CN204367172U - A kind of energy-conserving plate material production system - Google Patents

Abstract

Disclosed in the utility model, a kind of energy-conserving plate material production system, comprising: be fixed on ground bottom bracing frame; Mixer is fixed on the top of bracing frame, for stirring the raw material of described energy-conserving plate material; The top of mixer arranges the first input hole, the second input hole, the 3rd input hole and handle hole, and bottom arranges discharge opening; Described first input hole and cross current; Metering foam bucket is fixed on the top of bracing frame, is communicated with the second input hole of mixer; Cement tub is communicated with the 3rd input hole of mixer by screw delivery pump and conveyance conduit; Cement is equipped with in cement tub inside; Deflector chute is inclined at the below of the discharge opening of mixer, and deflector chute and bracing frame are fixed; Plate forming groove is arranged on the below of deflector chute outlet.This operation system structure is simple, and production efficiency is higher, and the consumption of energy accurate-metering foam, accurately controls the consumption of cement, sand, additive and water, ensures that sheet forming weight reaches standard-required.

Description

A kind of energy-conserving plate material production system

Technical field

The utility model relates to energy saving building material technical field, particularly a kind of energy-conserving plate material production system.

Background technology

With science and technology and economic fast development, energy saving building material obtains applying more and more widely.By foaming, foam and cement, sand, additive and water are fully uniformly mixed and can form light energy-saving wall board.

But energy-conserving plate material process units complicated structure of the prior art, the energy-conserving plate material parameter index produced does not reach standard-required, affects product quality, can not the consumption of accurate measurement foam, and production cost is higher.

Utility model content

For solving the problem, it is simple that the utility model provides a kind of structure, and production efficiency is higher, and the consumption of energy accurate-metering foam, ensures that sheet forming weight reaches the energy-conserving plate material production system of standard-required.

A kind of energy-conserving plate material production system that the utility model provides, comprising:

Bracing frame, bottom is fixed on ground;

Mixer, is fixed on the top of support frame as described above, for stirring the raw material of described energy-conserving plate material; The top of described mixer arranges the first input hole, the second input hole, the 3rd input hole and handle hole, and bottom arranges discharge opening; Described first input hole and cross current;

Metering foam bucket, is fixed on the top of support frame as described above, is communicated with the second input hole of described mixer;

Cement tub, is communicated with the 3rd input hole of described mixer by screw delivery pump and conveyance conduit; Cement is equipped with in described cement tub inside;

Deflector chute, is inclined at the below of the discharge opening of described mixer; Described deflector chute and support frame as described above are fixed;

Plate forming groove, is arranged on the below of described deflector chute outlet;

Wherein, it is inner that the foam of setting weight is transported to described mixer by described metering foam bucket, described screw delivery pump is inner to described mixer by the described cement transportation of setting weight, described operating personnel are inner to described mixer by the sand of setting weight and additive delivery by described handle hole, and it is inner that the water of setting weight to be transported to described mixer by described first input hole by described water pipe; Described cement, foam, sand, additive and water are uniformly mixed by described mixer, after setting-up time, form mud; Described mud is transported in described plate forming groove by described deflector chute, air-dryly solidifies the described energy-conserving plate material of rear formation.

As preferably, the top setting operation platform of support frame as described above, side is connected staircase, and described operating personnel enter on described operating platform by described staircase;

One removable cover is set outside the handle hole of described mixer; The upset of described removable cover realizes opening or closing of described handle hole;

Wherein, described operating personnel stand on described operating platform, by overturning described removable cover, the handle hole of described mixer is opened, the described sand of setting weight and additive delivery is inner to described mixer, then overturn described removable cover to be closed by described handle hole, described mixer carries out stirring work afterwards.

As preferably, described metering foam bucket comprises:

Weighing hopper, described weighing hopper comprises:

Main frame, described main frame top is cylindrical steel structure, and bottom is conical steel construction; The axle center of described main frame arranges movable rotation-shaft; Described movable rotation-shaft can rotate around axle center;

Wire netting, described wire netting is wrapped in the outer surface of described main frame comprehensively; Described wire netting and described main frame are riveted fixing; The aperture of described wire netting is less than the diameter of described foam spheroid;

First fan plate, described first fan plate is vertically arranged on the inside of described weighing hopper; The length of described first fan plate is identical with the height of described cylindrical steel structure, and width is identical with the inside radius of described cylindrical steel structure; End and the described movable rotation-shaft on one long limit of described first fan plate are connected, and described wire netting is close in the end on another long limit; Described first fan plate can around the axis rotation of described main frame;

