CN201807447U - Separation equipment for water of material with light weight and heavy weight - Google Patents

Abstract

The utility model discloses separation equipment for the water of materials with light weight and heavy weight, which belongs to separation equipment. The utility model has the structure that the separation equipment for the water of the materials with light weight and heavy weight comprises a rotating system, a feeding system, a heavy material outlet, a circulating water system and a power system, wherein the power system is connected with the rotating system, one end of the rotating system is provided with the heavy material outlet, the other end of the rotating system is provided with the feeding system and the circulating water system, and the rotating system, the feeding system, the heavy material outlet, the circulating water system and the power system are respectively arranged on a chassis. Compared with the prior art, the separation equipment for the water of the materials with light weight and heavy weight not only can enhance the separation efficiency of the materials with light weight and heavy weight but also has the characteristics of protecting the environment, saving energy and the like. Therefore, the utility model has very good popularization and application value.

Description

The weight material moisture is from equipment

Technical field

The utility model relates to a kind of separation equipment, and especially a kind of weight material moisture of building castoff that is used for is from equipment.

Background technology

At present, building castoff is handled has become one of important step of city management, in construction, maintenance and the demolishing process of building, unavoidably can produce various building castoffs.Building castoff greater than water density comprises waste concrete piece, mortar, brickbat slag, metal etc., comprises timber, finishing material, packaging material etc. less than the building castoff of water density.At the material structure of building castoff, utilize it as regrown material, be a kind of effective means that building castoff is recycled.But in existing building castoff treatment system, separation method is mainly the vibration separation to be separated with sieving, and also exists sizable manual sorting, and not only separating effect does not satisfy needs, and abominable manual work environment has a strong impact on health.The resource recycling of building castoff will be occupied critical role in the china natural resources recycling economy development, in order economically, efficiently, environmental protection to handle building castoff, promoting China's building castoff resource industry goes on benign cycle, goes on scale, key is technological innovation, develop the building castoff regenerative use technology of high added value, quicken building castoff separation equipment research and development process.At present, good solution is not also arranged.

The utility model content

Technical assignment of the present utility model is to provide a kind of weight material moisture from equipment at above-mentioned deficiency of the prior art, and this weight material moisture not only can improve the efficiency of separation of weight material from equipment, and has the characteristics of environmental protection and energy saving.

The technical scheme that its technical problem that solves the utility model adopts is: it comprises that rotary system, feed system, heavy material export, circulating water is unified dynamical system, described dynamical system links to each other with rotary system, one end of described rotary system is provided with the heavy material outlet, the other end is provided with feed system and circulation, and described rotary system, feed system, heavy material export, circulating water is unified, and dynamical system is separately positioned on the chassis.

Described rotary system comprises cylinder, conical outlet, spiral and lifting device, described conical outlet is arranged on the right side of cylinder, described conical outlet is that filter screen rolls and forms, described spiral is arranged in the cylinder, the both ends of described cylinder are provided with left cone and right cone respectively, and described lifting device is arranged on the right side of left cone.

Described lifting device comprises leading portion, stage casing and back segment, and described leading portion becomes 120 ° of layouts with the stage casing, and described back segment and stage casing are arranged vertically.

Described leading portion and middle section surface have circular hole.

Described feed system comprises feed hopper and belt feeder, and described feed hopper is arranged on the top of belt feeder one end, and the other end of described belt feeder extend in the cylinder, and described feed hopper is positioned at the right side of conical outlet; Described circulation comprises aqueduct, water injection pipe, water receiving tank and outlet pipe, one end of described water injection pipe links to each other with aqueduct, the other end extend in the cylinder, described water receiving tank is arranged on the bottom of conical outlet, described outlet pipe is arranged on the water receiving tank, and described water receiving tank is supported and fixed on the chassis by water receiving tank; Described feed hopper, belt feeder, aqueduct and water injection pipe are overall structure, are fixed on the chassis by support.

Described heavy material outlet comprises receiving hopper and conduit, and described conduit is arranged on the bottom of receiving hopper, and stretches out outside the cylinder, and described receiving hopper is arranged in the cylinder, corresponding setting with lifting device.

Gradient between described conduit and the receiving hopper is 30-60 °.

Described Power Drive Unit comprises driving wheel, driven pulley and locating wheel, described driving wheel and driven pulley are separately positioned on the both sides, front and back of cylinder, described locating wheel is separately positioned on the left and right sides of cylinder, described locating wheel supports by locating wheel and links to each other with the chassis, and described driving wheel supports with driven pulley by the driving wheel support respectively with driven pulley and links to each other with the chassis.

