrive this, upset work completes.

4th step: mask work, after wallboard g is overturn by demoulding stacking machine f2 is that upset is seperator 4 times, now wallboard g or two piece side by side in the middle of connect same mould frame h, two wallboard g separate by the work of seperator 4 exactly, first the X of two screens separating mechanisms 43 starts working to driving oil cylinder 436, its piston rod stretches out, promote X to advance to movable stand 434 to the end face of wallboard g, X is stuck on the pin rod h2 that the mould frame end h portion in the middle of two wallboard g arranges (as shown in figure 14) to the screens post of movable stand 434, then the Z-direction of two screens separating mechanisms 43 drives oil cylinder 433 to start working, its piston rod is retracted, Z-direction movable stand 431 is driven to move to two columns 411, Z-direction movable stand 431 moves can be separated two wallboard g, be divided into two heaps, outside a pile takes off on base 42 with the movement of Z-direction movable stand 431, base 42 is provided with running roller 421, when the de-row of wallboard g goes out, running roller 421 can along with rotation, its effect is the same with above-mentioned roller bearing 323, complete to this mask work.

Above-mentioned maintenance input track c3 and maintenance output track c4 is respectively equipped with combined type ferry bus k, described each section of first track c1 is respectively equipped with transition go-cart m, described maintenance track c2 is provided with running go-cart n, as shown in fig. 1, described combined type ferry bus k, transition go-cart m, running go-cart n is all for being all for transporting wall panel forming machine b, described combined type ferry bus k can be connected transport wall panel forming machine b with transition go-cart m and the go-cart n that operates respectively, the outside of described maintenance input track c3 is added is provided with the First Transition oil cylinder p with maintenance track c2 end correspondence position, the outer side edges of described maintenance output track c4 is added is provided with the second transition oil cylinder q with the first track c1 end correspondence position, combined type ferry bus k on maintenance input track c3 to be connected with the go-cart n that operates when transporting wall panel forming machine b and just to advance to by First Transition oil cylinder p operate on go-cart n to promote wall panel forming machine b, in like manner, just advance on combined type ferry bus k by the second transition oil cylinder q to promote wall panel forming machine b when the go-cart n that operates is connected transports wall panel forming machine b with the combined type ferry bus k on maintenance output track c4, by arranging combined type ferry bus k, transition go-cart m, running go-cart n, First Transition oil cylinder p and the second transition oil cylinder q, improve the automaticity of machinery further, also just reduce further artificial labour intensity, thus enhance productivity further.

Be only this origination techniques content preferred embodiment in sum, be not used for limiting practical range of the present invention, the equivalence that namely Fan Yiben author content is done changes and modifies, and all should belong to the technology category that this creation is advocated.

Claims (10)

1. the vertical formwork erection production line of light composite wallboard, comprise system of getting the raw materials ready and the wall panel forming machine of wall board forming material, it is characterized in that: also comprise the control system of mechanical automation in each portion of production control line, formed can for the rail network of wall panel forming machine persistent loop production run, wall panel forming machine carried out to the demoulding equipment after the framed die-filling equipment of installation form, slip casting platform wall panel forming machine being carried out to slip casting and wall board forming;

Described rail network comprises the first track, maintenance input track, maintenance track and maintenance output track, and described first track and maintenance track are connected between maintenance input track and between maintenance output track;

Described die-filling equipment, slip casting platform and demoulding equipment are disposed on the first track and the first track are divided into multistage, and described die-filling equipment is arranged between demoulding equipment and slip casting platform;

Described die-filling equipment comprises the first forming machine upset car, dress plate pan filler and auxiliary pan filler, described first forming machine upset car is connected on the first track, described dress plate pan filler is arranged on a side of forming machine upset car reverses direction, and described auxiliary pan filler is arranged on the first not relative with dress plate pan filler forming machine and overturns on another side of car;

Described slip casting platform comprises and is connected to operating platform on the first track and automatic grouting pump, and described automatic grouting pump is connected between the system of getting the raw materials ready and operating platform by pipeline;

Described demoulding equipment comprises the second forming machine upset car, demoulding stacking machine, seperator and assisted demoulding machine; described second forming machine upset car is connected on the first track; described demoulding stacking machine is arranged on a side of the second forming machine upset car reverses direction; described seperator is arranged on and does not overturn with the second forming machine on relative demoulding stacking machine one side of car, and described assisted demoulding machine is arranged on the second not relative with demoulding stacking machine forming machine and overturns on another side of car.