Second fan plate, described second fan plate is vertically arranged on the inside of described weighing hopper; The measure-alike of plate fanned by described second fan plate and described first; End and the described main frame on one long limit of described second fan plate are connected, and described movable rotation-shaft is close in the end on another long limit;

Fan-shaped attaching parts, a scallop and described first bottom of fanning plate of described fan-shaped attaching parts are connected, and another scallop and the described second bottom of fanning plate are connected; The arc-shaped side of described fan-shaped attaching parts is flexibly connected with the bottom of described cylindrical steel structure;

First pipeline, one end of described first pipeline is communicated with described foam storage silo, and the other end stretches into the inside of described weighing hopper;

Second pipe, one end of described second pipe is communicated with the bottom of described weighing hopper, and the other end is communicated with the second input hole of described mixer;

Wherein, it is inner that the foam in described foam storage silo enters described weighing hopper by described first pipeline, and the described foam of setting weight is transported to the inside of described mixer by described weighing hopper by described second pipe.

As preferably, described energy-conserving plate material production system comprises: two described mixers, two described metering foam buckets, two cover screw delivery pump and conveyance conduits;

Described deflector chute is Y shape deflector chute; Described Y shape deflector chute comprises: two guide entrances and a guide outlet; Described two guide entrances are the corresponding below being arranged on the discharge opening of described two described mixers respectively; Described guide outlet is arranged on the top of described plate forming groove;

Wherein, two described mixers stir the described mud obtained and flow to described Y shape deflector chute respectively by two described guide entrances, then flow into described plate forming groove by the guide outlet of described Y shape deflector chute.

As preferably, one end of described deflector chute is movably connected in the bottom surface of described operating platform by rotating shaft, middle part is bolted on support frame as described above by adjustment; Described adjustment bolt can adjust the angle of inclination in described deflector chute relative level face in setting range.

As preferably, described energy-conserving plate material production system also comprises: dust arrester;

Described dust arrester is fixed on support frame as described above, near the handle hole being arranged on described mixer; Dust absorbing near described handle hole can process by described dust arrester.

As preferably, described energy-conserving plate material production system also comprises: lowering or hoisting gear;

Described lowering or hoisting gear comprises: crossbeam, electric block and the platform that rises and falls;

Described crossbeam is fixed on support frame as described above; Described electric block is arranged on described crossbeam; The cable output end of described electric block is connected with the described platform that rises and falls; Rise and fall described in described electric block promotes or puts down platform, the described sand on ground and additive can be risen to the height of described operating platform.

The energy-conserving plate material production system that the utility model provides is by arranging metering foam bucket, cement tub, mixer, deflector chute and plate forming groove, the foam of setting weight is transported to mixer inside by metering foam bucket, the screw delivery pump be communicated with cement tub is inner to mixer by the cement transportation of setting weight, operating personnel are inner to mixer by the sand of setting weight and additive delivery by handle hole, and the water of setting weight is transported to mixer inside by the first input hole by water pipe.Cement, foam, sand, additive and water are uniformly mixed by mixer, after setting-up time, form mud, and mud is transported in plate forming groove by deflector chute, air-dryly solidify rear formation energy-conserving plate material.This operation system structure is simple, and production efficiency is higher, and energy accurate-metering goes out the consumption of foam, accurately controls the consumption of cement, water, sand and additive simultaneously, makes the parameter index of the energy-conserving plate material produced reach standard-required.

Accompanying drawing explanation

Fig. 1 is the device left view of the energy-conserving plate material production system that the utility model embodiment provides.

Fig. 2 is the device front view of the energy-conserving plate material production system that the utility model embodiment provides.

Fig. 3 is the installation diagram measuring foam bucket and mixer in the energy-conserving plate material production system that provides of the utility model embodiment.

(parts of wherein each label representative are followed successively by: 1 cement tub, 2 screw delivery pumps, 3 conveyance conduits, 4 water pipes, 5 metering foam buckets, 6 removable covers, 7 mixers, 8 operating platforms, 9 deflector chutes, 10 plate forming grooves, 11 bracing frames, 12 staircases, 13 dividing plates, 14 first pipelines, 15 wire nettings, 16 first fan plates, 17 second fan plate, 18 movable rotation-shafts)

Detailed description of the invention

In order to understand the utility model in depth, below in conjunction with drawings and the specific embodiments, the utility model is described in detail.

