CN205343446U - High -efficient building thick liquids agitator - Google Patents

Abstract

The utility model discloses a high -efficient building thick liquids agitator, including stirring barrel body, stirring barrel body's top is provided with driving motor, driving motor's output is connected with the stirring pivot, the other end of stirring pivot is provided with the external screw thread, be provided with two stirring vane on the lateral wall of stirring pivot, stirring barrel body's top still is provided with the thick liquids inlet pipe, stirring barrel body's bottom is provided with out the hopper, hopper is down connected through the mechanism that turns in the below that goes out the hopper, the hopper communicates with each other with ejection of compact tubule down, still be provided with temperature sensor on stirring barrel body's the upper portion inside wall. The utility model discloses powder and thick liquids can preblend when the ejection of compact to carry out the secondary and stir the bits of broken glass under the effect of stirring the cutting edge, no matter which direction all around of fighting is being prepared burden to the tank car simultaneously, it can carry out the receipt of thick liquids all to need not to move the automobile body, through temperature sensor ability real -time supervision stirring barrel body's inside temperature.

Description

One efficiently builds slurry mixer

Technical field

This utility model relates to construction machinery equipment correlative technology field, and specifically one efficiently builds slurry mixer.

Background technology

Development along with modern architecture industry, the raw materials such as many Plant fiber have been applied to building materials field, in these building materials due to add substantial amounts of fiber substance make between new material proportion difference bigger, and traditional pulp blender can not carry out omnibearing stirring, and then cause that the stock quality produced is poor, it is unable to reach satisfied effect, and traditional pulp blender is generally mostly is single fixing discharge nozzle structure, transport vehicle is in order to coordinate discharge nozzle, car body must be moved and just can carry out splicing, substantially prolongs the working time, additionally, the feed arrangement of traditional pulp blender is divided into two independent charging apertures, this structural charge mode, considerably increase mix and blend difficulty, have a strong impact on the slurry quality after stirring, the requirement that modern architecture machinery is higher can not be met.

Utility model content

The purpose of this utility model is in that to provide one efficiently to build slurry mixer, with the problem solving to propose in above-mentioned background technology.

For achieving the above object, this utility model provides following technical scheme:

One efficiently builds slurry mixer, including stirring cylinder, described stirring cylinder be provided above drive motor, the outfan of described drive motor is connected to stirring shaft, the other end of described stirring shaft is provided with external screw thread, the lateral wall of described stirring shaft is provided with two stirring vanes, the middle part of each stirring vane all offers the screwed hole for threadeding with stirring shaft, described external screw thread is additionally provided with limited block near one end of drive motor, described stirring vane includes stirring main lobe and stirring accessory lobes, stirring main lobe is arranged on the end of stirring shaft, stirring accessory lobes are arranged on the position between stirring main lobe and limited block, one end of described stirring vane is further opened with logical slurry hole, described logical slurry hole be internally provided with stirring blade, the top of described stirring cylinder is additionally provided with slurry feed pipe, described slurry feed pipe be internally provided with powder feed pipe, described powder feed pipe is set to straight tube, described slurry feed pipe is set to bend pipe, the bottom of described stirring cylinder is provided with discharge bucket, the mechanism that turns that passes under of described discharge bucket connects hopper, described hopper communicates with discharging tubule, the described mechanism that turns includes inner ring of turning, turn outer ring, turn scroll box and turn retainer, described inner ring of turning is fixedly connected on the lower end outside of discharge bucket, the end of described hopper is fixedly connected on the outside of outer ring of turning, scroll box of turning is evenly arranged in turn inner ring and the position of turning between outer ring, described discharging tubule is provided with four and is evenly distributed on the surrounding of hopper, the upper inner wall of described stirring cylinder is additionally provided with temperature sensor, the outer wall of described stirring cylinder is correspondingly arranged on LCDs.

As further program of the utility model: described stirring vane is crescent structure, two stirring vanes are arranged in dislocation on stirring shaft.

As this utility model further scheme: the opening of described powder feed pipe and slurry feed pipe is arranged concentrically.

As this utility model further scheme: the mouth of pipe place, lower end of described discharging tubule is provided with sealing lid.

As this utility model further scheme: described temperature sensor electrically connects with LCDs.