2. the vertical formwork erection production line of light composite wallboard according to claim 1, it is characterized in that: described first forming machine upset car is mutually isostructural machinery with the second forming machine upset car, include upset base, rollover stand, conveying mechanism, clamp system and switching mechanism, described rollover stand connects and composes orthogonal L-type structure by the side of the first framework and the second framework, the L-type structural corners place of described rollover stand is hinged on the interlude of upset base, described conveying mechanism is arranged on the first framework, described conveying mechanism can correspondingly with the first track connect, described clamp system is arranged on the first framework edge relative with the second framework, described switching mechanism is arranged between rollover stand and upset base.

3. the vertical formwork erection production line of light composite wallboard according to claim 2, is characterized in that: described conveying mechanism comprises that two parallel interval are fixedly installed on guide rail on the first framework, two parallel interval are fixedly installed on two grooved rails on the first framework, sprocket wheel that the end of roll shaft that two ends between two grooved rails are fixed with respectively, two roll shafts is respectively equipped with, the chain of winding on the sprocket wheel of two roll shafts, be fixedly installed on motor on the first framework and both sides and be respectively equipped with road wheel and be embedded the promotion dolly in two grooved rails;

Described two guide rails can correspondingly with the first track connect, and the notch of described two grooved rails is oppositely arranged between two guide rails, and described promotion dolly is provided with connector and is connected on chain, and described promotion dolly is provided with the pushing block raised up;

Described clamp system comprises oil cylinder, L-type connecting lever, the first linking arm and the second linking arm, described oil cylinder is hinged in the edge surface of the first framework, one end of described first linking arm and an arm free end of L-type connecting lever are hinged on the upper of the first framework respectively, on the other end that the two ends of described second linking arm are hinged on the first linking arm respectively and L-type connecting lever, the piston-rod end of described oil cylinder is hinged on the hinged place of the first linking arm and the second linking arm;

Described switching mechanism comprises the first driving overturning oil cylinder and second and drives overturning oil cylinder, described first drives overturning oil cylinder to be hinged on upset base, described first drives the piston-rod end of overturning oil cylinder to be hinged on the first framework, the driving overturning oil cylinder of described second is hinged on upset base, and described second drives the piston-rod end of overturning oil cylinder to be hinged on the second framework;

The dual-side of described second framework is provided with tensioning mechanism, described tensioning mechanism is comprised and to be fixed on the rotating shaft bar in the edge surface of the second framework, the gear be fixed on rotating shaft bar, the second oil cylinder be fixedly mounted on the second framework by bearing block, to be fixedly connected on the tooth bar on the second cylinder piston rod end and to hook arm, described tooth bar is engaged on gear, one end of described hook arm is fixedly installed on rotating shaft bar, the other end of described hook arm extend internally be bent into hook-shaped.

4. the vertical formwork erection production line of light composite wallboard according to claim 3, is characterized in that: described second framework is provided with support cylinder, and described support cylinder is arranged in four corner distributions of the second framework respectively.

5. the vertical formwork erection production line of light composite wallboard according to claim 1, is characterized in that: described demoulding stacking machine comprises stripper apparatus for automatically being deviate from from wall panel forming machine by the wallboard after shaping, be used for the wallboard after by the demoulding automatically push piling palletizing apparatus in heaps and be used for piling is in heaps after wallboard automatically carry out the upset car of 90 degree of upsets; Described stripper apparatus is can the mode of horizontal reciprocating movement be arranged on upset car, and described palletizing apparatus is arranged on upset car; Described upset car comprises horizontal base and is hinged on the rollover stand on horizontal base; Described stripper apparatus comprises being arranged on walking mechanism on rollover stand and being driven by walking mechanism and moves back and forth the demoulding drag hook on rollover stand; Described palletizing apparatus is arranged on the side of rollover stand.