See accompanying drawing 1 ~ 3, a kind of energy-conserving plate material production system that the utility model provides, comprising: bracing frame 11, mixer 7, metering foam bucket 5, cement tub 1, deflector chute 9 and plate forming groove 10.Ground is fixed on bottom bracing frame 11, as a kind of preferred embodiment, there is the height of 5 meters on the distance from top ground of bracing frame 11, various raw material can be facilitated after mixer 7 mixes to generate mud, mud enters in the deflector chute 9 that is obliquely installed from the discharge opening of mixer 7, then flow into along deflector chute 9 under the effect of deadweight and be positioned at the plate forming groove 10 on ground.Mixer 7 is fixed on the top of bracing frame 11, and for stirring the raw material producing energy-conserving plate material, the top of mixer 7 arranges the first input hole, the second input hole, the 3rd input hole and handle hole, and bottom arranges discharge opening; Mixer 7 inside arranges shaft and paddle, multiple paddle is connected on shaft, and the end of shaft is connected with outside motor output shaft, and motor output shaft drives shaft to rotate, and then drive paddle to rotate, ensure the raw material in mixer 7 fully to mix formation mud.First input hole is communicated with water pipe 4, and water pipe 4 arranges water valve, is the input quantity of setting by the water rate control be transported in mixer 7.

Metering foam bucket 5 is fixed on the top of bracing frame 11, is communicated with the second input hole of mixer 7.See accompanying drawing 3, this metering foam bucket 5 comprises: weighing hopper, the first fan plate 16, second fan plate 17, fan-shaped attaching parts, the first pipeline 14 and second pipe 13.Weighing hopper comprises: main frame, and main frame top is cylindrical steel structure, and bottom is conical steel construction; The small end of conical steel construction down, bottom arranges foam outlet, conical steel construction is conducive to the foam in weighing hopper and moves to the foam outlet of bottom, foam spheroid deadweight effect under at conical steel construction congregate, and constantly extrude to foam outlet, make foam constantly enter second pipe 13, and then enter in mixer 7.The axle center of main frame arranges movable rotation-shaft 18; Movable rotation-shaft 18 can rotate around axle center; Wire netting 15, wire netting 15 is wrapped in the outer surface of main frame comprehensively; Wire netting 15 and main frame are riveted fixing; The aperture of wire netting 15 is less than the diameter of foam spheroid, and such foam spheroid cannot through the mesh of wire netting 15.Wrapping up outside main frame in wire netting 15 1 makes weighing hopper become the container of foam, the operating mode of handled easily personal observations weighing hopper on the other hand, see the consumption of foam in weighing hopper intuitively, when in weighing hopper foam-filled uneven or localized voids is excessive time, operating personnel can take measures foam is fully filled in weighing hopper timely.First fan plate 16 is vertically arranged on the inside of weighing hopper; The length of the first fan plate 16 is identical with the height of cylindrical steel structure, and width is identical with the inside radius of cylindrical steel structure, the convenient volume calculating the compartment.End and the movable rotation-shaft 18 on one long limit of the first fan plate 16 are connected, and wire netting 15 is close in the end on another long limit; First fan plate 16 can around the axis rotation of main frame; First fan plate 16 is when the axis rotation of main frame, and the end on long limit is close to wire netting 15 and is prevented foam spheroid from entering in the compartment.Second fan plate 17 is vertically arranged on the inside of weighing hopper; The measure-alike of plate 16 fanned by second fan plate 17 and first; End and the main frame on one long limit of the second fan plate 17 are connected, and movable rotation-shaft 18 is close in the end on another long limit; Such guarantee foam spheroid cannot enter in the compartment from the gap between the second fan plate 17 and movable rotation-shaft 18.A scallop and first bottom of fanning plate 16 of fan-shaped attaching parts are connected, and another scallop and the second bottom of fanning plate 17 are connected; The arc-shaped side of fan-shaped attaching parts is flexibly connected with the bottom of cylindrical steel structure; The rotation that fan-shaped attaching parts follow the first fan plate 16 realizes launching or drawing in, and then changes the volume of the compartment; Gone out the consumption of foam by the volume accurate-metering controlling the compartment, ensure that sheet forming weight reaches standard-required.One end of first pipeline 14 is communicated with foam storage silo, and the other end stretches into the inside of weighing hopper; Foam spheroid is transported in weighing hopper from foam storage silo by the first pipeline 14.One end of second pipe 13 is connected foam outlet, and the other end is communicated with mixer 7; Foam spheroid is transported in mixer 7 from weighing hopper by second pipe 13.Foam in foam storage silo enters weighing hopper inside by the first pipeline 14, and the foam of setting weight is transported to the inside of mixer 7 by weighing hopper by second pipe 13.

