CN204622290U - Automation foam concrete heat-preserving plate production line - Google Patents

Abstract

The utility model provides a kind of automation foam concrete heat-preserving plate production line, comprise mould movement system, foaming running gate system and dismoulding system, mould movement system layout is rectangle, be two long limits and two minor faces, mould movement system comprises mould running rails and right-angled bend device, right-angled bend device is arranged on four right angle of rectangle, mould running rails is divided into four sections, be separately positioned on four edges place, mould running rails is connected right-angled bend device and arranges, foaming running gate system is arranged on the upside of mould running rails, and position is corresponding with die location to be cast, dismoulding system is arranged on the upside of mould running rails, and position is corresponding with by demoulding material position.Rectangular design described in the utility model, compact in design, mould realizes 360 degree of circulation turnovers, and cast, the demoulding complete automatically, and without the need to manpower, resource utilization is high, and automaticity is high, good economy performance.

Description

Automation foam concrete heat-preserving plate production line

Technical field

The utility model belongs to foam concrete heat-preserving plate production technical field, especially relates to a kind of automation foam concrete heat-preserving plate production line.

Background technology

Foam concrete heat-preserving plate is should country's " civil buildings outer heat preservation system and decoration of exterior wall fire prevention temporary provisions " and a kind of foam concrete fireproof heated board of releasing does not fire warming plate, and general principle utilizes not firing and effect that in concrete, a large amount of sealed porositys reaches fire prevention, lightweight, insulation of cement.Foam concrete fireproof heated board is foam, the cement prepared with foaming agent, after being uniformly mixed castable, through a kind of cement-based lightweight porous inorganic foamed concrete fireproof warming plate warming plate of maintenance, it can be applicable to the aspects such as external wall fire-blocking belt and exterior-wall heat insulation, also can combine with steel construction etc. and make combined wall board and ceiling system, for the building enclosure of large-sized workshop, insulation works can also be used for.The main feature of foam concrete heat-preserving plate is: 1, light material, has good heat preservation and energy conservation effects; 2, combustibility reaches A level; 3, bonding force is strong, and because this material is cement based porous material, belong to homogeneous material with mortar, metope, interface affinity is good, and adhesion strength is high, strong adaptability, and efficiency of construction is high; 4, energy-conserving and environment-protective: low-carbon (LC) profit is useless, nontoxic, and can utilize industrial residue, promotes sustainable development; 5, good endurance: the closed cell foamed material of cement based, has longer service life than organic insulation material, and anti-high and low-temp is good, corrosion-resistant, ultraviolet radiation resisting, weatherability, good endurance.

Being set to of prior art bubble concrete heat-insulating board assembly line is one-line, from raw material to finished product, from cast, shaping, the demoulding, cuts to packaging and all completes at straight line production line.Just there is mechanical device and arrange not compact in this, floor space is large, and labor strength is large, inefficiency, the problems such as energy-output ratio is large, when rent for present factory building is more and more expensive, need large factory building could settle the production line of lower whole production technology, this adds production cost undoubtedly, economy is low, there is a lot of production line automation degree also not high in addition, so just cause and waste time and energy, the problems such as reducing of the productivity.

Summary of the invention

In view of this, the utility model is intended to propose a kind of automation foam concrete heat-preserving plate production line, rectangular design, compact in design, and mould realizes 360 degree of circulation turnovers, and cast, the demoulding complete automatically, and without the need to manpower, automaticity is high.

For achieving the above object, the technical solution of the utility model is achieved in that

A kind of automation foam concrete heat-preserving plate production line, comprise mould movement system 1, foaming running gate system 2 and dismoulding system 3, described mould movement system 1 layout is rectangle, be two long limits and two minor faces, described mould movement system 1 comprises mould running rails 11 and right-angled bend device 12, described right-angled bend device 12 is arranged on four right angle of rectangle, described mould running rails 11 is divided into four sections, be separately positioned on four edges place, described mould running rails 11 is connected right-angled bend device 12 and arranges, described foaming running gate system 2 is arranged on the upside of mould running rails 11, and position is corresponding with die location to be cast, described dismoulding system 3 arranges the upside of mould running rails 11, and position is corresponding with by demoulding material position,