6. the vertical formwork erection production line of light composite wallboard according to claim 5, it is characterized in that: described rollover stand comprises horizontal frame and vertical pillars, one side of described horizontal frame is hinged on horizontal base, described vertical pillars lower end is fixedly connected on horizontal frame and the hinged side of horizontal base, described vertical pillars is interval with many, promote the upset of rollover stand by arranging overturning oil cylinder between horizontal base and rollover stand, described overturning oil cylinder is hinged on horizontal base, the piston-rod end of described overturning oil cylinder is hinged on the bottom surface of horizontal frame,

Described walking mechanism comprises motor, transmission shaft lever, gear, chain, first sprocket wheel and the second sprocket wheel, described transmission shaft lever is installed in parallel on the horizontal frame side not relative with vertical pillars, the two ends of described transmission shaft lever are separately installed with the edge surface that the first sprocket wheel protrudes from horizontal frame, on side relative with transmission shaft lever on described horizontal frame, two ends are separately installed with second sprocket wheel corresponding with the first sprocket position, transmission is carried out by chain respectively between described two group of first sprocket wheel and the second sprocket wheel, described motor is fixedly mounted on horizontal frame, described transmission shaft lever and motor output shaft are respectively equipped with gear engage each other,

Described demoulding drag hook is an elongated drag hook shelf, one long side of described drag hook shelf is provided with upraised portion and is formed hook-shaped, the two ends of described drag hook shelf length direction are respectively equipped with connector, described two connectors are connected on two chains, and described drag hook shelf is provided with the road wheel of walking on horizontal frame;

Described palletizing apparatus comprises the mount pad be fixedly installed on the horizontal frame side relative with vertical pillars and the piling oil cylinder be erected on mount pad, the piston rod telescopic direction vertically vertical pillars of described piling oil cylinder, the piston-rod end of described piling oil cylinder is vertically fixedly installed push pedal, described push pedal is fixed with towards the guide post to mount pad, described mount pad is fixed with cover fairlead on the guide bar.

7. the vertical formwork erection production line of light composite wallboard according to claim 6, it is characterized in that: the horizontal frame of described rollover stand is all covered with roll shaft along the demoulding drag hook direction of travel of stripper apparatus and travel region, the arcwall face part of described roll shaft protrudes from the upper surface of horizontal frame; Described base is embedded with running roller along the detaching direction of seperator is uniform, and the arcwall face part of described running roller protrudes from the upper surface of base.

8. the vertical formwork erection production line of light composite wallboard according to claim 1, is characterized in that: described seperator comprises portal frame, be arranged on portal frame under base, the screens separating mechanism be arranged on portal frame; Described portal frame comprises two columns, be connected to entablature between two column upper ends with two column upper and lower sides respectively towards the vertical guiding crossbeam be fixedly installed in upset car direction; Described base is arranged between two column lower ends, and described base accepts horizontal base and both upper surface flush, and described two columns are respectively equipped with screens separating mechanism, and described two screens separating mechanisms are for being oppositely arranged.

9. the vertical formwork erection production line of light composite wallboard according to claim 8, is characterized in that: described separation clamping mechanism comprises Z-direction movable stand, Z-direction guidance set, Z-direction drive oil cylinder, X to movable stand, X to guidance set and X to driving oil cylinder; Described Z-direction movable stand is that a rectangular frame is vertically arranged between the guiding crossbeam of column upper and lower side, described Z-direction guidance set comprises and is oppositely arranged on Z-direction grooved rail on the guiding crossbeam of column upper and lower side respectively and is separately positioned on Z-direction movable stand upper and lower side and is correspondingly embedded the Z-direction road wheel in Z-direction grooved rail, described Z-direction drives oil cylinder to be fixedly installed on column, and described Z-direction drives the piston-rod end of oil cylinder to be connected on Z-direction movable stand; Described X is a mobile screens post being vertically arranged in the rectangular frame of Z-direction movable stand to movable stand, described X comprises to guidance set and is separately positioned on X to the X of movable stand upper and lower side to road wheel with to be vertically set on Z-direction movable stand the corresponding X embedded to road wheel for X respectively to grooved rail, described X is fixedly installed on Z-direction movable stand to driving oil cylinder, and described X is connected to X on movable stand to driving the piston end of oil cylinder.

10. according to the vertical formwork erection production line of the light composite wallboard in claim 1 to 9 described in any one, it is characterized in that: described maintenance input track and maintenance output track are respectively equipped with combined type ferry bus, each section of described first track is respectively equipped with transition go-cart, described maintenance track is provided with running go-cart, described combined type ferry bus can be connected with transition go-cart and the go-cart that operates respectively, the outside of described maintenance input track is added is provided with the First Transition oil cylinder with maintenance rail end correspondence position, the outer side edges of described maintenance output track is added is provided with the second transition oil cylinder with the first rail end correspondence position.