Wherein, fan-shaped attaching parts, the first fan plate 16 and the second fan plate 17 composition compartment jointly; The rotation that fan-shaped attaching parts follow the first fan plate 16 realizes launching or drawing in, and then changes the volume of the compartment; When the first fan plate 16 rotates, the bottom of the compartment is closed all the time, and then the foam that the first pipeline 14 is transported to weighing hopper inside cannot enter the compartment; The volume of the compartment is determined by the volume of the first fan plate 16 and the second angle and cylindrical steel structure fanning plate 17, then determines the capacity of the foam entered in weighing hopper.Therefore, measure foam bucket 5 and the foam of setting weight can accurately be transported to mixer 7 inside.

See accompanying drawing 1, cement tub 1 is communicated with the 3rd input hole of mixer 7 by screw delivery pump 2 and conveyance conduit 3, and cement is equipped with in cement tub 1 inside; Conveyance conduit 3 arranges metering valve, when cement transportation is to closedown metering valve after a certain amount of, ensures that the cement amount being transported to mixer 7 inside reaches setting weight.Deflector chute 9 is inclined at the below of the discharge opening of mixer 7, and deflector chute 9 is fixed with bracing frame 11.Deflector chute 9 is obliquely installed and can ensures to flow down smoothly along deflector chute 9 in mud that mixer 7 discharging opening sends.Plate forming groove 10 is arranged on the below that deflector chute 9 exports, plate forming groove 10 is vertically arranged, top is notch, after mud flows out from deflector chute 9, enter from the notch at plate forming groove 10 top, fill up closely knit whole plate forming groove 10, after plate forming groove 10 is placed one end time, to solidify postforming be energy-conserving plate material to mud through air-dry, and the shape of this energy-conserving plate material is corresponding with plate forming groove 10.

Wherein, it is inner that the foam of setting weight is transported to mixer 7 by metering foam bucket 5, screw delivery pump 2 is inner to mixer 7 by the cement transportation of setting weight, operating personnel are inner to mixer 7 by the sand of setting weight and additive delivery by handle hole, and it is inner that the water of setting weight to be transported to mixer 7 by the first input hole by water pipe 4; Cement, foam, sand, additive and water are uniformly mixed by mixer 7, after setting-up time, form mud; Mud is transported in plate forming groove 10 by deflector chute 9, air-dryly solidifies rear formation energy-conserving plate material.Therefore, this production system, by the consumption of accurate-metering foam, accurately controls the consumption of cement, water, sand and additive simultaneously, makes the parameter index of the energy-conserving plate material produced reach standard-required.

As preferably, the top setting operation platform 8 of bracing frame 11, side is connected staircase 12, and operating personnel enter on operating platform 8 by staircase 12.Arrange a removable cover 6 outside the handle hole of mixer 7, the upset of removable cover 6 realizes opening or closing of handle hole.Wherein, operating personnel stand on operating platform 8, are opened by the handle hole of mixer 7 by upset removable cover 6, by the sand of setting weight and additive delivery to mixer 7 inside, then overturn removable cover 6 by handle hole close, rear stirrer 7 carry out stirring work.Removable cover 6 one aspect can prevent the raw material of mixer 7 inside from overflowing in whipping process, mixer 7 inner space can be isolated from the outside on the other hand, prevent the foreign material in external environment condition or pollutant from entering in mixer 7, the safety of operating personnel can be ensured simultaneously.

As preferably, energy-conserving plate material production system comprises: two mixers, 7, two metering foam buckets 5, two overlap screw delivery pumps 2 and conveyance conduit 3.See accompanying drawing 2, deflector chute 9 is Y shape deflector chute, and Y shape deflector chute comprises: two guide entrances and a guide outlet, and two guide entrance corresponding belows being arranged on the discharge opening of two mixers 7 respectively, guide outlet is arranged on the top of plate forming groove 10.Wherein, two mixers 7 stir the mud obtained and flow to Y shape deflector chute respectively by two guide entrances, then flow into plate forming groove 10 by the guide outlet of Y shape deflector chute.Screw delivery pumps 2 and conveyance conduit 3 is overlapped by two the metering foam buckets 5, two arranging two mixers 7 and corresponding setting, ensure that the continuity of mud pouring plate forming groove 10 operation, greatly reduce the stand-by period, if one of them mixer 7 breaks down simultaneously, another mixer 7 still can be utilized to continue operation, which enhance the utilization rate of equipment, improve the production efficiency of producing line, reduce production cost.