The gradient of described conical outlet is 30-60 °.

Weight material moisture of the present utility model is compared with prior art from equipment, has following outstanding beneficial effect: the dynamical system that driving wheel, driven pulley and locating wheel are formed can make cylinder effectively locate stable drive in vertical and horizontal direction; Lifting device is made up of leading portion, stage casing and back segment, leading portion becomes reasonable angle to connect with the stage casing, form the room for promotion of nature, and leading portion and middle section surface have circular hole, can not only be at the moisture in the filtering room for promotion in lifting process, and improve the useful space rate of described lifting device; Water receiving tank can effectively be collected sewage, realizes the recycling of water body; Conduit all becomes 30-60 ° of layout with conical outlet, and light, heavy material is freely fallen under the self gravitation effect, has improved the efficiency of separation of weight material, environmental protection and energy saving.

Description of drawings

Accompanying drawing 1 is the main TV structure schematic diagram of weight material moisture from equipment;

Accompanying drawing 2 is sectional structure schematic diagrames of the rotary system shown in Fig. 1, feed system and circulation;

Accompanying drawing 3 is weight material moisture left TV structure schematic diagrames from equipment;

Accompanying drawing 4 is weight material moisture right TV structure schematic diagrames from equipment;

Accompanying drawing 5 is the cutaway views along the A-A direction among Fig. 1;

Accompanying drawing 6 is amplification stereograms of the single lifting device shown in Fig. 5;

Description of reference numerals: 1, cylinder, 2, right cone, 3, conical outlet, 4, feed hopper, 5, water injection pipe, 6, belt feeder, 7, receiving hopper, 8, left cone, 9, conduit, 10, water receiving tank, 11, support, 12, outlet pipe, 13, locating wheel, 14, filter screen, 15, the chassis, 16, aqueduct, 17, driving wheel, 18, driven pulley, 19, driving wheel supports, and 20, driven pulley supports, 21, locating wheel supports, 22, water receiving tank supports, and 23, lifting device, 24, spiral, 25, leading portion, 26, stage casing, 27, back segment, 28, circular hole.

The specific embodiment

Explain below equipment is done with reference to Figure of description 1 to 6 pairs of weight material moistures of the present utility model of accompanying drawing.

Weight material moisture of the present utility model is from equipment, its structure comprises that rotary system, feed system, heavy material export, circulating water is unified dynamical system, described dynamical system links to each other with rotary system, one end of described rotary system is provided with the heavy material outlet, the other end is provided with feed system and circulation, and described rotary system, feed system, heavy material export, circulating water is unified, and dynamical system is separately positioned on the chassis 15.

Described rotary system comprises cylinder 1, conical outlet 3, spiral 24 and lifting device 23, described conical outlet 3 is arranged on the right side of cylinder 1, described conical outlet 3 forms for filter screen 14 rolls, described spiral 24 is arranged in the cylinder 1, the both ends of described cylinder 1 are provided with left cone 8 and right cone 2 respectively, and described lifting device 23 is arranged on the right side of left cone 8.

Described lifting device 23 comprises leading portion 25, stage casing 26 and back segment 27, and 26 one-tenth 120 ° of layouts of described leading portion 25 and stage casing form room for promotion, and described back segment 27 is arranged vertically with stage casing 26, plays booster action.

Described leading portion 25 and 26 surfaces, stage casing have circular hole 28.Circular hole is the moisture in the filtering room for promotion in lifting process, increases effectively to utilize the space.

Described feed system comprises feed hopper 4 and belt feeder 6, and described feed hopper 4 is arranged on the top of belt feeder 6 one ends, and the other end of described belt feeder 6 extend in the cylinder 1, and described feed hopper 4 is positioned at the right side of conical outlet 3; Described circulation comprises aqueduct 16, water injection pipe 5, water receiving tank 10 and outlet pipe 12, one end of described water injection pipe 5 links to each other with aqueduct 16, the other end extend in the cylinder 1, described water receiving tank 10 is arranged on the bottom of conical outlet 3, described outlet pipe 12 is arranged on the water receiving tank 10, and described water receiving tank 10 supports 22 by water receiving tank and is fixed on the chassis 15; Described feed hopper 4, belt feeder 6, aqueduct 16 and water injection pipe 5 are overall structure, are fixed on the chassis 15 by support 11.

Described heavy material outlet comprises receiving hopper 7 and conduit 9, and described conduit 9 is arranged on the bottom of receiving hopper 7, and stretches out outside the cylinder 1, and described receiving hopper 7 is arranged in the cylinder 1, with lifting device 23 corresponding settings.