Described right-angled bend device 12 comprises engine 120 and turning mechanism 121, described engine 120 drives turning mechanism 121 to complete material and turns, described turning mechanism 121 is provided with transfer track 122, described transfer track 122 parallel linking mould running rails 11 is arranged, and described transfer track 122 is highly consistent with mould running rails 11;

Described foaming running gate system 2 comprises stirring motor 21, agitator 22, agitator 23, screw input feeder engine 24, screw input feeder 25, blowing agent carrier pipe 26 and discharge nozzle 27, described stirring motor 21 is arranged on the upper end cover of agitator 22, described stirring motor 21 drives agitator 23 to rotate by the shaft be arranged in agitator 22, described screw input feeder engine 24 drives screw input feeder 25 to operate, the charging aperture of described screw input feeder 25 is connected with Raw material pail, discharging opening is connected with agitator 22, described blowing agent carrier pipe 26 one end connects blowing agent bucket 28 one end and connects agitator 22, described discharge nozzle 27 is arranged on the bottom of agitator 22,

Described dismoulding system 3 comprises stripper apparatus 31 and material-pulling device 32, and described stripper apparatus 31 is arranged on the top for the treatment of stripper member, and described material-pulling device 32 is arranged on the side for the treatment of stripper member;

Described stripper apparatus 31 comprises outer frame 310, interior framework 311, flat frame 312, reductor 1, line shaft 314, power transmission shaft, eccentric frame 315, lifting arm 316, directive wheel 317 and top pressure head 318, described power transmission shaft is arranged on interior framework 311, described flat frame 312 is arranged on the side position place on the upper side of outer frame 310, and be connected with outer frame 310 and interior framework 311 respectively, described interior framework 311 bottom is provided with top pressure head 318, and described top pressure head 318 bottom position is consistent with material position;

Described reductor 1 drives line shaft 314 to rotate, described line shaft 314 drives power transmission shaft to rotate by gears meshing, described power transmission shaft two ends are equipped with eccentric frame 315, described eccentric frame 315 is arranged between outer frame 310 and interior framework 311, described eccentric frame 315 bottom is provided with STATEMENT OF FEDERALLY SPONSORED 319, described STATEMENT OF FEDERALLY SPONSORED 319 is connected with lifting arm 316 is movable, is provided with the directive wheel 317 moved up and down for the lifting arm 316 that leads between described outer frame 310 and interior framework 311;

Described material-pulling device 32 comprise frame 320, reductor 2 321, power gear 322, with power gear 322 with the use of release tooth bar 323 and the first push pedal 324, described reductor 2 321 and release tooth bar 323 are all arranged in frame 320, described reductor 2 321 drives power gear 322 to rotate, and the first described push pedal 324 is arranged on the end releasing tooth bar 323.

Further, described dismoulding system 3 and foaming running gate system 2 are arranged along material carriage direction, and at least through a right-angled bend device 12 between dismoulding system 3 and foaming running gate system 2.

Further, described turning mechanism 121 comprises leading screw and nut mechanism 1211A and the second push pedal 1212A, nut in described leading screw and nut mechanism 1211A is fixedly connected with transfer track 122, the second described push pedal 1212A arranges the outside of transfer track 122, and the height of described second push pedal 1212A is higher than the height of transfer track 122.

Further, described turning mechanism 121 comprises chain wheel driving mechanism 1211B and catch bar 1212B, the driving chain 12111B of described chain wheel driving mechanism 1211B arranges transfer track 122, described catch bar 1212B is arranged on the driving chain 12111B in chain wheel driving mechanism 1211B, described catch bar 1212B arranges two, and the distance between two catch bar 1212B is 1/2nd of driving chain 12111B, the height of described catch bar 1212B is higher than the height of transfer track 122.

Further, the track that described mould running rails 11 and transfer track 122 all be arranged in parallel by two forms, and is equipped with evenly distributed roller 4 in two described tracks be arranged in parallel.

Further, described power transmission shaft quantity is two, comprises power transmission shaft one and power transmission shaft two, and described power transmission shaft one be arranged in parallel with power transmission shaft two co-altitude.

Further, described directive wheel 317 is two right, is symmetrical arranged, lays respectively at top and the middle part of outer frame 310 along outer frame 310 central shaft.