As preferably, one end of deflector chute 9 is movably connected in the bottom surface of operating platform 8 by rotating shaft, middle part is bolted on bracing frame 11 by adjustment, and adjustment bolt can adjust the angle of inclination in deflector chute 9 relative level face in setting range.Make the angle of inclination of deflector chute 9 larger by adjustment bolt, so the flowing velocity of mud in deflector chute 9 is faster, and the activity duration of mud pouring plate forming groove 10 is shorter, and pouring efficiency is higher.But be subject to the restriction of factory building height, the adjustable range of adjustment bolt controls the scope at 0 ~ 30 °, and as a kind of preferred embodiment, deflector chute 9 controls to be 8 ° with the angle of inclination of horizontal plane.

As preferably, energy-conserving plate material production system also comprises: dust arrester; Dust arrester is fixed on bracing frame 11, near the handle hole being arranged on mixer 7; Dust absorbing near handle hole can process by dust arrester.Dust arrester can ensure the air quality near mixer 7, improves the operating environment of operating personnel, guarantees personal safety, and avoids dust pollution air simultaneously.

As preferably, energy-conserving plate material production system also comprises: lowering or hoisting gear; Lowering or hoisting gear comprises: crossbeam, electric block and the platform that rises and falls.Crossbeam is fixed on bracing frame, and electric block is arranged on crossbeam; The cable output end of electric block is connected with the platform that rises and falls, and electric block promotes or puts down the platform that rises and falls, and the sand on ground and additive can be risen to the height of operating platform.Accurately controlled the consumption of sand and additive by operating personnel, ensure the setting consumption into husky and additive.

The energy-conserving plate material production system that the utility model provides is by arranging metering foam bucket 5, cement tub 1, mixer 7, deflector chute 9 and plate forming groove 10, it is inner that the foam of setting weight is transported to mixer 7 by metering foam bucket 5, the screw delivery pump 2 be communicated with cement tub 1 is inner to mixer 7 by the cement transportation of setting weight, operating personnel are inner to mixer 7 by the sand of setting weight and additive delivery by handle hole, and it is inner that the water of setting weight to be transported to mixer 7 by the first input hole by water pipe 4.Cement, foam, sand, additive and water are uniformly mixed by mixer 7, after setting-up time, form mud, and mud is transported in plate forming groove 10 by deflector chute 9, air-dryly solidify rear formation energy-conserving plate material.This operation system structure is simple, and production efficiency is higher, and energy accurate-metering goes out the consumption of foam, accurately controls the consumption of cement, water, sand and additive simultaneously, makes the parameter index of the energy-conserving plate material produced reach standard-required.

Above-described detailed description of the invention; the purpose of this utility model, technical scheme and beneficial effect are further described; be understood that; the foregoing is only detailed description of the invention of the present utility model; be not limited to the utility model; all within spirit of the present utility model and principle, any amendment made, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (7)

1. an energy-conserving plate material production system, is characterized in that, comprising:

Bracing frame, bottom is fixed on ground;

Mixer, is fixed on the top of support frame as described above, for stirring the raw material of described energy-conserving plate material; The top of described mixer arranges the first input hole, the second input hole, the 3rd input hole and handle hole, and bottom arranges discharge opening; Described first input hole and cross current;

Metering foam bucket, is fixed on the top of support frame as described above, is communicated with the second input hole of described mixer;

Cement tub, is communicated with the 3rd input hole of described mixer by screw delivery pump and conveyance conduit; Cement is equipped with in described cement tub inside;

Deflector chute, is inclined at the below of the discharge opening of described mixer; Described deflector chute and support frame as described above are fixed;

Plate forming groove, is arranged on the below of described deflector chute outlet;

Wherein, it is inner that the foam of setting weight is transported to described mixer by described metering foam bucket, described screw delivery pump is inner to described mixer by the described cement transportation of setting weight, described operating personnel are inner to described mixer by the sand of setting weight and additive delivery by described handle hole, and it is inner that the water of setting weight to be transported to described mixer by described first input hole by described water pipe; Described cement, foam, sand, additive and water are uniformly mixed by described mixer, after setting-up time, form mud; Described mud is transported in described plate forming groove by described deflector chute, air-dryly solidifies the described energy-conserving plate material of rear formation.