Compared with prior art, the beneficial effects of the utility model are: this utility model can realize charging while of slurry and powder, and both are independent of each other, and during discharging, powder and slurry can carry out premixing, effectively prevent the powder suspension generation in the situation of slip upper surface, improve stirring quality；And drive motor can stir the slurry of the thick rare degree of multiple difference by regulating, and meets various process requirements, and the middle part of each stirring vane all offers the screwed hole for threadeding with stirring shaft, not only easy for installation, and position is adjustable；In whipping process, slurry is by logical slurry hole, and the setting of two stirring vanes can ensure that the slurry of differing heights can obtain stirring mixing, carries out secondary and blends, further increase the mixing effect of slurry under the effect of stirring blade；Meanwhile, adopt the mechanism that turns, discharging tubule can be made to rotate in the horizontal plane, no matter tank car is in which direction of batch hopper surrounding, all can carry out the reception of slurry without moving car body；Discharging tubule is provided with four and is evenly distributed on the surrounding of hopper, it is ensured that discharging has at least two discharging tubules to work simultaneously every time, substantially increases splicing efficiency；It addition, achieve, by installing LCDs and temperature sensor, the internal temperature monitoring stirring cylinder in real time, carrying out temperature adjustment by manually adding water, further increase the mixed effect of building slurry, the slurry quality after stirring is more excellent.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of efficient building slurry mixer.

Fig. 2 is the structural representation of a kind of efficient building slurry mixer transfer body mechanism.

In figure: 1-stirring cylinder, 2-powder feed pipe, 3-slurry feed pipe, 4-drive motor, 5-stirring shaft, 6-external screw thread, 7-limited block, 8-stirring vane, 9-stir main lobe, 10-stirs accessory lobes, 11-logical slurry hole, 12-stir blade, 13-screwed hole, 14-temperature sensor, 15-LCDs, 16-turn mechanism, 17-hopper, 18-discharging tubule, 19-seals lid, 20-turns inner ring, 21-turns outer ring, 22-turns scroll box, 23-turns retainer.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model, rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this utility model protection.

Refer to Fig. 1-2, in this utility model embodiment, one efficiently builds slurry mixer, including stirring cylinder 1, described stirring cylinder 1 be provided above drive motor 4, drive motor 4 can stir the slurry of the thick rare degree of multiple difference by regulating, meet various process requirements, the outfan of described drive motor 4 is connected to stirring shaft 5, the other end of described stirring shaft 5 is provided with external screw thread 6, the lateral wall of described stirring shaft 5 is provided with two stirring vanes 8, described stirring vane 8 is in crescent structure, two stirring vanes 8 are arranged in dislocation on stirring shaft 5, the middle part of each stirring vane 8 all offers the screwed hole 13 for threadeding with stirring shaft 5, not only easy for installation, and position is adjustable, very convenient；Described external screw thread 6 is additionally provided with limited block 7 near one end of drive motor 4；Described stirring vane 8 includes stirring main lobe 9 and stirring accessory lobes 10, and stirring main lobe 9 is arranged on the end of stirring shaft 5, and stirring accessory lobes 10 are arranged on the position between stirring main lobe 9 and limited block 7；One end of described stirring vane 8 is further opened with logical slurry hole 11, blade 12 is stirred in being internally provided with of described logical slurry hole 11, in whipping process, slurry is by logical slurry hole 11, the setting of two stirring vanes 8 can ensure that the slurry of differing heights can obtain stirring mixing, under the effect of stirring blade 12, carry out secondary blend, further increase the mixing effect of slurry；The top of described stirring cylinder 1 is additionally provided with slurry feed pipe 3, described slurry feed pipe 3 be internally provided with powder feed pipe 2, described powder feed pipe 2 is set to straight tube, described slurry feed pipe 3 is set to bend pipe, the opening of described powder feed pipe 2 and slurry feed pipe 3 is arranged concentrically, adopt said structure, charging while slurry and powder can be realized, both are independent of each other, during discharging, powder and slurry can carry out premixing, effectively prevent the powder suspension generation in the situation of slip upper surface, improve stirring quality.