Relative to prior art, automation foam concrete heat-preserving plate production line described in the utility model has following advantage:

Production line described in the utility model is rectangular layout, rectangle right angle is provided with right-angled bend device, production line is arranged foaming running gate system and dismoulding system, compact in design and mould realizes 360 degree of circulation turnovers on a production line, empty mould circulation enters cast station automatically without the need to manpower; Production line production process realizes full-automatic, and only by the 90 degree turnovers of right-angled bend device realization to mould, need operate on a production line as long as do not need external force just can realize mould by the thrust between mould, economize energy, environmental protection; The design of rectangle production line, take up room less, resource utilization is high, good economy performance.

Accompanying drawing explanation

The accompanying drawing forming a part of the present utility model is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the automation foam concrete heat-preserving plate production line structural representation described in the utility model embodiment;

Fig. 2 A is right-angled bend apparatus structure schematic diagram in the automation foam concrete heat-preserving plate production line described in the utility model embodiment;

Fig. 2 B is another structural representation of right-angled bend device in the automation foam concrete heat-preserving plate production line described in the utility model embodiment;

Fig. 3 is the injection system structure schematic diagram that foams in the automation foam concrete heat-preserving plate production line described in the utility model embodiment;

Fig. 4 A is the front view of dismoulding system in the automation foam concrete heat-preserving plate production line described in the utility model embodiment;

Fig. 4 B is the top view of dismoulding system in warm board assembly line in the automation foam concrete heat-preserving plate production line described in the utility model embodiment;

Fig. 4 C is the side view of dismoulding system in warm board assembly line in the automation foam concrete heat-preserving plate production line described in the utility model embodiment.

Description of reference numerals:

1-mould movement system, 11-mould running rails, 12-right-angled bend device, 120-engine, 121-turning mechanism, 122-transfer track,

1211A-leading screw and nut mechanism, 1212A-second push pedal,

1211B-chain wheel driving mechanism, 12111B-driving chain, 1212B-catch bar,

2-foams running gate system, 21-stirring motor, 22-agitator, 23-agitator, 24-screw input feeder engine, 25-screw input feeder, 26-blowing agent carrier pipe, 27-conveying pipeline, 28-blowing agent bucket,

3-dismoulding system, 31-stripper apparatus, 32-material-pulling device,

310-outer frame, 311-interior framework, the flat frame of 312-, 313-reductor one, 314-line shaft, 315-eccentric frame, 316-lifting arm, 317-directive wheel, 318-pushes up pressure head, 319-STATEMENT OF FEDERALLY SPONSORED,

320-frame, 321-reductor two, 322-power gear, 323-releases tooth bar, 324-first push pedal,

4-roller.

Detailed description of the invention

It should be noted that, when not conflicting, the embodiment in the utility model and the feature in embodiment can combine mutually.

Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.

Embodiment one:

As Fig. 1, Fig. 2 A, Fig. 3, Fig. 4 A, shown in Fig. 4 B and Fig. 4 C, a kind of automation foam concrete heat-preserving plate production line, comprise mould movement system 1, foaming running gate system 2 and dismoulding system 3, described mould movement system 1 layout is rectangle, be two long limits and two minor faces, described mould movement system 1 comprises mould running rails 11 and right-angled bend device 12, described right-angled bend device 12 is arranged on four right angle of rectangle, described mould running rails 11 is divided into four sections, be separately positioned on four edges place, described mould running rails 11 is connected right-angled bend device 12 and arranges, described foaming running gate system 2 is arranged on the upside of mould running rails 11, and position is corresponding with die location to be cast, described dismoulding system 3 arranges the upside of mould running rails 11, and position is corresponding with by demoulding material position,

Described right-angled bend device 12 comprises engine 120 and turning mechanism 121, described engine 120 drives turning mechanism 121 to complete material and turns, described turning mechanism 121 is provided with transfer track 122, described transfer track 122 parallel linking mould running rails 11 is arranged, and described transfer track 122 is highly consistent with mould running rails 11;