2. energy-conserving plate material production system according to claim 1, is characterized in that:

The top setting operation platform of support frame as described above, side is connected staircase, and described operating personnel enter on described operating platform by described staircase;

One removable cover is set outside the handle hole of described mixer; The upset of described removable cover realizes opening or closing of described handle hole;

Wherein, described operating personnel stand on described operating platform, by overturning described removable cover, the handle hole of described mixer is opened, the described sand of setting weight and additive delivery is inner to described mixer, then overturn described removable cover to be closed by described handle hole, described mixer carries out stirring work afterwards.

3. energy-conserving plate material production system according to claim 1, is characterized in that, described metering foam bucket comprises:

Weighing hopper, described weighing hopper comprises:

Main frame, described main frame top is cylindrical steel structure, and bottom is conical steel construction; The axle center of described main frame arranges movable rotation-shaft; Described movable rotation-shaft can rotate around axle center;

Wire netting, described wire netting is wrapped in the outer surface of described main frame comprehensively; Described wire netting and described main frame are riveted fixing; The aperture of described wire netting is less than the diameter of described foam spheroid;

First fan plate, described first fan plate is vertically arranged on the inside of described weighing hopper; The length of described first fan plate is identical with the height of described cylindrical steel structure, and width is identical with the inside radius of described cylindrical steel structure; End and the described movable rotation-shaft on one long limit of described first fan plate are connected, and described wire netting is close in the end on another long limit; Described first fan plate can around the axis rotation of described main frame;

Second fan plate, described second fan plate is vertically arranged on the inside of described weighing hopper; The measure-alike of plate fanned by described second fan plate and described first; End and the described main frame on one long limit of described second fan plate are connected, and described movable rotation-shaft is close in the end on another long limit;

Fan-shaped attaching parts, a scallop and described first bottom of fanning plate of described fan-shaped attaching parts are connected, and another scallop and the described second bottom of fanning plate are connected; The arc-shaped side of described fan-shaped attaching parts is flexibly connected with the bottom of described cylindrical steel structure;

First pipeline, one end of described first pipeline is communicated with described foam storage silo, and the other end stretches into the inside of described weighing hopper;

Second pipe, one end of described second pipe is communicated with the bottom of described weighing hopper, and the other end is communicated with the second input hole of described mixer;

Wherein, it is inner that the foam in described foam storage silo enters described weighing hopper by described first pipeline, and the described foam of setting weight is transported to the inside of described mixer by described weighing hopper by described second pipe.

4. energy-conserving plate material production system according to claim 1, is characterized in that:

Described energy-conserving plate material production system comprises: two described mixers, two described metering foam buckets, two cover screw delivery pump and conveyance conduits;

Described deflector chute is Y shape deflector chute; Described Y shape deflector chute comprises: two guide entrances and a guide outlet; Described two guide entrances are the corresponding below being arranged on the discharge opening of described two described mixers respectively; Described guide outlet is arranged on the top of described plate forming groove;

Wherein, two described mixers stir the described mud obtained and flow to described Y shape deflector chute respectively by two described guide entrances, then flow into described plate forming groove by the guide outlet of described Y shape deflector chute.

5. energy-conserving plate material production system according to claim 1, is characterized in that:

One end of described deflector chute is movably connected in the bottom surface of described operating platform by rotating shaft, middle part is bolted on support frame as described above by adjustment; Described adjustment bolt can adjust the angle of inclination in described deflector chute relative level face in setting range.

6. energy-conserving plate material production system according to claim 1, is characterized in that:

Described energy-conserving plate material production system also comprises: dust arrester;

Described dust arrester is fixed on support frame as described above, near the handle hole being arranged on described mixer; Dust absorbing near described handle hole can process by described dust arrester.

7. energy-conserving plate material production system according to claim 1, is characterized in that:

Described energy-conserving plate material production system also comprises: lowering or hoisting gear;

Described lowering or hoisting gear comprises: crossbeam, electric block and the platform that rises and falls;

Described crossbeam is fixed on support frame as described above; Described electric block is arranged on described crossbeam; The cable output end of described electric block is connected with the described platform that rises and falls; Rise and fall described in described electric block promotes or puts down platform, the described sand on ground and additive can be risen to the height of described operating platform.