Gradient between described conduit 9 and the receiving hopper 7 is 30-60 °.

Described Power Drive Unit comprises driving wheel 17, driven pulley 18 and locating wheel 13, described driving wheel 17 and driven pulley 18 are separately positioned on the both sides, front and back of cylinder 1, cylinder 1 is located in vertical direction, described locating wheel 13 is separately positioned on the left and right sides of cylinder 1, cylinder 1 is carried out the horizontal direction location, described locating wheel 13 supports 21 by locating wheel and links to each other with chassis 15, described driving wheel 17 and driven pulley 18 respectively by driving wheel support 19 and driven pulley support 20 link to each other with chassis 15.

The gradient of described conical outlet 3 is 30-60 °.

After described water injection pipe 5 is introduced water by aqueduct 16, stretch into continuous water filling formation current in the described cylinder 1.Material is dropped on belt feeder 6 one ends by feed hopper 4, and belt feeder 6 is conveyed into cylinder 1 with material, freely falls into current from the described belt feeder other end again, and light material is bubbled through the water column, and heavy material sinks to cylinder 1 bottom.Light material is flowed out by conical outlet 3 under the effect of current, and water falls into water receiving tank 10 by filter screen 14, flows out by the outlet pipe on the water receiving tank 10 12 again.Heavy material is pushed in the lifting device 23 with the spiral 24 in the cylinder 1, rotates to the upper end with cylinder 1 again, freely falls into receiving hopper 7, is gone out by conduit 9 landings.

Except that the described technical characterictic of specification, be the known technology of those skilled in the art.

Claims (9)

1. the weight material moisture is from equipment, it is characterized in that: comprise that rotary system, feed system, heavy material export, circulating water is unified dynamical system, described dynamical system links to each other with rotary system, one end of described rotary system is provided with the heavy material outlet, the other end is provided with feed system and circulation, and described rotary system, feed system, heavy material export, circulating water is unified, and dynamical system is separately positioned on the chassis.

2. weight material moisture according to claim 1 is from equipment, it is characterized in that: described rotary system comprises cylinder, conical outlet, spiral and lifting device, described conical outlet is arranged on the right side of cylinder, described conical outlet is that filter screen rolls and forms, described spiral is arranged in the cylinder, the both ends of described cylinder are provided with left cone and right cone respectively, and described lifting device is arranged on the right side of left cone.

3. weight material moisture according to claim 2 is characterized in that from equipment: described lifting device comprises leading portion, stage casing and back segment, and described leading portion becomes 120 ° of layouts with the stage casing, and described back segment and stage casing are arranged vertically.

4. weight material moisture according to claim 3 is characterized in that from equipment: described leading portion and middle section surface have circular hole.

5. weight material moisture according to claim 2 is from equipment, it is characterized in that: described feed system comprises feed hopper and belt feeder, described feed hopper is arranged on the top of belt feeder one end, the other end of described belt feeder extend in the cylinder, and described feed hopper is positioned at the right side of conical outlet; Described circulation comprises aqueduct, water injection pipe, water receiving tank and outlet pipe, one end of described water injection pipe links to each other with aqueduct, the other end extend in the cylinder, described water receiving tank is arranged on the bottom of conical outlet, described outlet pipe is arranged on the water receiving tank, and described water receiving tank is supported and fixed on the chassis by water receiving tank; Described feed hopper, belt feeder, aqueduct and water injection pipe are overall structure, are fixed on the chassis by support.

6. weight material moisture according to claim 2 is from equipment, it is characterized in that: described heavy material outlet comprises receiving hopper and conduit, and described conduit is arranged on the bottom of receiving hopper, and stretches out outside the cylinder, described receiving hopper is arranged in the cylinder, corresponding setting with lifting device.

7. weight material moisture according to claim 6 is characterized in that from equipment: the gradient between described conduit and the receiving hopper is 30-60 °.

8. weight material moisture according to claim 2 is from equipment, it is characterized in that: described Power Drive Unit comprises driving wheel, driven pulley and locating wheel, described driving wheel and driven pulley are separately positioned on the both sides, front and back of cylinder, described locating wheel is separately positioned on the left and right sides of cylinder, described locating wheel supports by locating wheel and links to each other with the chassis, and described driving wheel supports with driven pulley by the driving wheel support respectively with driven pulley and links to each other with the chassis.

9. weight material moisture according to claim 2 is characterized in that from equipment: the gradient of described conical outlet is 30-60 °.

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