Described foaming running gate system 2 comprises stirring motor 21, agitator 22, agitator 23, screw input feeder engine 24, screw input feeder 25, blowing agent carrier pipe 26 and discharge nozzle 27, described stirring motor 21 is arranged on the upper end cover of agitator 22, described stirring motor 21 drives agitator 23 to rotate by the shaft be arranged in agitator 22, described screw input feeder engine 24 drives screw input feeder 25 to operate, the charging aperture of described screw input feeder 25 is connected with Raw material pail, discharging opening is connected with agitator 22, described blowing agent carrier pipe 26 one end connects blowing agent bucket 28 one end and connects agitator 22, described discharge nozzle 27 is arranged on the bottom of agitator 22,

Described dismoulding system 3 comprises stripper apparatus 31 and material-pulling device 32, and described stripper apparatus 31 is arranged on the top for the treatment of stripper member, and described material-pulling device 32 is arranged on the side for the treatment of stripper member;

Described stripper apparatus 31 comprises outer frame 310, interior framework 311, flat frame 312, reductor 1, line shaft 314, power transmission shaft, eccentric frame 315, lifting arm 316, directive wheel 317 and top pressure head 318, described power transmission shaft is arranged on interior framework 311, described flat frame 312 is arranged on the side position place on the upper side of outer frame 310, and be connected with outer frame 310 and interior framework 311 respectively, described interior framework 311 bottom is provided with top pressure head 318, and described top pressure head 318 bottom position is consistent with material position;

Described reductor 1 drives line shaft 314 to rotate, described power transmission shaft quantity is two, comprise power transmission shaft one and power transmission shaft two, described power transmission shaft one be arranged in parallel with power transmission shaft two co-altitude, described line shaft 314 drives power transmission shaft one to rotate by gears meshing, and described power transmission shaft one drives power transmission shaft two to rotate by gears meshing;

Described power transmission shaft two ends are equipped with eccentric frame 315, described eccentric frame 315 is arranged between outer frame 310 and interior framework 311, described eccentric frame 315 bottom is provided with STATEMENT OF FEDERALLY SPONSORED 319, described STATEMENT OF FEDERALLY SPONSORED 319 is connected with lifting arm 316 is movable, is provided with the directive wheel 317 moved up and down for the lifting arm 316 that leads between described outer frame 310 and interior framework 311;

Described material-pulling device 32 comprise frame 320, reductor 2 321, power gear 322, with power gear 322 with the use of release tooth bar 323 and the first push pedal 324, described reductor 2 321 and release tooth bar 323 are all arranged in frame 320, described reductor 2 321 drives power gear 322 to rotate, and the first described push pedal 324 is arranged on the end releasing tooth bar 323.

Dismoulding system 3 and foaming running gate system 2 are arranged along material carriage direction, material arrives four right-angled bend devices 12 between dismoulding system 3 along feed direction from foaming running gate system 2, setting like this, mould running route on a production line can be made to maximize, foam concrete heat-preserving plate is solidified and has time enough, good forming effect.

Turning mechanism 121 comprises leading screw and nut mechanism 1211A and the second push pedal 1212A, nut in described leading screw and nut mechanism 1211A is fixedly connected with transfer track 122, the second described push pedal 1212A arranges the outside of transfer track 122, and the height of described second push pedal 1212A is higher than the height of transfer track 122.

The track that mould running rails 11 and transfer track 122 all be arranged in parallel by two forms, evenly distributed roller 4 is equipped with in two described tracks be arranged in parallel, when turning device promotes mould, make the frictional force between die end and track little, be convenient to push.

Directive wheel 317 is two right, be symmetrical arranged along outer frame 310 central shaft, lay respectively at top and the middle part of outer frame 310, can lead preferably to lifting arm 316 by arranging two pairs of directive wheels 317, and directive wheel 317 and both STATEMENT OF FEDERALLY SPONSORED 319, simultaneously to the effect of lifting arm 316, make lifting arm 316 can be placed in preferably between outer frame 310 and interior framework 311, promote and decline process, offset resistance lower, stripping result is good.

Embodiment two:

With embodiment one unlike, as shown in Figure 2 B, turning mechanism 121 comprises chain wheel driving mechanism 1211B and catch bar 1212B, the driving chain 12111B of described chain wheel driving mechanism 1211B arranges transfer track 122, described catch bar 1212B is arranged on the driving chain 12111B in chain wheel driving mechanism 1211B, described catch bar 1212B arranges two, and the distance between two catch bar 1212B is 1/2nd of driving chain 12111B, the height of described catch bar 1212B is higher than the height of transfer track 122.