The bottom of described stirring cylinder 1 is provided with discharge bucket, the mechanism 16 that turns that passes under of described discharge bucket connects hopper 17, described hopper 17 communicates with discharging tubule 18, the described mechanism 16 that turns includes inner ring 20 of turning, turn outer ring 21, turn scroll box 22 and turn retainer 23, described inner ring 20 of turning is fixedly connected on the lower end outside of discharge bucket, the end of described hopper 17 is fixedly connected on the outside of outer ring 21 of turning, scroll box 22 of turning is evenly arranged in turn inner ring 20 and the position turned between outer ring 21 by means of retainer 23 of turning, retainer 23 of the turning scroll box 22 that can prevent from turning comes off, guiding retainer 23 of turning has rotated lubrication, employing is turned mechanism 16, discharging tubule 18 can be made to rotate in the horizontal plane, no matter tank car is in which direction of batch hopper surrounding, the reception of slurry all can be carried out without moving car body；The mouth of pipe place, lower end of described discharging tubule 18 is provided with sealing lid 19, and described discharging tubule 18 is provided with four and is evenly distributed on the surrounding of hopper 17, it is ensured that discharging has at least two discharging tubules 18 to work simultaneously every time, substantially increases splicing efficiency；The upper inner wall of described stirring cylinder 1 is additionally provided with temperature sensor 14, the outer wall of described stirring cylinder 1 is correspondingly arranged on LCDs 15, temperature sensor 14 electrically connects with LCDs 15, the internal temperature monitoring stirring cylinder 1 in real time is achieved by installing LCDs 15 and temperature sensor 14, by the adjustment carrying out temperature that manually adds water, further increasing the mixed effect of building slurry, the slurry quality after stirring is more excellent.

It is obvious to a person skilled in the art that this utility model is not limited to the details of above-mentioned one exemplary embodiment, and when without departing substantially from spirit of the present utility model or basic feature, it is possible to realize this utility model in other specific forms.Therefore, no matter from which point, embodiment all should be regarded as exemplary, and be nonrestrictive, scope of the present utility model is limited by claims rather than described above, it is intended that all changes in the implication of the equivalency dropping on claim and scope included in this utility model.Any accompanying drawing labelling in claim should be considered as the claim that restriction is involved.

In addition, it is to be understood that, although this specification is been described by according to embodiment, but not each embodiment only comprises an independent technical scheme, this narrating mode of description is only for clarity sake, description should be made as a whole by those skilled in the art, and the technical scheme in each embodiment through appropriately combined, can also form other embodiments that it will be appreciated by those skilled in the art that.

Claims (5)

1. an efficient building slurry mixer, including stirring cylinder (1), it is characterized in that, described stirring cylinder (1) be provided above drive motor (4), the outfan of described drive motor (4) is connected to stirring shaft (5), the other end of described stirring shaft (5) is provided with external screw thread (6), the lateral wall of described stirring shaft (5) is provided with two stirring vanes (8), the middle part of each stirring vane (8) all offers the screwed hole (13) for threadeding with stirring shaft (5), described external screw thread (6) is additionally provided with limited block (7) near one end of drive motor (4), described stirring vane (8) includes stirring main lobe (9) and stirring accessory lobes (10), stirring main lobe (9) is arranged on the end of stirring shaft (5), stirring accessory lobes (10) is arranged on the position between stirring main lobe (9) and limited block (7), one end of described stirring vane (8) is further opened with logical slurry hole (11), blade (12) is stirred in being internally provided with of described logical slurry hole (11), the top of described stirring cylinder (1) is additionally provided with slurry feed pipe (3), described slurry feed pipe (3) be internally provided with powder feed pipe (2), described powder feed pipe (2) is set to straight tube, described slurry feed pipe (3) is set to bend pipe, the bottom of described stirring cylinder (1) is provided with discharge bucket, the mechanism that turns (16) that passes under of described discharge bucket connects hopper (17), described hopper (17) communicates with discharging tubule (18), the described mechanism that turns (16) includes inner ring (20) of turning, turn outer ring (21), turn scroll box (22) and retainer of turning (23), described inner ring of turning (20) is fixedly connected on the lower end outside of discharge bucket, the end of described hopper (17) is fixedly connected on the outside of outer ring of turning (21), the position that scroll box (22) of turning is evenly arranged between inner ring of turning (20) and outer ring of turning (21), described discharging tubule (18) is provided with four and is evenly distributed on the surrounding of hopper (17), the upper inner wall of described stirring cylinder (1) is additionally provided with temperature sensor (14), the outer wall of described stirring cylinder (1) is correspondingly arranged on LCDs (15).

2. one according to claim 1 efficiently builds slurry mixer, it is characterised in that described stirring vane (8) is in crescent structure, and two stirring vanes (8) are upper in dislocation layout at stirring shaft (5).

3. one according to claim 1 efficiently builds slurry mixer, it is characterised in that the opening of described powder feed pipe (2) and slurry feed pipe (3) is arranged concentrically.

4. one according to claim 1 efficiently builds slurry mixer, it is characterised in that the mouth of pipe place, lower end of described discharging tubule (18) is provided with sealing lid (19).

5. one according to claim 1 efficiently builds slurry mixer, it is characterised in that described temperature sensor (14) electrically connects with LCDs (15).