Embodiment three:

With embodiment one or embodiment two unlike, power transmission shaft is an axle, and reductor 1 drives line shaft 314 to rotate, and described line shaft 314 drives power transmission shaft to rotate by gears meshing.

The course of work of this production line is: before production, first arrange mold on a production line, and the right-angled bend device 12 place sky at rectangle production line diagonal place stays not arrange mold, then production line is started, first when the running gate system 2 that foams has detected that sky mould appears within the scope of its cast, start foaming running gate system 2, blowing agent in blowing agent bucket and the concrete in Raw material pail drive screw input feeder 25 to force conveying by blowing agent carrier pipe 26 and screw input feeder engine 24 respectively, both are input in agitator 22 simultaneously, stirring motor 21 drives agitator 23 both to be stirred by shaft, be poured in mould by discharge nozzle 27, to be cast complete after, under effect due to the right-angled bend device 12 of rectangle right angle, the empty mould to be cast getting close to casting mold is pushed within the scope of the cast of foaming running gate system 2, and the mould of casting complete is pushed to the cast scope away from foaming running gate system 2 by the empty mould to be cast got close to, and so forth, promotion between mould and 90 degree of turnings are realized by right-angled bend device 12, shaping mould is pushed within the scope of the demoulding of dismoulding system 3, now dismoulding system 3 detects that molded mould arrives, reductor 1 in PLC or Single-chip Controlling stripper apparatus 31 operates, thus drive power transmission shaft running, the eccentric frame 315 at power transmission shaft two ends is driven to rotate, the STATEMENT OF FEDERALLY SPONSORED 319 of eccentric frame 315 bottom is arranged in lifting arm 316, thus drive lifting arm 316 to move, under the effect of directive wheel 317, lifting arm 316 upwards does rectilinear motion, mould is mentioned, mention in process, due to the top pressure effect of top pressure head 319 pairs of contoured foam concrete insulation board blanks that interior framework 311 bottom is arranged, the blank demoulding, now be arranged on the displacement transducer on lifting arm 316, detect that lifting arm 316 is promoted to peak, PLC or Single-chip Controlling reductor 2 321 operate, the first push pedal 324 released on tooth bar 323 is driven to pass warming plate blank to next station, thus complete automatic demoulding operation, after an automatic demoulding operation completes, mould emptier and pusher return reset, lifting arm 316 resets to home position, the foam concrete heat-preserving plate completing stripping process enters cutting action and packaging process.

Two long limit tracks of this production line and two minor face track alternate runs, right-angled bend device 12 alternate run on two diagonal of namely rectangle production line, long limit is run, minor face stops, minor face runs, long limit stops, and this operational mode is the necessary setting program realizing 90 degree of right-angled bends and cast stripping process.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (7)

1. an automation foam concrete heat-preserving plate production line, it is characterized in that: comprise mould movement system (1), foaming running gate system (2) and dismoulding system (3), described mould movement system (1) layout is rectangle, be two long limits and two minor faces, described mould movement system (1) comprises mould running rails (11) and right-angled bend device (12), described right-angled bend device (12) is arranged on four right angle of rectangle, described mould running rails (11) is divided into four sections, be separately positioned on four edges place, described mould running rails (11) is connected right-angled bend device (12) and arranges, described foaming running gate system (2) is arranged on the upside of mould running rails (11), and position is corresponding with die location to be cast, described dismoulding system (3) arranges the upside of mould running rails (11), and position is corresponding with by demoulding material position,

Described right-angled bend device (12) comprises engine (120) and turning mechanism (121), described engine (120) drives turning mechanism (121) to complete material and turns, described turning mechanism (121) is provided with transfer track (122), described transfer track (122) parallel linking mould running rails (11) is arranged, and described transfer track (122) is highly consistent with mould running rails (11);

Described foaming running gate system (2) comprises stirring motor (21), agitator (22), agitator (23), screw input feeder engine (24), screw input feeder (25), blowing agent carrier pipe (26) and discharge nozzle (27), described stirring motor (21) is arranged on the upper end cover of agitator (22), described stirring motor (21) drives agitator (23) to rotate by the shaft be arranged in agitator (22), described screw input feeder engine (24) drives screw input feeder (25) running, the charging aperture of described screw input feeder (25) is connected with Raw material pail, discharging opening is connected with agitator (22), described blowing agent carrier pipe (26) one end connects blowing agent bucket (28) one end and connects agitator (22), described discharge nozzle (27) is arranged on the bottom of agitator (22),

Described dismoulding system (3) comprises stripper apparatus (31) and material-pulling device (32), described stripper apparatus (31) is arranged on the top for the treatment of stripper member, and described material-pulling device (32) is arranged on the side for the treatment of stripper member;

Described stripper apparatus (31) comprises outer frame (310), interior framework (311), flat frame (312), reductor one (313), line shaft (314), power transmission shaft, eccentric frame (315), lifting arm (316), directive wheel (317) and top pressure head (318), described power transmission shaft is arranged on interior framework (311), described flat frame (312) is arranged on the side position place on the upper side of outer frame (310), and be connected with outer frame (310) and interior framework (311) respectively, described interior framework (311) bottom is provided with top pressure head (318), described top pressure head (318) bottom position is consistent with material position,

Described reductor one (313) drives line shaft (314) to rotate, described line shaft (314) drives power transmission shaft to rotate by gears meshing, described power transmission shaft two ends are equipped with eccentric frame (315), described eccentric frame (315) is arranged between outer frame (310) and interior framework (311), described eccentric frame (315) bottom is provided with STATEMENT OF FEDERALLY SPONSORED (319), described STATEMENT OF FEDERALLY SPONSORED (319) is connected with lifting arm (316) is movable, the directive wheel (317) moved up and down for the lifting arm that leads (316) is provided with between described outer frame (310) and interior framework (311),

Described material-pulling device (32) comprise frame (320), reductor two (321), power gear (322), with power gear (322) with the use of release tooth bar (323) and the first push pedal (324), described reductor two (321) and release tooth bar (323) are all arranged in frame (320), described reductor two (321) drives power gear (322) to rotate, and described the first push pedal (324) is arranged on the end releasing tooth bar (323).

2. automation foam concrete heat-preserving plate production line according to claim 1, it is characterized in that: described dismoulding system (3) and foaming running gate system (2) are arranged along material carriage direction, and at least through a right-angled bend device (12) between dismoulding system (3) and foaming running gate system (2).

3. automation foam concrete heat-preserving plate production line according to claim 1, it is characterized in that: described turning mechanism (121) comprises leading screw and nut mechanism (1211A) and the second push pedal (1212A), nut in described leading screw and nut mechanism (1211A) is fixedly connected with transfer track (122), described the second push pedal (1212A) arranges the outside of transfer track (122), and the height of described second push pedal (1212A) is higher than the height of transfer track (122).

4. automation foam concrete heat-preserving plate production line according to claim 1, it is characterized in that: described turning mechanism (121) comprises chain wheel driving mechanism (1211B) and catch bar (1212B), the driving chain (12111B) of described chain wheel driving mechanism (1211B) arranges transfer track (122), described catch bar (1212B) is arranged on the driving chain (12111B) in chain wheel driving mechanism (1211B), described catch bar (1212B) arranges two, and the distance between two catch bars (1212B) is 1/2nd of driving chain (12111B), the height of described catch bar (1212B) is higher than the height of transfer track (122).

5. automation foam concrete heat-preserving plate production line according to claim 1, it is characterized in that: the track that described mould running rails (11) and transfer track (122) all be arranged in parallel by two forms, in two described tracks be arranged in parallel, be equipped with evenly distributed roller (4).

6. automation foam concrete heat-preserving plate production line according to claim 1, is characterized in that: described power transmission shaft quantity is two, comprises power transmission shaft one and power transmission shaft two, and described power transmission shaft one be arranged in parallel with power transmission shaft two co-altitude.

7. automation foam concrete heat-preserving plate production line according to claim 1, it is characterized in that: described directive wheel (317) is two right, be symmetrical arranged along outer frame (310) central shaft, lay respectively at top and the middle part of outer frame (310).